CN204477408U - High-pressure gas Relief Valves over Long DistancePipeline - Google Patents
High-pressure gas Relief Valves over Long DistancePipeline Download PDFInfo
- Publication number
- CN204477408U CN204477408U CN201420816244.2U CN201420816244U CN204477408U CN 204477408 U CN204477408 U CN 204477408U CN 201420816244 U CN201420816244 U CN 201420816244U CN 204477408 U CN204477408 U CN 204477408U
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- Prior art keywords
- housing
- pressure
- distancepipeline
- piston
- air outlet
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Abstract
The utility model discloses a kind of high-pressure gas Relief Valves over Long DistancePipeline, comprise tubular shell, the piston of enclosure interior, and the Mechanical course structure of pressure release air outlet break-make can be controlled between housing and piston.Overpressure is controlled within the specific limits by the pressure rationally arranging the 3rd spring by the utility model, adopts the valve opening and closing control structure of pure machinery, rapidly corresponding.By the interaction force press seal circle between running roller and sealing baffle, larger impacting force can be formed on seal ring, reach good sealing effect, and in opening-closing process repeatedly, this structure stability is high, can not be malfunctioning.Piston adopts cylindrical structure, and rear and front end is provided with slide plate and slip ring in order to support and to slide, and structure is comparatively symmetrical, therefore more stable.
Description
Technical field
The utility model relates to valve field, particularly relates to a kind of high-pressure gas Relief Valves over Long DistancePipeline.
Background technique
Long distance pipeline refer between the place of production, storage vault, applying unit for transportation commodity medium, such as oil, gas etc., and transprovincially, city, wear, cross over rivers, road etc., there is the long-distance pipe of booster station centre.Long-distance Gas Pipeline is the main artery of national economy, and directly service is along the production of thread industrial and the common life of city dweller.But pipeline belongs to dangerous matter sources again, for high pressure gas pipeline road, inner pressure is higher, and conveying is all inflammable gas, in course of conveying, unstable if there is air pressure, likely causes the too large and explosion caused event of manifold pressure.If conveying is rock gas in pipeline, then once also can cause big fire after blasting, inflammable and explosive high-pressure medium spreads rapidly, to causing larger harm along the line, causes immeasurable loss.In the airtight gas transmission process of long distance pipeline, when Outlet pressure exceedes modulating valve setting value, modulating valve turns down, and is not enough to make it control in range of set value; Or because station interior conduit pressure-bearing is too high, jeopardize the safety of pipeline or equipment; Or not rise when regulating protective action because modulating valve is malfunctioning, usually can carry out high pressure relief by the Decompression valves be arranged on departures pipeline.High pressure relief regulates the one of protective measure to supplement to pressure in airtight gas transmission process.But often occur during superpressure in long distance pipeline in prior art that high-pressure decompression valve normally can not open pressure release, bring great harm to oil transport pipeline conveying, may occur due to pressure superelevation cause deflation, stopping transportation, explode even initiation fire etc.; Also there is high-pressure decompression valve gas leakage on the other hand, or the defect can not normally closed after unlatching.
Model utility content
In order to solve the defect existed in above-mentioned prior art, the utility model provides one and can respond fast, sealing configuration is stablized, and good sealing effect, the high-pressure gas Relief Valves over Long DistancePipeline normally can not closing phenomenon after normally can not opening, leak gas and opening can not occur.
To achieve these goals, a kind of high-pressure gas Relief Valves over Long DistancePipeline of the present utility model, comprises tubular shell, and described shell one end is suction port, and the other end is binding of installing with housings close; Being provided with in described housing can along inner walls piston in axial sliding; This piston comprises the piston body that external diameter is less than housing inner diameter, be fixed on piston body near described in bind the slide plate of circle of one end, and be fixed on the slip ring of piston body near the ring of suction port one end; The excircle of described slide plate and slip ring and inner walls seal and arrange, and described slip ring circumferentially offers multiple ventilation mouth, passes for gas;
Described pressure release air outlet to be arranged in housing sidewall and between described slide plate and slip ring; In described pressure release air outlet, the side of piston body is provided with sealing baffle, sealing baffle plate can compress and be positioned in inner walls and the seal ring be set on outer ring, pressure release air outlet, realizes the sealing to pressure release air outlet;
At described sealing baffle, the side of piston body is provided with at least one circular groove, described piston body is provided with at least one running roller corresponding with described groove; Described slide plate and described bind between be also provided with the 3rd spring.
Elastic mechanism is provided with between described sealing baffle and described inner walls.
Described elastic mechanism is included at least one guide runner that described sealing baffle is arranged near the side of inner walls, described inner walls is provided with guide chute accordingly with described guide runner, in described guide chute inside, the first spring is installed, one end of first spring withstands on described guide runner, and the other end withstands on the bottom land of guide chute.
Described guide runner is T-shaped, and namely top is dull and stereotyped, and bottom is round bar.
Described chute opening arranges porose outside thread back-up ring in the middle of being bolted with one, and the round bar of guide runner is through described outside thread block.
Gas enters Decompression valves at suction port place.When gas pressure is very little, Decompression valves is in closed condition, and now running roller withstands on the sidewall of sealing baffle, sealing baffle press seal circle; When gas pressure is enough large, move forward after the pressure of gas push piston overpowers the 3rd spring, running roller is rolls forward on sealing baffle, until running roller is rolled into groove location, the guide runner connected due to sealing baffle is withstood by the first spring, the trend that sealing baffle oriented piston body is close, so when running roller rolls into after in groove, sealing baffle moves to piston body direction, thus make the sealing of pressure release air outlet loss of seal baffle plate and seal ring, gas enters at suction port, after ventilation mouth and pressure release air outlet, discharges.When the overpressure of long distance pipeline reduces, the 3rd spring promotes piston and moves backward, and running roller is rolled out in a groove, and sealing baffle forms extruding to seal ring again, completes the sealing to pressure release air outlet.
Decompression valves of the present utility model, is controlled overpressure within the specific limits by the pressure rationally arranging the 3rd spring, adopts the valve opening and closing control structure of pure machinery, rapidly corresponding.By the interaction force press seal circle between running roller and sealing baffle, larger impacting force can be formed on seal ring, reach good sealing effect, and in opening-closing process repeatedly, this structure stability is high, can not be malfunctioning.Piston adopts cylindrical structure, and rear and front end is provided with slide plate and slip ring in order to support and to slide, and structure is comparatively symmetrical, therefore more stable.
Accompanying drawing explanation
Fig. 1 is mounting structure schematic diagram of the present utility model;
Fig. 2 is the schematic diagram that Decompression valves of the present utility model is in closed condition;
Fig. 3 is the schematic diagram that Decompression valves of the present utility model is in connected state;
Fig. 4 is the enlarged view of part A in Fig. 2;
Fig. 5 is the enlarged view of part B in Fig. 3;
Fig. 6 is that the C-C of Fig. 3 is to sectional view.
Embodiment
Below by way of the drawings and specific embodiments, the utility model is described in further detail.
A kind of high-pressure gas Relief Valves over Long DistancePipeline of the present utility model, is applied on the pressure relief system of high-pressure gas conveyance conduit.The pressure relief system of described high-pressure gas conveyance conduit, as shown in the figure, comprise the pressure release branch road 2 be communicated with on long distance pipeline 1, pressure release branch road 2 is communicated with knock out drum 3, is provided with the first Decompression valves 10 between pressure release branch road 2 and knock out drum 3; The suction port 101 of described first Decompression valves 10 is communicated with on described pressure release branch road 2, and the pressure release air outlet 102 of described first Decompression valves 10 is connected with described knock out drum 3; Described knock out drum 3 is also provided with the second Decompression valves 20; The suction port of described second Decompression valves 20 is communicated with knock out drum inside, and pressure release air outlet 102 is communicated with air.
This high-pressure gas long distance pipeline pressure relief system, pressure release branch road arranges knock out drum, and when long distance pipeline internal pressure is excessive, gas enters into knock out drum by Decompression valves and preserves, instead of is directly discharged in air, thus effectively can control the wasting of resources; When the pressure in knock out drum is increased to a certain degree, then by the second Decompression valves, pressure release is carried out to knock out drum.
As shown in Figure 2-5, described first Decompression valves 10 comprises tubular shell 103, and described housing 103 one end is suction port 101, the other end be install with housings close bind 104; Being provided with in described housing 103 can along housing 103 inwall piston in axial sliding; This piston comprises the piston body 105 that external diameter is less than housing 103 internal diameter, be fixed on piston body 105 near described in bind the slide plate 106 of circle of 104 one end, and being fixed on the slip ring 107 of piston body 105 near the ring of suction port 101 one end, excircle and housing 103 inner wall sealing of described slide plate 106 and slip ring 107 are arranged.
Described pressure release air outlet 102 to be arranged on housing 103 sidewall and between described slide plate 106 and slip ring 107.
In described pressure release air outlet 102, the side of piston body 105 is provided with sealing baffle 108, sealing baffle plate 108 can compress and be positioned on housing 103 inwall and the seal ring 109 be set on outer ring, pressure release air outlet 102, realizes the sealing to pressure release air outlet 102;
Described sealing baffle 108 is provided with at least one guide runner 110 near the side of housing 103 inwall, described housing 103 inwall is provided with guide chute 111 accordingly with described guide runner 110, in described guide chute 111 inside, the first spring 112 is installed, one end of first spring 112 withstands on described guide runner 110, and the other end withstands on the bottom land of guide chute 111.
Described guide runner 110 is T-shaped, and namely top is dull and stereotyped, and bottom is round bar.Described chute 111 opening arranges porose outside thread back-up ring 122 in the middle of being bolted with one, and the round bar of guide runner 110 is through described outside thread block 122.Guide runner 110 ejects for preventing the first spring 112 by this outside thread block 122 in chute 111.
At described sealing baffle 108, the side of piston body 105 is provided with at least one circular groove 113, described piston body 105 is provided with at least one running roller 114 corresponding with described groove 113; The 3rd spring 121 is also provided with at described slide plate 106 and described binding between 104.
Described slip ring 107 circumferentially offers multiple ventilation mouth 199, passes for gas.
Described second Decompression valves 20 is identical with the first Decompression valves 10 structure.
First Decompression valves and the second Decompression valves are set to said structure, and gas enters Decompression valves at suction port 101 place.When gas pressure is very little, Decompression valves is in closed condition, and now running roller 114 withstands on the sidewall of sealing baffle 108, sealing baffle 108 press seal circle 109, when gas pressure is enough large, move forward after the pressure of gas push piston overpowers the 3rd spring 121, running roller 114 is rolls forward on sealing baffle 108, until running roller 114 is rolled into groove 113 position, the guide runner 110 connected due to sealing baffle 108 is withstood by the first spring 112, the trend that sealing baffle 108 oriented piston body 105 is close, so when running roller 114 rolls into after in groove 113, sealing baffle 108 moves to piston body 105 direction, thus make the sealing of pressure release air outlet 102 loss of seal baffle plate 108 and seal ring 109, gas enters at suction port 101, after ventilation mouth 199 and pressure release air outlet 102, discharge.When the overpressure of long distance pipeline reduces, the 3rd spring 121 promotes piston and moves backward, and running roller 114 is rolled out in groove 113, and sealing baffle 108 forms extruding to seal ring 109 again, completes the sealing to pressure release air outlet 102.
First Decompression valves of said structure and the second Decompression valves, controlled overpressure within the specific limits by the pressure rationally arranging the 3rd spring, adopt the valve opening and closing control structure of pure machinery, rapidly corresponding.By the interaction force press seal circle between running roller and sealing baffle, larger impacting force can be formed on seal ring, reach good sealing effect, and in opening-closing process repeatedly, this structure stability is high, can not be malfunctioning.Piston adopts cylindrical structure, and rear and front end is provided with slide plate and slip ring in order to support and to slide, and structure is comparatively symmetrical, therefore more stable.
Claims (5)
1. a high-pressure gas Relief Valves over Long DistancePipeline, it is characterized in that, comprise tubular shell (103), described housing (103) one end is suction port (101), and the other end is bind (104) of installing with housings close; Being provided with in described housing (103) can along housing (103) inwall piston in axial sliding; This piston comprises the piston body (105) that external diameter is less than housing (103) internal diameter, be fixed on piston body (105) near described in bind the slide plate (106) of circle of (104) one end, and be fixed on the slip ring (107) of piston body (105) near the ring of suction port (101) one end;
Excircle and housing (103) inner wall sealing of described slide plate (106) and slip ring (107) are arranged, described slip ring (107) circumferentially offers multiple ventilation mouth (199), passes for gas;
Described housing (103) sidewall is provided with pressure release air outlet (102), and described pressure release air outlet (102) is positioned between described slide plate (106) and slip ring (107); Described pressure release air outlet (102), the side of piston body (105) is provided with sealing baffle (108), sealing baffle plate (108) can compress and be positioned on housing (103) inwall and the seal ring (109) be set on pressure release air outlet (102) outer ring, realizes the sealing to pressure release air outlet (102);
At described sealing baffle (108), the side of piston body (105) is provided with at least one circular groove (113), described piston body (105) is provided with at least one running roller (114) corresponding with described groove (113); The 3rd spring (121) is also provided with at described slide plate (106) and described binding between (104).
2. high-pressure gas Relief Valves over Long DistancePipeline as claimed in claim 1, is characterized in that, be provided with elastic mechanism between described sealing baffle (108) and described housing (103) inwall.
3. high-pressure gas Relief Valves over Long DistancePipeline as claimed in claim 2, it is characterized in that, described elastic mechanism is included at least one guide runner (110) that described sealing baffle (108) is arranged near the side of housing (103) inwall, described housing (103) inwall is provided with guide chute (111) accordingly with described guide runner (110), in described guide chute (111) inside, the first spring (112) is installed, one end of first spring (112) withstands on described guide runner (110), the other end withstands on the bottom land of guide chute (111).
4. high-pressure gas Relief Valves over Long DistancePipeline as claimed in claim 3, it is characterized in that, described guide runner (110) is T-shaped, and namely top is dull and stereotyped, and bottom is round bar.
5. high-pressure gas Relief Valves over Long DistancePipeline as claimed in claim 4, it is characterized in that, described chute (111) opening arranges porose outside thread back-up ring in the middle of being bolted with one, and the round bar of guide runner (110) is through described outside thread block (122).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420816244.2U CN204477408U (en) | 2014-12-19 | 2014-12-19 | High-pressure gas Relief Valves over Long DistancePipeline |
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CN201420816244.2U CN204477408U (en) | 2014-12-19 | 2014-12-19 | High-pressure gas Relief Valves over Long DistancePipeline |
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CN201420816244.2U Expired - Fee Related CN204477408U (en) | 2014-12-19 | 2014-12-19 | High-pressure gas Relief Valves over Long DistancePipeline |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112797207A (en) * | 2021-03-01 | 2021-05-14 | 四川长仪油气集输设备股份有限公司 | Pilot-operated pipeline explosion positive and negative action axial flow type self-closing valve |
CN113294541A (en) * | 2020-07-17 | 2021-08-24 | 阮勤林 | Sealed cabin inflation sealing valve under deep water environment |
-
2014
- 2014-12-19 CN CN201420816244.2U patent/CN204477408U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113294541A (en) * | 2020-07-17 | 2021-08-24 | 阮勤林 | Sealed cabin inflation sealing valve under deep water environment |
CN112797207A (en) * | 2021-03-01 | 2021-05-14 | 四川长仪油气集输设备股份有限公司 | Pilot-operated pipeline explosion positive and negative action axial flow type self-closing valve |
CN112797207B (en) * | 2021-03-01 | 2022-09-06 | 四川长仪油气集输设备股份有限公司 | Pilot-operated pipeline explosion positive and negative action axial flow type self-closing valve |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150715 Termination date: 20201219 |