CN204115988U - A kind of airtight leak locator of differential pressure type for large volume measured object - Google Patents
A kind of airtight leak locator of differential pressure type for large volume measured object Download PDFInfo
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- CN204115988U CN204115988U CN201420569708.4U CN201420569708U CN204115988U CN 204115988 U CN204115988 U CN 204115988U CN 201420569708 U CN201420569708 U CN 201420569708U CN 204115988 U CN204115988 U CN 204115988U
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Abstract
The utility model provides a kind of airtight leak locator of differential pressure type for large volume measured object, it comprises: primarily of the test gas circuit mechanism of test pressurized air source interface, three gas filling valves, two equalizing valves, three vent valve, pressure transducer and differential pressure pick-up compositions, primarily of driving gas circuit mechanism and the control circuit of three solenoid valve compositions.The utility model is the bypass that measured object and primary standard substance all devise for direct charge, exhaust, the function of bypass aerating device and By-pass vent device is just all integrated in leak locator, user is connected with distribution without the need to carrying out complicated pipe arrangement, direct use one is for the airtight leak locator of differential pressure type of large volume measured object, the detection demand of large volume measured object can be met, and it is low to reduce equipment purchasing cost, saves equipment occupation space.
Description
Technical field
The utility model is created and is belonged to airtight detecting apparatus field, especially relates to a kind of airtight leak locator of differential pressure type for large volume measured object.
Background technology
Current air hermetic leak locator adopts following technical scheme:
1, the gas circuit that flow is limited: in the inflationtime preset, measured object is inflated, then through default balance, detection time, record the differential pressure that measured object produces within the unit interval, calculate leakage rate accordingly, then in the evacuation time preset, the gas-pressurized in measured object is discharged.When filling exhaust, gas all will divide two-way to flow through equalizing valve, fills extraction flow and is all restricted.
2, when measured object volume is larger, default inflationtime and evacuation time can not meet detection needs, and namely inflationtime and evacuation time are not enough to measured object to be full of with emptying.Need use bypass aerating device and By-pass vent device in parallel with leak locator, realize the airtight leak detection of large volume measured object.Or lengthen inflationtime to stablize to reach gas, the method detection efficiency is low.
The shortcoming of prior art:
1, gas circuit connects complexity, potential leak source is many, and equipment purchasing cost is high.When detecting large volume measured object, need airtight for differential pressure type leak locator and bypass aerating device, By-pass vent device in parallel, then be connected to measured object together, pipeline connects complicated.And add extra cost input.
2, space availability ratio is low: due to needs placement five equipment (the airtight leak locator of differential pressure type, two bypass aerating devices and two By-pass vent devices), occupy more space, affect the rational deployment of industry spot production line.
Utility model content
In view of this, the utility model is intended to propose a kind of airtight leak locator of differential pressure type for large volume measured object, to solve when detecting large volume measured object, existing leak locator also needs external bypass charge, exhaust device, causes gas circuit to connect the technical matters complicated, equipment purchasing cost is high, space availability ratio is low.
For achieving the above object, the technical solution of the utility model is achieved in that
For the airtight leak locator of differential pressure type of large volume measured object, it comprises:
Test gas circuit mechanism, comprises test pressurized air source interface, first, second, third gas filling valve, first, second equalizing valve, first, second, third vent valve, pressure transducer and differential pressure pick-up; Described test pressurized air source interface is connected with the input end of first, second, third gas filling valve respectively by bifurcated pipeline; The output terminal of described first gas filling valve is connected with the input end of first, second equalizing valve, first row air valve and pressure transducer respectively by bifurcated pipeline; The output terminal of first row air valve is connected with an exhausr port; The output terminal of described first equalizing valve is connected with the input end of the 3rd vent valve with the output terminal of one end of differential pressure pick-up, measured object interface, the 3rd gas filling valve respectively by bifurcated pipeline; The output terminal of the 3rd vent valve is connected with an exhausr port; The output terminal of described second equalizing valve is connected with the input end of second row air valve with the output terminal of the other end of differential pressure pick-up, primary standard substance interface, the second gas filling valve respectively by bifurcated pipeline; The output terminal of second row air valve is connected with an exhausr port.Also include the driving gas circuit mechanism driving above-mentioned each gas filling valve, equalizing valve and vent valve break-make.
Further, described driving gas circuit mechanism, comprise and drive pressurized air source interface, drive pressurized air source interface to be connected with the input end of first, second, third solenoid valve respectively by bifurcated pipeline, the output terminal of described first solenoid valve is connected with the control end of first, second, third gas filling valve respectively by bifurcated pipeline; The output terminal of described second solenoid valve is connected with the control end of first, second equalizing valve respectively by bifurcated pipeline; The output terminal of described 3rd solenoid valve is connected with the control end of first, second, third vent valve respectively by bifurcated pipeline.
Further, also comprise control gear, it comprises control module, and control module is electrically connected the control end of first, second, third solenoid valve and differential pressure pick-up and pressure transducer respectively.
Relative to prior art, the airtight leak locator of differential pressure type described in the utility model has following advantage:
(1) applied widely: to use one for the airtight leak locator of differential pressure type of large volume measured object, the measured object of various volume can be detected.
(2) acquisition cost is low: use one for the airtight leak locator of differential pressure type of large volume measured object, the work that original three equipment (the airtight leak locator of differential pressure type, bypass aerating device, By-pass vent device) just can complete can be engaged in, greatly reduce acquisition cost.
(3) space is saved: using the airtight leak locator of differential pressure type being used for large volume measured object, without the need to separately purchasing bypass aerating device and By-pass vent device, the space of hold facility can be effectively reduced.
Accompanying drawing explanation
The accompanying drawing forming a part of the present utility model is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:
Fig. 1 is the schematic diagram of structure of the airtight leak locator of differential pressure type described in the utility model embodiment; Dotted line in figure is for driving pressure gas channel, and solid line is test pressure gas channel, and dot-and-dash line is circuit.
Description of reference numerals:
1-drives pressurized air source interface;
2-tests pressurized air source interface;
31,32,33 the first gas filling valve, the second gas filling valve, the 3rd gas filling valve is respectively: be 2/2-way normally closed type Pneumatic valve, open in aeration phase, measured object is inflated in advance, inflated rear closedown;
41,42 be respectively the first equalizing valve, the second equalizing valve: be 2/2-way and often open Pneumatic valve, close before completing to detection after inflation completes, all the other moment open;
51,52,53 be respectively first row air valve, second row air valve, the 3rd vent valve: be 2/2-way and often open Pneumatic valve, close in testing process (from inflation, terminating until detect), open after having detected;
6-differential pressure pick-up: be used for detecting measured object and leak;
7-measured object interface, for connecting measured object;
8-primary standard substance interface, for connecting primary standard substance;
91,92,93-exhausr port;
10-first solenoid valve: 2/2-way normally close valve, is used for driving three gas filling valves;
11-second solenoid valve: 2/2-way normally close valve, is used for driving two equalizing valves;
12-the 3rd solenoid valve: 2/2-way normally close valve, is used for driving three vent valves;
13-pressure transducer;
14-control module;
Embodiment
It should be noted that, when not conflicting, the embodiment in the utility model and the feature in embodiment can combine mutually.
Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.
Fig. 1 is the schematic diagram of structure of the airtight leak locator of differential pressure type described in the utility model; Dotted line in figure is for driving pressure gas channel, and solid line is test pressure gas channel, and dot-and-dash line is circuit.
As shown in Figure 1, the airtight leak locator of differential pressure type for large volume measured object described in the utility model, it comprises:
Test gas circuit mechanism, comprise test pressurized air source interface 2, first, second, third gas filling valve (31,32,33), first, second equalizing valve (41,42), first, second, third vent valve (51,52,53), pressure transducer 13 and differential pressure pick-up 6;
Described test pressurized air source interface 2 is connected with the input end of first, second, third gas filling valve (31,32,33) respectively by bifurcated pipeline;
The output terminal of described first gas filling valve 31 is connected with the input end of first, second equalizing valve (41,42), first row air valve 51 and pressure transducer respectively by bifurcated pipeline; The output terminal of first row air valve 51 is connected with an exhausr port 91;
The output terminal of described first equalizing valve 41 is connected with the input end of the 3rd vent valve 53 with the output terminal of one end of differential pressure pick-up 6, measured object interface 7, the 3rd gas filling valve 33 respectively by bifurcated pipeline; The output terminal of the 3rd vent valve 53 is connected with an exhausr port 93;
The output terminal of described second equalizing valve 42 is connected with the input end of second row air valve 52 with the other end of differential pressure pick-up 6, the output terminal of primary standard substance interface 8, second gas filling valve 32 respectively by bifurcated pipeline; The output terminal of second row air valve 52 is connected with an exhausr port 92.
Also include the driving gas circuit mechanism driving above-mentioned each gas filling valve, equalizing valve and vent valve break-make.
Charge, exhaust bypass is built in leak locator by the utility model, for measured object and primary standard substance all devise the bypass for direct charge, exhaust, like this, the function of bypass aerating device and By-pass vent device is just all integrated in leak locator, user is connected with distribution without the need to carrying out complicated pipe arrangement, direct use one, for the airtight leak locator of differential pressure type of large volume measured object, can meet the detection demand of large volume measured object.
Above-mentioned each gas filling valve, equalizing valve and vent valve can be solenoid valves, also can be pneumatic valves.The utility model provides a kind of when above-mentioned each gas filling valve, equalizing valve and vent valve are pneumatic valve, drive the embodiment of the driving gas circuit mechanism of their break-makes, be specially as shown in Figure 1, comprise and drive pressurized air source interface 1, pressurized air source interface 1 is driven to be connected with the input end of first, second, third solenoid valve (10,11,12) respectively by bifurcated pipeline, the output terminal of described first solenoid valve 10 is connected with the control end of first, second, third gas filling valve (31,32,33) respectively by bifurcated pipeline, drives the break-make of three gas filling valves; The output terminal of described second solenoid valve 11 is connected with the control end of first, second equalizing valve (41,42) respectively by bifurcated pipeline, drives the break-make of two equalizing valves; The output terminal of described 3rd solenoid valve 12 is connected with the control end of first, second, third vent valve (51,52,53) respectively by bifurcated pipeline, drives the break-make of three vent valves.
Further, the utility model additionally provides control gear, as shown in Figure 1, it comprises control module 1, and control module 1 is electrically connected the control end of first, second, third solenoid valve (10,11,12) and differential pressure pick-up 6 and pressure transducer 13 respectively.Controlled the break-make of three solenoid valves (10,11,12) by control module 1, and accept the signal of differential pressure pick-up 6 and pressure transducer 13, perform and detect and display testing result, calculate the leakage rate of measured object.
As shown in Figure 1, detection method of the present utility model is:
1, in the standby state, control module can close gas filling valve, and vent valve and equalizing valve stay open state;
2, when testing process starts, first control module will open gas filling valve, close vent valve, inflate, so that before testing, make measured object and primary standard substance internal pressure reach test pressure in advance to measured object and primary standard substance.After the inflationtime preset, control module will close gas filling valve, stop inflation.
3, now, control module, by within the time of presetting, is monitored test pressure sensor 13, judges whether the test pressure in measured object meets the requirements.
4, then, control module will close equalizing valve, and the gas circuit now between primary standard substance and measured object will be cut off, and control module is by the signal intensity of monitoring differential pressure pick-up, after terminating the detection time of presetting, judge the leakage rate (or slip) of measured object
5, last, control module will open vent valve and equalizing valve, gases at high pressure remaining in measured object and primary standard substance be discharged by vent valve, show testing result simultaneously on the main screen of control module.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (9)
1., for the airtight leak locator of differential pressure type of large volume measured object, it is characterized in that, comprising:
Test gas circuit mechanism, comprise test pressurized air source interface (2), first, second, third gas filling valve (31,32,33), first, second equalizing valve (41,42), first, second, third vent valve (51,52,53), pressure transducer (13) and differential pressure pick-up (6);
Described test pressurized air source interface (2) is connected with the input end of first, second, third gas filling valve (31,32,33) respectively by bifurcated pipeline;
The output terminal of described first gas filling valve (31) is connected with the input end of first, second equalizing valve (41,42), first row air valve (51) and pressure transducer (13) respectively by bifurcated pipeline;
The output terminal of described first equalizing valve (41) is connected with the input end of the 3rd vent valve (53) with the output terminal of one end of differential pressure pick-up (6), measured object interface (7), the 3rd gas filling valve (33) respectively by bifurcated pipeline;
The output terminal of described second equalizing valve (42) is connected with the input end of second row air valve (52) with the output terminal of the other end of differential pressure pick-up (6), primary standard substance interface (8), the second gas filling valve (32) respectively by bifurcated pipeline;
Also include the driving gas circuit mechanism driving above-mentioned each gas filling valve, equalizing valve and vent valve break-make.
2. the airtight leak locator of differential pressure type according to claim 1, it is characterized in that, described driving gas circuit mechanism comprises: drive pressurized air source interface (1), drive pressurized air source interface (1) to be connected with the input end of first, second, third solenoid valve (10,11,12) respectively by bifurcated pipeline, the output terminal of described first solenoid valve (10) is connected with the control end of first, second, third gas filling valve (31,32,33) respectively by bifurcated pipeline; The output terminal of described second solenoid valve (11) is connected with the control end of first, second equalizing valve (41,42) respectively by bifurcated pipeline; The output terminal of described 3rd solenoid valve (12) is connected with the control end of first, second, third vent valve (51,52,53) respectively by bifurcated pipeline.
3. the airtight leak locator of differential pressure type according to claim 2, is characterized in that, described first, second, third solenoid valve (10,11,12) is 2/2-way normally close valve.
4. the airtight leak locator of differential pressure type according to claim 2, it is characterized in that, also comprise control gear, it comprises control module (1), and control module (1) is electrically connected the control end of first, second, third solenoid valve (10,11,12) respectively.
5. the airtight leak locator of differential pressure type according to claim 3, is characterized in that, described control module (1) is also electrically connected described differential pressure pick-up (6) and described pressure transducer (13) respectively.
6. the airtight leak locator of differential pressure type according to claim 1, is characterized in that: the output terminal of described first, second, and third vent valve (51) is respectively connected with an exhausr port.
7. the airtight leak locator of differential pressure type according to claim 1, is characterized in that: described first, second, third gas filling valve (31,32,33) is 2/2-way normally closed type Pneumatic valve.
8. the airtight leak locator of differential pressure type according to claim 1, is characterized in that: first, second equalizing valve described (41,42) is 2/2-way Pneumatic valve open in usual.
9. the airtight leak locator of differential pressure type according to claim 1, is characterized in that: described first, second, third vent valve (51,52,53) is 2/2-way Pneumatic valve open in usual.
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CN201420569708.4U CN204115988U (en) | 2014-09-29 | 2014-09-29 | A kind of airtight leak locator of differential pressure type for large volume measured object |
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CN201420569708.4U CN204115988U (en) | 2014-09-29 | 2014-09-29 | A kind of airtight leak locator of differential pressure type for large volume measured object |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104236820A (en) * | 2014-09-29 | 2014-12-24 | 天津博益气动股份有限公司 | Differential pressure type airtightness detecting instrument and device for detecting large-sized objects |
CN105759862A (en) * | 2016-03-03 | 2016-07-13 | 北京卫星环境工程研究所 | Pressure control method for automatic air discharge process of satellite small-volume high-pressure pipeline system |
-
2014
- 2014-09-29 CN CN201420569708.4U patent/CN204115988U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104236820A (en) * | 2014-09-29 | 2014-12-24 | 天津博益气动股份有限公司 | Differential pressure type airtightness detecting instrument and device for detecting large-sized objects |
CN105759862A (en) * | 2016-03-03 | 2016-07-13 | 北京卫星环境工程研究所 | Pressure control method for automatic air discharge process of satellite small-volume high-pressure pipeline system |
CN105759862B (en) * | 2016-03-03 | 2019-03-01 | 北京卫星环境工程研究所 | The compress control method of the small capacity high pressure pipe-line system automatic deflation process of satellite |
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