CN106018671A - Automatic apparatus for measuring permanganate index - Google Patents

Abstract

The invention discloses an automatic apparatus for measuring permanganate index, comprising: a frame; a feeding area, a liquid charging station, a heating station, an analytic station and a discharging area disposed in the frame, wherein the feeding area and the discharging area are arranged on two inner sides of the frame respectively, the liquid charging station, the heating station and the analytic station are arranged sequentially between the feeding area and the discharging area, both the feeding area and the discharging area are used for storing sample bottles, the liquid charging station is provided with a potassium permanganate bottle and a sulfuric acid bottle and is used for charging potassium permanganate and sulfuric acid to the sample bottles, and the analytic station is used for analyzing the sample bottles; a first conveying mechanism of a conveying system is used for conveying sample bottles among the feeding area, the liquid charging station and the heating station, and the second conveying mechanism is used for conveying sample bottles among the heating station, the analytic station and the discharging area. The automatic apparatus for measuring permanganate index is lower in human resource cost and high in batch and automation level.

Description

Measure the automation equipment of permanganate index

Technical field

The present invention relates to the mensuration field of permanganate index in water, particularly relate to a kind of human resources of reduction and become The automation equipment of the mensuration permanganate index that basis, mass, automaticity are high.

Background technology

Permanganate index refers under certain condition, with potassium permanganate (KMnO4) as oxidant, processes The amount of the oxidant consumed during water sample.Representation unit is the mg/litre (O2, mg/l) of oxygen.Permanganate refers to Number, in conventional Monitoring And Analysis of The Quality, also has the permanganimetric method being referred to as COD.But, by In this method under prescribed conditions, Organic substance in water can only part oxidized, be not theoretic aerobic Amount, is not the yardstick of total organic content in reflection water body, therefore, with this term of permanganate index As an index of water quality, to be different from the COD of potassium dichromate method, more accord with objective reality.

The chemical oxygen consumption (COC) recorded for oxidant with potassium permanganate solution, is formerly referred to as CODMn. In the environment water quality standard that China is new, this value is renamed as permanganate index, and only by acidity potassium dichromate The value that method records is referred to as COD.International Organization for Standardization (ISO) suggestion permanganimetric method is only limitted to measure Surface water, drinking water and sanitary sewage, be not suitable for industrial wastewater.

Different by the medium measuring solution, it is divided into acidic potassium permanganate method and basic potassium permanganate method.Because Under the conditions of alkalescence, the oxidability of potassium permanganate is more weak than acid condition end, now can not aoxidize chlorine in water from Son, therefore be usually used in measuring the water sample that chloride ion-containing concentration is higher.

The principle of test is: add potassium permanganate and the sulphuric acid of known quantity in sample, heats 30 in boiling water bath Minute, some Organic substance in sample and inorganic matter reducing substances are aoxidized by potassium permanganate, add after reaction The Disodium oxalate. remaining potassium permanganate of reduction of excess, then the Disodium oxalate. by potassium permanganate index solution residual titration excess. By being calculated permanganate index in sample.

In determining instrument in currently available technology, rely primarily on manual operation, to the requirement of proficiency level very Height, inefficiency, therefore need badly and a kind of reduce cost of human resources, mass, survey that automaticity is high Determine the automation equipment of permanganate index.

Summary of the invention

It is an object of the invention to provide and a kind of reduce cost of human resources, mass, survey that automaticity is high Determine the automation equipment of permanganate index.

To achieve these goals, the technical scheme that the present invention provides is: provides one to measure permanganate and refers to The automation equipment of number, including:

Frame；

It is located at the loading area of described machine frame inside, liquid feeding station, heating station, analysis station and discharge zone, Described loading area and discharge zone are respectively arranged on described machine frame inside both sides, described liquid feeding station, heating station and Analyzing station to be then sequentially arranged between described loading area and discharge zone, described loading area and discharge zone are used to deposit Putting sample bottle, described liquid feeding station is provided with potassium permanganate bottle and sulfuric acid bottle, and for described sample bottle is added Potassium permanganate and sulphuric acid, described heating station is for heating sample bottle, and described analysis station is for sample Bottle is analyzed；

Transmission system, described transmission system includes the first connecting gear and the second connecting gear, and described first passes Send mechanism at described loading area, transmit described sample bottle between liquid feeding station and heating station, described Two connecting gears are used at described heating station, analyze and transmit described sample bottle between station and discharge zone.

Described liquid feeding station is additionally provided with the first rotary machine hands and at least one sends from described loading area Sample bottle, described first rotary machine hands for from described potassium permanganate bottle and sulfuric acid bottle to described sample bottle Titration potassium permanganate and sulphuric acid.

Described heating station is heating in water bath station, and including a water bath, described water bath top is provided with one Upper cover, described on cover the round mouth offered for spacing, described sample bottle is limited on described round mouth.

Described analysis station is provided with the second rotary machine hands, sample bottle to be analyzed fixes seat and potassium permanganate bottle and Disodium oxalate. bottle, described second rotary machine hands for from described potassium permanganate bottle and Disodium oxalate. bottle to described sample Potassium permanganate and Disodium oxalate. is titrated in Ping.

Described first connecting gear and the second connecting gear are three-axis moving system, described three-axis moving system All being controlled by slave computer, described loading area and discharge zone are rectangle rest area, and described loading area And the described sample bottle of discharge zone placement is arranged in arrays.

Also include that industrial computer and video display devices, described industrial computer are connected with described video display devices, and It is both secured to described machine frame inside, and is connected with described slave computer and is used for controlling described slave computer.

Being additionally provided with waste liquid barrel at described analysis station, described potassium permanganate bottle is placed with the arrangement of Disodium oxalate. bottle, institute State the second rotary machine hands and fix the position 90-degree rotation described permanganic acid of arrival of seat from described sample bottle to be analyzed Potassium bottle position, described waste liquid barrel is located at described potassium permanganate bottle and described sample bottle to be analyzed is fixed between seat.

On described liquid feeding station, also include that magnetic stirring apparatus, described sample bottle are located in described magnetic stirring apparatus Carry out liquid feeding.

Being additionally provided with fluid infusion case on described liquid feeding station, described fluid infusion case is located in described frame, and is positioned at described Locate below potassium permanganate bottle and sulfuric acid bottle.

Also include that rfid system, described rfid system include RFID reader, RFID middleware and data Storehouse memorizer, posts RFID label tag outside described sample bottle, described RFID reader passes through described RFID Middleware is connected with described archival memory.

Described archival memory is located in described industrial computer, and it is soft to be preinstalled with rfid system on described industrial computer Part.

Described RFID reader is located on described analysis station, fixes seat for being pointed to sample bottle to be analyzed Described sample bottle carries out RF identification.

Compared with having technology, owing to measuring in the automation equipment of permanganate index in the present invention, described One connecting gear and the second connecting gear can be in described loading area, liquid feeding station, heating station, analysis works Position and discharge zone on slidably with transmit sample bottle, drastically increase automaticity and detection efficiency.

By description below and combine accompanying drawing, the present invention will become more fully apparent, and these accompanying drawings are used for explaining Embodiments of the invention.

Accompanying drawing explanation

Fig. 1 is the schematic diagram that the present invention measures an embodiment of the automation equipment of permanganate index.

Fig. 2 is the view of another angle of the automation equipment of mensuration permanganate index as shown in Figure 1.

Fig. 3 is the module diagram of rfid system.

Detailed description of the invention

With reference now to accompanying drawing, describing embodiments of the invention, element numbers similar in accompanying drawing represents similar unit Part.As it has been described above, as shown in Figure 1, 2, the embodiment of the invention discloses a kind of permanganate index that measures Automation equipment 100, including:

Frame 1, described frame 1 main body is metal framework, and bottom is provided with under-chassis and pulley；

Be located at the loading area 2 within described frame 1, liquid feeding station 3, heating station 4, analyze station 5 and Discharge zone 6, described loading area 2 and discharge zone 6 are respectively arranged on the internal both sides of described frame 1, described liquid feeding work Position 3, heating station 4 and analysis station 5 are then sequentially arranged between described loading area 2 and discharge zone 6, described Loading area 2 and discharge zone 6 are used to deposit sample bottle 7, described liquid feeding station 3 be provided with potassium permanganate bottle 8 and Sulfuric acid bottle 9, and for described sample bottle 7 adds potassium permanganate and sulphuric acid, described heating station 4 is for right Sample bottle 7 heats, and described analysis station 5 is for being analyzed sample bottle 7；

As in figure 2 it is shown, transmission system, described transmission system includes the first connecting gear 11 and the second conveyer Structure 12, described first connecting gear 11 for described loading area 2, liquid feeding station 3 and heating station 4 it Between transmit described sample bottle 7, described second connecting gear 12 at described heating station 4, analyze station 5 And between discharge zone 6, transmit described sample bottle 7.Described first connecting gear 11 and the second connecting gear 12 are equal Tool can capture the mechanical hand of described sample bottle 7.Described loading area 2, liquid feeding station 3, heating station 4, Analyze station 5 and discharge zone 6 is arranged in a linear, the most described first connecting gear 11 and the second connecting gear 12 can slide on each station more easily and work.

In one embodiment, as in figure 2 it is shown, described liquid feeding station 3 be provided with the first rotary machine hands 13 and Potassium permanganate bottle 8, sulfuric acid bottle 9 and at least one sample bottle 7 sent from described loading area 2, described First rotary machine hands 13 is for titrating to described sample bottle 7 from described potassium permanganate bottle 8 and sulfuric acid bottle 9 Potassium permanganate and sulphuric acid.

In one embodiment, as in figure 2 it is shown, described heating station 4 is heating in water bath station, including one Water bath 41, described water bath 41 top is provided with a upper cover 42, described upper cover 42 offers for spacing Round mouth 43, described sample bottle 7 is limited on described round mouth 43 fixing.More specifically, described upper cover 42 Including left upper cover and upper right lid, and left upper cover and upper right lid each offer the semicircular opening of symmetry, are combined in one Rise and form described round mouth 43, and be illustrated in figure 2 the structural representation that upper right lid is not loaded onto.

In one embodiment, as in figure 2 it is shown, described analysis station 5 is provided with the second rotary machine hands 14, treats Analyze sample bottle and fix seat 15 and potassium permanganate bottle 16 and Disodium oxalate. bottle 17, described second rotary machine hands 14 For titrating potassium permanganate and grass from described potassium permanganate bottle 16 and Disodium oxalate. bottle 17 in described sample bottle 7 Acid sodium.It is additionally provided with waste liquid barrel 18, described potassium permanganate bottle 16 and Disodium oxalate. bottle 17 at described analysis station 5 Arrangement is placed, and the position that described second rotary machine hands 14 fixes seat 15 from described sample bottle to be analyzed rotates 90 degree of positions arriving described potassium permanganate bottles 16, described waste liquid barrel 18 be located at described potassium permanganate bottle 16 with Described sample bottle to be analyzed is fixed between seat 15.

In one embodiment, as in figure 2 it is shown, described first connecting gear 11 and the second connecting gear 12 are equal For three-axis moving system, described three-axis moving system is all controlled by slave computer, described loading area 2 and Discharge zone 6 is rectangle rest area, and the described sample bottle 7 placed of described loading area 2 and discharge zone 6 in Matrix arrangement.Owing to described first connecting gear 11 is at described loading area 2, liquid feeding station 3, heater Slidably reciprocating on position 4, described second connecting gear 12 is at described heating station 4, analyzes station 5 and unload Material district 6 on slidably reciprocate, and described loading area 2, liquid feeding station 3, heating station 4, analyze station 5 and Discharge zone 6 is the Y direction in described three-axis moving system, the most described first connecting gear 11 and The length of guide rail 11a and 12a of the Y direction of two connecting gears 12 is able to ensure that meeting described first transmits Mechanism 11 and the second connecting gear 12 slidably reciprocate on above-mentioned different station.

In one embodiment, as it is shown in figure 1, also include industrial computer 19 and video display devices 20, described work Control machine 19 is connected with described video display devices 20, and it is internal to be both secured to described frame 1, and with described Slave computer connects and is used for controlling described slave computer.Described video display devices 20 is located at and facilitates staff Use position, described video display devices 20 can be conventional display device can also be that there is touch input merit The display device of energy.

In one embodiment, on described liquid feeding station 3, also include that magnetic stirring apparatus, described sample bottle 7 set Liquid feeding is carried out in described magnetic stirring apparatus.It is able to ensure that sample is stirred by described magnetic stirring apparatus.

In one embodiment, as it is shown in figure 1, be additionally provided with fluid infusion case 21, described benefit on described liquid feeding station 3 Liquid case 21 is located in described frame 1, and is positioned at place below described potassium permanganate bottle 8 and sulfuric acid bottle 9.

In one embodiment, as it is shown on figure 3, also include rfid system 100a, described rfid system 100a Including RFID reader 101, RFID middleware 102 and archival memory 103, described sample bottle 7 RFID label tag 104 is posted in outside, described RFID reader 101 by described RFID middleware 102 with Described archival memory 103 connects.Described archival memory 103 is located in described industrial computer 19, and It is preinstalled with rfid system software on described industrial computer 19.Can be preferably by described rfid system 100a Follow the trail of the information of each sample bottle 7, convenient by archival memory described in data inputting 103, it is also possible to from institute State inquiry data in archival memory 103.

In embodiment as shown in Figure 3, described RFID reader 101 is located on described analysis station 5, uses RF identification is carried out in the described sample bottle 7 being pointed to sample bottle to be analyzed and fixing seat 15.

It should be noted that the present invention measures in the automation equipment 100 of permanganate index, described sample Which kind of reagent that bottle adds, the amount of reagent is how many, and temperature and time of heating in water bath etc. is all known skill Art, this specification no longer illustrates, can't affect those skilled in the art and implement the present invention.

Above disclosed only the preferred embodiments of the present invention, can not limit the present invention with this certainly Interest field, the equivalent variations therefore made according to scope of the present invention patent, still belong to the present invention and contained Scope.

Claims (12)

1. the automation equipment measuring permanganate index, it is characterised in that including:

Frame；

It is located at the loading area of described machine frame inside, liquid feeding station, heating station, analysis station and discharge zone, Described loading area and discharge zone are respectively arranged on described machine frame inside both sides, described liquid feeding station, heating station and Analyzing station to be then sequentially arranged between described loading area and discharge zone, described loading area and discharge zone are used to deposit Putting sample bottle, described liquid feeding station is provided with potassium permanganate bottle and sulfuric acid bottle, and for described sample bottle is added Potassium permanganate and sulphuric acid, described heating station is for heating sample bottle, and described analysis station is for sample Bottle is analyzed；

Transmission system, described transmission system includes the first connecting gear and the second connecting gear, and described first passes Send mechanism at described loading area, transmit described sample bottle between liquid feeding station and heating station, described Two connecting gears are used at described heating station, analyze and transmit described sample bottle between station and discharge zone.

2. the automation equipment measuring permanganate index as claimed in claim 1, it is characterised in that institute State liquid feeding station and be additionally provided with the first rotary machine hands and at least one sample sent from described loading area Bottle, described first rotary machine hands is for titrating to described sample bottle from described potassium permanganate bottle and sulfuric acid bottle Potassium permanganate and sulphuric acid.

3. the automation equipment measuring permanganate index as claimed in claim 1, it is characterised in that institute Stating heating station is heating in water bath station, and including a water bath, described water bath top is provided with a upper cover, Covering the round mouth offered for spacing on described, described sample bottle is limited on described round mouth.

4. the automation equipment measuring permanganate index as claimed in claim 1, it is characterised in that institute Station is provided with the second rotary machine hands, sample bottle to be analyzed fixes seat and potassium permanganate bottle and Disodium oxalate. to state analysis Bottle, described second rotary machine hands is for dripping to described sample bottle from described potassium permanganate bottle and Disodium oxalate. bottle Determine potassium permanganate and Disodium oxalate..

5. the automation equipment measuring permanganate index as claimed in claim 1, it is characterised in that institute Stating the first connecting gear and the second connecting gear is three-axis moving system, described three-axis moving system is all passed through Slave computer is controlled, and described loading area and discharge zone are rectangle rest area, and described loading area and discharging The described sample bottle that district places is arranged in arrays.

6. the automation equipment measuring permanganate index as claimed in claim 5, it is characterised in that also Including industrial computer and video display devices, described industrial computer is connected with described video display devices, and the most fixing In described machine frame inside, and it is connected with described slave computer and is used for controlling described slave computer.

7. the automation equipment measuring permanganate index as claimed in claim 4, it is characterised in that Described analysis station is additionally provided with waste liquid barrel, and described potassium permanganate bottle is placed with the arrangement of Disodium oxalate. bottle, and described second The position 90-degree rotation that rotary machine hands fixes seat from described sample bottle to be analyzed arrives described potassium permanganate bottle position Putting, described waste liquid barrel is located at described potassium permanganate bottle and described sample bottle to be analyzed is fixed between seat.

8. the automation equipment measuring permanganate index as claimed in claim 2, it is characterised in that institute State on liquid feeding station, also include that magnetic stirring apparatus, described sample bottle add in being located at described magnetic stirring apparatus Liquid.

9. the automation equipment measuring permanganate index as claimed in claim 2, it is characterised in that institute Stating and be additionally provided with fluid infusion case on liquid feeding station, described fluid infusion case is located in described frame, and is positioned at described permanganic acid Locate below potassium bottle and sulfuric acid bottle.

10. the automation equipment measuring permanganate index as claimed in claim 6, it is characterised in that Also include that rfid system, described rfid system include RFID reader, RFID middleware and data stock Reservoir, posts RFID label tag outside described sample bottle, described RFID reader is by the middle of described RFID Part is connected with described archival memory.

11. automation equipments measuring permanganate index as claimed in claim 10, it is characterised in that Described archival memory is located in described industrial computer, and is preinstalled with rfid system software on described industrial computer.

12. automation equipments measuring permanganate index as claimed in claim 10, it is characterised in that Described RFID reader is located on described analysis station, fixes the described of seat for being pointed to sample bottle to be analyzed Sample bottle carries out RF identification.