CN112665925B - Equipment and method for treating turbidity in water - Google Patents

Abstract

The invention discloses equipment for treating turbidity in water, which comprises an operating rod, wherein a detection box and a waterproof electric box are fixedly arranged on the operating rod, a central groove is formed in the waterproof electric box, a partition plate is slidably arranged in the central groove, a sealing seat is fixedly arranged in the detection box, a sealing ring is fixedly arranged on the partition plate, a positioning groove is formed in the partition plate, a limiting plate is fixedly arranged on the detection box, two-step sampling detection of a water source is carried out through the detection box with an integrated two-cavity structure, the internal space of the detection box is divided into a dynamic detection cavity and a standing detection cavity by using the partition plate, more accurate turbidity data of the water source can be obtained, and the equipment has guiding significance for the targeted treatment of sewage; through a method of the equipment for treating the turbidity in water, the device is easy to operate, the partition plate can be quickly positioned in the detection box to be blocked or positioned in a pulled-out state, and the separation and the mixing of the water sample are easy to carry out.

Description

Equipment and method for treating turbidity in water

Technical Field

The invention relates to the technical field of environmental protection, in particular to equipment and a method for treating turbidity in water.

Background

Water resources have very important significance to human beings and even the whole nature, and can be the source of life. However, in the process of industrial development, people cause serious pollution to water resources, and water sources in various regions are seriously eutrophicated. With the attention of people on environmental protection, sewage treatment becomes a problem in common talk of the old.

Before sewage treatment, the quality of sewage is generally detected to perform targeted treatment. The turbidity of the sewage is an important representation of the pollution degree of the sewage, the existing sewage turbidity detection equipment is simple in structure, a sampling mechanism and a detection mechanism are often separated, the measured turbidity is the standing turbidity of a small-range water sample, and the guidance for the specific treatment of the sewage is reduced instead of the normal turbidity of a raw water source. In view of the above, an apparatus and method for treating turbidity in water is provided.

Disclosure of Invention

The invention aims to provide equipment and a method for treating turbidity in water, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an apparatus for treating turbidity in water comprises an operating rod, wherein a detection box and a waterproof electric box are fixedly mounted on the operating rod, a central groove is formed in the waterproof electric box, a partition plate is slidably mounted in the central groove, a sealing seat is fixedly mounted in the detection box, a sealing ring is fixedly mounted on the partition plate, a positioning groove is formed in the partition plate, a limiting plate is fixedly mounted on the detection box, a spring bolt is movably mounted in the limiting plate, a dynamic water gap is formed in the detection box, a dynamic sealing cover is in threaded connection with the dynamic water gap, a stirring shaft is rotatably mounted on the dynamic sealing cover, blades are fixedly mounted on the stirring shaft, a static water gap is formed in the detection box, a static sealing cover is in threaded connection with the static water gap, an initial light source is fixedly mounted on the detection box, and a dynamic detector and a secondary light source are fixedly mounted on the partition plate, and the detection box is fixedly provided with a static detector and a positioning base.

Preferably, detection case fixed mounting has the bottom of action bars, and waterproof electronic box is located the top of detection case, location base fixed mounting is in the bottom of detection case, and the location base sets up to the toper structure.

Preferably, the central groove is formed in the center of the detection box, the partition plate is inserted into the central groove, the end block is arranged at the top of the partition plate, the bottom of the partition plate is connected with the sealing seat, and the sealing ring is installed on the side face of the partition plate and is in contact connection with the inner wall of the detection box.

Preferably, the constant head tank is provided with two on the baffle, divide into the groove of hindering and opens the groove, and the limiting plate installs the upper surface at the detection case, spring bolt connects in the spout of limiting plate, and spring bolt's afterbody runs through the limiting plate and sets up.

Preferably, the dynamic water gap and the static water gap are respectively arranged at two sides of the central groove, the dynamic water gap and the static water gap are both provided with external threads, the stirring shaft is driven by a motor, and the blades are arranged and installed on the stirring shaft.

Preferably, the primary light source and the static detector are both mounted on the side wall of the detection box and located at the same height, and the dynamic detector and the secondary light source are respectively mounted on two sides of the partition plate.

A method of an apparatus for treating turbidity in water, the method comprising the steps of:

s1: the baffle plate is inserted into the central groove, the central groove is sealed by using a sealing seat and a sealing ring, the inner space of the detection box is divided into a dynamic detection cavity and a static detection cavity, and the baffle plate can be fixed by matching a spring bolt with the positioning groove, so that the baffle plate is positioned in the detection box for blocking;

s2: (water source sampling) after the dynamic sealing cover and the static sealing cover are opened, the detection box is sunk into the water source through the operating rod, so that the water source is poured into the detection box to finish sampling, the baffle is positioned in the detection box at the moment, so that a water sample is divided into two parts, the water sample in the static detection cavity positioned on the right side of the baffle is static, the water sample in the dynamic detection cavity is stirred by driving the blades to rotate through the stirring shaft, and the particles in the water sample are kept in a floating dispersion state;

s3: (three times detect) initial light source and secondary light source send light simultaneously, through dynamic water sample and static water sample respectively, shine on dynamic detector and static detector, the turbidity of dynamic water sample and static water sample has been carried out and has been detected, obtain two sets of data, open the baffle afterwards for two sets of water samples mix, dynamic detector and secondary light source were raised this moment, the light that initial light source sent shines on static detector through mixing the water sample, the turbidity of record mixing the water sample, thereby obtain a set of data once more, the turbidity in water source place is obtained through data analysis finally.

Compared with the prior art, the invention has the beneficial effects that:

1. the water source is sampled and detected in two steps by a detection box with an integrated two-cavity structure, the inner space of the detection box is divided into a dynamic detection cavity and a static detection cavity by using a clapboard, the water samples are respectively processed into dynamic state and static state, when in use, the primary light source and the secondary light source simultaneously emit light rays which respectively pass through the dynamic water sample and the static water sample and irradiate on the dynamic detector and the static detector, the turbidity detection of the dynamic water sample and the static water sample is firstly carried out to obtain two groups of data, then the clapboard is opened, so that the two groups of water samples are mixed, the light emitted by the initial light source irradiates on the static detector through the mixed water sample to measure the turbidity of the mixed water sample, and finally the turbidity of the water source place is obtained through data analysis, more accurate water source turbidity data can be obtained, and the method has more guiding significance on the targeted treatment of the sewage;

2. the invention is easy to operate, the partition board can be very conveniently inserted and pulled out, the partition board can be quickly positioned in the detection box to be blocked or positioned in a pulled-out state, and the separation and mixing of water samples are easy to carry out.

Drawings

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a schematic diagram of a portion of the structure of the present invention;

fig. 3 is an enlarged schematic view of the area a in fig. 2.

In the figure: the device comprises an operating rod 1, a detection box 2, a waterproof electric box 3, a central groove 4, a partition plate 5, a sealing seat 6, a sealing ring 7, a positioning groove 8, a limiting plate 9, a spring bolt 10, a dynamic water gap 11, a dynamic sealing cover 12, a stirring shaft 13, a blade 14, a static water gap 15, a static sealing cover 16, an initial light source 17, a dynamic detector 18, a secondary light source 19, a static detector 20 and a positioning base 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a technical solution: an apparatus for treating turbidity in water comprises an operating rod 1, a detection box 2 and a waterproof electric box 3 are fixedly installed on the operating rod 1, a central groove 4 is arranged on the waterproof electric box 3, a partition plate 5 is slidably installed in the central groove 4, a sealing seat 6 is fixedly installed in the detection box 2, a sealing ring 7 is fixedly installed on the partition plate 5, a positioning groove 8 is arranged on the partition plate 5, a limiting plate 9 is fixedly installed on the detection box 2, a spring bolt 10 is movably installed in the limiting plate 9, a dynamic water gap 11 is arranged on the detection box 2, a dynamic sealing cover 12 is in threaded connection with the dynamic water gap 11, a stirring shaft 13 is rotatably installed on the dynamic sealing cover 12, blades 14 are fixedly installed on the stirring shaft 13, a static water gap 15 is arranged on the detection box 2, a static sealing cover 16 is in threaded connection with the static water gap 15, an initial light source 17 is fixedly installed on the detection box 2, and a dynamic detector 18 and a secondary light source 19 are fixedly installed on the partition plate 5, the detection box 2 is fixedly provided with a static detector 20 and a positioning base 21.

The bottom end of the operating rod 1 is fixedly installed on the detection box 2, the waterproof electric box 3 is located above the detection box 2, the positioning base 21 is fixedly installed at the bottom of the detection box 2, the positioning base 21 is of a conical structure, the movement of the detection box 2 is controlled through the operating rod 1, so that the detection box 2 is used for sampling and analyzing a water source, the positioning base 21 can be in contact with the ground of the water source to fix the detection box 2, and a water sample is guaranteed to be smoothly poured in;

the central groove 4 is arranged at the center of the detection box 2, the partition plate 5 is inserted into the central groove 4, the top of the partition plate 5 is provided with an end block, the bottom of the partition plate 5 is connected with the sealing seat 6, the sealing ring 7 is arranged on the side surface of the partition plate 5 and is in contact connection with the inner wall of the detection box 2, the partition plate 5 is inserted into the central groove 4 and is sealed by the sealing seat 6 and the sealing ring 7, the inner space of the detection box 2 is divided into a dynamic detection cavity and a static detection cavity, and when the partition plate 5 is pulled out, the two cavities are communicated, and water flows are mixed;

the positioning grooves 8 are formed in the partition plate 5 and are divided into blocking grooves and opening grooves, the limiting plate 9 is installed on the upper surface of the detection box 2, the spring bolt 10 is connected into a sliding groove of the limiting plate 9, the tail portion of the spring bolt 10 penetrates through the limiting plate 9 to be arranged, the spring bolt 10 is matched with the positioning grooves 8 to fix the partition plate 5, and therefore the partition plate 5 is positioned in the detection box 2 to be blocked or positioned in a pulled-out state;

the dynamic water gap 11 and the static water gap 15 are respectively arranged at two sides of the central groove 4, and both the dynamic water gap and the static water gap are provided with external threads, the stirring shaft 13 is driven by a motor, the blades 14 are arranged on the stirring shaft 13, after the dynamic sealing cover 12 and the static sealing cover 16 are opened, the detection box 2 is sunk into a water source through the operating rod 1, so that the water source is poured into the detection box 2 to finish sampling, the baffle 5 is positioned in the detection box 2 at the moment, so that a water sample is divided into two parts, the water sample in the static detection cavity at the right side of the baffle 5 is static, the water sample in the dynamic detection cavity is stirred by driving the blades 14 to rotate through the stirring shaft 13, and the particles in the water sample are kept in a floating dispersion state;

the initial light source 17 and the static detector 20 are both arranged on the side wall of the detection box 2, and the two are positioned at the same height, the dynamic detector 18 and the secondary light source 19 are respectively arranged at two sides of the partition plate 5, the initial light source 17 and the secondary light source 19 emit light simultaneously, the light passes through the dynamic water sample and the static water sample respectively, and irradiates on the dynamic detector 18 and the static detector 20, the turbidity detection of the dynamic water sample and the static water sample is carried out, so that two sets of data are obtained, then, the partition plate 5 is opened, so that the two sets of water samples are mixed, at the moment, the dynamic detector 18 and the secondary light source 19 are lifted, the light emitted by the initial light source 17 irradiates on the static detector 20 through the mixed water sample, the turbidity of the mixed water sample is measured, so that a set of data is obtained again, and finally, the turbidity of the water source place is obtained through data analysis.

A method of an apparatus for treating turbidity in water, the method comprising the steps of:

s1: (baffle blocking) inserting the baffle 5 into the central groove 4, sealing by using a sealing seat 6 and a sealing ring 7, dividing the inner space of the detection box 2 into a dynamic detection cavity and a static detection cavity, and fixing the baffle 5 by matching a spring bolt 10 with a positioning groove 8 so as to position the baffle 5 in the detection box 2 for blocking;

s2: (water source sampling) after the dynamic sealing cover 12 and the static sealing cover 16 are opened, the detection box 2 is sunk into the water source through the operating rod 1, so that the water source is poured into the detection box 2 to finish sampling, at the moment, the baffle plate 5 is positioned in the detection box 2 to divide a water sample into two parts, the water sample positioned in the static detection cavity at the right side of the baffle plate 5 is static, the water sample positioned in the dynamic detection cavity is stirred by driving the blades 14 to rotate through the stirring shaft 13, and the particles in the water sample are kept in a floating dispersion state;

s3: (three detection) the initial light source 17 and the secondary light source 19 emit light simultaneously, the light irradiates on the dynamic detector 18 and the static detector 20 through the dynamic water sample and the static water sample respectively, the turbidity detection of the dynamic water sample and the static water sample is carried out, two sets of data are obtained, then the partition plate 5 is opened, so that the two sets of water samples are mixed, at the moment, the dynamic detector 18 and the secondary light source 19 are lifted, the light emitted by the initial light source 17 irradiates on the static detector 20 through the mixed water sample, the turbidity of the mixed water sample is measured, a set of data is obtained again, and finally the turbidity of a water source place is obtained through data analysis.

The working principle is as follows: firstly, the movement of the detection box 2 is controlled by the operation rod 1, so that the detection box 2 is used for sampling and analyzing a water source, the positioning base 21 can be contacted with the water source ground to fix the detection box 2, the baffle 5 is inserted into the central groove 4 and is sealed by the sealing seat 6 and the sealing ring 7, the inner space of the detection box 2 is divided into a dynamic detection cavity and a static detection cavity, the baffle 5 can be fixed by the matching of the spring bolt 10 and the positioning groove 8, so that the baffle 5 is positioned in the detection box 2 to be blocked or positioned in a pulled-out state, when in use, after the dynamic sealing cover 12 and the static sealing cover 16 are opened, the detection box 2 is sunk into the water source through the operation rod 1, so that the water source is poured into the detection box 2 to finish sampling, at the moment, the baffle 5 is positioned in the detection box 2, so that a water sample is divided into two parts, the water sample positioned in the static detection cavity at the right side of the baffle 5 is kept standing, and the water sample that is in the dynamic state detects the chamber, drive blade 14 through (mixing) shaft 13 and rotate and stir, it is in floating the disperse state to keep wherein the particulate matter, primary light source 17 and secondary light source 19 send light simultaneously, pass through dynamic water sample and static water sample respectively, shine on dynamic detector 18 and static detector 20, the turbidity of dynamic water sample and static water sample detects, obtain two sets of data, open baffle 5 afterwards, make two sets of water samples mix, dynamic detector 18 and secondary light source 19 are raised this moment, the light that primary light source 17 sent shines on static detector 20 through the mixed water sample, survey the turbidity of mixed water sample, thereby obtain a set of data once more, finally obtain the turbidity in water source place through data analysis.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An apparatus for treating turbidity in water, comprising a joystick (1), characterized in that: the automatic water-saving device is characterized in that a detection box (2) and a waterproof electric box (3) are fixedly mounted on an operating rod (1), a central groove (4) is formed in the waterproof electric box (3), a partition plate (5) is slidably mounted in the central groove (4), a sealing seat (6) is fixedly mounted in the detection box (2), a sealing ring (7) is fixedly mounted on the partition plate (5), a positioning groove (8) is formed in the partition plate (5), a limiting plate (9) is fixedly mounted on the detection box (2), a spring bolt (10) is movably mounted in the limiting plate (9), a dynamic water gap (11) is formed in the detection box (2), a dynamic sealing cover (12) is in threaded connection with the dynamic water gap (11), a stirring shaft (13) is rotatably mounted on the dynamic sealing cover (12), blades (14) are fixedly mounted on the stirring shaft (13), a static water gap (15) is formed in the detection box (2), and threaded connection has static closing cap (16) on static mouth of a river (15), fixed mounting has initial light source (17) on detection case (2), and fixed mounting has dynamic detector (18) and secondary light source (19) on baffle (5), fixed mounting has static detector (20) and location base (21) on detection case (2).

2. The apparatus for treating turbidity in water according to claim 1, wherein: detection case (2) fixed mounting has the bottom of action bars (1), and waterproof electronic box (3) are located the top of detection case (2), location base (21) fixed mounting is in the bottom of detection case (2), and location base (21) sets up to the toper structure.

3. The apparatus for treating turbidity in water according to claim 1, wherein: the detection box is characterized in that the central groove (4) is formed in the center of the detection box (2), the partition plate (5) is inserted into the central groove (4), the top of the partition plate (5) is provided with an end block, the bottom of the partition plate (5) is connected with the sealing seat (6), and the sealing ring (7) is installed on the side face of the partition plate (5) and is in contact connection with the inner wall of the detection box (2).

4. The apparatus for treating turbidity in water according to claim 1, wherein: constant head tank (8) are provided with two on baffle (5), divide into and block the groove and open the groove, and limiting plate (9) install the upper surface at detection case (2), spring bolt (10) are connected in the spout of limiting plate (9), and the afterbody of spring bolt (10) runs through limiting plate (9) and sets up.

5. The apparatus for treating turbidity in water according to claim 1, wherein: the dynamic water gap (11) and the static water gap (15) are respectively arranged on two sides of the central groove (4), external threads are arranged on the dynamic water gap and the static water gap, the stirring shaft (13) is driven by a motor, and the blades (14) are arranged on the stirring shaft (13).

6. The apparatus for treating turbidity in water according to claim 1, wherein: the primary light source (17) and the static detector (20) are both arranged on the side wall of the detection box (2) and are positioned at the same height, and the dynamic detector (18) and the secondary light source (19) are respectively arranged on two sides of the partition board (5).

7. An operating method of an apparatus for treating turbidity in water according to any one of claims 1-6, comprising the steps of:

s1: the detection device comprises a baffle plate blocking device, a detection box and a detection device, wherein the baffle plate blocking device is used for inserting a baffle plate (5) into a central groove (4), sealing is carried out by using a sealing seat (6) and a sealing ring (7), the inner space of the detection box (2) is divided into a dynamic detection cavity and a standing detection cavity, the baffle plate (5) can be fixed by matching a spring bolt (10) with a positioning groove (8), and the baffle plate (5) is positioned in the detection box (2) for blocking;

s2: the water source sampling method comprises the steps that after a dynamic sealing cover (12) and a static sealing cover (16) are opened, a detection box (2) is sunk into a water source through an operating rod (1), so that the water source is poured into the detection box (2) to finish sampling, a partition plate (5) is positioned in the detection box (2) at the moment so that a water sample is divided into two parts, the water sample positioned in a standing detection cavity on the right side of the partition plate (5) stands, the water sample positioned in the dynamic detection cavity is stirred by driving a blade (14) to rotate through a stirring shaft (13), and particles in the water sample are kept in a floating dispersion state;

s3: and (2) detecting for three times, wherein the initial light source (17) and the secondary light source (19) emit light rays simultaneously, the light rays respectively pass through the dynamic water sample and the static water sample and irradiate on the dynamic detector (18) and the static detector (20), the turbidity detection of the dynamic water sample and the static water sample is carried out to obtain two sets of data, then the partition plate (5) is opened to mix the two sets of water samples, the dynamic detector (18) and the secondary light source (19) are lifted at the moment, the light rays emitted by the initial light source (17) irradiate on the static detector (20) through the mixed water sample to measure the turbidity of the mixed water sample, so that a set of data is obtained again, and finally the turbidity of a water source place is obtained through data analysis.

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