CN201778995U - Simulative deep well testing pipeline utilizing submersible pump - Google Patents
Simulative deep well testing pipeline utilizing submersible pump Download PDFInfo
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- CN201778995U CN201778995U CN201020279421XU CN201020279421U CN201778995U CN 201778995 U CN201778995 U CN 201778995U CN 201020279421X U CN201020279421X U CN 201020279421XU CN 201020279421 U CN201020279421 U CN 201020279421U CN 201778995 U CN201778995 U CN 201778995U
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Abstract
A simulative deep well testing pipeline utilizing a submersible pump comprises a simulative deep well pressure tank connected with a testing pipeline, and is characterized in that the simulative deep well testing pipeline comprises a straight-through long pipe and a straight-through short pipe which are connected with the pressure tank; the straight-through long pipe is connected with a circumscribed part A through an inscribed part A; the circumscribed part A is connected with a loose joint A; the loose joint A is connected with a straight pipe A; the straight pipe A is connected with a flanged straight pipe through a bent pipe A; a flow sensor is mounted in the middle of the flanged straight pipe; the flanged straight pipe is connected with a straight pipe B through a bent pipe B; the straight pipe B is connected with a pressure sensing connector through a loose joint B; the pressure sensing connector is connected with an adjusting valve; the adjusting valve is connected with a circumscribed part B; and the circumscribed part B is connected with the straight-through short pipe through an inscribed part B. In the scheme, the submersible pump needs not to be interposed in the deep well, and the flow rate and the pressure of the submersible pump can be effectively detected, so that the simulative deep well testing pipeline is convenient to use and operate, the labor cost and the manufacturing cost are reduced, and the simulative deep well testing pipeline utilizing the submersible pump is superior to the prior art.
Description
Technical field
The utility model relates to submersible pump simulation deep-well test pipeline.
Background technique
Whether reach standard in order to detect flow that creates submersible pump and the pressure that can bear; usually submersible pump can be put in deep-well or the deep water and detect; the shortcoming of its existence is: each detection all will be installed to pump in deep-well or the deep water; operation is trouble very; increase artificial expense, improved cost of production.
Summary of the invention
The purpose of this utility model is in order to overcome the shortcoming that prior art exists, a kind of test system of simulating state in the deep-well to be provided, and is easy to detect, reduces the submersible pump simulation deep-well test pipeline of labour cost and cost of production.
The technological scheme of the utility model submersible pump simulation deep-well test pipeline is: comprise the simulation deep-well pressurized tank that connects the test pipeline, it is characterized in that described simulation deep-well test pipeline comprises straight-through long tube and the straight-through short tube that connects pressurized tank, straight-through long tube is external by connecing first in the first in succession, the loose joint of the external connection first of first, the first loose joint connects the first straight tube, the first straight tube is by first bend pipe connecting band flange straight tube, flow transducer is installed in the middle of flanged straight tube, flanged straight tube connects the second straight tube by the second bend pipe, the second straight tube connects the pressure sensing joint by the second loose joint, the pressure sensing joint connects modulating valve, it is external that modulating valve connects second, and second is external by connecing straight-through short tube in the second in succession.
The utility model discloses a kind of submersible pump simulation deep-well test pipeline, water at first flows into straight-through long tube from pressurized tank, again by connecing in the first, first is external to flow in the first straight tube with the first loose joint, flow to flanged straight tube and flow transducer through the first bend pipe again, flow to the second straight tube by the second bend pipe again, loose joint flows to pressure sensing joint and modulating valve through second then, external by second at last, receive straight-through short tube in the second, and flow back in the pressurized tank, water is under the effect of pressurized tank, pressure in the simulation deep-well, and by flow transducer and pressure sensing joint (flow transducer and pressure sensing joint connection traffic detection system and pressure detecting system, concrete structure belongs to prior art) carry out the flow and the pressure of test water, thus reaching the purpose that detects submersible pump, this programme does not need submersible pump is put into deep-well, just can effectively detect submersible pump flow and pressure, use easy to operately, reduced labour cost and cost of production, be prior art can't be obtained.
The utility model submersible pump simulation deep-well test pipeline, external third bend pipe that passes through of described second connects third straight tube, and third straight tube connects third external by the fourth bend pipe, and third is external by connecing straight-through short tube in the second in succession.Had third bend pipe to connect third straight tube, third straight tube connects the fourth bend pipe, has shortened the distance between straight-through short tube and the straight-through long tube, thereby has reduced the volume of pressurized tank, has reduced cost of production.
Description of drawings
Fig. 1 is the utility model submersible pump simulation deep-well testing tube line structure schematic representation.
Embodiment
The utility model relates to a kind of submersible pump simulation deep-well test pipeline, as shown in Figure 1, comprise the simulation deep-well pressurized tank 1 that connects the test pipeline, it is characterized in that described simulation deep-well test pipeline comprises straight-through long tube 2 and the straight-through short tube 8 that connects pressurized tank 1, straight-through long tube 2 connects first external 22 by connecing 21 in the first, first external 22 connects first loose joint 23, the first loose joint connects first straight tube 3, first straight tube 3 is by first bend pipe 31 connecting band flange straight tubes 4, in the middle of flanged straight tube 4, flow transducer 41 is installed, flanged straight tube 4 connects second straight tube 5 by second bend pipe 42, the second straight tube connects pressure sensing joint 6 by second loose joint 51, the pressure sensing joint connects modulating valve 7, and it is external 71 that modulating valve connects second, and second external 71 connects straight-through short tube 8 by connecing 72 in the second.During work, water at first flows into straight-through long tube 2 from pressurized tank 1, again by connecing 21 in the first, first external 22 and first loose joint 23 flow in the first straight tube 3, flow to flanged straight tube 4 and flow transducer 41 through first bend pipe 31 again, flow to second straight tube 5 by second bend pipe 42 again, flow to pressure sensing joint 6 and modulating valve 7 through second loose joint 51 then, at last by second external 71, connect 72 in the second to straight-through short tube 8, and flow back in the pressurized tank 1, water is under the effect of pressurized tank 1, pressure in the simulation deep-well, and by flow transducer 41 and pressure sensing joint 6 (flow transducer and pressure sensing joint connection traffic detection system and pressure detecting system, concrete structure belongs to prior art) carry out the flow and the pressure of test water, thus reaching the purpose that detects submersible pump, this programme does not need submersible pump is put into deep-well, just can effectively detect submersible pump flow and pressure, use easy to operately, reduced labour cost and cost of production, be prior art can't be obtained.Described second external 71 connects third straight tube, 9, the third straight tubes 9 by third bend pipe 73 and connects third external 92, the third external 92 by connecing the straight-through short tube 8 of 72 connections in the second by fourth bend pipe 91.There has been third bend pipe 73 to connect third straight tube, 9, the third straight tubes 9 and connected fourth bend pipe 91, shortened the distance between straight-through short tube 8 and the straight-through long tube 2, thereby reduced the volume of pressurized tank 1, reduced cost of production.
Claims (2)
1. submersible pump simulation deep-well is tested pipeline, comprise the simulation deep-well pressurized tank (1) that connects the test pipeline, it is characterized in that described simulation deep-well test pipeline comprises straight-through long tube (2) and the straight-through short tube (8) that connects pressurized tank (1), straight-through long tube (2) connects first external (22) by connecing (21) in the first, first external (22) connects first loose joint (23), the first loose joint connects first straight tube (3), first straight tube (3) is by first bend pipe (31) connecting band flange straight tube (4), flow transducer (41) is installed in the middle of flanged straight tube (4), flanged straight tube (4) connects second straight tube (5) by second bend pipe (42), the second straight tube connects pressure sensing joint (6) by second loose joint (51), the pressure sensing joint connects modulating valve (7), modulating valve connects second external (71), and second external (71) connects straight-through short tube (8) by connecing (72) in the second.
2. submersible pump simulation deep-well test pipeline as claimed in claim 1, it is characterized in that described second external (71) connects third straight tube (9) by third bend pipe (73), third straight tube connects third external (92) by fourth bend pipe (91), and third is external by connecing the straight-through short tube (8) of (72) connection in the second.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201020279421XU CN201778995U (en) | 2010-07-30 | 2010-07-30 | Simulative deep well testing pipeline utilizing submersible pump |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201020279421XU CN201778995U (en) | 2010-07-30 | 2010-07-30 | Simulative deep well testing pipeline utilizing submersible pump |
Publications (1)
Publication Number | Publication Date |
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CN201778995U true CN201778995U (en) | 2011-03-30 |
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Family Applications (1)
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CN201020279421XU Expired - Fee Related CN201778995U (en) | 2010-07-30 | 2010-07-30 | Simulative deep well testing pipeline utilizing submersible pump |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104564643A (en) * | 2015-01-06 | 2015-04-29 | 江苏大学 | Immersed pump cavitation test bed |
CN105443369A (en) * | 2015-12-05 | 2016-03-30 | 新界泵业集团股份有限公司 | Nondestructive detection method of immersible pump |
CN105604928A (en) * | 2015-12-23 | 2016-05-25 | 武汉船用机械有限责任公司 | Experiment system suitable for deep well pump |
-
2010
- 2010-07-30 CN CN201020279421XU patent/CN201778995U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104564643A (en) * | 2015-01-06 | 2015-04-29 | 江苏大学 | Immersed pump cavitation test bed |
CN105443369A (en) * | 2015-12-05 | 2016-03-30 | 新界泵业集团股份有限公司 | Nondestructive detection method of immersible pump |
CN105443369B (en) * | 2015-12-05 | 2019-02-19 | 新界泵业集团股份有限公司 | A kind of lossless detection method of immersible pump |
CN105604928A (en) * | 2015-12-23 | 2016-05-25 | 武汉船用机械有限责任公司 | Experiment system suitable for deep well pump |
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Date | Code | Title | Description |
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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 |
Granted publication date: 20110330 Termination date: 20150730 |
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EXPY | Termination of patent right or utility model |