CN204705625U - A kind of analysis measuring apparatus and liquid analysis system - Google Patents

A kind of analysis measuring apparatus and liquid analysis system Download PDF

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Publication number
CN204705625U
CN204705625U CN201520226619.4U CN201520226619U CN204705625U CN 204705625 U CN204705625 U CN 204705625U CN 201520226619 U CN201520226619 U CN 201520226619U CN 204705625 U CN204705625 U CN 204705625U
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port
operation valve
connectivity port
liquid
connecting pipe
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肖巍
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肖巍
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Abstract

The utility model discloses a kind of analysis measuring apparatus and liquid analysis system, relate to fluid analysis technical field, the problem of solution is the accurate measurement realizing different volumes liquid, improves the measuring accuracy of liquid analysis system.The technical scheme that wherein analysis measuring apparatus mainly adopts is: the first operation valve, and comprise public port and multiple distribution ports that alternatively can be communicated with public port, multiple distribution port comprises the air port be connected with air; Second operation valve, comprises the first gauge line and the second gauge line, and the second operation valve one side ports is connected with public port by the first connecting pipe; Reaction analytical equipment, has first passage mouth, and first passage mouth is connected with the second operation valve opposite side port by the second connecting pipe; Fluid driver, is connected with reaction analytical equipment; Wherein, the first gauge line, the second gauge line, the first connecting pipe and the second connecting pipe are the pipe that internal diameter is less than 4 millimeters.The utility model is mainly used in chemical analysis instrument technical field.

Description

A kind of analysis measuring apparatus and liquid analysis system
Technical field
The utility model relates to fluid analysis technical field, particularly relates to a kind of analysis measuring apparatus and liquid analysis system.
Background technology
In chemical analysis instrument, the design of fluid path metering system is of crucial importance, and it directly affects precision of analysis.Generally all be provided with the analysis measuring apparatus that the liquor sample gathered is measured in existing liquid analysis system, by analyzing measuring apparatus, liquid measured accurately, ensureing the measuring accuracy of liquid analysis system.
In prior art, transfer is carried out to metering method many employings liquid storage unit of liquid, when but the liquid volume of this kind of metering method in reaction analytical equipment is greater than liquid storage unit volume, then need the transfer operation back and forth performed more than once, go to step not only complicated time-consuming in these, and easily on the inwall of liquid storage unit, remain liquid film even liquid pearl, the measuring accuracy of impact analysis system.And because this kind of metering method uses dumb, the more difficult accurate measurement realizing the micro-liquid measure of different volumes.
Utility model content
In view of this, the utility model provides a kind of and analyzes measuring apparatus and liquid analysis system, and fundamental purpose is the accurate measurement realizing different volumes liquid, improves the measuring accuracy of liquid analysis system.
For achieving the above object, the utility model mainly provides following technical scheme:
On the one hand, embodiment of the present utility model provides a kind of and analyzes measuring apparatus, and it comprises:
First operation valve, it comprises public port and multiple distribution ports that alternatively can be communicated with described public port, and described multiple distribution port comprises an air port be connected with air;
Second operation valve, it comprises the first gauge line and the second gauge line, and described second operation valve one side ports is connected with described public port by the first connecting pipe;
Reaction analytical equipment, it has first passage mouth and second channel mouth, and described first passage mouth is connected with described second operation valve opposite side port by the second connecting pipe;
Fluid driver, is connected with described reaction analytical equipment;
Wherein, described first gauge line, described second gauge line, described first connecting pipe and described second connecting pipe are the pipe that internal diameter is less than 4 millimeters.
Foregoing, the internal diameter of described first gauge line, described second gauge line, described first connecting pipe and described second connecting pipe is all within the scope of 0.2mm-2mm.
Foregoing, the internal diameter of described reaction analytical equipment is greater than 6 millimeters.
Foregoing, also comprise: detector of liquid;
Described detector of liquid is arranged on described second connecting pipe.
Foregoing, described second operation valve also comprises the 3rd operation valve and the 4th operation valve;
Described 3rd operation valve comprises the first connectivity port, the second connectivity port and the 3rd connectivity port, and described first connectivity port can alternatively be communicated with described 3rd connectivity port with described second connectivity port;
Described 4th operation valve comprises the 4th connectivity port, the 5th connectivity port and the 6th connectivity port, and described 4th connectivity port can alternatively be communicated with described 6th connectivity port with described 5th connectivity port;
The port of described second operation valve side to be connected with described public port by the first connecting pipe and to be specially:
Described first connectivity port is connected with described public port by described first connecting pipe;
Described first passage mouth to be connected with the port of described second operation valve opposite side by the second connecting pipe and to be specially:
Described first passage mouth is connected with described 4th connectivity port by described second connecting pipe;
Described first gauge line is connected between described second connectivity port and described 5th connectivity port;
Described second gauge line is connected between described 3rd connectivity port and described 6th connectivity port.
Foregoing, described 4th operation valve also comprises waste port, and described 4th connectivity port can alternatively be communicated with described 5th connectivity port, described 6th connectivity port and described waste port.
Foregoing, also comprise: the 3rd connecting pipe;
Described fluid driver is connected with described reaction analytical equipment and is specially:
Described fluid driver is connected with described second channel mouth by described 3rd connecting pipe.
Foregoing, described fluid driver is connected with described reaction analytical equipment and is specially:
Described fluid driver is arranged in the line segments of described second connecting pipe, and described second channel mouth is connected with air.
Foregoing, described fluid driver is arranged in the line segments of described second connecting pipe and is specially:
Described fluid driver is arranged in the line segments between described detector of liquid and described first passage mouth; Or,
Described fluid driver is arranged in the line segments between described detector of liquid and described 4th connectivity port.
Foregoing, described second operation valve also comprises at least one the 3rd gauge line;
Described 3rd operation valve also comprises at least one the 7th connectivity port, and described first connectivity port can alternatively be communicated with described second connectivity port, described 3rd connectivity port and at least one the 7th connectivity port described;
Described 4th operation valve also comprises at least one the 8th connectivity port, and described 4th connectivity port can alternatively be communicated with described 5th connectivity port, described 6th connectivity port and at least one the 8th connectivity port described;
At least one the 3rd gauge line described is connected to described between at least one the 7th connectivity port and at least one the 8th connectivity port described.
On the one hand, embodiment of the present utility model provides a kind of liquid analysis system, and it comprises:
First operation valve, it comprises public port and multiple distribution ports that alternatively can be communicated with described public port, and described multiple distribution port comprises an air port be connected with air;
Second operation valve, it comprises the first gauge line and the second gauge line, and described second operation valve one side ports is connected with described public port by the first connecting pipe;
Reaction analytical equipment, it has first passage mouth and second channel mouth, and described first passage mouth is connected with described second operation valve opposite side port by the second connecting pipe;
Fluid driver, is connected with described reaction analytical equipment;
Control circuit, for controlling unlatching and the stopping of the work of described first operation valve, described second operation valve, described reaction analytical equipment and described fluid driver;
Wherein, described first operation valve, described second operation valve, described reaction analytical equipment and described fluid driver are all connected with described control circuit; Described first gauge line, described second gauge line, described first connecting pipe and described second connecting pipe are the pipe that internal diameter is less than 4 millimeters.
By technique scheme, the utility model one analyzes measuring apparatus and liquid analysis system at least has following advantages:
Analysis measuring apparatus of the present utility model is by arranging the first operation valve, second operation valve, and the second operation valve is set comprises the first gauge line and the second gauge line, and the second operation valve one side ports is set is connected with public port by the first connecting pipe, when making to analyze measuring apparatus work, according to the volume of liquid meter, the second operation valve can be switched to the gauge line matched with the volume of liquid meter, realize the accurate measurement of the liquid of different volumes; Connected in series by arranging the first operation valve, the second operation valve, reaction analytical equipment and fluid driver on the other hand, make the utility model when feed liquor or discharge opeing, liquid moves all the time in the same direction, avoid sequential injection formula flow path system must by the defect of liquid storage unit transfer liquid, the length and the tube wall surface that decrease stream flows through conduit during feed liquor amass, thus decrease the probability of liquid residual liquid film or wall built-up on tube wall, improve the precision of feed liquor, especially improve the feed liquor precision when micro-liquid inlet volume (as below 0.1ml); And due to gauge line and the undersized structural design of connecting pipe: the first gauge line, the second gauge line, the first connecting pipe and the second connecting pipe are the pipe that internal diameter is less than 4 millimeters, make liquid in tubule, utilize surface tension of liquid and viscosity liquid upwards directly successfully can be flowed in reaction analytical equipment, thus make liquid along tube wall, refluence phenomenon can not occur.
Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be implemented according to the content of instructions, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present utility model.
Accompanying drawing explanation
Fig. 1 is the one analysis metering apparatus structure schematic diagram that embodiment of the present utility model provides;
Fig. 2 is the another kind analysis metering apparatus structure schematic diagram that embodiment of the present utility model provides;
Fig. 3 is another analysis metering apparatus structure schematic diagram that embodiment of the present utility model provides;
Fig. 4 is another analysis metering apparatus structure schematic diagram that embodiment of the present utility model provides;
Fig. 5 is a kind of reaction analytical equipment structural representation that embodiment of the present utility model provides;
Fig. 6 is the another kind of reaction analytical equipment structural representation that embodiment of the present utility model provides;
Fig. 7 is another reaction analytical equipment structural representation that embodiment of the present utility model provides;
Fig. 8 is another reaction analytical equipment structural representation that embodiment of the present utility model provides.
Embodiment
For further setting forth the utility model for the technological means reaching predetermined utility model object and take and effect, below in conjunction with accompanying drawing and preferred embodiment, to according to the embodiment of the utility model application, structure, feature and effect thereof, be described in detail as follows.In the following description, the not necessarily same embodiment that different " embodiment " or " embodiment " refers to.In addition, special characteristic, structure or feature in one or more embodiment can be combined by any suitable form.
As shown in Figure 1, the one that an embodiment of the present utility model proposes analyzes measuring apparatus, and it comprises:
First operation valve 1, second operation valve 2, first connecting pipe 3, reaction analytical equipment 4, second connecting pipe 5, fluid driver 6.Wherein,
First operation valve 1, it comprises public port 11 and multiple distribution ports 12 that alternatively can be communicated with described public port 11, and described multiple distribution port 12 comprises an air port be connected with air 121;
Second operation valve 2, it comprises the first gauge line 21 and the second gauge line 22; Described second operation valve 2 one side ports is connected with described public port 11 by the first connecting pipe 3;
Reaction analytical equipment 4, it has first passage mouth 41 and second channel mouth 42, and described first passage mouth 41 is connected with described second operation valve 2 opposite side port by the second connecting pipe 5;
Fluid driver 6, is connected with described reaction analytical equipment 4;
Wherein, described first gauge line 21, described second gauge line 22, described first connecting pipe 3 and described second connecting pipe 5 are the pipe that internal diameter is less than 4 millimeters.
Concrete, first operation valve 1 is for sample introduction and switch different types of liquid, it has public port 11 and multiple distribution port 12, can alternatively be communicated with public port 11, and the control as by control system realizes public port 11 and distributes being communicated with of port 12 with any one.According to test needs, part in multiple distribution port 12 distribute port be used for respectively with the connection such as different types of testing liquid, waste fluid container, air port 121 is connected with air, when public port 11 be switched to be communicated with air port 121 time, can to suction air in pipeline and reaction analytical equipment 4, to realize the liquid in pipeline to send into the function of reaction analytical equipment 4, also can liquid in hybrid reaction analytical equipment 4, or detergent line.The quantity of distributing port 12 can be selected according to actual needs.Certain first operation valve 1 can also for be made up of multiple two-port valve and some connecting pipes; the two ends of each two-port valve connect public port respectively and distribute port; form a multichannel operation valve; concrete the utility model embodiment does not limit this, as long as it can have the protection domain that a public port and multiple distribution ports that can alternatively be communicated with described public port all belong to the utility model embodiment.
Second operation valve 2, for switching the long-pending gauge line of different content, can switch according to not coexisting between the first gauge line 21 and the second gauge line 22 of liquid meter volume.Wherein, the internal volume of the first gauge line 21 and the second gauge line 22 is unequal, concrete, the internal volume of the first gauge line 21 can be greater than the internal volume of the second gauge line 22, or, the internal volume of the first gauge line 21 is less than the internal volume of the second gauge line 22, and concrete the utility model embodiment does not limit this, can arrange according to demand.
Reaction analytical equipment 4 is for storing the different types of liquid after metering, and different types of liquid reacts in reaction analytical equipment 4, and passes through the correlation properties of liquid in some detection part detection reaction analytical equipments 4.Reaction analytical equipment 4 can be structure as a whole; also can be the Split type structure comprising reaction unit and analytical equipment; concrete the utility model embodiment does not limit this, as long as it function of realization response and analysis can all belong to the protection domain of the utility model embodiment.
The analysis measuring apparatus of the utility model embodiment is by arranging the first operation valve, second operation valve, and the second operation valve is set comprises the first gauge line and the second gauge line, and the second operation valve one side ports is set is connected with public port by the first connecting pipe, when making to analyze measuring apparatus work, according to the volume of liquid meter, the second operation valve can be switched to the gauge line matched with the volume of liquid meter, realize the accurate measurement of the liquid of different volumes, on the other hand by arranging the first operation valve, second operation valve, reaction analytical equipment and fluid driver connected in series, and the multiple distribution ports arranging the first operation valve comprise an air port be connected with air, make the utility model when feed liquor or discharge opeing, liquid moves all the time in the same direction, avoid sequential injection formula flow path system must by the defect of liquid storage unit transfer liquid, the length and the tube wall surface that decrease stream flows through conduit during feed liquor amass, thus decrease the probability of liquid residual liquid film or wall built-up on tube wall, improve the precision of feed liquor, especially improve the feed liquor precision when micro-liquid inlet volume (as below 0.1ml), and due to gauge line and the undersized structural design of connecting pipe: the first gauge line, the second gauge line, the first connecting pipe and the second connecting pipe are the pipe that internal diameter is less than 4 millimeters, make liquid in tubule, utilize surface tension of liquid and viscosity liquid upwards directly successfully can be flowed in reaction analytical equipment, thus make liquid along tube wall, refluence phenomenon can not occur.
Further, in order to make liquid utilize surface tension of liquid and viscosity liquid upwards directly successfully all can be sent in reaction analytical equipment 4 in tubule,
The internal diameter of described first gauge line 21, described second gauge line 22, described first connecting pipe 3 and described second connecting pipe 5 is all within the scope of 0.2mm-2mm.
Further, conveniently various liquid carries out reacting and carry out detection analysis in reaction analytical equipment 4, the internal diameter of described reaction analytical equipment 4 is greater than 6 millimeters, the design of this structure, facilitate various liquid Homogeneous phase mixing in reaction analytical equipment 4, and unnecessary bubble is discharged from reaction analytical equipment 4.
Further, in order to improve feed liquor efficiency, as shown in Figure 1, also comprise: detector of liquid 7; Described detector of liquid 7 is arranged on described second connecting pipe 5.
Concrete; detector of liquid 7 be not with the contactless liquid level sensor of fluid contact; or be not with the photoelectrometer measuring device of fluid contact; certainly can also be other not with the non-contact liquid detecting device of fluid contact; also can be the detector of liquid with liquid comes into contact; concrete the utility model embodiment does not limit this, as long as whether it can have liquid to there is the protection domain all belonging to the utility model embodiment in somewhere in detector tube.
Further, described second operation valve 2 can be structure as a whole, and also can be Split type structure, as shown in Figure 2,
Described second operation valve 2 also comprises the 3rd operation valve 23 and the 4th operation valve 24;
Described 3rd operation valve 23 comprises the first connectivity port 232, connectivity port 231, second and the 3rd connectivity port 233; Described first connectivity port 231 can alternatively be communicated with described 3rd connectivity port 233 with described second connectivity port 232;
Described 4th operation valve 24 comprises the 4th connectivity port 241, the 5th connectivity port 242 and the 6th connectivity port 243; Described 4th connectivity port 241 can alternatively be communicated with described 6th connectivity port 243 with described 5th connectivity port 242;
Described first connectivity port 231 is connected with described public port 11 by described first connecting pipe 3;
Described first passage mouth 41 is connected with described 4th connectivity port 241 by described second connecting pipe 5;
Described first gauge line 21 is connected between described second connectivity port 232 and described 5th connectivity port 242;
Described second gauge line 22 is connected between described 3rd connectivity port 233 and described 6th connectivity port 243.
Further, conveniently effluent discharge, as shown in Figure 2, described 4th operation valve 24 also comprises waste port 244, and described 4th connectivity port 241 can alternatively be communicated with described 5th connectivity port 242, the 6th connectivity port 243 and waste port 244.
Further, described analysis measuring apparatus also comprises: the 3rd connecting pipe 8; As shown in Figure 2, described fluid driver 6 is connected with described second channel mouth 42 by described 3rd connecting pipe 8.
Further, except described fluid driver 6 to be connected with described second channel mouth 42 by described 3rd connecting pipe 8, fluid driver 6 can also be arranged in the line segments of described second connecting pipe 5, as shown in Figure 3, another analysis measuring apparatus that the utility model embodiment provides, described fluid driver 6 is arranged in the line segments of described second connecting pipe 5; Described second channel mouth 42 is connected with air.
Concrete, described fluid driver 6 can be arranged in the line segments between described detector of liquid 7 and described first passage mouth 41, also can be arranged in the line segments between described detector of liquid 7 and described 4th connectivity port 241.Concrete the utility model is executed example and is not limited this, as long as it can drive liquid to flow to through the first operation valve and the second operation valve the protection domain that reaction analytical equipment all belongs to the utility model embodiment.
The utility model embodiment is by being arranged in the line segments of the second connecting pipe by fluid driver, making to analyze measuring apparatus can drive liquid to flow to reaction analytical equipment through the first operation valve, the second operation valve by fluid driver, and because the second channel mouth arranging reaction analytical equipment is connected with air, the space relative atmospheric on reaction analytical equipment top is made no longer to have malleation or negative pressure, when fluid driver stops driving, liquid can stop flowing immediately, and the liquid level in reaction analytical equipment also can not produce disturbance.Whereby, the volume accuracy analyzing the liquid that measuring apparatus is got can be ensured; In addition, itself just ended the flowing of liquid when fluid driver does not work, be equivalent to the function of stop valve.
Further, in order to discharge unnecessary liquid, and automatic effluent discharge after water analysis completes, do not need additionally to arrange pumping equipment, described fluid driver 6 is the fluid driver of positive and negative bi-directional drive, wherein, fluid driver 6 can be peristaltic pump, when peristaltic pump quits work, itself end the flowing of liquid, be equivalent to the function of stop valve.Certain fluid driver 6 can also be the combination of other types pump and valve, and concrete the utility model embodiment does not limit this, as long as it is bi-directional drive and the fluid driver with stop valve function all belongs to the protection domain of the utility model embodiment.
Further, in order to realize the accurate measurement of the liquid of more different volumes, as shown in Figure 4, described second operation valve 2 also comprises at least one the 3rd gauge line 25;
Described 3rd operation valve 23 also comprises at least one the 7th connectivity port 234; Described first connectivity port 231 can alternatively be communicated with described second connectivity port 232, described 3rd connectivity port 233 and at least one the 7th connectivity port 234 described;
Described 4th operation valve 24 also comprises at least one the 8th connectivity port 245; Described 4th connectivity port 241 can alternatively be communicated with described 5th connectivity port 242, described 6th connectivity port 243 and at least one the 8th connectivity port 245 described;
At least one the 3rd gauge line 25 described is connected to described between at least one the 7th connectivity port 234 and at least one the 8th connectivity port 245 described.
Further, the internal volume of at least one the 3rd gauge line 25 and the internal volume of the first gauge line 21 unequal, the internal volume of at least one the 3rd gauge line 25 and the internal volume of the second gauge line 22 unequal, concrete, the internal volume of at least one the 3rd gauge line 25 is greater than the internal volume of the first gauge line 21, or the internal volume of at least one the 3rd gauge line 25 is less than the internal volume of the first gauge line 21, or the internal volume of at least one the 3rd gauge line 25 is greater than the internal volume of the second gauge line 22, or the internal volume of at least one the 3rd gauge line 25 is less than the internal volume of the second gauge line 22, concrete the utility model embodiment does not limit this, can arrange according to demand.
The utility model embodiment is analyzed measuring apparatus also comprise at least one the 3rd gauge line 25 by being arranged, and arranges at least one the 3rd gauge line 25 and be connected between at least one the 7th connectivity port 234 and at least one the 8th connectivity port 245; The internal volume of at least one the 3rd gauge line 25 and the internal volume of the first gauge line 21 unequal, the internal volume of at least one the 3rd gauge line 25 and the internal volume of the second gauge line 22 unequal, making to analyze measuring apparatus can according to the difference of liquid meter volume, second operation valve 2 is switched to the gauge line matched with the volume of liquid meter, realizes the accurate measurement of the liquid of different volumes.
Further, as shown in Figure 5, reaction analytical equipment 4 comprises light source 43 and photodetector 44.
When reaction analytical equipment 4 is structure as a whole, as shown in Figure 5, light source 43 and photodetector 44 are separately positioned on the both sides of reaction analytical equipment 4, and light source 43 and photodetector 44 are in same light path.After liquid in the light transmission reaction analytical equipment 4 that light source 43 is launched, received by photodetector 44, with the principle analysis liquid of luminosity colorimetric.
When reaction analytical equipment 4 is the Split type structure comprising reaction unit 45 and analytical equipment 46, as shown in Figure 6, analytical equipment is connected and the integral tube communicated continuously successively by first paragraph pipe 461, second segment pipe 462 and the 3rd section of pipe 463, wherein the tube wall of second segment pipe 462 both sides arranges plane light-transmission window respectively, and light source 43 and photodetector 44 are separately positioned on the both sides of second segment pipe 462.After liquid in the light transmission second segment pipe 462 that light source 43 is launched, received by photodetector 44, with the principle analysis liquid of luminosity colorimetric.
Further, reaction analytical equipment 4 also comprises electrode pair 47, and as shown in Figure 7, wherein, electrode pair 47 can be one or more pairs of,
When reaction analytical equipment 4 is structure as a whole, electrode pair 47 is arranged in reaction analytical equipment 4, when liquid enters in reaction analytical equipment 4 or after reacting in reaction analytical equipment 4, with potentiometry analytic liquid body.
When reaction analytical equipment 4 is Split type structure, electrode pair 47 is arranged in analytical equipment 46, when liquid enters after in analytical equipment 46, with potentiometry analytic liquid body.
Further, reaction analytical equipment 4 also comprises one or more ion-selective electrode 48, as shown in Figure 8; When reaction analytical equipment 4 is structure as a whole, one or more ion-selective electrode 48 is arranged in reaction analytical equipment 4, after reaction, liquid is analyzed by selectivity through film and potentiometry when liquid enters in reaction analytical equipment 4 or in reaction analytical equipment 4.
When reaction analytical equipment 4 is Split type structure, one or more ion-selective electrode 48 is arranged in analytical equipment 46, when liquid enters after in analytical equipment 46, analyzes liquid by selectivity through film and potentiometry.
Further, reaction analytical equipment 4 can also comprise other the structure for analyzing liquid, and concrete the utility model embodiment does not limit, as long as it can analyze the protection domain that liquid all belongs to the utility model embodiment.
A kind of measuring apparatus of analyzing provided for Fig. 2 below illustrates how analysis measuring apparatus realizes the accurate measurement of the liquid of different volumes.
First the internal volume setting the first connecting pipe is A, and the internal volume of the first gauge line is B, and the internal volume of the second gauge line is C, and the internal volume of the 4th line segments between connectivity port and detector of liquid is D.
Metering liquid volume is that the course of work of A+B+D is as follows:
The first step: the distribution port 12 the first operation valve 1 being switched to liquid to be got, public port 11 is connected with the distribution port 12 of liquid to be got; 3rd operation valve 23 is switched to the second connectivity port 231, connectivity port 232, first to be communicated with the second connectivity port 232; 4th operation valve 24 is switched to the 5th connectivity port 241, connectivity port the 242, four to be communicated with the 5th connectivity port 242;
Second step: control the work of fluid driver 6 forward drive, the liquid of distribution port 12 correspondence of liquid to be got is inhaled in the first connecting pipe 3 under the driving of fluid driver 6, then the first gauge line 21 is entered by the 3rd operation valve 23, the second connecting pipe 5 is entered again by the 4th operation valve 24, when detector of liquid 7 detects liquid, fluid driver 6 quits work, or quits work after time delay a period of time;
3rd step: the first operation valve 1 is switched to air port 121, and public port 11 is communicated with air port 121;
4th step: fluid driver 6 forward drive work, until all import in reaction analytical equipment 4 by the liquid to be sampled in the first connecting pipe 3, first gauge line 21, second connecting pipe 5;
5th step: repeat the above-mentioned first step to the 4th step, can be transported to the liquid amount on demand corresponding to the distribution port 12 of the distribution port 12 of same first operation valve 1 or other the first operation valve 1 in reaction analytical equipment 4.
Metering liquid volume is that the course of work of A+C+D is as follows:
The first step: the distribution port 12 the first operation valve 1 being switched to liquid to be got, public port 11 is connected with the distribution port 12 of liquid to be got; 3rd operation valve 23 is switched to the 3rd connectivity port 231, connectivity port 233, first to be communicated with the 3rd connectivity port 233; 4th operation valve 24 is switched to the 6th connectivity port 241, connectivity port the 243, four to be communicated with the 6th connectivity port 243;
Second step: control the work of fluid driver 6 forward drive, the liquid of distribution port 12 correspondence of liquid to be got is inhaled in the first connecting pipe 3 under the driving of fluid driver 6, then the second gauge line 22 is entered by the 3rd operation valve 23, the second connecting pipe 5 is entered again by the 4th operation valve 24, when detector of liquid 7 detects liquid, fluid driver 6 quits work, or quits work after time delay a period of time;
3rd step: the first operation valve 1 is switched to air port 121, and public port 11 is communicated with air port 121;
4th step: fluid driver 6 forward drive work, until all import in reaction analytical equipment 4 by the liquid to be sampled in the first connecting pipe 3, second gauge line 22, second connecting pipe 5;
5th step: repeat the above-mentioned first step to the 4th step, can be transported to the liquid amount on demand corresponding to the distribution port 12 of the distribution port 12 of same first operation valve 1 or other the first operation valve 1 in reaction analytical equipment 4.
Metering liquid volume is that the course of work of B is as follows:
The first step: the distribution port 12 the first operation valve 1 being switched to liquid to be got, public port 11 is connected with the distribution port 12 of liquid to be got; 3rd operation valve 23 is switched to the second connectivity port 231, connectivity port 232, first to be communicated with the second connectivity port 232; 4th operation valve 24 is switched to the 5th connectivity port 241, connectivity port the 242, four to be communicated with the 5th connectivity port 242;
Second step: control the work of fluid driver 6 forward drive, the liquid that the distribution port of liquid to be got is corresponding is inhaled in the first connecting pipe 3 under the driving of fluid driver 6, then the first gauge line 21 is entered by the 3rd operation valve 23, the second connecting pipe 5 is entered again by the 4th operation valve 24, when detector of liquid 7 detects liquid, fluid driver 6 quits work, or quits work after time delay a period of time;
3rd step: the 4th operation valve 24 is switched to the 6th connectivity port 241, connectivity port the 243, four and is communicated with the 6th connectivity port 243; 3rd operation valve 23 is switched to the 3rd link 233, first connectivity port 231 to be communicated with the 3rd connectivity port 233;
4th step: fluid driver 6 reverse drive work, by the liquid withdrawal in the first connecting pipe and the second connecting pipe in the liquid reagent bucket of distribution port 12 correspondence of liquid to be got;
5th step: the first operation valve 1 is switched to air port 121, the public port 11 of the first operation valve 1 is communicated with air port 121; 3rd operation valve 23 is switched to the second connectivity port 231, connectivity port 232, first to be communicated with the second connectivity port 232; 4th operation valve 24 is switched to the 5th connectivity port 241, connectivity port the 242, four to be communicated with the 5th connectivity port 242;
6th step: fluid driver 6 forward drive work, until all import the liquid to be sampled in the first gauge line 21 in reaction analytical equipment 4.
7th step: repeat the above-mentioned first step to the 6th step, can be transported to the liquid amount on demand corresponding to the distribution port 12 of the distribution port 12 of same first operation valve 1 or other the first operation valve 1 in reaction analytical equipment 4.
Metering liquid volume is that the course of work of A+B is as follows:
The first step: the distribution port 12 the first operation valve 1 being switched to liquid to be got, public port 11 is connected with the distribution port 12 of liquid to be got; 3rd operation valve 23 is switched to the second connectivity port 231, connectivity port 232, first to be communicated with the second connectivity port 232; 4th operation valve 24 is switched to the 5th connectivity port 241, connectivity port the 242, four to be communicated with the 5th connectivity port 242;
Second step: control the work of fluid driver 6 forward drive, the liquid that the distribution port of liquid to be got is corresponding is inhaled in the first connecting pipe 3 under the driving of fluid driver 6, then the first gauge line 21 is entered by the 3rd operation valve 23, the second connecting pipe 5 is entered again by the 4th operation valve 24, when detector of liquid 7 detects liquid, fluid driver 6 quits work, or quits work after time delay a period of time;
3rd step: the 4th operation valve 24 is switched to waste port 244, the 4th connectivity port 241 is communicated with waste port 244;
4th step: fluid driver 6 reverse drive work, is discharged the liquid in the second connecting pipe 5 by waste port 244 as waste liquid;
5th step: the first operation valve 1 is switched to air port 121, the public port 11 of the first operation valve 1 is communicated with air port 121; 4th operation valve 24 is switched to the 5th connectivity port 241, connectivity port the 242, four to be communicated with the 5th connectivity port 242;
6th step: fluid driver 6 forward drive work, until all import the liquid to be sampled in the first connecting pipe, the first gauge line in reaction analytical equipment 4.
7th step: repeat the above-mentioned first step to the 6th step, can be transported to the liquid amount on demand corresponding to the distribution port 12 of the distribution port 12 of same first operation valve 1 or other the first operation valve 1 in reaction analytical equipment 4.
The course of work of metering liquid volume to be the course of work and the metering liquid volume of A+C be A+B is the same, only needs the 3rd operation valve and the 4th operation valve to be switched to the connectivity port corresponding with the second gauge line respectively, can realize the liquid meter of A+C volume.
More than analyze measuring apparatus and realize the course of work of the accurate measurement of the liquid of different volumes to comprise detector of liquid to illustrate, when analyzing measuring apparatus and not arranging detector of liquid, getting in liquid process, can carry out getting liquid according to the feed liquor time of setting.
The analysis measuring apparatus of the utility model embodiment is by arranging the first operation valve, second operation valve, and the second operation valve is set comprises the first gauge line and the second gauge line, and the second operation valve one side ports is set is connected with public port by the first connecting pipe, when making to analyze measuring apparatus work, according to the volume of liquid meter, the second operation valve can be switched to the gauge line matched with the volume of liquid meter, realize the accurate measurement of the liquid of different volumes; Connected in series by arranging the first operation valve, the second operation valve, reaction analytical equipment and fluid driver on the other hand, make the utility model when feed liquor or discharge opeing, liquid moves all the time in the same direction, avoid sequential injection formula flow path system must by the defect of liquid storage unit transfer liquid, the length and the tube wall surface that decrease stream flows through conduit during feed liquor amass, thus decrease the probability of liquid residual liquid film or wall built-up on tube wall, improve the precision of feed liquor, especially improve the feed liquor precision when micro-liquid inlet volume (as below 0.1ml); And due to gauge line and the undersized structural design of connecting pipe: the first gauge line, the second gauge line, the first connecting pipe and the second connecting pipe are the pipe that internal diameter is less than 4 millimeters, make liquid in tubule, utilize surface tension of liquid and viscosity liquid upwards directly successfully can be flowed in reaction analytical equipment, thus make liquid along tube wall, refluence phenomenon can not occur.
The utility model also provides a kind of liquid analysis system, and it comprises:
First operation valve, it comprises public port and multiple distribution ports that alternatively can be communicated with described public port, and described multiple distribution port comprises an air port be connected with air;
Second operation valve, it comprises the first gauge line and the second gauge line, and described second operation valve one side ports is connected with described public port by the first connecting pipe;
Reaction analytical equipment, it has first passage mouth and second channel mouth, and described first passage mouth is connected with described second operation valve opposite side port by the second connecting pipe;
Fluid driver, is connected with described reaction analytical equipment;
Control circuit, for controlling unlatching and the stopping of the work of described first operation valve, described second operation valve, described reaction analytical equipment and described fluid driver;
Wherein, described first operation valve, described second operation valve, described reaction analytical equipment and described fluid driver are all connected with described control circuit; Described first gauge line, described second gauge line, described first connecting pipe and described second connecting pipe are the pipe that internal diameter is less than 4 millimeters.
The water quality analytical system of the utility model embodiment is by arranging the first operation valve, second operation valve, and the second operation valve is set comprises the first gauge line and the second gauge line, and the second operation valve one side ports is set is connected with public port by the first connecting pipe, when making to analyze measuring apparatus work, according to the volume of liquid meter, the second operation valve can be switched to the gauge line matched with the volume of liquid meter, realize the accurate measurement of the liquid of different volumes; Connected in series by arranging the first operation valve, the second operation valve, reaction analytical equipment and fluid driver on the other hand, make the utility model when feed liquor or discharge opeing, liquid moves all the time in the same direction, avoid sequential injection formula flow path system must by the defect of liquid storage unit transfer liquid, the length and the tube wall surface that decrease stream flows through conduit during feed liquor amass, thus decrease the probability of liquid residual liquid film or wall built-up on tube wall, improve the precision of feed liquor, especially improve the feed liquor precision when micro-liquid inlet volume (as below 0.1ml); And due to gauge line and the undersized structural design of connecting pipe: the first gauge line, the second gauge line, the first connecting pipe and the second connecting pipe are the pipe that internal diameter is less than 4 millimeters, make liquid in tubule, utilize surface tension of liquid and viscosity liquid upwards directly successfully can be flowed in reaction analytical equipment, thus make liquid along tube wall, refluence phenomenon can not occur.
The above, it is only preferred embodiment of the present utility model, not any pro forma restriction is done to the utility model, the any simple modification done above embodiment according to technical spirit of the present utility model, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (11)

1. analyze a measuring apparatus, it is characterized in that, comprising:
First operation valve, it comprises public port and multiple distribution ports that alternatively can be communicated with described public port, and described multiple distribution port comprises an air port be connected with air;
Second operation valve, it comprises the first gauge line and the second gauge line, and described second operation valve one side ports is connected with described public port by the first connecting pipe;
Reaction analytical equipment, it has first passage mouth and second channel mouth, and described first passage mouth is connected with described second operation valve opposite side port by the second connecting pipe;
Fluid driver, is connected with described reaction analytical equipment;
Wherein, described first gauge line, described second gauge line, described first connecting pipe and described second connecting pipe are the pipe that internal diameter is less than 4 millimeters.
2. analysis measuring apparatus according to claim 1, is characterized in that,
The internal diameter of described first gauge line, described second gauge line, described first connecting pipe and described second connecting pipe is all within the scope of 0.2mm-2mm.
3. analysis measuring apparatus according to claim 1 and 2, is characterized in that,
The internal diameter of described reaction analytical equipment is greater than 6 millimeters.
4. analysis measuring apparatus according to claim 3, is characterized in that, also comprise:
Detector of liquid;
Described detector of liquid is arranged on described second connecting pipe.
5. analysis measuring apparatus according to claim 4, is characterized in that,
Described second operation valve also comprises the 3rd operation valve and the 4th operation valve;
Described 3rd operation valve comprises the first connectivity port, the second connectivity port and the 3rd connectivity port, and described first connectivity port can alternatively be communicated with described 3rd connectivity port with described second connectivity port;
Described 4th operation valve comprises the 4th connectivity port, the 5th connectivity port and the 6th connectivity port, and described 4th connectivity port can alternatively be communicated with described 6th connectivity port with described 5th connectivity port;
Described second operation valve one side ports to be connected with described public port by the first connecting pipe and to be specially:
Described first connectivity port is connected with described public port by described first connecting pipe;
Described first passage mouth to be connected with described second operation valve opposite side port by the second connecting pipe and to be specially:
Described first passage mouth is connected with described 4th connectivity port by described second connecting pipe;
Described first gauge line is connected between described second connectivity port and described 5th connectivity port;
Described second gauge line is connected between described 3rd connectivity port and described 6th connectivity port.
6. analysis measuring apparatus according to claim 5, is characterized in that,
Described 4th operation valve also comprises waste port, and described 4th connectivity port can alternatively be communicated with described 5th connectivity port, described 6th connectivity port and described waste port.
7. analysis measuring apparatus according to claim 5, is characterized in that, also comprise:
3rd connecting pipe;
Described fluid driver is connected with described reaction analytical equipment and is specially:
Described fluid driver is connected with described second channel mouth by described 3rd connecting pipe.
8. analysis measuring apparatus according to claim 5, is characterized in that,
Described fluid driver is connected with described reaction analytical equipment and is specially:
Described fluid driver is arranged in the line segments of described second connecting pipe, and described second channel mouth is connected with air.
9. analysis measuring apparatus according to claim 8, is characterized in that,
Described fluid driver is arranged in the line segments of described second connecting pipe and is specially:
Described fluid driver is arranged in the line segments between described detector of liquid and described first passage mouth; Or,
Described fluid driver is arranged in the line segments between described detector of liquid and described 4th connectivity port.
10. analysis measuring apparatus according to claim 5, is characterized in that,
Described second operation valve also comprises at least one the 3rd gauge line;
Described 3rd operation valve also comprises at least one the 7th connectivity port, and described first connectivity port can alternatively be communicated with described second connectivity port, described 3rd connectivity port and at least one the 7th connectivity port described;
Described 4th operation valve also comprises at least one the 8th connectivity port, and described 4th connectivity port can alternatively be communicated with described 5th connectivity port, described 6th connectivity port and at least one the 8th connectivity port described;
At least one the 3rd gauge line described is connected to described between at least one the 7th connectivity port and at least one the 8th connectivity port described.
11. 1 kinds of liquid analysis systems, it is characterized in that, it comprises:
First operation valve, it comprises public port and multiple distribution ports that alternatively can be communicated with described public port, and described multiple distribution port comprises an air port be connected with air;
Second operation valve, it comprises the first gauge line and the second gauge line, and described second operation valve one side ports is connected with described public port by the first connecting pipe;
Reaction analytical equipment, it has first passage mouth and second channel mouth, and described first passage mouth is connected with described second operation valve opposite side port by the second connecting pipe;
Fluid driver, is connected with described reaction analytical equipment;
Control circuit, for controlling unlatching and the stopping of the work of described first operation valve, described second operation valve, described reaction analytical equipment and described fluid driver;
Wherein, described first operation valve, described second operation valve, described reaction analytical equipment and described fluid driver are all connected with described control circuit; Described first gauge line, described second gauge line, described first connecting pipe and described second connecting pipe are the pipe that internal diameter is less than 4 millimeters.
CN201520226619.4U 2015-04-16 2015-04-16 A kind of analysis measuring apparatus and liquid analysis system Active CN204705625U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104764861A (en) * 2015-04-16 2015-07-08 肖巍 Analyzing and metering device and liquid analysis system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104764861A (en) * 2015-04-16 2015-07-08 肖巍 Analyzing and metering device and liquid analysis system
CN104764861B (en) * 2015-04-16 2017-02-01 肖巍 Analyzing and metering device and liquid analysis system

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Effective date of registration: 20170712

Address after: 100089, Beijing, Haidian District, West Lane, AVON Park, building 5, 3, 5, 301

Patentee after: Hou Wenting

Address before: 100024 Beijing City, Chaoyang District Chang Ying Long Ying Street building 1002 5.

Patentee before: Xiao Wei

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