CN101069793A - Drip-irrigation water-current mud-sand separation system - Google Patents
Drip-irrigation water-current mud-sand separation system Download PDFInfo
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- CN101069793A CN101069793A CN 200710017505 CN200710017505A CN101069793A CN 101069793 A CN101069793 A CN 101069793A CN 200710017505 CN200710017505 CN 200710017505 CN 200710017505 A CN200710017505 A CN 200710017505A CN 101069793 A CN101069793 A CN 101069793A
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Abstract
The present invention relates to a dip irrigation water flow sediment separation system. Said system mainly includes the following several portions: water inlet pipe, several water-dividing pipes, several flow-dividing pipes, cyclone centrifugal separators, sand-collecting tank, sediment outlet, filters, flow-collecting pipe, water outlet pipe and dip irrigation system. Besides, said invention also provides the concrete operation method of said system.
Description
Technical field
The present invention relates to use the filtration of the device and the current of free eddy flow, also is to be used for the preceding separator that garden, field, sports ground etc. water.
Background technology
Background technology of the present invention is that application number is 96204592.6, and name is called the Chinese utility model patent of " a kind of silt particle separator ", and it has water inlet pipe, outlet pipe, cylindrical outer cover, conical shell, connect the sand mouth, sand collecting tank, sand removing hole, the cylindrical outer cover circumference tangentially is connected to water inlet pipe, the cylindrical outer cover top vertically is connected to the outlet pipe that extend in the cylindrical outer cover, connect conical shell under the cylindrical outer cover, the sand mouth that connects of conical shell bottom connects sand collecting tank, has sand removing hole on the sand collecting tank.The big and less current of sediment size adopt this technology separation of sediment can not obtain efficient and effect preferably for sediment charge, and the flowing water that contains tiny silt after the processing can not be used for dripping jar.
Summary of the invention
The objective of the invention is to improve to containing the silt separative efficiency of quantity of sand and mud than great river flowing water stream.
The present invention is a kind of drip-irrigation water-current mud-sand separation system, the top of cyclone centrifugal separator is a cylinder, the bottom is the awl tube, silt outlet in the cyclone centrifugal separator bottom is connected to husky jar an of collection, water inlet pipe is connected with distributive pipe 35, four first isocon a1 that decompose the water yield are housed respectively on distributive pipe 35, the second isocon a2, the 3rd isocon a3, the 4th isocon a4, the water inlet of each isocon obliquely is installed on the distributive pipe 35 to relative with feed water flow respectively, with the cross-sectional area of the nearest first isocon a1 water inlet of water inlet pipe be 1/4 of distributive pipe 35 cross-sectional areas, the cross-sectional area of the second isocon a2 water inlet is 2/4 of distributive pipe 35 cross-sectional areas, the cross-sectional area of the 3rd isocon a3 water inlet is 3/4 of distributive pipe 35 cross-sectional areas, the cross-sectional area of the 4th isocon a4 water inlet is 4/4 of distributive pipe 35 cross-sectional areas, the delivery port of each isocon is installed in a cyclone centrifugal separator 32 respectively, 30,26, on 24 the cylinder, at each cyclone centrifugal separator 32,30,26, the silt outlet of 24 bottom connects husky jar 31 of a collection respectively, 29,27,25, each cyclone centrifugal separator 31,29,27, the outlet on 25 tops respectively with a laminated filter 4,7,8,9 inlet connects, each laminated filter 4,7,8,9 outlet respectively with a header b1, b2, b3, the inlet of b4 connects, each header b1, b2, b3, the outlet of b4 is installed in respectively on collector pipe 5, is connected with drip irrigation system via outlet pipe.
The discharge that enters the spiral-flow type whizzer is directly determining the swirl velocity of water, is the key factor of decision separating effect.Four first isocon a1 that decompose the water yield are housed respectively on distributive pipe 35, the second isocon a2, the 3rd isocon a3, the 4th isocon a4, the water inlet of each isocon obliquely is installed on the distributive pipe 35 to relative with feed water flow respectively, with the cross-sectional area of nearest first isocon a1 water inlet of water inlet pipe be 1/4 of distributive pipe 35 cross-sectional areas, the cross section of the second isocon a2 water inlet is 2/4 of distributive pipe 35 cross-sectional areas, the cross section of the 3rd isocon a3 water inlet is 3/4 of distributive pipe 35 cross-sectional areas, the cross section of the 4th isocon a4 water inlet is 4/4 of distributive pipe 35 cross-sectional areas, make the branch water yield of each isocon all account for 1/4 of Total Water, guarantee respectively to organize the unanimity of silt particle piece-rate system separating effect.
The spiral-flow type whizzer adopts the integral one-step molding technology, at vertical, the horizontal nothing butt joint seam and the solder joint of spiral-flow type whizzer.Whole material unanimity.The spiral-flow type whizzer has been avoided because the defective that seam in use forms, made the separating effect of spiral-flow type whizzer stable, long service life.
Description of drawings
Fig. 1 is the front view of apparatus of the present invention, and Fig. 2 is its vertical view.
The specific embodiment
As Fig. 1, Figure 2 shows that drip-irrigation water-current mud-sand separation system, the top of its cyclone centrifugal separator is a cylinder, the bottom is the awl tube, silt outlet in the cyclone centrifugal separator bottom is connected to husky jar an of collection, water inlet pipe is connected with distributive pipe 35, four first isocon a1 that decompose the water yield are housed respectively on distributive pipe 35, the second isocon a2, the 3rd isocon a3, the 4th isocon a4, the water inlet of each isocon obliquely is installed on the distributive pipe 35 to relative with feed water flow respectively, with the cross-sectional area of the nearest first isocon a1 water inlet of water inlet pipe be 1/4 of distributive pipe 35 cross-sectional areas, the cross-sectional area of the second isocon a2 water inlet is 2/4 of distributive pipe 35 cross-sectional areas, the cross-sectional area of the 3rd isocon a3 water inlet is 3/4 of distributive pipe 35 cross-sectional areas, the cross-sectional area of the 4th isocon a4 water inlet is 4/4 of distributive pipe 35 cross-sectional areas, the delivery port of each isocon is installed in a cyclone centrifugal separator 32 respectively, 30,26, on 24 the cylinder, at each cyclone centrifugal separator 32,30,26, the silt outlet of 24 bottom connects husky jar 31 of a collection respectively, 29,27,25, each cyclone centrifugal separator 31,29,27, the outlet on 25 tops respectively with a laminated filter 4,7,8,9 inlet connects, each laminated filter 4,7,8,9 outlet respectively with a header b1, b2, b3, the inlet of b4 connects, each header b1, b2, b3, the outlet of b4 is installed in respectively on collector pipe 5, is connected with drip irrigation system via outlet pipe.One quick pressure relieving valve 34 is housed on distributive pipe 35.One Pressure gauge 3 is housed on distributive pipe 35.Water inlet pipe is made up of first water inlet pipe 33 that is shaped as bend pipe and second water inlet pipe 1, and second water inlet pipe 1 is connected with distributive pipe 35 by a ring flange 2.
As shown in Figure 1, outlet pipe is by first outlet pipe 12, second outlet pipe 13, the 3rd outlet pipe 15, the 4th outlet pipe 17, the 5th outlet pipe 20, the 6th outlet pipe 21 is formed, the outlet of collector pipe 5 is connected by the inlet of ring flange 10 with first outlet pipe 12 that is shaped as bend pipe, the outlet of first outlet pipe 12 is connected with second outlet pipe 13 that is shaped as bend pipe, the outlet of second outlet pipe 13 is connected with the inlet of the 3rd outlet 15 that is shaped as straight tube, the outlet of the 3rd outlet pipe 15 is connected with the inlet of the 4th outlet pipe 17 that is shaped as straight tube, the outlet of the 4th outlet pipe 17 is connected with the inlet of the 5th outlet pipe 20 that is shaped as bend pipe, the outlet of the 5th outlet pipe 20 is connected with the inlet of the 6th outlet pipe 21 that is shaped as bend pipe, and the height of the outlet K2 of the 6th outlet pipe 21 is lower than the height of the inlet K1 of the first water inlet bend pipe 33.
As shown in Figure 1, a Pressure gauge 6 is installed on collector pipe 5, one air bleeding valve 11 is installed on first outlet pipe 12, one butterfly valve 14 is installed between second outlet pipe 13 and the 3rd outlet pipe 15, one water meter 16 is installed between the 3rd outlet pipe 15 and the 4th outlet pipe 17, one check-valves 18 is installed between the 4th outlet pipe 17 and the 5th outlet pipe 20, a Pressure gauge 19 is installed on the 5th outlet pipe 20.As shown in Figure 1 and Figure 2, distributive pipe 35 is installed on the support 28, and the 3rd outlet pipe 15 is installed on the support 23, and the 4th outlet pipe 17 is installed on the support 22.
As Fig. 1, shown in Figure 2, water is flowed into by water inlet K1, enter distributive pipe 35 by water inlet pipe, respectively moisture is flow in the corresponding cyclone centrifugal separator by four isocons on the distributive pipe 35 and to form eddy flow, make silt in the water get rid of inwall to the eddy flow cyclone, flow to respectively downwards in the husky jar of corresponding collection, the water that contains fine silt focuses on the central upper portion of spiral-flow type whizzer, and the pressure by water upwards flows into corresponding laminated filter respectively, after the filtering of laminated filter, clear water flows to the outlet of laminated filter, collect in the collector pipe 5 via four headers that are installed on the collector pipe 5, via header 6, water after outlet pipe will be handled feeds drip irrigation system.
Claims (5)
1, drip-irrigation water-current mud-sand separation system, the top of cyclone centrifugal separator is a cylinder, the bottom is the awl tube, silt outlet in the cyclone centrifugal separator bottom is connected to husky jar an of collection, it is characterized in that water inlet pipe is connected with distributive pipe (35), four first isocons (a1) that decompose the water yield are housed respectively on distributive pipe (35), second isocon (a2), the 3rd isocon (a3), the 4th isocon (a4), the water inlet of each isocon obliquely is installed on the distributive pipe (35) to relative with feed water flow respectively, with the cross-sectional area of nearest first isocon (a1) water inlet of water inlet pipe be 1/4 of distributive pipe (35) cross-sectional area, the cross-sectional area of second isocon (a2) water inlet is 2/4 of distributive pipe (a 35) cross-sectional area, the cross-sectional area of the 3rd isocon (a3) water inlet is 3/4 of distributive pipe (a 35) cross-sectional area, the cross-sectional area of the 4th isocon (a4) water inlet is 4/4 of distributive pipe (a 35) cross-sectional area, the delivery port of each isocon is installed in a cyclone centrifugal separator (32 respectively, 30,26,24) on the cylinder, at each cyclone centrifugal separator (32,30,26, the silt outlet of bottom 24) connects husky jar (31 of a collection respectively, 29,27,25), each cyclone centrifugal separator (31,29,27,25) outlet on top respectively with a laminated filter (4,7,8,9) inlet connects, each laminated filter (4,7,8,9) outlet respectively with a header (b1, b2, b3, b4) inlet connects, each header (b1, b2, b3, b4) outlet is installed in respectively on collector pipe (5), is connected with drip irrigation system via outlet pipe.
2, the water flow mud-sand separator that is used for drip irrigation according to claim 1 is characterized in that being equipped with a quick pressure relieving valve (34) on distributive pipe (35).
3, the water flow mud-sand separator that is used for drip irrigation according to claim 1 is characterized in that being equipped with a Pressure gauge (3) on distributive pipe (35).
4, the water flow mud-sand separator that is used for drip irrigation according to claim 1, it is characterized in that outlet pipe is by first outlet pipe (12), second outlet pipe (13), the 3rd outlet pipe (15), the 4th outlet pipe (17), the 5th outlet pipe (20), the 6th outlet pipe (21) is formed, the outlet of collector pipe (5) is connected with the inlet of first outlet pipe (12) that is shaped as bend pipe, the outlet of first outlet pipe (12) is connected with second outlet pipe (13) that is shaped as bend pipe, the outlet of second outlet pipe (13) is connected with the inlet of the 3rd outlet (15) that is shaped as straight tube, the outlet of the 3rd outlet pipe (15) is connected with the inlet of the 4th outlet pipe (17) that is shaped as straight tube, the outlet of the 4th outlet pipe (17) is connected with the inlet of the 5th outlet pipe (20) that is shaped as bend pipe, the outlet of the 5th outlet pipe (20) is connected with the inlet of the 6th outlet pipe (21) that is shaped as bend pipe, and the height of the outlet (K2) of the 6th outlet pipe (21) is lower than the height of the inlet (K1) of the first water inlet bend pipe (33).
5, the water flow mud-sand separator that is used for drip irrigation according to claim 1 and 2, it is characterized in that going up an installation Pressure gauge (6) at collector pipe (5), go up installation one air bleeding valve (11) at first outlet pipe (12), one butterfly valve (14) is installed between second outlet pipe (13) and the 3rd outlet pipe (15), one water meter (16) is installed between the 3rd outlet pipe (15) and the 4th outlet pipe (17), one check-valves (18) is installed between the 4th outlet pipe (17) and the 5th outlet pipe (20), is gone up at the 5th outlet pipe (20) Pressure gauge (19) is installed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2007100175059A CN100551485C (en) | 2007-03-09 | 2007-03-09 | Drip-irrigation water-current mud-sand separation system |
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CNB2007100175059A CN100551485C (en) | 2007-03-09 | 2007-03-09 | Drip-irrigation water-current mud-sand separation system |
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CN101069793A true CN101069793A (en) | 2007-11-14 |
CN100551485C CN100551485C (en) | 2009-10-21 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103675003A (en) * | 2013-12-28 | 2014-03-26 | 苏州市东华试验仪器有限公司 | Split type freezing and thawing testing machine |
CN104174220A (en) * | 2014-09-05 | 2014-12-03 | 上海华畅环保设备发展有限公司 | Cyclone purification method and device for cooling water of purification loop of reactor pit of a pressurized water reactor nuclear power plant |
CN106621553A (en) * | 2017-01-18 | 2017-05-10 | 威海韩海沐浴自动化设备有限公司 | Filter system |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102897969A (en) * | 2012-09-24 | 2013-01-30 | 江门市三清环境技术工程有限公司 | Multifunctional composite sewage purifier |
-
2007
- 2007-03-09 CN CNB2007100175059A patent/CN100551485C/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103675003A (en) * | 2013-12-28 | 2014-03-26 | 苏州市东华试验仪器有限公司 | Split type freezing and thawing testing machine |
CN104174220A (en) * | 2014-09-05 | 2014-12-03 | 上海华畅环保设备发展有限公司 | Cyclone purification method and device for cooling water of purification loop of reactor pit of a pressurized water reactor nuclear power plant |
CN104174220B (en) * | 2014-09-05 | 2016-03-30 | 上海华畅环保设备发展有限公司 | Pressurized-water reactor nuclear power plant reactor pit purification circuit cooling water eddy flow purification method and device |
CN106621553A (en) * | 2017-01-18 | 2017-05-10 | 威海韩海沐浴自动化设备有限公司 | Filter system |
CN106621553B (en) * | 2017-01-18 | 2019-07-30 | 威海韩海沐浴自动化设备有限公司 | Filtration system |
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CN100551485C (en) | 2009-10-21 |
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Granted publication date: 20091021 Termination date: 20110309 |