CN220443268U - Water treatment equipment with water quality monitoring structure - Google Patents

Abstract

The utility model relates to the technical field of water treatment equipment, in particular to water treatment equipment with a water quality monitoring structure, which comprises a first tank body, an oscillating structure arranged in the first tank body, and a water inlet arranged above the oscillating structure; the utility model discloses a jar of automatic valve, including first jar of body, the below of the first jar of body is equipped with first outlet, the inside of first outlet is equipped with first automatic valve, the outside of first outlet is connected with the second jar of body, the both sides on second jar of body top all are equipped with stirring structure, stirring structure's right side is equipped with first pumping structure, first pumping structure's right side is equipped with the third jar of body, the below of the second jar of body and the third jar of body all is equipped with the second outlet, the inside of second outlet is equipped with the second automatic valve, the below of second automatic valve is connected with the saving box. According to the utility model, impurities attached to the filter plate are removed through the vibration structure, so that the impurities are reduced to block the filter plate, and the filtering efficiency of the filter plate is affected.

Description

Water treatment equipment with water quality monitoring structure

Technical Field

The utility model relates to the technical field of water treatment equipment, in particular to water treatment equipment with a water quality monitoring structure.

Background

The water treatment equipment removes harmful substances in water which are not needed for production and life through various physical and chemical means, and the equipment performs filtering and purifying treatment on the water, and the social production and life are related to water, so that the application range related to the water treatment field is very wide, the water treatment equipment is widely applied to the fields of domestic medicine, biology, electronics, chemical industry, power plants, sewage treatment and the like, and a plurality of the fields are related to industry, so that the treatment of industrial wastewater is very important.

According to the retrieval, in water treatment equipment with a water quality monitoring function and a publication number of CN210133970U, the utility model discloses water treatment equipment with the water quality monitoring function, which comprises a frame, a first cylinder, a second cylinder and a water quality sensor, wherein the water quality sensor is connected in the second cylinder, the first cylinder and the second cylinder are fixedly connected on the frame, a sewage port is arranged at the top of the first cylinder, and a first filter screen, a second filter screen and a third filter screen are longitudinally and sequentially connected in the first cylinder; the top of the second cylinder is provided with a flocculating agent adding port, the frame is connected with a first water pump, the input end of the first water pump is connected with the bottom of the first cylinder through a water pipe, and the output end of the first water pump is connected with the side wall of the second cylinder through a water pipe; the rack is connected with a second water pump, a water suction pipe is fixedly connected in the second cylinder, the input end of the second water pump is connected with the water suction pipe, and a valve is arranged at the bottom of the second cylinder; the utility model has good filtering effect, can detect whether the water quality reaches the standard, and has wide application range.

The utility model discloses industrial water treatment equipment with the publication number of CN212594228U, which comprises an outer annular plate, wherein an inner annular plate which is coaxially arranged is sleeved in the outer annular plate, an annular supporting plate is fixedly connected at the bottoms of the inner annular plate and the outer annular plate, an annular filter disc is arranged above the annular supporting plate, a plurality of obliquely arranged connecting pipes are arranged at the bottom of the annular supporting plate, the connecting pipes are uniformly distributed in circumference, the upper ends of the connecting pipes are fixedly connected with the annular supporting plate, the lower ends of the connecting pipes are connected with a water collecting cylinder body, and the connecting pipes are communicated with the inner cavity of the water collecting cylinder body; the upper part of the annular filter disc is provided with a scraping plate, the upper part of the scraping plate is connected with a connecting rod, the upper end of the connecting rod is connected with a mounting seat, and a 90-degree rotating shaft is arranged in the mounting seat in a penetrating way; the industrial water treatment equipment provided by the utility model can improve the effective filtering area of the equipment, so that the equipment has stronger capability of filtering and separating mixed liquid in unit time, more filtering and separating amount and obviously improved treatment speed; can avoid the blockage of the filtering component caused by dirt and ensure the sewage treatment efficiency.

However, in some water treatment apparatuses with water quality monitoring structures in real life, a filtering component is generally disposed inside, but the filtered impurities easily block the filtering component to affect the subsequent treatment effect, so a water treatment apparatus with a water quality monitoring structure is needed.

Disclosure of Invention

The utility model aims to provide water treatment equipment with a water quality monitoring structure, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a water treatment device with a water quality monitoring structure comprises a first tank body, an oscillating structure arranged in the first tank body, and a water inlet arranged above the oscillating structure;

the utility model discloses a water tank, including first jar of body, second jar of body, first jar of body below is equipped with the first outlet, the inside of first outlet is equipped with first automatic valve, the outside of first outlet is connected with the second jar of body, the both sides on second jar of body top all are equipped with stirring structure, stirring structure's right side is equipped with first structure of drawing water, first structure's right side is equipped with the third jar of body, the rear end of the third jar of body is equipped with the second structure of drawing water, the top of second structure of drawing water is equipped with the third structure of drawing water, the second jar of body all is equipped with the second outlet with the below of the third jar of body, the inside of second outlet is equipped with the second automatic valve, the below of second automatic valve is connected with the accumulator tank, the rear end of accumulator tank is equipped with the fourth structure of drawing water.

Preferably, the vibration structure comprises a driving motor, an electric crank, a first filter plate, a second filter plate, a first mounting block, a second mounting block, a first spring piece, a second spring piece and a connecting rod, wherein the first filter plate is arranged below the driving motor, the second filter plate is arranged below the first filter plate, the electric crank is arranged on two sides of the driving motor, connecting rods are arranged on two sides of the electric crank, the other ends of the connecting rods are fixedly arranged on the second filter plate, a plurality of second mounting blocks are arranged on the outer sides of the first filter plate and the second filter plate, the second spring piece is arranged on the inner side of the second mounting block, the first filter plate and the second filter plate are connected through the second spring piece, the first mounting block is arranged at the joint of the first tank body and the first filter plate, and the first filter plate is arranged at the joint of the first mounting block and the first filter plate.

Preferably, the stirring structure comprises a rotating motor, a transmission shaft, cylindrical gears, a first gear, a rotating rod and stirring sheets, wherein the transmission shaft is arranged at the output end of the rotating motor, the cylindrical gears are arranged in the middle of the transmission shaft in a penetrating mode, the first gears are arranged on two sides of the cylindrical gears, the rotating rods are arranged below the first gears, a plurality of stirring sheets are fixedly arranged on the outer sides of the rotating rods, and the cylindrical gears are connected with the first gears in a meshed mode.

Preferably, the first pumping structure comprises a first pumping pipe, a first pumping pump and a first water delivery pipe, the first pumping pump is arranged on the right side of the first pumping pipe, the first water delivery pipe is arranged on the right side of the first pumping pump, the first pumping pipe penetrates through the second tank body, and the first water delivery pipe penetrates through the third tank body.

Preferably, the second water pumping structure comprises a second water pumping pipe, a second water pumping pump and a second water conveying pipe, wherein the second water pumping pump is arranged at the rear end of the second water pumping pipe, the second water conveying pipe is arranged at the rear end of the second water pumping pipe, and the second water pumping pipe penetrates through the third tank body.

Preferably, the third pumping structure comprises a third pumping pipe, a third pumping pump and a third water delivery pipe, wherein the third pumping pump is arranged above the third pumping pipe, the third water delivery pipe is arranged on the left side of the third pumping pipe, the third pumping pipe penetrates through the third tank body, and the other side of the third water delivery pipe is connected with the water inlet.

Preferably, the fourth pumping structure comprises a fourth pumping pipe, a fourth pumping pump and a fourth water conveying pipe, wherein the fourth pumping pump is arranged on the right side above the fourth pumping pipe, the fourth water conveying pipe is arranged at the front end of the fourth pumping pump, the fourth pumping pipe penetrates through the storage box, and the fourth water conveying pipe is connected with the water inlet.

Preferably, the two sides of the first water outlet are provided with flocculation agent boxes, the lower part of each flocculation agent box is provided with a discharge outlet, each flocculation agent box is fixedly arranged on the first water outlet, and the joint of each flocculation agent box and the second tank body is provided with an inlet.

Preferably, a water quality detector is arranged in the third tank body.

The above description shows that, by the above technical solution of the present application, the technical problem to be solved by the present application can be necessarily solved.

Meanwhile, through the technical scheme, the utility model has at least the following beneficial effects:

according to the utility model, the electric crank can rotate through the rotation of the driving motor of the vibration structure, and in the process of the rotation of the electric crank, the connecting rod is driven to rotate, and the other side of the connecting rod is connected with the second filter plate, so that the connecting rod pulls the second filter plate to vibrate when rotating, and a second spring piece is arranged between the second filter plate and the first filter plate, and then the second filter plate drives the first filter plate to vibrate when vibrating, so that impurities attached to the surfaces of the first filter plate and the second filter plate are vibrated through vibration, and the impurities can be cleaned, so that the impurities can be filtered better after falling down;

according to the stirring structure, the transmission shaft is driven to rotate through the rotating motor, the cylindrical gears are driven to rotate through the transmission shaft, and as the first gears are in meshed connection with the cylindrical gears, teeth of the cylindrical gears can drive the first gears to rotate when the cylindrical gears rotate, the first gears drive the rotating rod to rotate, so that the stirring sheet is driven by the rotating rod to accelerate mixing of flocculating agent and water quality in the second tank body, and the stirring sheet can drive the flocculating agent to be mixed with the water quality better through different turning of a plurality of groups of first gears when the first gears rotate.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the back surface of the present utility model;

FIG. 3 is a schematic structural view of a second pumping structure according to the present utility model;

FIG. 4 is a schematic view of the structure of the top end of the second tank body;

fig. 5 is a schematic structural diagram of a portion of an oscillating structure according to the present utility model.

In the figure: 1. a first tank; 2. oscillating the structure; 201. a driving motor; 202. an electric crank; 203. a first filter plate; 204. a second filter plate; 205. a first mounting block; 206. a second mounting block; 207. a first spring piece; 208. a second spring piece; 209. a connecting rod; 3. a water inlet; 4. a first drain port; 5. a first automatic valve; 6. a second tank; 7. a stirring structure; 701. a rotating electric machine; 702. a transmission shaft; 703. a cylindrical gear; 704. a first gear; 705. a rotating rod; 706. stirring sheets; 8. a first pumping structure; 801. a first water suction pipe; 802. a first water pump; 803. a first water pipe; 9. a third tank; 10. a second pumping structure; 1001. a second water suction pipe; 1002. a second water pump; 1003. a second water pipe; 11. a third pumping structure; 1101. a third water suction pipe; 1102. a third water pump; 1103. a third water pipe; 12. a second drain port; 13. a second automatic valve; 14. a deposit box; 15. a fourth pumping structure; 1501. a fourth water suction pipe; 1502. a fourth water pump; 1503. a fourth water pipe; 16. a flocculation agent tank; 17. a discharge port; 18. a water quality detector.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Description of the preferred embodiments

As shown in fig. 1, 2 and 5, the present utility model provides a technical solution: a water treatment device with a water quality monitoring structure comprises a first tank body 1, an oscillating structure 2 arranged in the first tank body 1, and a water inlet 3 arranged above the oscillating structure 2;

the lower part of the first tank body 1 is provided with a first water outlet 4, the inside of the first water outlet 4 is provided with a first automatic valve 5, the outside of the first water outlet 4 is connected with a second tank body 6, both sides of the top end of the second tank body 6 are respectively provided with a stirring structure 7, the right side of the stirring structure 7 is provided with a first water pumping structure 8, the right side of the first water pumping structure 8 is provided with a third tank body 9, the rear end of the third tank body 9 is provided with a second water pumping structure 10, the upper part of the second water pumping structure 10 is provided with a third water pumping structure 11, the lower parts of the second tank body 6 and the third tank body 9 are respectively provided with a second water outlet 12, the inside of the second water outlet 12 is provided with a second automatic valve 13, the lower part of the second automatic valve 13 is connected with a saving box 14, the rear end of the saving box 14 is provided with a fourth water pumping structure 15, the oscillating structure 2 comprises a driving motor 201, an electric crank 202, a first filter plate 203, a second filter plate 204, a first installation block 205, a second installation block 206, a first spring block 207, a second spring block 208 and a connecting rod 209, a first filter plate 203 is arranged below the driving motor 201, a second filter plate 204 is arranged below the first filter plate 203, electric cranks 202 are arranged on two sides of the driving motor 201, connecting rods 209 are arranged on two sides of the electric cranks 202, the other ends of the connecting rods 209 are fixedly arranged on the second filter plate 204, a plurality of second installation blocks 206 are arranged on the outer sides of the first filter plate 203 and the second filter plate 204, a second spring piece 208 is arranged on the inner side of the second installation block 206, the second spring piece 208 connects the first filter plate 203 with the second filter plate 204, a first installation block 205 is arranged at the joint of the first tank 1 and the first filter plate 203, a first spring piece 207 is arranged at the joint of the first installation block 205 and the first filter plate 203, a first pumping structure 8 comprises a first pumping pipe 801, a first pumping pump 802 and a first pumping pipe 803, the right side of first suction pipe 801 is equipped with first suction pipe 802, the right side of first suction pipe 802 is equipped with first raceway 803, first suction pipe 801 runs through in second jar body 6, first raceway 803 runs through in third jar body 9, the both sides of first outlet 4 are equipped with flocculation agent case 16, the below of flocculation agent case 16 is equipped with discharge port 17, flocculation agent case 16 fixed mounting is on first outlet 4, and the junction of flocculation agent case 16 and second jar body 6 is equipped with the filling port, the vibration structure 2 of setting is through the rotation of its driving motor 201, make electric crank 202 rotate, and at electric crank 202 pivoted in-process, drive connecting rod 209 rotates, and connecting rod 209's opposite side is connected with second filter 204, consequently, connecting rod 209 can pull second filter 204 and vibrate when rotating, and be equipped with second filter 204 and first filter 203 between, then second filter 204 will drive first filter 203 and vibrate when vibrate, through vibration with first filter 203 and second filter 204 are surperficial filter, so can be better to the impurity clearance spring leaf that falls down through vibration, it can be convenient for filter the impurity.

Example two

The scheme in the first embodiment is further described below in conjunction with a specific working manner, and the details are described below:

as shown in fig. 1, fig. 2, fig. 3 and fig. 4, as a preferred embodiment, further, based on the above manner, the stirring structure 7 includes a rotating motor 701, a transmission shaft 702, a cylindrical gear 703, a first gear 704, a rotating rod 705 and a stirring sheet 706, the output end of the rotating motor 701 is provided with the transmission shaft 702, the middle of the transmission shaft 702 is penetrated with the cylindrical gear 703, both sides of the cylindrical gear 703 are provided with the first gear 704, the lower part of the first gear 704 is provided with the rotating rod 705, the outer side of the rotating rod 705 is fixedly provided with a plurality of stirring sheets 706, and the cylindrical gear 703 is in meshed connection with the first gear 704, the second pumping structure 10 includes a second pumping pipe 1001, a second pumping pump 1002 and a second pumping pipe 1003, the rear end of the second pumping pipe 1001 is provided with the second pumping pipe 1003, the rear end of the second pumping pipe 1002 penetrates through the third tank 9, the third pumping structure 11 comprises a third pumping pipe 1101, a third pumping pump 1102 and a third water delivery pipe 1103, the third pumping pump 1102 is arranged above the third pumping pipe 1101, the third water delivery pipe 1103 is arranged on the left side of the third pumping pump 1102, the third pumping pipe 1101 penetrates through the third tank body 9, the other side of the third water delivery pipe 1103 is connected with the water inlet 3, the fourth pumping structure 15 comprises a fourth pumping pipe 1501, a fourth pumping pump 1502 and a fourth water delivery pipe 1503, the fourth pumping pump 1502 is arranged on the right side above the fourth pumping pipe 1501, the fourth water delivery pipe 1503 is arranged at the front end of the fourth pumping pump 1502, the fourth pumping pipe 1501 penetrates through the storage tank 14, the fourth water delivery pipe 1503 is connected with the water inlet 3, the water quality detector 18 is arranged inside the third tank body 9, the arranged stirring structure 7 drives the transmission shaft 702 to rotate through the rotary motor 701 and drives the cylindrical gear 703 to rotate through the transmission shaft 702, because the first gear 704 is meshed with the cylindrical gear 703, when the cylindrical gear 703 rotates, teeth of the cylindrical gear 703 drive the first gear 704 to rotate, and the first gear 704 drives the rotating rod 705 to rotate, so that the stirring sheet 706 is driven by the rotating rod 705 to accelerate the mixing of the flocculating agent and water quality in the second tank 6, and the stirring sheet 706 can drive the flocculating agent to be mixed with the water quality better through different turning of the plurality of groups of first gears 704 during rotation.

From the above, it can be seen that:

the utility model aims at the technical problems that: some laboratory vibration devices are usually provided with vibration supporting plates with the same size, so that the use of microplates with different types and types is inconvenient; the technical scheme of each embodiment is adopted. Meanwhile, the implementation process of the technical scheme is as follows:

when the water treatment equipment with the water quality monitoring structure is used, firstly, wastewater to be treated is put into the water treatment equipment from the water inlet 3, then the wastewater enters the second tank body 6 through the middle of the first filter plate 203 and the second filter plate 204 of the oscillating structure 2 and is filtered by the first filter plate 203 and the second filter plate 204, when the filtered wastewater enters the second tank body 6, the flocculating agent in the flocculating agent tank 16 is discharged into the second tank body 6 through the discharge port 17, impurities in the flocculating agent tank 16 are precipitated, the flocculating agent tank 16 can be replenished through the filling port, after the flocculating agent enters the second tank body 6, the stirring structure 7 can be opened, the stirring structure 7 drives the transmission shaft 702 to rotate through the rotating motor 701 and drives the cylindrical gear 703 to rotate through the transmission shaft 702, and as the first gear is in meshed connection with the cylindrical gear 703, therefore, when the cylindrical gear 703 rotates, the teeth of the cylindrical gear 703 drive the first gear 704 to rotate, and the first gear 704 drives the rotating rod 705 to rotate, so that the stirring sheet 706 is driven by the rotating rod 705 to accelerate the mixing of the flocculating agent and water quality in the second tank 6, and the stirring sheet 706 can drive the flocculating agent to be mixed with the water quality better through different rotation directions of a plurality of groups of the first gears 704, after the mixing is completed, the first water pumping structure 8 is used, the first water pumping structure 802 is used for pumping the water after the precipitation to the inside of the third tank 9, the water quality detector 18 in the third tank 9 detects the water in the third tank 9, when the detection result is better, the water quality detector 18 can pump the water to the outside through the second water pumping structure 10 to collect, when the water quality is detected to be unqualified, the water is pumped to the first tank 1 again through the third water pumping structure 11 from the inside of the third tank 9 and then is filtered and then is transmitted to the second tank 6 until the water quality is qualified, impurities precipitated in the second tank 6 and the inside of the third tank 9 are discharged to the inside of the storage tank 14 through the second water outlet 12, after the wastewater is precipitated in the storage tank 14, the precipitated water is pumped to the first tank 1 again through the fourth water pumping structure 15, the water is circulated until the water quality is qualified, and as the equipment is used, the first filter plate 203 and the second filter plate 204 are filtered for a plurality of times, the filtering effect is easily affected, the vibration structure 2 is needed, the electric crank 202 is rotated through the rotation of the driving motor 201, and in the process of the electric crank 202, the connecting rod 209 is rotated, the other side of the connecting rod 209 is connected with the second filter plate 204, the second filter plate 204 is driven to vibrate when the connecting rod 209 rotates, the second filter plate 203 is arranged between the second filter plate 204 and the first filter plate 203, the second filter plate 203 is driven by the filter plate 203 to vibrate, and the second filter plate 203 can vibrate, and the impurities can be cleaned, and the impurities can be more easily vibrate, and the surface of the filter plate is cleaned, and the filter plate is more vibrated by the filter plate 203;

through above-mentioned setting, this application must solve above-mentioned technical problem, simultaneously, realizes following technical effect:

according to the vibration structure 2 provided by the utility model, the electric crank 202 is rotated through the rotation of the driving motor 201, and in the process of the rotation of the electric crank 202, the connecting rod 209 is driven to rotate, and the other side of the connecting rod 209 is connected with the second filter plate 204, so that the connecting rod 209 pulls the second filter plate 204 to vibrate when rotating, and a second spring piece 208 is arranged between the second filter plate 204 and the first filter plate 203, and then the second filter plate 204 drives the first filter plate 203 to vibrate when vibrating, so that impurities attached to the surfaces of the first filter plate 203 and the second filter plate 204 are vibrated through vibration, and the impurities can be cleaned, so that the impurities can be filtered better after falling down;

according to the stirring structure 7 provided by the utility model, the transmission shaft 702 is driven to rotate by the rotating motor 701, the cylindrical gear 703 is driven to rotate by the transmission shaft 702, and as the first gear 704 is in meshed connection with the cylindrical gear 703, teeth of the cylindrical gear 703 drive the first gear 704 to rotate when the cylindrical gear 703 rotates, and the first gear 704 drives the rotating rod 705 to rotate, so that the stirring sheet 706 is driven by the rotating rod 705 to accelerate the mixing of the flocculating agent and water quality in the second tank 6, and the stirring sheet 706 can drive the flocculating agent to be mixed with the water quality better by different turning of a plurality of groups of first gears 704 during rotation.

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

Claims (9)

1. The water treatment equipment with the water quality monitoring structure is characterized by comprising a first tank body (1), an oscillating structure (2) arranged in the first tank body (1), and a water inlet (3) arranged above the oscillating structure (2);

the utility model discloses a water pump, including first jar of body (1), the below of first jar of body (1) is equipped with first outlet (4), the inside of first outlet (4) is equipped with first automatic valve (5), the outside of first outlet (4) is connected with second jar of body (6), the both sides on second jar of body (6) top all are equipped with stirring structure (7), the right side of stirring structure (7) is equipped with first structure (8) that draws water, the right side of first structure (8) that draws water is equipped with third jar of body (9), the rear end of third jar of body (9) is equipped with second structure (10) that draws water, the top of second structure (10) that draws water is equipped with third structure (11), the below of second jar of body (6) and third jar of body (9) all is equipped with second outlet (12), the inside of second outlet (12) is equipped with second automatic valve (13), the below of second automatic valve (13) is connected with case (14), the rear end of saving case (14) is equipped with fourth structure (15).

2. The water treatment equipment with a water quality monitoring structure according to claim 1, wherein the vibration structure (2) comprises a driving motor (201), an electric crank (202), a first filter plate (203), a second filter plate (204), a first installation block (205), a second installation block (206), a first spring piece (207), a second spring piece (208) and a connecting rod (209), the first filter plate (203) is arranged below the driving motor (201), the second filter plate (204) is arranged below the first filter plate (203), electric cranks (202) are arranged on two sides of the driving motor (201), connecting rods (209) are arranged on two sides of the electric cranks (202), the other ends of the connecting rods (209) are fixedly arranged on the second filter plate (204), a plurality of second installation blocks (206) are arranged on the outer sides of the first filter plate (203) and the second filter plate (204), a second spring piece (208) is arranged on the inner side of the second installation block (206), the first filter plate (203) and the second filter plate (204) are connected with the first spring piece (203), the first filter plate (203) is connected with the first filter piece (203), a first spring piece (207) is arranged at the joint of the first mounting block (205) and the first filter plate (203).

3. The water treatment device with the water quality monitoring structure according to claim 1, wherein the stirring structure (7) comprises a rotating motor (701), a transmission shaft (702), a cylindrical gear (703), a first gear (704), a rotating rod (705) and stirring sheets (706), the output end of the rotating motor (701) is provided with the transmission shaft (702), the middle of the transmission shaft (702) is provided with the cylindrical gear (703) in a penetrating manner, both sides of the cylindrical gear (703) are provided with the first gear (704), the lower part of the first gear (704) is provided with the rotating rod (705), a plurality of stirring sheets (706) are fixedly arranged on the outer side of the rotating rod (705), and the cylindrical gear (703) is connected with the first gear (704) in a meshed manner.

4. The water treatment device with the water quality monitoring structure according to claim 1, wherein the first pumping structure (8) comprises a first pumping pipe (801), a first pumping pump (802) and a first water conveying pipe (803), the first pumping pipe (802) is arranged on the right side of the first pumping pipe (801), the first water conveying pipe (803) is arranged on the right side of the first pumping pipe (802), the first pumping pipe (801) penetrates through the second tank body (6), and the first water conveying pipe (803) penetrates through the third tank body (9).

5. The water treatment device with the water quality monitoring structure according to claim 1, wherein the second water pumping structure (10) comprises a second water pumping pipe (1001), a second water pumping pump (1002) and a second water conveying pipe (1003), the second water pumping pipe (1002) is arranged at the rear end of the second water pumping pipe (1001), the second water conveying pipe (1003) is arranged at the rear end of the second water pumping pipe (1002), and the second water pumping pipe (1001) penetrates through the third tank body (9).

6. The water treatment device with the water quality monitoring structure according to claim 1, wherein the third pumping structure (11) comprises a third pumping pipe (1101), a third pumping pump (1102) and a third water conveying pipe (1103), the third pumping pump (1102) is arranged above the third pumping pipe (1101), the third water conveying pipe (1103) is arranged on the left side of the third pumping pump (1102), the third pumping pipe (1101) penetrates through the third tank body (9), and the other side of the third water conveying pipe (1103) is connected with the water inlet (3).

7. The water treatment device with the water quality monitoring structure according to claim 1, wherein the fourth water pumping structure (15) comprises a fourth water pumping pipe (1501), a fourth water pumping pump (1502) and a fourth water conveying pipe (1503), the fourth water pumping pump (1502) is arranged on the right side above the fourth water pumping pipe (1501), the fourth water conveying pipe (1503) is arranged at the front end of the fourth water pumping pump (1502), the fourth water pumping pipe (1501) penetrates through the storage box (14), and the fourth water conveying pipe (1503) is connected with the water inlet (3).

8. The water treatment device with the water quality monitoring structure according to claim 1, wherein flocculation agent boxes (16) are arranged on two sides of the first water outlet (4), an outlet (17) is arranged below the flocculation agent boxes (16), the flocculation agent boxes (16) are fixedly arranged on the first water outlet (4), and an inlet is arranged at the joint of the flocculation agent boxes (16) and the second tank (6).

9. A water treatment device provided with a water quality monitoring structure according to claim 1, characterized in that the inside of the third tank (9) is provided with a water quality detector (18).