CN113295837B

CN113295837B - Sewage chemical analysis instrument for environmental monitoring

Info

Publication number: CN113295837B
Application number: CN202110595847.9A
Authority: CN
Inventors: 杨焕欣; 尹琢; 王琨琦; 陈国军
Original assignee: Changchun Institute of Applied Chemistry of CAS
Current assignee: Changchun Institute of Applied Chemistry of CAS
Priority date: 2021-05-29
Filing date: 2021-05-29
Publication date: 2023-06-09
Anticipated expiration: 2041-05-29
Also published as: CN113295837A

Abstract

The invention relates to a sewage chemical analysis tool for environmental monitoring, which relates to the technical field of environmental monitoring, wherein the right side of a top plate of a water tank is penetrated and screwed with a water inlet pipe through a sealing bearing, and the water inlet pipe is of an inverted L-shaped structure; the upper end of the water inlet pipe is connected with a water inlet bucket in a penetrating way; a water pump is fixed on the top plate of the water tank, the water pump is positioned on the right side of the storage battery, and the water pump is connected with the storage battery through a wire; a first water pipe is inserted and fixed at the water inlet end of the water pump; a hose is inserted and fixed at the water outlet end of the water pump; a plurality of second water pipes are arranged on the water tank; the left end of the hose is connected with a second water pipe in the middle in a penetrating way; a plurality of third water pipes are connected between two adjacent second water pipes in a penetrating way; the water inlet bucket is positioned in a direction convenient for water inlet to carry out water inlet, so that water inlet operation is facilitated; the sewage is conveniently split into the corresponding water bottles, so that the contact between the sewage and a human body is avoided, and the safety is improved; the sewage after the reaction in the water bottle is convenient to be treated in the next step, and the convenience is improved.

Description

Sewage chemical analysis instrument for environmental monitoring

Technical Field

The invention relates to the technical field of environmental monitoring, in particular to a sewage chemical analysis tool for environmental monitoring.

Background

Environmental monitoring refers to the activity of an environmental monitoring mechanism for monitoring and measuring environmental quality conditions, and is to determine environmental pollution conditions and environmental quality by monitoring and measuring indexes reflecting environmental quality, wherein the content of the environmental monitoring mainly comprises physical index monitoring, chemical index monitoring and ecological system monitoring.

When carrying out chemical analysis to sewage, often need to use different chemical agent to mix with sewage to according to what kind of ingredient contains in the circumstances that takes place the reaction, current sewage chemical analysis instrument is when using, the geographical environment in place is different, often inconvenient regulation instrument position of intaking, and the sewage in the process of carrying out the analysis is contacted with the human body easily, not enough safety.

Disclosure of Invention

Aiming at the defects and shortcomings of the prior art, the invention provides a sewage chemical analysis tool for environmental monitoring, which is convenient for water inlet operation by arranging a water inlet bucket in a direction convenient for water inlet; the sewage is conveniently split into the corresponding water bottles, so that the contact between the sewage and a human body is avoided, and the safety is improved; the sewage after the reaction in the water bottle is convenient to be treated in the next step, and the convenience is improved.

In order to achieve the above purpose, the invention adopts the following technical scheme: the device comprises a water tank, universal wheels and a storage battery; the four corners of the bottom of the water tank are respectively connected with universal wheels through shafts and bearings in a screwed way; a storage battery is fixed on the top plate of the water tank;

the device also comprises a sampling mechanism and an analysis mechanism; the water tank is provided with a sampling mechanism; the sampling mechanism comprises a water inlet pipe, a water inlet bucket, a water pump, a first water pipe, a hose, a second water pipe, a third water pipe, a connecting rod, a limiting plate, a sliding rail, a sliding block and a faucet; the right side of the top plate of the water tank is penetrated and spirally connected with a water inlet pipe through a sealing bearing, and the water inlet pipe is of an inverted L-shaped structure; the upper end of the water inlet pipe is connected with a water inlet bucket in a penetrating way; a water pump is fixed on the top plate of the water tank, the water pump is positioned on the right side of the storage battery, and the water pump is connected with the storage battery through a wire; a first water pipe is inserted and fixed at the water inlet end of the water pump; a hose is inserted and fixed at the water outlet end of the water pump; a plurality of second water pipes are arranged on the water tank; the left end of the hose is connected with a second water pipe in the middle in a penetrating way; a plurality of third water pipes are connected between two adjacent second water pipes in a penetrating way; connecting rods are fixed at the left and right ends of the outer side of the annular wall of the second water pipe at the forefront side and the rearmost side, and the connecting rods are of an L-shaped structure; limiting plates are fixed at the left end and the right end of the front side wall and the rear side wall of the water tank, and a sliding rail is fixed between the left limiting plate and the right limiting plate; the slide rail is provided with a left slide block and a right slide block in a sliding manner, and the lower end of a vertical rod of the connecting rod is fixed on the slide blocks; the lower end of the annular wall of the second water pipe is connected with a plurality of water taps in a penetrating way;

an analysis mechanism is arranged on the left side of the top plate of the water tank; the analysis mechanism comprises a driving box, a motor, a first rotating shaft, a square block, a square tube, a second rotating shaft, a square rod, a first stirring rod, a cover body and a water bottle; a driving box is fixed on the left side of the top plate of the water tank; a plurality of motors are fixedly distributed on the inner bottom plate of the driving box in a matrix manner and are connected with the storage battery through leads; a first rotating shaft is fixed on an output shaft of the motor, and the first rotating shaft is screwed through a top plate of the driving box through a sealing bearing and then is fixed with the square; square tubes are movably sleeved on the square blocks; the square tube is stuck and sealed on the bottom plate of the water bottle through glue; the water bottles are arranged on the upper side of the driving box and correspond to the water taps one by one; the top plate of the square tube is connected with a second rotating shaft in a rotating way through a sealing bearing, a square rod is fixed at the bottom of the second rotating shaft, a square hole is formed in the square, and the square rod is movably inserted into the square hole; a plurality of stirring rods I are fixedly distributed on the rotary shaft II in an annular manner; the water bottle is connected with a cover body in a screwing way.

Preferably, a first thread block is arranged in the water inlet hopper and is screwed with the top plate of the water tank through threads; a first pull ring is fixed at the top end of the first thread block; the first thread block plugs the water inlet hopper to prevent water in the water tank from splashing; and screwing the first thread block by using the first pull ring.

Preferably, a fixing frame is arranged in the water tank, the fixing frame is arranged on the right side of the first water pipe, and the outer peripheral wall of the fixing frame is fixed with the inner side wall of the water tank; a filter screen is fixed on the right side wall of the fixed frame and is arranged on the left side of the water inlet pipe; the right side wall of the water tank is connected with a drain pipe in a penetrating way; the upper end of the annular wall of the drain pipe is provided with a second thread block in a screwed connection mode through threads, the bottom end of the second thread block is screwed with the bottom of the drain pipe through threads, the annular wall of the second thread block is screwed with the inner annular wall of the drain pipe, and the second thread block is blocked in the drain pipe; when water enters the water tank from the water inlet hopper and the water inlet pipe, impurities in the water are intercepted by the filter screen; when the water is discharged, the second thread block is screwed off, so that redundant water and impurities are discharged from the drain pipe.

Preferably, the top end of the second thread block is fixed with a second pull ring; the second thread block is screwed off by utilizing the second pull ring.

Preferably, the outer end of the bottom of the first stirring rod at the lowest part is fixedly provided with a second stirring rod; the bottom of the water bottle is stirred by a stirring rod II.

Preferably, the cover body is embedded with a barometer; the right side of the cover body is embedded with an air valve; the barometer is used for feeding back the air pressure condition in the level, and when the air pressure is too high, the air valve is opened for pressure relief.

The working principle of the invention is as follows: when the water tank is used, the universal wheels are utilized to move the water tank to a proper position, and the water inlet pipe is rotated, so that the water inlet bucket is positioned in a direction convenient for water inlet to carry out water inlet; the connecting rod is moved, so that the connecting rod moves rightwards under the action of the sliding block, the water faucet leaves the upper part of the water bottle, a proper water bottle is selected to unscrew the cover body, after the corresponding chemical reagent is added, the connecting rod is moved, so that the water faucet is positioned above the water bottle, the corresponding water faucet is opened, the water pump is started, water is pumped out of the first water pipe, flows out of the opened water faucet after passing through the hose, the second water pipe and the third water pipe, and flows into the corresponding water bottle; moving the connecting rod, the water tap leaves the upper part of the water bottle, and screwing the cover body; the motor is started, the output shaft of the motor rotates to enable the first rotating shaft to rotate, the square tube is driven to rotate, the square rod rotates to drive the second rotating shaft to rotate, the first stirring rod rotates, and water and chemical substances in the water bottle are fully reacted; after the reaction is completed, the square tube below the water bottle is taken down from the square block, and the water in the water bottle is processed in the next step.

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

1. the rotatable water inlet pipe is arranged, so that the water inlet bucket can be positioned in a direction convenient for water inlet to carry out water inlet operation;

2. the movable water tap is arranged, so that sewage can be conveniently split into corresponding water bottles, contact between the sewage and a human body is avoided, and safety is improved;

3. the water bottle can be taken, so that the sewage after the reaction in the water bottle can be conveniently treated in the next step, and the convenience is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a cross-sectional view taken along A-A in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 3.

Fig. 5 is an enlarged view of a portion C in fig. 3.

Fig. 6 is an enlarged view of a portion D in fig. 3.

Reference numerals illustrate:

the water tank 1, the universal wheel 2, the storage battery 3, the sampling mechanism 4, the water inlet pipe 4-1, the water inlet bucket 4-2, the first thread block 4-3, the first pull ring 4-4, the fixed frame 4-5, the filter screen 4-6, the water outlet pipe 4-7, the second thread block 4-8, the second pull ring 4-9, the water pump 4-10, the first water pipe 4-11, the hose 4-12, the second water pipe 4-13, the third water pipe 4-14, the connecting rod 4-15, the limiting plate 4-16, the slide rail 4-17, the slide block 4-18, the faucet 4-19, the analysis mechanism 5, the driving box 5-1, the motor 5-2, the first rotating shaft 5-3, the square pipe 5-5, the second rotating shaft 5-6, the square rod 5-7, the square hole 5-8, the first stirring rod 5-9, the second stirring rod 5-10, the cover 5-11, the barometer 5-12, the air valve 5-13 and the water bottle 5-14.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Referring to fig. 1 to 6, the technical scheme adopted in the present embodiment is as follows: the device comprises a water tank 1, a universal wheel 2, a storage battery 3, a sampling mechanism 4 and an analysis mechanism 5;

the four corners of the bottom of the water tank 1 are respectively and rotatably connected with universal wheels 2 through shafts and bearings; a storage battery 3 is fixed on the top plate of the water tank 1 through bolts;

the water tank 1 is provided with a sampling mechanism 4; the sampling mechanism 4 comprises a water inlet pipe 4-1, a water inlet bucket 4-2, a first thread block 4-3, a first pull ring 4-4, a fixed frame 4-5, a filter screen 4-6, a water outlet pipe 4-7, a second thread block 4-8, a second pull ring 4-9, a water pump 4-10, a first water pipe 4-11, a hose 4-12, a second water pipe 4-13, a third water pipe 4-14, a connecting rod 4-15, a limiting plate 4-16, a sliding rail 4-17, a sliding block 4-18 and a tap 4-19; the right side of the top plate of the water tank 1 is penetrated and spirally connected with a water inlet pipe 4-1 through a sealing bearing, and the water inlet pipe 4-1 is of an inverted L-shaped structure; the upper end of the water inlet pipe 4-1 is connected with a water inlet bucket 4-2 through a bolt;

the water inlet hopper 4-2 is internally provided with a first thread block 4-3, the first thread block 4-3 is screwed with the top plate of the water tank 1 through threads, and the first thread block 4-3 is beneficial to blocking the water inlet hopper 4-2 and avoiding water in the water tank 1 from splashing; the top end of the first thread block 4-3 is fixedly provided with a first pull ring 4-4 through a bolt, and the first pull ring 4-4 is convenient for unscrewing the first thread block 4-3; the inside of the water tank 1 is provided with a fixed frame 4-5, and the peripheral wall of the fixed frame 4-5 is fixed with the inner side wall of the water tank 1 through bolts; the right side wall of the fixed frame 4-5 is fixedly provided with a filter screen 4-6 through bolts, and the filter screen 4-6 is arranged on the left side of the water inlet pipe 4-1; the right side wall of the water tank 1 is connected with a drain pipe 4-7 in a penetrating way; the upper end of the annular wall of the drain pipe 4-7 is provided with a second thread block 4-8 in a threaded connection mode, the bottom end of the second thread block 4-8 is in threaded connection with the bottom of the drain pipe 4-7 through threads, the annular wall of the second thread block 4-8 is in threaded connection with the inner annular wall of the drain pipe 4-7, and the second thread block 4-8 is blocked in the drain pipe 4-7; the filter screens 4-6 help to retain impurities in the water; the top end of the second thread block 4-8 is fixedly provided with a second pull ring 4-9 through a bolt, and the second pull ring 4-9 is helpful for unscrewing the second thread block 4-8; the top plate of the water tank 1 is fixedly provided with a water pump 4-10 through a bolt, the water pump 4-10 is positioned on the right side of the storage battery 3, and the water pump 4-10 is connected with the storage battery 3 through a wire; the water inlet end of the water pump 4-10 is inserted and fixed with a first water pipe 4-11, and the first water pipe 4-11 is arranged at the left side of the fixed frame 4-5; a hose 4-12 is inserted and fixed at the water outlet end of the water pump 4-10; a plurality of second water pipes 4-13 are arranged on the water tank 1; the left end of the hose 4-12 is connected with a second water pipe 4-13 in the middle in a penetrating way; a plurality of third water pipes 4-14 are connected between two adjacent second water pipes 4-13 in a penetrating way; the left end and the right end of the outer side of the annular wall of the second water pipe 4-13 positioned at the forefront side and the rearmost side are respectively fixed with a connecting rod 4-15 through bolts, and the connecting rods 4-15 are L-shaped structures; limiting plates 4-16 are fixed at the left end and the right end of the front side wall and the rear side wall of the water tank 1 through bolts, and sliding rails 4-17 are fixed between the left limiting plate 4-16 and the right limiting plate 16 through bolts; the slide rail 4-17 is provided with a left slide block 4-18 and a right slide block 4-18 in a sliding manner, and the lower end of a vertical rod of the connecting rod 4-15 is fixed on the slide blocks 4-18 through bolts; the lower end of the annular wall of the second water pipe 4-13 is connected with a plurality of water taps 4-19 in a penetrating way;

the left side of the top plate of the water tank 1 is provided with an analysis mechanism 5; the analysis mechanism 5 comprises a driving box 5-1, a motor 5-2, a first rotating shaft 5-3, a square 5-4, a square pipe 5-5, a second rotating shaft 5-6, a square rod 5-7, a first stirring rod 5-9, a second stirring rod 5-10, a cover body 5-11, a barometer 5-12, an air valve 5-13 and a water bottle 5-14; a driving box 5-1 is fixed on the left side of the top plate of the water tank 1 through bolts; a plurality of motors 5-2 are fixed on the inner bottom plate of the driving box 5-1 in matrix distribution through bolts, and the motors 5-2 are connected with the storage battery 3 through wires; the output shaft of the motor 5-2 is fixed with a first rotating shaft 5-3 through a bolt, and the first rotating shaft 5-3 is screwed through a top plate of the driving box 5-1 through a sealing bearing and then is fixed with the square 5-4 through a bolt; square tubes 5-5 are movably sleeved on the square blocks 5-4; the square tube 5-5 is stuck and sealed on the bottom plate of the water bottle 5-14 by glue; the water bottles 5-14 are arranged on the upper side of the driving box 5-1, and the water bottles 5-14 are in one-to-one correspondence with the water taps 4-19; the top plate of the square tube 5-5 is screwed with a second rotating shaft 5-6 through a sealing bearing, the bottom of the second rotating shaft 5-6 is fixed with a square rod 5-7 through a bolt, a square hole 5-8 is formed in the square 5-4, and the square rod 5-7 is movably inserted into the square hole 5-8; a plurality of stirring rods 5-9 are annularly distributed on the second rotating shaft 5-6 and fixed through bolts; the outer end of the bottom of the first stirring rod 5-9 at the lowest part is fixedly provided with a second stirring rod 5-10 through a bolt, and the second stirring rod 5-10 is beneficial to stirring the bottom of the water bottle 5-14; the water bottle 5-14 is screwed with a cover body 5-11; the cover body 5-11 is embedded with a barometer 5-12; the right side of the cover body 5-11 is embedded with the air valve 5-13, the air pressure meter 5-12 is helpful for feeding back the air pressure condition in the horizontal, and when the air pressure is too high, the air valve 5-13 is opened for pressure relief.

The working principle of the specific embodiment is as follows: when the water tank is used, the universal wheel 2 is utilized to move the water tank 1 to a proper position, the first thread block 4-3 is conveniently screwed off by the first pull ring 4-4, and the water inlet pipe 4-1 is rotated, so that the water inlet bucket 4-2 is positioned in a direction convenient for water inlet to carry out water inlet; when water enters the water tank 1 from the water inlet hopper 4-2 and the water inlet pipe 4-1, impurities in the water are intercepted by the filter screen 4-6; moving the connecting rod 4-15 to enable the connecting rod 4-15 to move rightwards under the action of the sliding block 4-18, enabling the water tap 4-19 to leave the upper part of the water bottle 5-14, selecting a proper water bottle 5-14 to unscrew the cover body 5-11, adding a corresponding chemical reagent, moving the connecting rod 4-15 to enable the water tap 4-19 to be positioned above the water bottle 5-14, opening the corresponding water tap 4-19, starting the water pump 4-10, extracting water from the first water pipe 4-11, and flowing out of the opened water tap 4-19 and flowing into the corresponding water bottle 5-14 after passing through the hose 4-12, the second water pipe 4-13 and the third water pipe 4-14; moving the connecting rod 4-15, the tap 4-19 leaves the upper part of the water bottle 5-14, and screwing the cover body 5-11; starting a motor 5-2, and enabling an output shaft of the motor 5-2 to rotate to enable a first rotating shaft 5-3 to rotate to drive a square pipe 5-5 to rotate, enabling a square rod 5-7 to rotate to drive a second rotating shaft 5-6 to rotate, enabling a first stirring rod 5-9 and a second stirring rod 5-10 to rotate, and enabling water and chemical substances in a water bottle 5-14 to fully react; the air pressure condition in the feedback level of the air pressure gauge 5-12 is utilized, and when the air pressure is too high, the air valve 5-13 is opened to release pressure; after the reaction is completed, the square tube 5-5 below the water bottle 5-14 is taken down from the square tube 5-4, and the water in the water bottle 5-14 is processed in the next step; during drainage, the second thread block 4-8 is screwed down by the second pull ring 4-9, so that redundant water and impurities are discharged from the drain pipe 4-7.

After adopting above-mentioned structure, this concrete embodiment's beneficial effect does:

1. the rotatable water inlet pipe 4-1 is arranged, so that the water inlet hopper 4-2 can be positioned in a direction convenient for water inlet to carry out water inlet operation;

2. the movable water tap 4-19 is arranged, so that sewage can be conveniently split into the corresponding water bottle 5-14, the contact between the sewage and a human body is avoided, and the safety is improved;

3. the water bottle 5-14 can be taken, so that the sewage after the reaction in the water bottle 5-14 can be conveniently treated in the next step, and the convenience is improved;

4. the filter screen 4-6 is arranged, and when water enters the water tank 1 from the water inlet hopper 4-2 and the water inlet pipe 4-1, impurities in the water are intercepted by the filter screen 4-6, so that the impurities are prevented from entering the water pump 4-10.

The foregoing is merely illustrative of the present invention and not restrictive, and other modifications and equivalents thereof may occur to those skilled in the art without departing from the spirit and scope of the present invention.

Claims

1. The utility model provides a sewage chemical analysis tool for environmental monitoring, which comprises a water tank (1), a universal wheel (2) and a storage battery (3); the four corners of the bottom of the water tank (1) are respectively and rotatably connected with universal wheels (2) through shafts and bearings; a storage battery (3) is fixed on the top plate of the water tank (1);

the method is characterized in that: it also comprises a sampling mechanism (4) and an analysis mechanism (5); a sampling mechanism (4) is arranged on the water tank (1); the sampling mechanism (4) comprises a water inlet pipe (4-1), a water inlet hopper (4-2), a water pump (4-10), a first water pipe (4-11), a hose (4-12), a second water pipe (4-13), a third water pipe (4-14), a connecting rod (4-15), a limiting plate (4-16), a sliding rail (4-17), a sliding block (4-18) and a faucet (4-19); the right side of the top plate of the water tank (1) is penetrated and spirally connected with a water inlet pipe (4-1) through a sealing bearing, and the water inlet pipe (4-1) is of an inverted L-shaped structure; the upper end of the water inlet pipe (4-1) is connected with a water inlet hopper (4-2) in a penetrating way; a water pump (4-10) is fixed on the top plate of the water tank (1), the water pump (4-10) is positioned on the right side of the storage battery (3), and the water pump (4-10) is connected with the storage battery (3) through a lead; a first water pipe (4-11) is inserted and fixed at the water inlet end of the water pump (4-10); a hose (4-12) is inserted and fixed at the water outlet end of the water pump (4-10); a plurality of second water pipes (4-13) are arranged on the water tank (1); the left end of the hose (4-12) is connected with a second water pipe (4-13) in the middle in a penetrating way; a plurality of third water pipes (4-14) are connected between two adjacent second water pipes (4-13) in a penetrating way; connecting rods (4-15) are fixed at the left end and the right end of the outer side of the annular wall of the second water pipe (4-13) positioned at the forefront side and the rearmost side, and the connecting rods (4-15) are of an L-shaped structure; limiting plates (4-16) are fixed at the left end and the right end of the front side wall and the rear side wall of the water tank (1), and sliding rails (4-17) are fixed between the left limiting plate and the right limiting plate (4-16); the slide rail (4-17) is provided with a left slide block (4-18) and a right slide block (4-18) in a sliding manner, and the lower end of a vertical rod of the connecting rod (4-15) is fixed on the slide block (4-18); the lower end of the annular wall of the second water pipe (4-13) is connected with a plurality of water taps (4-19) in a penetrating way;

an analysis mechanism (5) is arranged on the left side of the top plate of the water tank (1); the analysis mechanism (5) comprises a driving box (5-1), a motor (5-2), a first rotating shaft (5-3), a square block (5-4), a square pipe (5-5), a second rotating shaft (5-6), a square rod (5-7), a first stirring rod (5-9), a cover body (5-11) and a water bottle (5-14); a driving box (5-1) is fixed on the left side of the top plate of the water tank (1); a plurality of motors (5-2) are fixed on the inner bottom plate of the driving box (5-1) in a matrix distribution manner, and the motors (5-2) are connected with the storage battery (3) through leads; a first rotating shaft (5-3) is fixed on an output shaft of the motor (5-2), and the first rotating shaft (5-3) is screwed through a top plate of the driving box (5-1) by a sealing bearing and then is fixed with the square block (5-4); square tubes (5-5) are movably sleeved on the square blocks (5-4); the square tube (5-5) is stuck and sealed on the bottom plate of the water bottle (5-14) through glue; the water bottles (5-14) are arranged on the upper side of the driving box (5-1), and the water bottles (5-14) are in one-to-one correspondence with the water taps (4-19); the top plate of the square tube (5-5) is rotatably connected with a second rotating shaft (5-6) through a sealing bearing, a square rod (5-7) is fixed at the bottom of the second rotating shaft (5-6), a square hole (5-8) is formed in the square tube (5-4), and the square rod (5-7) is movably inserted into the square hole (5-8); a plurality of stirring rods (5-9) are annularly distributed and fixed on the second rotating shaft (5-6); the water bottle (5-14) is screwed with a cover body (5-11);

the outer end of the bottom of the first stirring rod (5-9) at the lowest part is fixedly provided with a second stirring rod (5-10); stirring the bottom of the water bottle (5-14) by using a stirring rod II (5-10);

the working principle of the sewage chemical analysis tool for environmental monitoring is as follows:

when the water tank is used, the universal wheel (2) is utilized to move the water tank (1) to a proper position, and the water inlet pipe (4-1) is rotated, so that the water inlet hopper (4-2) is positioned in a direction convenient for water inlet to carry out water inlet; moving the connecting rod (4-15) to enable the connecting rod (4-15) to move rightwards under the action of the sliding block (4-18), enabling the water faucet (4-19) to leave the upper part of the water bottle (5-14), selecting a proper water bottle (5-14) to unscrew the cover body (5-11), adding a corresponding chemical reagent, moving the connecting rod (4-15) to enable the water faucet (4-19) to be positioned above the water bottle (5-14), opening the corresponding water faucet (4-19), starting the water pump (4-10), extracting water from the first water pipe (4-11), and enabling the water to flow out of the opened water faucet (4-19) after passing through the hose (4-12), the second water pipe (4-13) and the third water pipe (4-14) to flow into the corresponding water bottle (5-14); moving the connecting rod (4-15), the water tap (4-19) leaves the upper part of the water bottle (5-14), and screwing the cover body (5-11); starting a motor (5-2), enabling an output shaft of the motor (5-2) to rotate, enabling a first rotating shaft (5-3) to rotate, driving a square pipe (5-5) to rotate, enabling a square rod (5-7) to rotate, driving a second rotating shaft (5-6) to rotate, enabling a first stirring rod (5-9) to rotate, and enabling water and chemical substances in a water bottle (5-14) to fully react; after the reaction is completed, the square tube (5-5) below the water bottle (5-14) is taken off from the square tube (5-4), and the water in the water bottle (5-14) is subjected to the next treatment.

2. A wastewater chemistry analysis tool for environmental monitoring as set forth in claim 1, wherein: a first thread block (4-3) is arranged in the water inlet hopper (4-2), and the first thread block (4-3) is screwed with the top plate of the water tank (1) through threads; a first pull ring (4-4) is fixed at the top end of the first thread block (4-3); the first thread block (4-3) plugs the water inlet hopper (4-2) to prevent water in the water tank (1) from splashing; and screwing off the first thread block (4-3) by using the first pull ring (4-4).

3. A wastewater chemistry analysis tool for environmental monitoring as set forth in claim 1, wherein: a fixed frame (4-5) is arranged in the water tank (1), the fixed frame (4-5) is arranged on the right side of the first water pipe (4-11), and the outer peripheral wall of the fixed frame (4-5) is fixed with the inner side wall of the water tank (1); a filter screen (4-6) is fixed on the right side wall of the fixed frame (4-5), and the filter screen (4-6) is arranged on the left side of the water inlet pipe (4-1); the right side wall of the water tank (1) is connected with a drain pipe (4-7) in a penetrating way; the upper end of the annular wall of the drain pipe (4-7) is provided with a second thread block (4-8) in a screwed connection manner, the bottom end of the second thread block (4-8) is in screwed connection with the bottom of the drain pipe (4-7) through threads, the annular wall of the second thread block (4-8) is in screwed connection with the inner annular wall of the drain pipe (4-7), and the second thread block (4-8) is blocked in the drain pipe (4-7); when water enters the water tank (1) from the water inlet hopper (4-2) and the water inlet pipe (4-1), impurities in the water are intercepted by the filter screen (4-6); during drainage, the second thread block (4-8) is screwed off, so that redundant water and impurities are discharged from the drain pipe (4-7).

4. A wastewater chemistry analysis tool for environmental monitoring as set forth in claim 3, wherein: a second pull ring (4-9) is fixed at the top end of the second thread block (4-8); the second thread block (4-8) is screwed off by using the second pull ring (4-9).

5. A wastewater chemistry analysis tool for environmental monitoring as set forth in claim 1, wherein: the cover body (5-11) is embedded with a barometer (5-12); the right side of the cover body (5-11) is embedded with an air valve (5-13); the barometer (5-12) is used for helping to feed back the air pressure condition in the level, and when the air pressure is too high, the air valve (5-13) is opened for pressure relief.