CN111239354A

CN111239354A - Multifunctional intelligent detection device for organic wastewater

Info

Publication number: CN111239354A
Application number: CN202010059703.7A
Authority: CN
Inventors: 冯桂芳; 康与云
Original assignee: Linyi University
Current assignee: Linyi University
Priority date: 2020-01-19
Filing date: 2020-01-19
Publication date: 2020-06-05

Abstract

The invention provides a multifunctional intelligent detection device for organic wastewater, which comprises an equipment box body, detection equipment, sampling equipment and auxiliary accessories, wherein the detection equipment is arranged in a placing box body and used for water quality detection; the detection device comprises a detection module, a data processing module, a display module, a control module and a power supply module; the data processing module is used for processing the data detected by the detection module, the control module is connected with the data processing module, and the display module is connected with the control module; aiming at the characteristic of complex components in the organic wastewater, the invention adopts a diversified detection module, so that the organic wastewater can be comprehensively detected; the invention integrates sampling and detection, can realize real-time sampling and detection of the organic wastewater, and can effectively shorten the detection period.

Description

Multifunctional intelligent detection device for organic wastewater

Technical Field

The invention belongs to the technical field of water quality detection, and particularly relates to a multifunctional intelligent organic wastewater detection device.

Background

The organic wastewater is mainly organic pollutants, and is easy to cause water eutrophication and has large harm. In industrial wastewater such as domestic sewage, food processing and paper making, organic substances such as carbohydrates, proteins, oils and fats, lignin and the like are contained. These substances are present in the sewage in a suspended or dissolved state and can be decomposed by biochemical action of microorganisms. Oxygen is consumed in its decomposition process and is therefore referred to as an oxygen-consuming contaminant. Such contaminants can cause a reduction in dissolved oxygen in the water, affecting the growth of fish and other aquatic organisms. After the dissolved oxygen in water is exhausted, the organic matter is anaerobically decomposed to generate hydrogen sulfide, ammonia, mercaptan and other bad smells, which deteriorates the water quality. The organic matter components in the water body are very complex, and the concentration of the oxygen-consuming organic matter is usually expressed by the oxygen consumption in the biochemical decomposition process of the oxygen-consuming substance in unit volume of water.

Because the components in the organic matter wastewater are complex, the organic matter in the toxic substance-containing wastewater is occupied by aromatic compounds and heterocyclic compounds, and the toxic substance-containing wastewater also contains sulfides, nitrides, heavy metals and toxic organic matters. Therefore, the wastewater needs to be detected comprehensively in actual detection. In the prior art, the organic matter sample is collected and then detected in a detection center, so that the detection period is greatly prolonged, and the waste water changes along with the flow from time to time.

Therefore, there is a need for a device with high flexibility and capable of detecting the quality of organic wastewater more comprehensively.

Disclosure of Invention

The invention aims to provide the multifunctional intelligent organic wastewater detection device which has high flexibility and can comprehensively detect the quality of organic wastewater, aiming at the defects of the prior art.

The technical scheme of the invention is as follows: a multifunctional intelligent detection device for organic wastewater comprises an equipment box body, detection equipment, sampling equipment and auxiliary accessories, wherein the detection equipment is arranged in a placing box body and used for water quality detection; the detection device comprises a detection module, a data processing module, a display module, a control module and a power supply module; the data processing module is used for processing the data detected by the detection module, the control module is connected with the data processing module, the display module is connected with the control module, and the power supply module is used for supplying power to the detection module and the display module;

the detection module comprises a digestion unit for digesting the sample, a turbidimeter module for carrying out turbidity detection on the sample, a colorimeter module for detecting the content of colored substances in the sample, a sensor module for detecting the pH value and the temperature of the sample, and an ultraviolet spectrum module for detecting substance molecules in the sample;

the sampling device comprises a suspension device, a sinking sampling device and a pickup device; the suspension device comprises a suspension block and a connecting rope;

the sinking sampling equipment comprises a connecting cup, a sampling cup and a sinking block; the connecting cup is of a cup-shaped structure, a first connecting hole is formed in the center of the bottom of the connecting cup, and water leakage holes are formed in the periphery of the first connecting hole; the sampling cup is of a cylindrical structure, a second connecting hole with the same diameter as the connecting cup is formed in the center of the upper surface of the sampling cup, a third connecting hole with the same diameter as the first connecting hole is formed in the lower surface of the sampling cup, a connecting pipe is arranged on the third connecting hole, and the connecting pipe can penetrate through the second connecting hole and can be installed on the first connecting hole in a threaded mode; the connecting cup can be connected to the second connecting hole in a threaded manner; the sinking block is a metal block and is arranged at the bottom of the sampling cup;

the suspension block is connected with the connecting cup through a connecting rope, and a hook is arranged on the suspension block; the picking device can be connected with the suspension equipment through a hanging buckle, and the picking device adopts a rope or a telescopic rod with a hook arranged at the end part.

Furthermore, one end of the bottom of the equipment box body is provided with a roller, and the other end of the bottom of the equipment box body is provided with a drawing rod; because the water quality is detected in the field in actual use, the roller and the pull rod are designed to be more convenient for a user to carry.

Furthermore, a box cover of the box body is provided with a liquid separating device, the liquid separating device comprises a liquid separating cavity, a plurality of liquid separating ports arranged at the bottom of the liquid separating cavity, and an electromagnetic valve arranged at each liquid separating port; an IniiCAL electrode is arranged in the liquid separation cavity and is connected with the data processing module, and the IniiCAL electrode is specifically one or more of a pH electrode, a conductivity electrode, a dissolved oxygen electrode and an LDO electrode; collecting a wastewater sample by using sampling equipment, then carrying out liquid separation in liquid separation equipment, and separating the wastewater into different cuvettes, digestion tubes and reaction tubes for detection of different parameters; be provided with the InlipCAL electrode inside dividing the liquid chamber, further carry out preliminary detection to the waste water sample, can integrate with the detailed detection data in later stage for the testing result is more accurate.

Furthermore, the detection equipment also comprises a GSM module, and the test result can be sent to the mobile phone of the user in a form of short message by using the GSM module.

Furthermore, a winding wheel is arranged on the suspension block, the connecting rope can be wound on the winding wheel, and the connecting rope adopts a waterproof leather measuring tape; the distance between the suspension device and the sinking sampling device is adjusted by the waterproof leather measuring tape to collect wastewater samples of different depths, so that the device is more suitable for collecting different depth samples of rivers and hubbers.

Furthermore, two connecting ropes are arranged, hanging buckles are arranged at the lower ends of the two connecting ropes, and hanging rings are arranged on two sides of the upper end of the connecting cup; the two connecting ropes can be connected with the connecting cup through the hanging buckle and the hanging ring.

Further, the auxiliary accessories specifically comprise a colorimeter reagent, a digestion tube, a reaction tube, a cuvette, an adapter, a stirring rod and a cleaning brush; a cavity for placing articles such as a colorimeter reagent, a digestion tube, a reaction tube, a cuvette, an adapter, a stirring rod, a cleaning brush and the like is reserved in the equipment box body and is taken out when in use.

The invention has the beneficial effects that:

1. aiming at the characteristic of complex components in the organic wastewater, the invention adopts a diversified detection module, so that the organic wastewater can be comprehensively detected;

2. the invention integrates sampling and detection, can realize real-time sampling and detection of the organic wastewater, and can effectively shorten the detection period;

3. the portable box body structure is more suitable for field operation, and the workload of a user caused by carrying can be effectively reduced.

Drawings

FIG. 1 is a schematic structural view of embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of a sampling apparatus according to embodiment 1 of the present invention;

FIG. 3 is an exploded view of a sinking sampling apparatus according to example 1 of the present invention;

FIG. 4 is a schematic view of a partial structure of a sinking sampling apparatus according to embodiment 1 of the present invention;

FIG. 5 is a schematic structural view of embodiment 2 of the present invention;

FIG. 6 is a schematic structural view of embodiment 4 of the present invention;

FIG. 7 is a schematic structural diagram of a liquid separation apparatus in embodiment 4 of the present invention;

FIG. 8 is a schematic structural view of embodiment 3 of the present invention;

the device comprises a device box 1, a device box 2, a detection device 3, a sampling device 31, a suspension device 311, a suspension block 312, a connecting rope 32, a sinking sampling device 321, a connecting cup 321, a first connecting hole 3210, a sampling cup 322, a second connecting hole 3220, a third connecting hole 3221, a sinking block 323, a connecting pipe 324, a liquid separation device 4, a liquid separation cavity 41, a liquid separation port 410 and an electromagnetic valve 411.

Detailed Description

Example 1: the multifunctional intelligent organic wastewater detection device shown in fig. 1 comprises an equipment box body 1, detection equipment 2 which is arranged in the placing box body 1 and used for water quality detection, sampling equipment 3 which can be placed in the box body 1 and used for water quality sampling, and auxiliary accessories for detection assistance; the detection device 2 comprises a detection module, a data processing module, a display module, a control module and a power supply module; the data processing module is used for processing the data detected by the detection module, the control module is connected with the data processing module, the display module is connected with the control module, and the power supply module is used for supplying power to the detection module and the display module;

as shown in fig. 2, the sampling device 3 includes a suspension device 31, a sinking sampling device 32, and a pickup device; the suspension device 31 includes a suspension block 311 and a connection rope 312;

as shown in fig. 3 and 4, sink sampling apparatus 32 includes a connecting cup 321, a sampling cup 322, and a sink block 323; the connecting cup 321 is a cup-shaped structure, a first connecting hole 3210 is formed in the center of the bottom of the connecting cup 321, and water leakage holes are formed around the first connecting hole 3210; the sampling cup 322 is a cylindrical structure, the center of the upper surface of the sampling cup 322 is provided with a second connecting hole 3220 with the same diameter as the connecting cup 321, the lower surface of the sampling cup 322 is provided with a third connecting hole 3221 with the same diameter as the first connecting hole 3210, the third connecting hole 3221 is provided with a connecting pipe 324, and the connecting pipe 324 passes through the second connecting hole 3220 and can be installed on the first connecting hole 3210 in a threaded manner; and the connection cup 321 can be screwed on the second connection hole 3220; the sinking block 323 adopts a metal lead block, and the sinking block 323 is arranged at the bottom of the sampling cup 322;

as shown in fig. 2, the suspension block 311 is connected with the connection cup 321 through a connection rope 312, and a hook is arranged on the suspension block 311; the picking device can be connected with the suspension device 31 through a hanging buckle, and the picking device adopts a rope or a telescopic rod with a hook at the end part;

two connecting ropes 312 are provided, the lower ends of the two connecting ropes 312 are provided with hanging buckles, and two sides of the upper end of the connecting cup 321 are provided with hanging rings; the two connection ropes 312 can be connected with the connection cup 321 through a hanging buckle and a hanging ring.

Wherein, supplementary annex specifically includes the colorimeter reagent, clears up pipe, reaction tube, cell, adapter, stirring rod, cleaning brush.

Example 2: the difference from example 1 is: as shown in fig. 5, the bottom of the equipment cabinet 1 is provided with rollers at one end and a pull rod 10 at the other end.

Example 3: the difference from example 1 is: as shown in fig. 8, a winding wheel is provided on the suspension block 311, the connection rope 312 can be wound on the winding wheel, and the connection rope 312 is a waterproof tape measure;

example 4: the difference from example 1 is: the detection device 2 further comprises a GSM module, and the control module is connected with a mobile phone of a user through the GSM module.

Example 5: the difference from example 1 is: as shown in fig. 6 and 7, a liquid separating device 4 is arranged on the box cover of the box body 1, and the liquid separating device 4 comprises a liquid separating cavity 41, four liquid separating ports 410 arranged at the bottom of the liquid separating cavity 41, and an electromagnetic valve 411 arranged at each liquid separating port 410; an IniiCAL electrode is arranged in the liquid separation cavity 41 and is connected with the data processing module, and the IniiCAL electrode specifically comprises a pH electrode, a conductivity electrode, a dissolved oxygen electrode and an LDO electrode; the pH electrode specifically adopts a liquid-filled pH Ultra electrode, the conductivity electrode specifically adopts a CN12d conductivity electrode, the dissolved oxygen electrode specifically adopts a BHDO9122 type dissolved oxygen electrode, and the LDO electrode specifically adopts an LDO10103 dissolved oxygen probe.

Example 6: the difference from example 1 is: the digestion unit adopts a digestion device with the model number of 5B-1 (V8); the turbidity meter module adopts a BSS2700H portable turbidity meter, the sensor module adopts a PHS-3C precision pH meter, and the ultraviolet spectrum module adopts a UV1800 spectrometer.

Experimental example: the same batch of pulp making wastewater before being treated by a certain market paper mill is detected by using the devices of the

embodiments

1, 3, 5 and 6;

the data detected by the device of example 1 are: the pH value of the pulping sewage is 10, the BOD is 26.5g/L, and the COD is 1962 mg/L;

example 3 the data detected by the device were: the pH value of the pulping sewage is 10, the BOD is 26.3g/L, and the COD is 1933 mg/L;

example 5 the data detected by the device are: the pH value of the pulping sewage is 10, the BOD is 26.6g/L, and the COD is 1975 mg/L; the conductivity at 15 ℃ is 1670uS/cm, and the chemical oxygen demand is 33.7 mg/L;

example 6 the data detected by the device are: the pH value of the pulping sewage is 10, the BOD is 26.8g/L, and the COD is 1973 mg/L; turbidity was 3680 FTU;

the same batch of wastewater pulping wastewater is sent to a third-party analysis and detection mechanism for detection, and the detected data is as follows: the pH value of the pulping sewage is 10, the BOD is 26.6g/L, and the COD is 1975 mg/L; the conductivity at 15 ℃ is 1669uS/cm, and the chemical oxygen demand is 33.8 mg/L; turbidity was 3700 FTU; therefore, the device in the embodiment of the invention can accurately detect the organic wastewater in the field within the error range.

Claims

1. A multifunctional intelligent detection device for organic wastewater comprises an equipment box body (1), detection equipment (2) which is arranged in a placing box body (1) and used for water quality detection, sampling equipment (3) which can be placed in the box body (1) and used for water quality sampling, and auxiliary accessories for detection assistance; the method is characterized in that: the detection device (2) comprises a detection module, a data processing module, a display module, a control module and a power supply module; the data processing module is used for processing the data detected by the detection module, the control module is connected with the data processing module, the display module is connected with the control module, and the power supply module is used for supplying power to the detection module and the display module;

the sampling device (3) comprises a suspension device (31), a sinking sampling device (32) and a pickup device; the suspension device (31) comprises a suspension block (311) and a connecting rope (312);

the sinking sampling device (32) comprises a connecting cup (321), a sampling cup (322) and a sinking block (323); the connecting cup (321) is of a cup-shaped structure, a first connecting hole (3210) is formed in the center of the bottom of the connecting cup (321), and water leakage holes are formed in the periphery of the first connecting hole (3210); the sampling cup (322) is of a cylindrical structure, a second connecting hole (3220) with the same diameter as the connecting cup (321) is formed in the center of the upper surface of the sampling cup (322), a third connecting hole (3221) with the same diameter as the first connecting hole (3210) is formed in the lower surface of the sampling cup (322), a connecting pipe (324) is arranged on the third connecting hole (3221), and the connecting pipe (324) can penetrate through the second connecting hole (3220) and can be installed on the first connecting hole (3210) in a threaded manner; the connecting cup (321) can be connected to the second connecting hole (3220) in a threaded mode; the sinking block (323) is a metal block, and the sinking block (323) is arranged at the bottom of the sampling cup (322);

the suspension block (311) is connected with the connecting cup (321) through a connecting rope (312), and a hook is arranged on the suspension block (311); the picking device can be connected with the suspension equipment (31) through a hanging buckle, and the picking device adopts a rope or a telescopic rod with a hook arranged at the end part.

2. The multifunctional intelligent detection device for organic wastewater as claimed in claim 1, wherein one end of the bottom of the equipment box body (1) is provided with a roller, and the other end is provided with a pull rod (10).

3. The multifunctional intelligent detection device for organic wastewater according to claim 1, wherein a liquid separation device (4) is arranged on a tank cover of the tank body (1), the liquid separation device (4) comprises a liquid separation cavity (41), a plurality of liquid separation ports (410) arranged at the bottom of the liquid separation cavity (41), and an electromagnetic valve (411) arranged at each liquid separation port (410); an IniiCAL electrode is arranged in the liquid separation cavity (41), the IniiCAL electrode is connected with the data processing module, and the IniiCAL electrode is one or more of a pH electrode, a conductivity electrode, a dissolved oxygen electrode and an LDO electrode.

4. The multifunctional intelligent detection device for organic wastewater as claimed in claim 1, characterized in that said detection equipment (2) further comprises a GSM module.

5. The multifunctional intelligent detection device for organic wastewater as claimed in claim 1, wherein there are two connection ropes (312), the lower ends of the two connection ropes (312) are provided with hanging buckles, and both sides of the upper end of the connection cup (321) are provided with hanging rings; the two connecting ropes (312) can be connected with the connecting cup (321) through a hanging buckle and a hanging ring.

6. The multifunctional intelligent detection device for organic wastewater as claimed in claim 1, wherein the auxiliary accessories specifically comprise a colorimeter reagent, a digestion tube, a reaction tube, a cuvette, an adapter, a stirring rod and a cleaning brush.

7. The multifunctional intelligent detection device for organic wastewater as claimed in claim 1, wherein the connection cup (321) is of a cup-shaped structure.