CN202252205U - High-precision linear liquid flow regulating valve - Google Patents
High-precision linear liquid flow regulating valve Download PDFInfo
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- CN202252205U CN202252205U CN2011202477642U CN201120247764U CN202252205U CN 202252205 U CN202252205 U CN 202252205U CN 2011202477642 U CN2011202477642 U CN 2011202477642U CN 201120247764 U CN201120247764 U CN 201120247764U CN 202252205 U CN202252205 U CN 202252205U
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- valve
- spool
- piston
- chamber
- spring
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Abstract
The utility model provides a high-precision linear liquid flow regulating valve, and aims to solve the problem that oil discharge amount is fluctuated because downstream pressure is often fluctuated in an occasion of using the regulating valve. The key point is that: the high-precision linear liquid flow regulating valve comprises a metering valve and an equal-pressure-difference valve which are integrated on a valve body, wherein the equal-pressure-difference valve comprises a piston; an oil cavity on one side of the piston is communicated with a valve core rear channel of the metering valve, and the other side of the piston is arranged on a channel between a valve core front channel of the metering valve and an oil return port of the valve. The high-precision linear liquid flow regulating valve has the advantages that: the flow and an angular travel of a valve core are in a linear relation which is irrelevant to the pressure of the outlet of the valve and can meet a requirement of the regulating valve; furthermore, the regulation of the flow has an effect of increasing slowly and decreasing quickly, so that the safety of power equipment is guaranteed.
Description
Technical field
The utility model relates to the liquid fuel flow control valve that uses on a kind of transfer line, is the linear fluid flow modulating valve of a kind of highi degree of accuracy specifically.
Background technique
Use a kind of liquid fuel to regulate (metering) valve at present on the high power engines such as state's internal-combustion gas turbine engine, internal-combustion engine; The basic demand of this modulating valve is; No matter how downstream pressure fluctuates; The oil pump capacity of valve should be controlled, saidly controlledly is meant that the oil pump capacity of valve and the angle of swing of spool should be linear relationships.In the use occasion of above-mentioned modulating valve, downstream pressure is often fluctuation, causes the oil pump capacity fluctuation, and is uncontrollable.Present homemade liquid fuel modulating valve ubiquity the problems referred to above, regulating ratio is little, poor reliability.
Summary of the invention
For solving the problems of the technologies described above, the purpose of the utility model is to provide a kind of highi degree of accuracy linear fluid flow modulating valve.
The purpose of the utility model is achieved in that it has the metering valve of bivalve seat, and has abandoned the structure of needle type valve, it is characterized in that: it also has valve such as pressure reduction such as grade, and metering valve is integrated on the valve body with valve such as pressure reduction such as grade; Comprise piston at the pressure reduction valve, channel connection behind the oil pocket of piston one side and the metering valve spool, the opposite side of piston is on the passage between spool prepass and the valve return opening.The move left and right of the pressure difference driven plunger of piston both sides changes the size of return opening, and then changes (metering valve) upstream pressure, realizes that the difference of valve inlet pressure and valve export pressure is a steady state value.
Description of drawings
Further specify the utility model below in conjunction with accompanying drawing.
Fig. 1 is the structural representation of the utility model.
Fig. 2 is the A-A sectional view of Fig. 1, and this figure only keeps spool and seal ring, and other omits.
Fig. 3 is that the Y of Fig. 1 is to view.
Embodiment
Referring to Fig. 1, said metering valve is, spool 5 is set on the passage of valve body 9, two valve seats are seal ring 8 and two springs 7, and spool is horizontal drum, and the drum mouth is towards valve export 34, and promptly the drum inner chamber becomes the part of passage P2 behind the spool; The rotating shaft 5-1 that fixedly has spline in the basolateral center of circle of drum, with the bearing 4 interior interplanting drive fits on the valve body, stretch out outside the valve body rotating shaft 5-1 outer end that has spline; Cooperate with drive unit such as speed reducer; Transmit the moment of torsion that supplies the spool rotation, pointer 1,3rd, bearing cap are installed in rotating shaft; Can the calibration dish on it, cooperate the angle of swing that is used for indicating spool with pointer; On the drum sidewall, open two valve port 5-2, these two valve ports are symmetrical distribution in drum rotating shaft both sides, each valve port rectangle that is as the criterion, and said accurate rectangle is meant that the two ends of valve port are the circular arc line (referring to Fig. 2) of same curvature and length; In the outside of each valve port (drum outside just) seal ring is arranged respectively, two springs 7 are separately positioned between seal ring and the sealing cover 6, between seal ring and the sealing cover 10, seal ring is pressed on the spool drum outside reliably; Spool prepass P1 is divided into two subchannels before seal ring, lead to two seal rings up and down respectively.Fuel oil is gone into from valve inlet 30, passes through passage P1, seal ring, valve port, passage P2 successively to valve export 34.When rotating shaft was rotated, seal ring was static, and the area of valve port in seal ring regulated flow along with the angle of rotation stroke of spool is linear change.
The fluid flow formula of modulating valve of flowing through is F=KA (Δ P)
1/2, K is a flow coefficient in the formula, and A is the area of valve port, and Δ P=P1-P2 represents the pressure reduction of the forward and backward passage of spool.If Δ P is a steady state value, then F and A are linear, and further, the angle stroke of F and spool 5 is linear, with the valve export pressure independent.
In the actual use of modulating valve, passage is that the pressure of valve export is often fluctuation behind the spool.For guaranteeing that Δ P is a steady state value, the utility model has also designed and has waited the pressure reduction valve, waits pressure reduction valve and metering valve to be integrated on the valve body 9.The size of regulating return opening according to the variation of valve export pressure P 2 Deng the pressure reduction valve, and then change P1, to keep Δ P constant.
Form by the differential pressure controller and the valve of control return opening size at the pressure reduction valve;
Differential pressure controller is; Pressure reduction adjusting screw 21, spring 22, piston 20, bead 11, spring seat 12, spring 14 and spring cup 13 set gradually; Piston 20 is arranged between spool ante-chamber P1 and the spool back cavity P2, presses in the Pm of chamber during bead 11, spring seat 12 and spring 14 are arranged on; The spool ante-chamber is communicated with spool prepass P1; Passage P2 is communicated with behind spool back cavity and the spool, and the side that piston 20 is positioned at the spool ante-chamber is spill spring seat 12, and the spring 22 in the spool ante-chamber is arranged between pressure reduction adjusting screw and the piston spring seat 12; The side that piston 20 is positioned at the spool back cavity has piston rod; On the partition between spool back cavity and the middle pressure chamber, circular hole is arranged, piston rod stretches into circular hole, and spring 14 is arranged between spring seat 12 and the spring cup 13; The piston rod head and spring seat 12 outsides all are spill, and bead is clamped between the piston rod and spring seat 12 outsides; In press between chamber Pm and the spool ante-chamber P1 and establish two sections passages, near the diameter of the passage 33 of middle pressure chamber Pm section less than the diameter near the passage 32 of spool ante-chamber P1 section, the diameter of the diameter<bead 11 of the diameter<circular hole of passage 33.
The valve of control return opening size is; One side of return opening piston 19 is control chamber Pc, and the piston 19 in this chamber is the spill spring seat, and spring 17 is arranged between spring cup 18 and the piston spring seat 19; The opposite side of piston 19 is on the passage between spool prepass P1 and the return opening 31; Control chamber Pc is communicated with middle pressure chamber Pm, and the left and right moving control of piston 19 size of return opening, and return opening 31 is triangle (referring to Fig. 3).
Working procedure is, when P2 pressure raise, piston 20 was moved to the left under the effect of P2 pressure and spring 14, and bead 11 also is moved to the left; Block circular hole (as shown in Figure 1), make the liquid in Pm chamber flow to the P2 chamber through this circular hole, the Pm chamber only is communicated with the P1 chamber; So Pm pressure can rise, owing to the Pc chamber communicates with the Pm chamber, so Pc pressure also can rise; Piston 19 is moved to the left under the effect of pressure P c and spring 17, and return opening diminishes, and the oil return flow reduces; And valve inlet 1 flow is constant, so P1 pressure rises, promptly P1 raises with P2 pressure; When P2 pressure descended, piston 20 was moving right, and bead 11 also moves right, and circular hole is opened; The flow direction P2 chamber in Pm chamber, and the flow that replenishes to Pm greater than the P1 chamber of its flow velocity, Pm pressure descends, so Pc pressure also can descend; Piston 19 moves right, and valve export 2 becomes big, and the oil return flow increases; The valve inlet flow is constant, so P1 pressure descends, promptly P1 descends with P2 pressure.This adjustment process at the pressure reduction valve is dynamic fully, and has guaranteed Δ P=constant.
In addition, the modulating valve that acts as a fuel hopes that the adjusting of its flow has the effect that quickening slowly subtracts, to guarantee the safety of power equipment.In order to realize this purpose, on the passage between control chamber Pc and the middle pressure chamber Pm, be provided with the buffering quick-realse valve, specifically be, taper valve core 16 with holes is arranged in the taper buffer cavity Pn, and spring 15 is arranged between buffer cavity wall and the taper valve core.As Pm>during Pc, the central small hole that the fuel oil in Pm chamber will pass through taper valve core 16 with holes flows into the Pc chamber; Otherwise < when taper valve core 16 with holes still was pressed on the housing by spring 15 during Pc, the central small hole that the fuel oil in Pc chamber will pass through taper valve core 16 with holes flowed back to the Pm chamber as Pm; < < during Pc, and taper valve core with holes 16 is when overcoming spring 15 pressure and leaving housing, and the fuel oil in Pc chamber will pass through the central small hole of taper valve core 16 with holes and the slit between spool and housing flows back into the Pm chamber fast, and this design can make bypass valve close soon slowly and open as Pm; In addition, the triangular windows of bypass valve also makes the adjusting of P1 pressure realize rising slowly the purpose of falling soon.Through can finding out by flow formula, P1 is pressure controlled rise slowly fall soon promptly realized Flow-rate adjustment accelerate the effect that subtracts slowly.
Compared with prior art, the beneficial effect of the utility model is:
1, etc. the use of pressure reduction valve makes that the angle stroke of flow F and spool is linear, and with the valve export pressure independent, satisfy the requirement of fluid flow modulating valve.
2, the adjusting of flow has the effect that quickening slowly subtracts, and has guaranteed the safety of power equipment as the liquid fuel modulating valve.
3, regulating ratio can be realized accurate adjusting greater than 100 in the small flow zone.
4, because the effect of spring makes valve seat be close to spool constantly,, spool make valve have good self-cleaning ability when rotating because of friction.
5, spool and valve seat are installed on the passage of valve body, only need be when needing cleaning to safeguard with the inlet line dismounting of valve, and spool and metering window thereof can be visible fully, make the cleaning of valve safeguard conveniently very easy.
6, when spool, the prooving of valve seat, the spring of setting can play compensating action, has not only prolonged the working life of valve, and the head that has also prolonged valve turns over the phase (valve is the time of depot repair first).
Claims (4)
1. the linear fluid flow modulating valve of a highi degree of accuracy, it has the metering valve of bivalve seat, it is characterized in that: it also has valve such as the pressure reduction of grade, metering valve with wait the pressure reduction valve to be integrated on the valve body; Comprise piston at the pressure reduction valve, channel connection behind the oil pocket of piston one side and the metering valve spool, the opposite side of piston is on the passage between spool prepass and the valve return opening.
2. according to the linear fluid flow modulating valve of the described highi degree of accuracy of claim 1; It is characterized in that: said metering valve is; Spool (5), seal ring (8) and spring (7) are set on the passage of valve body; Spool is horizontal drum, and the drum mouth is towards valve export (34), and promptly the drum inner chamber becomes the part of passage (P2) behind the spool; The outside fixedly has the rotating shaft (5-1) of spline at the bottom of drum, and with the interior interplanting drive fit of bearing (4) on the valve body, stretch out outside the valve body rotating shaft (5-1) outer end that has spline, cooperates with speed reducer, and pointer (1) is installed in rotating shaft; On the drum sidewall, open two valve ports (5-2), these two valve ports are symmetrical distribution in drum rotating shaft both sides, each valve port rectangle that is as the criterion, and said accurate rectangle is meant that the two ends of valve port are the circular arc line of same curvature and length; In the outside of each valve port a seal ring is arranged respectively, spring (7) is arranged between seal ring and the sealing cover (6); Spool prepass (P1) is divided into two subchannels before seal ring, lead to two seal rings up and down respectively.
3. according to claim 1 or the linear fluid flow modulating valve of 2 described highi degree of accuracy, it is characterized in that: wait the pressure reduction valve to form by the differential pressure controller and the valve of control return opening size;
Differential pressure controller is; Pressure reduction adjusting screw (21), spring (22), piston (20), bead (11), spring seat (12), spring (14) and spring cup (13) set gradually; Piston (20) is arranged between spool ante-chamber (P1) and the spool back cavity (P2), presses lining, chamber (Pm) during bead, spring seat (12) and spring (14) are arranged on; The spool ante-chamber is communicated with spool prepass (P1); Passage (P2) is communicated with behind spool back cavity and the spool, and piston (20) is spill in a side of spool ante-chamber, and the spring in the spool ante-chamber (22) is arranged between pressure reduction adjusting screw and the piston spring seat (12); The side that piston (20) is positioned at the spool back cavity has piston rod; On the partition between spool back cavity and the middle pressure chamber, circular hole is arranged, piston rod stretches into circular hole, and spring (14) is arranged between spring seat (12) and the spring cup (13); Piston rod head and spring seat (12) outside all is spill, and bead is clamped between the piston rod and spring seat (12) outside; In press between chamber (Pm) and the spool ante-chamber (P1) and establish two sections passages, near the diameter of the passage (33) of middle pressure chamber (Pm) section less than the diameter near the passage (32) of spool ante-chamber (P1) section, the diameter of the diameter<bead of the diameter<circular hole of passage (33);
The valve of control return opening size is; One side of return opening piston (19) is control chamber (Pc); Return opening piston (19) is spill at the face of control chamber, and spring (17) is arranged between spring cup (18) and the piston (19), and the opposite side of piston (19) is on the passage between spool prepass (P1) and the return opening (31); Control chamber (Pc) is communicated with middle pressure chamber (Pm), and return opening (31) is a triangle.
4. according to the linear fluid flow modulating valve of the described highi degree of accuracy of claim 3; It is characterized in that: on the passage between control chamber (Pc) and the middle pressure chamber (Pm), be provided with the buffering quick-realse valve; Specifically be; Taper valve core with holes (16) is arranged on taper buffer cavity (Pn) lining, and spring (15) is arranged between buffer cavity wall and the taper valve core.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011202477642U CN202252205U (en) | 2011-07-14 | 2011-07-14 | High-precision linear liquid flow regulating valve |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011202477642U CN202252205U (en) | 2011-07-14 | 2011-07-14 | High-precision linear liquid flow regulating valve |
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CN202252205U true CN202252205U (en) | 2012-05-30 |
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CN2011202477642U Expired - Fee Related CN202252205U (en) | 2011-07-14 | 2011-07-14 | High-precision linear liquid flow regulating valve |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109654268A (en) * | 2017-10-11 | 2019-04-19 | 中国航发西安动力控制科技有限公司 | A kind of pressure difference mechanism |
-
2011
- 2011-07-14 CN CN2011202477642U patent/CN202252205U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109654268A (en) * | 2017-10-11 | 2019-04-19 | 中国航发西安动力控制科技有限公司 | A kind of pressure difference mechanism |
CN109654268B (en) * | 2017-10-11 | 2020-08-11 | 中国航发西安动力控制科技有限公司 | Differential pressure mechanism |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120530 Termination date: 20130714 |