CN208780542U - Based on the online water quality monitor self-checking device under vacuum ultra clean environment - Google Patents
Based on the online water quality monitor self-checking device under vacuum ultra clean environment Download PDFInfo
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- CN208780542U CN208780542U CN201821447952.8U CN201821447952U CN208780542U CN 208780542 U CN208780542 U CN 208780542U CN 201821447952 U CN201821447952 U CN 201821447952U CN 208780542 U CN208780542 U CN 208780542U
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- glassware
- water quality
- driving device
- dilution
- clean environment
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Abstract
This application discloses based on the online water quality monitor self-checking device under vacuum ultra clean environment, including mother vat, dilution bucket, the first microprocessor pump drive, second liquid metering pump, first pump housing, second pump housing, glassware, water quality testing meter and controller, mother liquor in mother vat can be pumped into glassware by the first microprocessor pump drive, and the dilution in dilution bucket can be pumped into glassware by second liquid metering pump.Thus, it is extracted into vacuum cleaned glass vessel by the way that the dilution in the mother liquor and dilution bucket in mother vat is directly passed through microprocessor pump drive respectively, the standard solution of configuration will not be made to be exposed in air, and mother liquor and dilution are accurately conveyed by microprocessor pump drive, it can be improved the accuracy of configured TOC standard solution;And dilution can first be pumped into water quality testing meter to the measurement for carrying out standard blank in advance by pumping.
Description
Technical field
The utility model relates to water quality monitors, more particularly to based on the online water quality monitor under vacuum ultra clean environment
Self-checking device.
Background technique
When configuring low concentration TOC standard solution, it will usually in air by standard solution exposure, so that configured TOC
Standard is not achieved in standard solution, moreover, certain material may be had existed in dilution in configuration standard solution, it is therefore, right
When configured standard solution detects, there can be error.
Utility model content
The purpose of this utility model is to be to provide the automatic school of online water quality monitor based under vacuum ultra clean environment
Standard apparatus solves one or more of the above-mentioned prior art problem.
One aspect according to the present utility model provides automatic based on the online water quality monitor under vacuum ultra clean environment
Calibrating installation, including mother vat, dilution bucket, the first microprocessor pump drive, second liquid metering pump, first pump housing, second pump housing,
Mother liquor in mother vat can be pumped into glassware by glassware, water quality testing meter and controller, the first microprocessor pump drive,
Dilution in dilution bucket can be pumped into glassware by second liquid metering pump;First pump housing can be by glassware
Interior liquid, which is pumped into detection, second pump housing in water quality testing meter, to be pumped into water quality detection for the dilution in dilution bucket
Detection in instrument;Controller is electrically connected the first microprocessor pump drive and second liquid metering pump.
The utility model by directly passing through level meter for the dilution in the mother liquor and dilution bucket in mother vat respectively
Measuring pumping will not be such that the standard solution of configuration is exposed in air into vacuum cleaned glass vessel, and pass through microprocessor pump drive
Accurately conveying mother liquor and dilution, can be improved the accuracy of configured TOC standard solution;And can by pump first will be dilute
It releases liquid and pumps into water quality testing meter the measurement for carrying out standard blank in advance.
In some embodiments: glassware is the vacuum cleaned glass vessel provided using low-voltage vacuum condensation method.
Thereby, it is possible to prevent the standard solution of configuration to be exposed in air, the accuracy of the standard solution of configuration is improved.
In some embodiments: further including shaking device, glassware can be shaken by shaking device;Shake dress
It sets including first base, first driving device and hinged seat, hinged seat is set at first base center, and hinged seat is articulated with glass
Glass vessel bottom center, first driving device are set to first base, and first driving device drives glassware around hinged seat
It swings.Thus, it is possible to be swung to glassware, mother liquor into glassware will be pumped and dilution is uniformly mixed.
In some embodiments: first driving device is cylinder or oil cylinder, and first base is equipped with for first driving device
The mounting groove of setting, the output end of first driving device are articulated with glassware bottom.Thus, it is possible to put to glassware
It is dynamic, mother liquor into glassware will be pumped and dilution is uniformly mixed.
In some embodiments: shaking device includes second base, the second driving device and the body of rod, the second driving device
It is set to second base, glassware is located above second base, and the second driving device drives glassware rotation, second base
Upper side circumferential direction is equipped with the wave sliding slot of dipping and heaving, and body of rod upper end is articulated with glassware, and body of rod lower end is slideably positioned in wave
In unrestrained sliding slot;Second driving device is first motor, and the output end of the second driving device is articulated with glassware bottom center.
Thus, it is possible to be swung to glassware, mother liquor into glassware will be pumped and dilution is uniformly mixed.
In some embodiments: shaking device includes third pedestal, third driving device and spring, spring be it is multiple,
Glassware bottom opposite sides passes through spring and is set to third pedestal, and glassware bottom is equipped with and sets for third driving device
The installation box body set, third driving device include the second motor and the eccentric wheel for being set to the second motor output end;Third driving
The quantity of device is two, and two third driving devices are respectively arranged at glassware two sides of the bottom.Thus, it is possible to glass
Vessel are swung, and will pump mother liquor into glassware and dilution is uniformly mixed.
Detailed description of the invention
Fig. 1 is structure of the utility model based on the online water quality monitor self-checking device under vacuum ultra clean environment
Schematic diagram;
Fig. 2 is shaking of the utility model based on the online water quality monitor self-checking device under vacuum ultra clean environment
The schematic structural diagram of the second embodiment of device;
Fig. 3 is shaking of the utility model based on the online water quality monitor self-checking device under vacuum ultra clean environment
The 3rd embodiment structural schematic diagram of device.
Specific embodiment
Illustrate with reference to the accompanying drawing, the utility model is described in further detail.
As shown in Figure 1, based on the online water quality monitor self-checking device under vacuum ultra clean environment, including mother vat
1, dilution bucket 2, the first microprocessor pump drive 11, second liquid metering pump 21, first pump housing 3, second pump housing 4, glassware 5,
Water quality testing meter 6 and controller 7 are wherein loaded with mother liquor, are loaded with dilution in dilution bucket 2 in mother vat 1, the dilution
It can be purified water;Glassware 5 can be the vacuum cleaned glass vessel provided using low-voltage vacuum condensation method.First liquid
Mother liquor in mother vat 1 can be pumped into glassware 5 by metering pump 11, specifically, the input of the first microprocessor pump drive 11
End is connected to the exit of mother vat 1 by pipeline, and the output end of the first microprocessor pump drive 11 is connected to glassware 5 by pipeline,
Glassware 5 can be integrally formed with the connection mouth being socketed for pipeline.Second liquid metering pump 21 can will be in dilution bucket 2
Dilution is pumped into glassware 5;The input terminal of second liquid metering pump 21 is connected to the outlet of dilution bucket 2 by pipeline
The output end at place, second liquid metering pump 21 is connected to glassware 5 by pipeline, and glassware 5 can be integrally formed with for pipe
The connection mouth of road socket.Liquid in glassware 5 can be pumped into water quality testing meter 6 and detect by first pump housing 3;First pump
The input terminal of body 3 is connected to the bottom of glassware 5 by pipeline, and the output end of first pump housing 3 is connected to water quality detection by pipeline
The junction of the fluid input port of instrument 6,5 bottom of glassware and first pump housing 3 is equipped with funnel-shaped recesses 51.Second pump housing, 4 energy
Enough dilution in dilution bucket 2 is pumped into water quality testing meter 6 is detected;The input terminal of second pump housing 4 is connected to by pipeline
The exit of dilution bucket, the output end of second pump housing 4 are connected to the fluid output port of water quality testing meter 6 by pipeline.Controller 7
It is electrically connected the first microprocessor pump drive 11 and second liquid metering pump 21, controller 7 can control the first microprocessor pump drive 11 and pump
The amount of mother liquor, additionally it is possible to control the amount that second liquid metering pump 21 pumps dilution.
In addition, further including shaking device 8, glassware 5 can be shaken by shaking device 8.Shaking device 8 includes the
One pedestal 81, first driving device 82 and hinged seat 83, hinged seat 83 are fixedly installed at 81 center of first base.Hinged seat 83
It can be triangular structure pedestal, be provided with articulated shaft above.Hinged seat 83 is articulated with 5 bottom center of glassware, glass
5 bottom center of vessel can offer the axis hole passed through for articulated shaft integrally formed with the first link block, the first link block.The
One driving device 82 is set to first base 81, and first driving device 82 drives glassware 5 to swing around hinged seat 83.
Wherein, first driving device 82 can be cylinder or oil cylinder, and first base 81 is offered for first driving device 82
The mounting groove of setting, the output end of first driving device 82 are articulated with 5 bottom of glassware, and 5 bottom of glassware is integrally formed
There is second link block hinged with 82 output end of first driving device.
In another embodiment, it is driven as shown in Fig. 2, shaking device 8 and can also be including second base 84, second
Device 85 and the body of rod 86, the second driving device 85 are fixedly installed in second base 84, and glassware 5 is located in second base 84
Side, the second driving device 85 drive glassware 5 to rotate;Second driving device 85 can be first motor, the second driving device
85 output end is articulated with 5 bottom center of glassware.84 upper side circumferential direction of second base offers the wave of dipping and heaving
Sliding slot 87,86 upper end of the body of rod are articulated with glassware 5, and 86 lower end of the body of rod is slideably positioned in wave sliding slot 87.It second drives as a result,
While driving glassware 5 to rotate, the body of rod 86 drives dynamic device 85 also along 87 rippling of wave sliding slot
Glassware rippling while rotating improves mother liquor and the mixed uniformly efficiency of dilution in glassware.
In another embodiment, as shown in figure 3, shaking device 8 can also include third pedestal 88, third driving dress
Set 89 and spring 90, spring 90 be it is multiple, 5 bottom opposite sides of glassware passes through spring 90 and is set to third pedestal 88,
In the present embodiment, glassware 5 is square structure, and spring 90 is set at four angles of glassware 5, and 90 one end of spring is solid
Surely it is connected to glassware 5, the other end is fixedly connected on third pedestal 88.5 bottom of glassware is equipped with for third driving device
The installation box body 91 of 89 settings, installation box body 91 are fixedly installed in 5 bottom of glassware, and third driving device 89 includes the second electricity
Machine and key connection are in the eccentric wheel of the second motor output end, and the second motor is able to drive glass in band movable eccentric wheel rotation as a result,
5 rippling of glass vessel, glassware 5 realizes rippling by spring 90, and then glassware is driven to revolve
Rippling while turning improves mother liquor and the mixed uniformly efficiency of dilution in glassware.Third driving device
89 quantity is two, and two third driving devices 89 are respectively arranged at 5 two sides of the bottom of glassware.
In conclusion the utility model by directly leading to the dilution in the mother liquor and dilution bucket in mother vat respectively
It crosses microprocessor pump drive to be extracted into vacuum cleaned glass vessel, the standard solution of configuration will not be made to be exposed in air, and pass through liquid
Body metering pump accurately conveys mother liquor and dilution, can be improved the accuracy of configured TOC standard solution;And it can pass through
Dilution is first pumped into water quality testing meter the measurement for carrying out standard blank in advance by pump.
The above is only a kind of embodiment of the utility model, it is noted that for those of ordinary skill in the art
For, without departing from the concept of the present invention, some similar deformation and improvement can be made, these
It should be regarded as within the protection scope of the utility model.
Claims (7)
1. based on the online water quality monitor self-checking device under vacuum ultra clean environment, it is characterised in that: including mother vat
(1), dilution bucket (2), the first microprocessor pump drive (11), second liquid metering pump (21), first pump housing (3), second pump housing
(4), glassware (5), water quality testing meter (6) and controller (7), first microprocessor pump drive (11) can be by the mother liquors
Mother liquor in bucket (1) is pumped into the glassware (5), and the second liquid metering pump (21) can be by the dilution bucket
(2) dilution in is pumped into the glassware (5);First pump housing (3) can will be in the glassware (5)
Liquid is pumped into detection in the water quality testing meter (6), and second pump housing (4) can will be dilute in the dilution bucket (2)
It releases liquid and is pumped into detection in the water quality testing meter (6);The controller (7) be electrically connected first microprocessor pump drive (11) and
Second liquid metering pump (21).
2. the online water quality monitor self-checking device under the ultra clean environment according to claim 1 based on vacuum,
Be characterized in that: the glassware (5) is the vacuum cleaned glass vessel provided using low-voltage vacuum condensation method.
3. the online water quality monitor self-checking device under the ultra clean environment according to claim 1 based on vacuum,
It is characterized in that: further including shaking device (8), the shaking device (8) can shake the glassware (5).
4. the online water quality monitor self-checking device under the ultra clean environment according to claim 3 based on vacuum,
Be characterized in that: the shaking device (8) includes first base (81), first driving device (82) and hinged seat (83), the hinge
Joint chair (83) is set at the first base (81) center, and the hinged seat (83) is articulated with the glassware (5) bottom
At center, the first driving device (82) is set to the first base (81), and the first driving device (82) drives institute
Glassware (5) is stated to swing around the hinged seat (83).
5. the online water quality monitor self-checking device under the ultra clean environment according to claim 4 based on vacuum,
Be characterized in that: the first driving device (82) is cylinder or oil cylinder, and the first base (81) is equipped with for first driving
The mounting groove of device (82) setting, the output end of the first driving device (82) are articulated with the glassware (5) bottom.
6. the online water quality monitor self-checking device under the ultra clean environment according to claim 3 based on vacuum,
Be characterized in that: the shaking device (8) includes second base (84), the second driving device (85) and the body of rod (86), and described second
Driving device (85) is set to the second base (84), and the glassware (5) is located above the second base (84), institute
It states the second driving device (85) and drives glassware (5) rotation, second base (84) the upper side circumferential direction is equipped with up and down
The wave sliding slot (87) of fluctuating, the body of rod (86) upper end are articulated with the glassware (5), the body of rod (86) the lower end sliding
It is set in the wave sliding slot (87);Second driving device (85) is first motor, second driving device (85)
Output end be articulated with the glassware (5) bottom center.
7. the online water quality monitor self-checking device under the ultra clean environment according to claim 3 based on vacuum,
Be characterized in that: the shaking device (8) includes third pedestal (88), third driving device (89) and spring (90), the spring
(90) to be multiple, glassware (5) bottom opposite sides is set to the third pedestal by the spring (90)
(88), glassware (5) bottom is equipped with the installation box body (91) for the third driving device (89) setting, the third
Driving device (89) includes the second motor and the eccentric wheel for being set to second motor output end;The third driving device
(89) quantity is two, and two third driving devices (89) are respectively arranged at the glassware (5) two sides of the bottom.
Priority Applications (1)
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CN201821447952.8U CN208780542U (en) | 2018-09-04 | 2018-09-04 | Based on the online water quality monitor self-checking device under vacuum ultra clean environment |
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CN201821447952.8U CN208780542U (en) | 2018-09-04 | 2018-09-04 | Based on the online water quality monitor self-checking device under vacuum ultra clean environment |
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CN201821447952.8U Expired - Fee Related CN208780542U (en) | 2018-09-04 | 2018-09-04 | Based on the online water quality monitor self-checking device under vacuum ultra clean environment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108956256A (en) * | 2018-09-04 | 2018-12-07 | 南通市计量检定测试所(江苏省南通质量技术监督眼镜产品质量检验站、江苏省南通质量技术监督金银珠宝饰品产品质量检验站、江苏省大容量南通计量站、南通市大流量计量中心) | Based on the online water quality monitor self-checking device under vacuum ultra clean environment |
-
2018
- 2018-09-04 CN CN201821447952.8U patent/CN208780542U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108956256A (en) * | 2018-09-04 | 2018-12-07 | 南通市计量检定测试所(江苏省南通质量技术监督眼镜产品质量检验站、江苏省南通质量技术监督金银珠宝饰品产品质量检验站、江苏省大容量南通计量站、南通市大流量计量中心) | Based on the online water quality monitor self-checking device under vacuum ultra clean environment |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190423 Termination date: 20200904 |
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CF01 | Termination of patent right due to non-payment of annual fee |