CN202065537U - Flow control switch - Google Patents

Flow control switch Download PDF

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Publication number
CN202065537U
CN202065537U CN2011201702499U CN201120170249U CN202065537U CN 202065537 U CN202065537 U CN 202065537U CN 2011201702499 U CN2011201702499 U CN 2011201702499U CN 201120170249 U CN201120170249 U CN 201120170249U CN 202065537 U CN202065537 U CN 202065537U
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elastic element
bellows
fluid
valve
valve body
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CN2011201702499U
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Chinese (zh)
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杨彦
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Individual
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Individual
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  • Fluid-Driven Valves (AREA)

Abstract

The utility model discloses a flow control switch, which is provided with a fluid valve. The fluid valve at least comprises a valve body and a valve seat, the valve seat is disposed inside the valve body, two joints for communicating with fluid pipelines are arranged on the valve body, the valve seat is fixed inside the valve body and between the two joints, and a fluid through hole is arranged on the valve seat. The flow control switch is characterized in that a drive diaphragm capsule with a closed cavity is fixed to the valve body, an elastic element I for driving a diaphragm on the diaphragm capsule to fluctuate to cover or open the fluid valve according to change of pressure in the diaphragm capsule is mounted on the diaphragm capsule, and the elastic element I faces the fluid hole on the valve seat. The diaphragm is fluctuated due to the change (or change of pressure in the diaphragm capsule caused by temperature change) of pressure in the drive diaphragm capsule of the flow control switch, so that the valve core is driven to compress or depart the valve seat to function in opening and closing. The flow control switch is simple in structure, reliable in action, small in size and low in cost.

Description

A kind of flow control switch
Technical field
The utility model relates to by bellows or bellows, the control fluid field of flowing, and is specially a kind of flow control switch.
Background technique
The condenser for refrigerator pressure-retaining system has two kinds at present.A kind ofly be made up of solenoid valve and one-way valve, when compressor shutdown, these two valves cut out together, the refrigeration agent in the condenser are enclosed in the condenser, when starting shooting next time.This solenoid valve price height, reliability is low.Another kind is made up of float valve and one-way valve, and this float valve volume is big, complex structure.
Summary of the invention
Technical problem to be solved in the utility model provides a kind of simple in structure, reliability is high, volume is little flow control switch.
The utility model solves the problems of the technologies described above the technological scheme that is adopted: a kind of flow control switch, have a fluid valve, and this fluid valve comprises valve body and valve seat at least, and valve seat is positioned at valve body; Be shaped on 2 on the valve body and be used for the interface that is connected with fluid line, valve seat is fixed in the valve body and in valve body between 2 interfaces, be shaped on fluid on the valve seat simultaneously and pass through the hole, it is characterized in that on valve body, fixing a driving bellows with sealed cavity, and be equipped with on this bellows and change the diaphragm that drives on the bellows according to this bellows internal pressure and rise and fall and realize fluid valve sealing or the elastic element I that opens, elastic element I fluid on the valve seat is provided with by the hole.
The utility model can comprise the technological scheme of following at least 9 variations under above-mentioned basic structure, be respectively:
Scheme 1: described bellows upper end is shaped on the interface that is connected with pressure source, and described bellows lower end is sealed with elastic element I; And this bellows bottom places in the valve body, and the fluid on the valve seat is by being equipped with spool in the hole, and the spool upper end withstands on elastic element I bottom and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element I.
Scheme 2: described bellows upper end is shaped on the interface that is connected with pressure source, and described bellows lower end is sealed with elastic element I; And this bellows bottom connects as one by support and valve body, also be equipped with in the valve body upper opening with bellows on elastic element I position corresponding elastic element II; Fluid on the valve seat is by being equipped with spool in the hole, the spool upper end withstands on that elastic element II goes up and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element II.
Scheme 3: described bellows upper end is shaped on the interface that is connected with pressure source, and described bellows lower end is sealed with elastic element I; Valve body places in the bellows, also be equipped with in the valve body lower portion opening with bellows on elastic element I position corresponding elastic element II; Fluid on the valve seat is by connecting an extension tube on the hole, and this extension tube withstands on that elastic element II goes up and by the fluctuating sealing of elastic element II or open and realize the fluid valve sealing or open.
Scheme 4: described bellows is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows lower end places in the valve body with elastic element I sealing and this bellows bottom, fluid on the valve seat is by being equipped with spool in the hole, spool upper end withstands on elastic element I bottom and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element I, on this bellows heater is housed simultaneously.
Scheme 5: described bellows is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows lower end is sealed with elastic element I, on this bellows heater is housed simultaneously, this bellows bottom connects as one by support and valve body, also be equipped with in the valve body upper opening with bellows on elastic element I position corresponding elastic element II; Fluid on the valve seat is by being equipped with spool in the hole, the spool upper end withstands on that elastic element II goes up and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element II.
Scheme 6: described bellows is an enclosed construction, and wherein be filled with an amount of refrigeration agent, heater is equipped with on this bellows simultaneously with elastic element I sealing in described bellows lower end, valve body places in the bellows, also be equipped with in the valve body lower portion opening with bellows on elastic element I position corresponding elastic element II; Fluid on the valve seat is by connecting an extension tube on the hole, and this extension tube withstands on that elastic element II goes up and by the fluctuating sealing of elastic element II or open and realize the fluid valve sealing or open.
Scheme 7: described bellows is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows lower end places in the valve body with elastic element I sealing and bottom, and the fluid that elastic element I gets lodged on the valve seat realizes that with the diaphragm fluctuating fluid valve seals or opens, and is connected with temp.-sensing head by pipeline on this bellows simultaneously by top, hole.
Scheme 8, described bellows are enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows lower end is sealed with elastic element I, be connected with temp.-sensing head by pipeline on this bellows simultaneously, this bellows bottom connects as one by support and valve body, also be equipped with in the valve body upper opening with bellows on elastic element I position corresponding elastic element II; Fluid on the valve seat is by being equipped with spool in the hole, the spool upper end withstands on that elastic element II goes up and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element II.
Scheme 9: described bellows is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows lower end is sealed with elastic element I, be connected with temp.-sensing head by pipeline on this bellows simultaneously, valve body places in the bellows, also be equipped with in the valve body lower portion opening with bellows on elastic element I position corresponding elastic element II; Fluid on the valve seat is by being equipped with spool in the hole, spool one end withstands on that elastic element II goes up and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element II.
The utility model drives bellows owing to have one, and this bellows or cut-in pressure source are are directly risen and fallen by the pressure source driven diaphragm, perhaps by the refrigeration agent in the temperature source heating sealing bellows, makes the bellows internal pressure change, and driven diaphragm rises and falls; Seal or open thereby drive fluid valve, play on-off action.Have simple in structure, reliable in action, volume is little, cost is low characteristics.
Description of drawings:
Fig. 1 is the utility model embodiment one a structural representation;
Fig. 2 is the utility model embodiment two a structural representation;
Fig. 3 is the utility model embodiment three a structural representation;
Fig. 4 is the utility model embodiment four a structural representation;
Fig. 5 is the utility model embodiment five a structural representation;
Fig. 6 is the utility model embodiment six a structural representation;
Fig. 7 is the utility model embodiment seven a structural representation;
Fig. 8 is the utility model embodiment eight a structural representation;
Fig. 9 is the utility model embodiment nine a structural representation.
Embodiment:
Below in conjunction with accompanying drawing 1-9 the several embodiments of the utility model are described in further detail.
Embodiment one:
As shown in Figure 1, the present embodiment flow control switch, it has bellows 1, valve body 4 and support 7.Valve seat 5 is positioned at valve body 4; Be shaped on 2 on the valve body 4 and be used for the interface that is connected with fluid line, valve seat 5 is fixed in the valve body 4 and between 2 interfaces, is shaped on fluid on the valve seat 5 simultaneously and passes through the hole in valve body 4.Have 1 interface to be connected with pressure source on its bellows 1, I 2 also has elastic component; Have elastic component in the valve body 4 II3, valve seat 5 and spool 6 connect two interfaces of fluid circuit in addition; Support 7 connects together bellows 1 and valve body 4.When pressure source pressure raise, elastic element I 2 projectioies promoted spool 6 through elastic element II3 and lift off a seat valve open; When pressure source pressure descended, elastic element I 2 is recessed to be driven spool 6 through elastic element II3 and pushes down valve seat, valve closing.According to actual needs can be fixedly connected between spool 6 and the elastic element I 2; Also can connect, and on spool 6, Returnning spring is set.For example elastic element II3 just plays the effect of Returnning spring in the present embodiment.In addition, the elastic element in the utility model directly can adopt the diaphragm in the bellows also passable, certainly, adopts the bellows internal fixation to have
Embodiment two:
As shown in Figure 2, the present embodiment flow control switch, it has bellows 1, valve body 4 and valve seat 5.Have 1 interface to be connected with pressure source on the bellows 1, I 2 and elastic element II3 also have elastic component; Have elastic component in the valve body 4 II3 and valve seat 5 connect two interfaces of fluid circuit in addition; Valve body 4 places in the bellows 1.The fluid valve of present embodiment does not need spool, adopts the mode of the direct closed valve seat of diaphragm (elastic element) to get final product.Fluid on the valve seat 5 is by connecting an extension tube on the hole, and this extension tube withstands on that elastic element II3 goes up and by the fluctuating sealing of elastic element II3 or open and realize the fluid valve sealing or open.When pressure source pressure raise, elastic element I 2 projectioies were moved closed valve seat 5 upper extension tube openings, valve open on elastic element II3; When pressure source pressure descended, elastic element I 2 is recessed to push down upper valve seat extension tube opening, valve closing through elastic element II3.
Embodiment three:
As shown in Figure 3, the present embodiment flow control switch, it has bellows 1, valve body 4.Valve seat 5 is positioned at valve body 4; Be shaped on 2 on the valve body 4 and be used for the interface that is connected with fluid line, valve seat 5 is fixed in the valve body 4 and between 2 interfaces, is shaped on fluid on the valve seat 5 simultaneously and passes through the hole in valve body 4.Have 1 interface to be connected with pressure source on its bellows 1, I 2 also has elastic component; Bellows 1 places in the valve body 4.When pressure source pressure raise, elastic element I 2 projectioies promoted spool 6 and lift off a seat valve open; When pressure source pressure descended, elastic element I 2 recessed drive spools 6 were pushed down valve seat, valve closing.
Embodiment four:
As shown in Figure 4, the present embodiment flow control switch, it has bellows 1, valve body 4 and support 7.Bellows 1 seals, and wherein is filled with an amount of refrigeration agent, and I2 and heater 8 also have elastic component; Have elastic component 3 in the valve body 4, valve seat 5 and spool 6, connect two interfaces of fluid circuit in addition; Support 7 connects together bellows 1 and valve body 4.When heater 8 temperature raise, the refrigeration agent in the heating bellows 1 raise its pressure, and elastic element I 2 projectioies promote spool 6 through elastic element II3 and lift off a seat valve open; When heater 8 temperature descended, the refrigeration agent of cooling in the bellows 1 descended its pressure, and elastic element I 2 is recessed to be driven spool 6 through elastic element II3 and push down valve seat, valve closing.
Embodiment five:
As shown in Figure 5, the present embodiment flow control switch, it has bellows 1 and valve body 4.Bellows 1 seals, and wherein is filled with an amount of refrigeration agent, also has elastic component 2 and heater 8; Have elastic component in the valve body 4 II3, valve seat 5 connect two interfaces of fluid circuit in addition; Valve body 4 places in the bellows 1.Fluid on the valve seat 5 is by connecting an extension tube on the hole, and this extension tube withstands on that elastic element II3 goes up and by the fluctuating sealing of elastic element II3 or open and realize the fluid valve sealing or open.When heater 8 temperature raise, the refrigeration agent in the heating bellows 1 raise its pressure, and elastic element I 2 projectioies are lifted off a seat valve open through elastic element II3 pulling; When heater 8 temperature descended, the refrigeration agent in the cooling bellows 1 descended its pressure, and elastic element I 2 recessed moving down through elastic element II3 are pushed down valve seat upper extension tube opening, valve closing.
Embodiment six:
As shown in Figure 6, the present embodiment flow control switch, it has bellows 1 and valve body 4.Bellows 1 seals, and wherein is filled with an amount of refrigeration agent, and I 2 and heater 8 also have elastic component; Valve seat 5 and spool 6 are arranged in the valve body 4, connect two interfaces of fluid circuit in addition; Bellows 1 places in the valve body 4.When heater 8 temperature raise, the refrigeration agent in the heating bellows 1 raise its pressure, and elastic element I 2 projectioies promote spool 6 and lift off a seat valve open; When heater 8 temperature descended, the refrigeration agent in the cooling bellows 1 descended its pressure, and elastic element 2 recessed drive spools 6 are pushed down valve seat, valve closing.
Embodiment seven:
As shown in Figure 7, the present embodiment flow control switch, it has bellows 1, valve body 4 and support 7.Bellows 1 seals, and wherein is filled with an amount of refrigeration agent, and I2 and temp.-sensing head 9 also have elastic component; Have elastic component in the valve body 4 II3, valve seat 5 and spool 6 connect two interfaces of fluid circuit in addition; Support 7 connects together bellows 1 and valve body 4.When temp.-sensing head 9 temperature descended, the refrigeration agent in the bellows 1 condensed in temp.-sensing head 9, and the pressure in the bellows 1 is descended, and elastic element I 2 is recessed, lifted off a seat valve open through elastic element II3 pulling spool 6; When temp.-sensing head 9 temperature rose, the pressure in the bellows 1 rose, and elastic element I 2 projectioies promote spool 6 through elastic element II3 and push down valve seat, valve closing.
Embodiment eight:
As shown in Figure 8, the present embodiment flow control switch, it has bellows 1, valve body 4.Bellows 1 seals, and wherein is filled with an amount of refrigeration agent, and I 2 and temp.-sensing head 9 also have elastic component; Have elastic component in the valve body 4 II3, valve seat 5 and spool 6 connect two interfaces of fluid circuit in addition; Valve body 4 places in the bellows 1.When temp.-sensing head 9 temperature descended, the refrigeration agent in the bellows 1 condensed in temp.-sensing head 9, and the pressure in the bellows 1 is descended, and elastic element I2 is recessed, promotes spool 6 through elastic element II3 and lifts off a seat valve open; When temp.-sensing head 9 temperature rose, the pressure in the bellows 1 rose, and elastic element I 2 projectioies are pushed down valve seat, valve closing through elastic element II3 pulling spool 6.
Embodiment nine:
As shown in Figure 9, the present embodiment flow control switch, it has bellows 1, valve body 4.Bellows 1 seals, and wherein is filled with an amount of refrigeration agent, and I 2 and temp.-sensing head 9 also have elastic component; Valve seat 5 and two interfaces that are connected fluid circuit are arranged in the valve body 4; Fluid on the valve seat by the hole over against elastic element I 2.Bellows 1 bottom places in the valve body 4.When temp.-sensing head 9 temperature descended, the refrigeration agent in the bellows 1 condensed in temp.-sensing head 9, and the pressure in the bellows 1 is descended, and the elastic element I 2 recessed fluids that leave are by the hole, and fluid valve is opened; When temp.-sensing head 9 temperature rose, pressure in the bellows 1 rose, and elastic element I 2 projectioies are pushed down fluid and made its sealing by the hole, and fluid valve is closed.
The utility model embodiment 1-9 has just provided the utility model typical embodiment; has similar the utility model diaphragm pump so long as adopt; thereby utilizing the bellows internal pressure to change driven diaphragm fluctuating drive fluid valve seals or opens; the fluid switch that plays on-off action is all at the row of the utility model protection domain; such as; in embodiment 2; 5; adopt fluid valve can realize the utility model equally in 9 with spool; also can be in embodiment 1; 4; increase a jacking block between two elastic elements of 7; transmit pressure by this jacking block, can make that spool work is more reliable.

Claims (10)

1. a flow control switch has a fluid valve, and this fluid valve comprises valve body (4) and valve seat (5) at least, and valve seat (5) is positioned at valve body (4); Be shaped on 2 on the valve body (4) and be used for the interface that is connected with fluid line, valve seat (5) is fixed in the valve body (4) and is arranged between (4) 2 interfaces of valve body, be shaped on fluid on the valve seat (5) simultaneously and pass through the hole, it is characterized in that on valve body (4), fixing a driving bellows (1) with sealed cavity, and the diaphragm fluctuating that changes on the driving bellows (1) according to this bellows (1) internal pressure is housed on this bellows (1) realizes fluid valve sealing or the elastic element I (2) that opens, elastic element I (2) goes up fluid over against valve seat (5) and is provided with by the hole.
2. flow control switch according to claim 1 is characterized in that described bellows (1) upper end is shaped on the interface that is connected with pressure source, and described bellows (1) lower end is sealed with elastic element I (2); And this bellows (1) bottom places in the valve body (4), and the fluid on the valve seat (5) is by being equipped with spool (6) in the hole, and spool (6) upper end withstands on elastic element I (2) bottom and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element I (2).
3. flow control switch according to claim 1 is characterized in that described bellows (1) upper end is shaped on the interface that is connected with pressure source, and described bellows (1) lower end is sealed with elastic element I (2); And this bellows (1) is following to connect as one by support (7) and valve body (4), also is equipped with in valve body (4) upper opening with bellows (1) and goes up elastic element I (2) position corresponding elastic element II (3); Fluid on the valve seat (5) is by being equipped with spool (6) in the hole, spool (6) upper end withstands on that elastic element II (3) goes up and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element II (3).
4. flow control switch according to claim 1 is characterized in that described bellows (1) upper end is shaped on the interface that is connected with pressure source, and described bellows (1) lower end is sealed with elastic element I (2); Valve body (4) places in the bellows (1), also is equipped with in valve body (4) lower openings with bellows (1) and goes up elastic element I (2) position corresponding elastic element II (3); Fluid on the valve seat (5) is by connecting an extension tube on the hole, and this extension tube withstands on that elastic element II (3) goes up and by the fluctuating sealing of elastic element II (3) or open and realize the fluid valve sealing or open.
5. flow control switch according to claim 1, it is characterized in that described bellows (1) is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows (1) lower end places in the valve body (4) with elastic element I (2) sealing and this bellows (1) bottom, fluid on the valve seat (5) is by being equipped with spool (6) in the hole, spool (6) upper end withstands on elastic element I (2) bottom and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element I (2), on this bellows (1) heater (8) is housed simultaneously.
6. flow control switch according to claim 1, it is characterized in that described bellows (1) is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows (1) lower end is sealed with elastic element I (2), on this bellows (1) heater (8) is housed simultaneously, this bellows (1) is following to connect as one by support (7) and valve body (4), also is equipped with in valve body (4) upper opening with bellows (1) and goes up elastic element I (2) position corresponding elastic element II (3); Fluid on the valve seat (5) is by being equipped with spool (6) in the hole, spool (6) upper end withstands on that elastic element II (3) goes up and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element II (3).
7. flow control switch according to claim 1, it is characterized in that described bellows (1) is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows (1) lower end is sealed with elastic element I (2), on this bellows (1) heater (8) is housed simultaneously, valve body (4) places in the bellows (1), also is equipped with in valve body (4) lower openings with bellows (1) and goes up elastic element I (2) position corresponding elastic element II (3); Fluid on the valve seat (5) is by connecting an extension tube on the hole, and this extension tube withstands on that elastic element II (3) goes up and by the fluctuating sealing of elastic element II (3) or open and realize the fluid valve sealing or open.
8. flow control switch according to claim 1, it is characterized in that described bellows (1) is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows (1) lower end places in the valve body (4) with elastic element I (2) sealing and bottom, and the fluid that elastic element I (2) gets lodged on the valve seat (5) realizes that with the diaphragm fluctuating fluid valve seals or opens by top, hole, and this bellows (1) is gone up and is connected with temp.-sensing head (9) by pipeline simultaneously.
9. flow control switch according to claim 1, it is characterized in that described bellows (1) is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows (1) lower end is sealed with elastic element I (2), this bellows (1) is gone up and is connected with temp.-sensing head (9) by pipeline simultaneously, this bellows (1) is following to connect as one by support (7) and valve body (4), also is equipped with in valve body (4) upper opening with bellows (1) and goes up elastic element I (2) position corresponding elastic element II (3); Fluid on the valve seat (5) is by being equipped with spool (6) in the hole, spool (6) upper end withstands on that elastic element II (3) goes up and realizes the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element II (3).
10. flow control switch according to claim 1, it is characterized in that described bellows (1) is an enclosed construction, and wherein be filled with an amount of refrigeration agent, described bellows (1) lower end is sealed with elastic element I (2), this bellows (1) is gone up and is connected with temp.-sensing head (9) by pipeline simultaneously, valve body (4) places in the bellows (1), also is equipped with in valve body (4) lower openings with bellows (1) and goes up elastic element I (2) position corresponding elastic element II (3); Fluid on the valve seat (5) is by being equipped with spool (6) in the hole, spool (6) one ends withstand on that elastic element II (3) goes up and realize the fluid valve sealing or open with the fluctuating upper and lower displacement of elastic element II (3).
CN2011201702499U 2011-05-25 2011-05-25 Flow control switch Expired - Lifetime CN202065537U (en)

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Application Number Priority Date Filing Date Title
CN2011201702499U CN202065537U (en) 2011-05-25 2011-05-25 Flow control switch

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Application Number Priority Date Filing Date Title
CN2011201702499U CN202065537U (en) 2011-05-25 2011-05-25 Flow control switch

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Publication Number Publication Date
CN202065537U true CN202065537U (en) 2011-12-07

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Application Number Title Priority Date Filing Date
CN2011201702499U Expired - Lifetime CN202065537U (en) 2011-05-25 2011-05-25 Flow control switch

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102182833A (en) * 2011-05-25 2011-09-14 杨彦 Flow control switch

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102182833A (en) * 2011-05-25 2011-09-14 杨彦 Flow control switch
CN102182833B (en) * 2011-05-25 2013-03-13 杨彦 Flow control switch

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Granted publication date: 20111207

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