CN205639113U - Device that monitoring energy storage ware fluid leaked - Google Patents
Device that monitoring energy storage ware fluid leaked Download PDFInfo
- Publication number
- CN205639113U CN205639113U CN201620309488.0U CN201620309488U CN205639113U CN 205639113 U CN205639113 U CN 205639113U CN 201620309488 U CN201620309488 U CN 201620309488U CN 205639113 U CN205639113 U CN 205639113U
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- China
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- integrated package
- valve
- gas outlet
- air inlet
- end cap
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Abstract
The utility model relates to a device that monitoring energy storage ware fluid leaked, it is by the inflation valve, the integrated package, the stop valve, the attenuator, an unidirectional valve, the detector is constituteed, the pneumatic valve interface connection on the end cover is held to the air inlet and the energy storage ware gas of integrated package, the inflation opening connected of inflation valve and integrated package, the detector is connected with the gas outlet of integrated package, the air inlet of stop valve is connected with the air inlet of integrated package, the gas outlet of stop valve is connected with the air inlet of attenuator, the gas outlet of attenuator is connected with the air inlet of check valve, the gas outlet of check valve is connected with the gas outlet of integrated package. Its advantage is: overall structure is simple, and the dismouting is convenient, convenient to use, and it is accurate to detect aero. Do not disassembling under the prerequisite of unloading the energy storage ware, can monitor the energy storage ware quick, directly perceivedly and whether have fluid and reveal, judging whether damaged it is, can in time change, guarantees system's normal operating, practices thrift a large amount of repair time, improves work efficiency from this.
Description
Technical field
This utility model relates to a kind of device monitoring accumulator oil liquid leakage.Belong to energy accumulating device detection technique field.
Background technology
At present, tradition accumulator in use modal a kind of fault be that fluid enters air cavity, cause its cisco unity malfunction, cannot detect whether leather bag, piston or barrier film etc. damage on the premise of not dismantling accumulator.Whether if damaged accumulator can not find in time, can make a big impact system, thus have an accident, produce economic loss, and use dismounting mode to damage detecting accumulator, not only cost is high, efficiency is low, and is difficult to operation in actual condition.
Utility model content
The purpose of this utility model is to overcome above-mentioned deficiency, a kind of device monitoring accumulator oil liquid leakage is provided, its simple in construction, fluid whether can be had to enter in monitoring accumulator air cavity quickly, intuitively, thus judge that it is the most damaged, it is possible to change in time, it is ensured that system is properly functioning, save a large amount of repair time, improve work efficiency.
The purpose of this utility model is achieved in that a kind of device monitoring accumulator oil liquid leakage, it includes charge valve, integrated package, stop valve, detector, check valve and antivibrator, the air inlet of described integrated package is connected with the air valve interface on accumulator gas end end cap, described charge valve is connected with the inflation inlet of integrated package, described detector is connected with the gas outlet of integrated package, the air inlet of described stop valve is connected with the air inlet of integrated package, the gas outlet of described stop valve is connected with the air inlet of antivibrator, the gas outlet of described antivibrator is connected with the air inlet of check valve, the gas outlet of described check valve is connected with the gas outlet of integrated package.
Preferably, described detector is mainly made up of piston rod, piston, vent valve and cylinder barrel;The two ends of described cylinder barrel are respectively arranged with left end cap and right end cap, and contact surface is respectively equipped with the 3rd O RunddichtringO and the 4th O RunddichtringO;Described piston is placed in cylinder barrel, between left end cap and right end cap;Threadeding through left end cap with integrated package gas outlet in one end of described piston rod, the other end is fixing with piston left side to be connected, and is provided with the passage being connected with cylinder barrel reaction chamber by accumulator air cavity in described piston rod;Described right end cap is provided with vent valve.
Preferably, described piston is disposed with the 3rd y-type seal ring, the 2nd O RunddichtringO and the 4th y-type seal ring, it is ensured that cylinder barrel reaction chamber does not connects with atmosphere chamber.
Preferably, described left end cap and plunger rod contacts face are disposed with the first y-type seal ring, an O RunddichtringO and the second y-type seal ring.
Compared with prior art, this utility model has the advantages that
This utility model overall structure is simple, and it is convenient to dismount, easy to use, and testing result is the most accurate.On the premise of not disassembling and unloading accumulator, can monitor whether accumulator exists fluid leakage quickly and intuitively, judge that it is the most damaged, simultaneously can be by the artificial intake velocity promoting detector to accelerate tested gas, thus it is greatly saved the repair time, improve monitoring efficiency, save cost, and this device can be applicable to the oil liquid leakage monitoring of any accumulator, applied widely.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of device monitoring accumulator oil liquid leakage of this utility model.
Fig. 2 is the left view of Fig. 1.
Fig. 3 is the I portion enlarged drawing in Fig. 1.
Fig. 4 is the A-A profile in Fig. 1.
Fig. 5 is a kind of device detection piston accumulator oil liquid leakage schematic diagram monitoring accumulator oil liquid leakage of this utility model.
Fig. 6 is a kind of device detection diaphragm accumulator oil liquid leakage schematic diagram monitoring accumulator oil liquid leakage of this utility model.
Fig. 7 is a kind of device detection bag type accumulator oil liquid leakage schematic diagram monitoring accumulator oil liquid leakage of this utility model.
Wherein: 1, charge valve;2, integrated package;3, stop valve;4, detector, 4.1, piston rod, the 4.2, first y-type seal ring, 4.3, an O RunddichtringO, the 4.4, second y-type seal ring, 4.5, left end cap, 4.6, the 3rd O RunddichtringO, the 4.7, the 3rd y-type seal ring, the 4.8, the 2nd O RunddichtringO, 4.9, the 4th y-type seal ring, 4.10, cylinder barrel, 4.11, piston, the 4.12, the 4th O RunddichtringO, 4.13, right end cap, 4.14, vent valve;5, check valve;6, antivibrator;7, piston accumulator;8, diaphragm accumulator;9, bag type accumulator.
Detailed description of the invention
Seeing Fig. 1, Fig. 2, Fig. 4, this utility model relates to a kind of device monitoring accumulator oil liquid leakage, and it is made up of charge valve 1, integrated package 2, stop valve 3, detector 4, check valve 5 and antivibrator 6.The air inlet of described integrated package 2 is connected with the air valve interface on accumulator gas end end cap, described charge valve 1 is connected with the inflation inlet of integrated package 2, described detector 4 is connected with the gas outlet of integrated package 2, the air inlet of described stop valve 3 is connected with the air inlet of integrated package 2, the gas outlet of described stop valve 3 is connected with the air inlet of antivibrator 6, the gas outlet of described antivibrator 6 is connected with the air inlet of check valve 5, and the gas outlet of described check valve 5 is connected with the gas outlet of integrated package 2.
Seeing Fig. 3, described detector 4 is made up of piston rod 4.1, piston the 4.11, the oneth O RunddichtringO the 4.3, the 2nd O RunddichtringO the 4.8, the 3rd O RunddichtringO the 4.6, the 4th O RunddichtringO the 4.12, first y-type seal ring the 4.2, second y-type seal ring the 4.4, the 3rd y-type seal ring the 4.7, the 4th y-type seal ring 4.9, vent valve 4.14, left end cap 4.5, right end cap 4.13 and cylinder barrel 4.10;Described cylinder barrel 4.10 one end is fixing with left end cap 4.5 to be connected, and the other end is fixing with right end cap 4.13 to be connected, and contact surface is respectively equipped with the 3rd O RunddichtringO 4.6 and the 4th O RunddichtringO 4.12;Described piston 4.11 is placed in cylinder barrel 4.10, between left end cap 4.5 and right end cap 4.13;Described 2nd O RunddichtringO the 4.8, the 3rd y-type seal ring the 4.7, the 4th y-type seal ring 4.9 is placed on piston, it is ensured that cylinder barrel 4.10 reaction chamber does not connects with atmosphere chamber;Threadeding through left end cap 4.5 with integrated package 2 gas outlet in one end of described piston rod 4.1, the other end is fixing with piston 4.11 left side to be connected, and is provided with passage in piston rod 4.1, and tested gas is entered in cylinder barrel 4.10 reaction chamber by passage and carries out chemical reaction;Described left end cap 4.5 is provided with O RunddichtringO the 4.3, first y-type seal ring 4.2 and second y-type seal ring 4.4 with piston rod 4.1 contact surface;Described vent valve 4.14 is connected on right end cap 4.13, it is ensured that cylinder barrel 4.10 atmosphere chamber communicates with air, prevents environmental contaminants from entering detector 4;Described cylinder barrel 4.10 is high-strength armoured-glass material, it is ensured that the intensity of detector 4, can directly observe the color change in reaction chamber simultaneously.
Seeing Fig. 1, described stop valve 3 is closed when accumulator is inflated, and prevents that air pressure is too high impacts damage to detector 4;Described stop valve 3 is not when carrying out leakage monitoring, it is necessary to be turned off;During described detector 4 accidental damage, stop valve 3 can be closed, be replaced;When described stop valve 3 is opened, accumulator leakage can be monitored.
Seeing Fig. 4, described antivibrator 6 is possible to prevent monitoring gas pressure too high too fast with flow velocity and detector 4 that is that cause damages;Described antivibrator 6 can be chosen according to the capacity of different accumulators and pressure.
Seeing Fig. 1, Fig. 2, described check valve 5, when not carrying out leakage monitoring, prevents detector 4 reaction chamber and atmosphere chamber from involuntary maneuver occurring, when carrying out leakage monitoring because producing pressure reduction, it is ensured that monitoring gas can enter detector 4 smoothly.
See Fig. 1, Fig. 2, Fig. 3, Fig. 4, when described detector 4 carries out accumulator fluid leakage monitoring, stop valve 3 is opened, gas in accumulator air cavity passes through stop valve 3, slow down through antivibrator 6, blood pressure lowering, detector piston rod 4.1 passage is entered by check valve 5, arrive cylinder barrel 4.10 reaction chamber, if containing leakage fluid in gas, then with the oxidation material generation chemical reaction in reaction chamber, can judge that by observing the color change of detector reaction chamber accumulator exists fluid and reveals, if gas does not leak fluid, then reaction chamber changes without color, may determine that accumulator No leakage.
Claims (4)
1. the device monitoring accumulator oil liquid leakage, it is characterized in that: it includes charge valve (1), integrated package (2), stop valve (3), detector (4), check valve (5) and antivibrator (6), the air inlet of described integrated package (2) is connected with the air valve interface on accumulator gas end end cap, described charge valve (1) is connected with the inflation inlet of integrated package (2), described detector (4) is connected with the gas outlet of integrated package (2), the air inlet of described stop valve (3) is connected with the air inlet of integrated package (2), the gas outlet of described stop valve (3) is connected with the air inlet of antivibrator (6), the gas outlet of described antivibrator (6) is connected with the air inlet of check valve (5), the gas outlet of described check valve (5) is connected with the gas outlet of integrated package (2).
A kind of device monitoring accumulator oil liquid leakage the most according to claim 1, it is characterised in that: described detector (4) is mainly made up of piston rod (4.1), piston (4.11), vent valve (4.14) and cylinder barrel (4.10);The two ends of described cylinder barrel (4.10) are respectively arranged with left end cap (4.5) and right end cap (4.13), and contact surface is respectively equipped with the 3rd O RunddichtringO (4.6) and the 4th O RunddichtringO (4.12);Described piston (4.11) is placed in cylinder barrel (4.10), is positioned between left end cap (4.5) and right end cap (4.13);Threaded through left end cap (4.5) with integrated package (2) gas outlet in one end of described piston rod (4.1), the other end is fixing with piston (4.11) left side to be connected, and is provided with the passage being connected with cylinder barrel (4.10) reaction chamber by accumulator air cavity in described piston rod (4.1);Described right end cap (4.13) is provided with vent valve (4.14).
A kind of device monitoring accumulator oil liquid leakage the most according to claim 2, it is characterized in that: on described piston (4.11), be disposed with the 3rd y-type seal ring (4.7), the 2nd O RunddichtringO (4.8) and the 4th y-type seal ring (4.9), it is ensured that cylinder barrel (4.10) reaction chamber does not connects with atmosphere chamber.
4. according to a kind of device monitoring accumulator oil liquid leakage described in Claims 2 or 3, it is characterised in that: described left end cap (4.5) and piston rod (4.1) contact surface are disposed with the first y-type seal ring (4.2), an O RunddichtringO (4.3) and the second y-type seal ring (4.4).
Priority Applications (1)
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CN201620309488.0U CN205639113U (en) | 2016-04-14 | 2016-04-14 | Device that monitoring energy storage ware fluid leaked |
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CN201620309488.0U CN205639113U (en) | 2016-04-14 | 2016-04-14 | Device that monitoring energy storage ware fluid leaked |
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CN201620309488.0U Expired - Fee Related CN205639113U (en) | 2016-04-14 | 2016-04-14 | Device that monitoring energy storage ware fluid leaked |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105757012A (en) * | 2016-04-14 | 2016-07-13 | 江阴秋钧机电设备有限公司 | Energy accumulator for monitoring oil leakage of energy accumulator |
-
2016
- 2016-04-14 CN CN201620309488.0U patent/CN205639113U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105757012A (en) * | 2016-04-14 | 2016-07-13 | 江阴秋钧机电设备有限公司 | Energy accumulator for monitoring oil leakage of energy accumulator |
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Legal Events
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: 20161012 Termination date: 20180414 |
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CF01 | Termination of patent right due to non-payment of annual fee |