CN119707195A - Intelligent industrial wastewater treatment equipment and process - Google Patents

Abstract

The invention relates to the technical field of industrial wastewater, and particularly provides intelligent industrial wastewater treatment equipment and process. The intelligent industrial wastewater treatment equipment comprises a treatment tank, a plurality of filter plates are arranged in the treatment tank, a filter unit cavity is formed between every two adjacent filter plates, a set of auxiliary filter mechanism is arranged in each filter unit cavity, the tops of all filter plates are close to the top of the treatment tank, the bottoms of all filter plates are connected to the bottom of the treatment tank, the water inlet end of the treatment tank is connected with a feed pipe, the pipe orifice of the feed pipe extends into the first filter unit cavity, the top ends of all filter plates are provided with assembly holes, bearings are arranged in the assembly holes, and all bearings are on the same straight line, so that wastewater reaches the aim of sterilization treatment.

Description

Intelligent industrial wastewater treatment equipment and process

Technical Field

The invention relates to the technical field of industrial wastewater treatment, in particular to intelligent industrial wastewater treatment equipment and process.

Background

A large amount of industrial wastewater can be generated in industrial production, and the industrial wastewater can not be directly discharged according to the environmental protection requirement, but can be discharged after being purified by a whole set of treatment process. This is an essential production link for heavy industrial production, wastewater treatment.

The conventional industrial wastewater treatment method is to introduce wastewater into a wastewater treatment tank and then perform purification treatment by adding chemical agents in combination with aeration by an aerator. However, the industrial wastewater is more, the aeration time is longer, and the purification treatment is carried out only by adopting a chemical auxiliary agent mode, and the sterilization is assisted by adopting no sterilization mode, so that the purification time is longer and the efficiency is lower.

Disclosure of Invention

In order to solve the problems and improve the purification efficiency of the wastewater, the invention provides the following technical scheme:

The utility model provides an intelligent industrial wastewater treatment equipment, including handling the pond, be equipped with a plurality of filter in the processing pond, form a filter unit chamber between every adjacent two filter, every filter unit intracavity is equipped with a set of auxiliary filtration mechanism, the top of all filter is close to the top of handling the pond, the bottom of all filter is connected at the bottom of the pond of handling the pond, the inlet end of handling the pond is connected with the inlet pipe, the mouth of pipe of inlet pipe stretches into first filter unit intracavity, the pilot hole has been seted up on the top of all filter, install the bearing in the pilot hole, all bearings are on same straight line, install a bent axle on all bearings jointly, every section bending part on the bent axle distributes in a filter unit intracavity, auxiliary filtration mechanism includes first sterilizing plate, still including the jib of articulated on first sterilizing plate top surface, first sterilizing plate keeps flat in filter unit intracavity through the jib on a bend of bent axle, when the bent axle rotates, it goes up and down along filter unit chamber along first sterilizing plate, still be equipped with first sterilizing lamp on the top surface of first plate, first sterilizing lamp one side is equipped with the second sterilizing lamp for the first sterilizing lamp of a sterilizing lamp, when the second sterilizing lamp is gone up and down, and sterilizing lamp action is kept up and down for the first sterilizing lamp.

As a further preferred aspect, the auxiliary filtering mechanism further comprises a photovoltaic power generation panel mounted on the treatment tank, the photovoltaic power generation panel being electrically connected to the first germicidal lamp and the second germicidal lamp.

As a further preferred feature, a third germicidal lamp is provided on the bottom surface of the photovoltaic panel facing above the filter unit cavities, the photovoltaic panel covering all of the filter unit cavities.

Further preferably, the left and right sides of the second germicidal lamp pass through the left and right sides of the filter plate, and the second germicidal lamp is bent a plurality of times along the length direction of the filter plate.

As a further preferred, the auxiliary filtering mechanism further comprises hinge shafts arranged on the left and right sides of the first sterilizing plate, a second sterilizing plate is arranged on the left and right sides of the first sterilizing plate through the hinge shafts, torsion springs are arranged on the hinge shafts, one free ends of the torsion springs are limited on the bottom surface of the second sterilizing plate, the other free ends of the torsion springs are connected on the bottom surface of the first sterilizing plate, the second sterilizing plate and the first sterilizing plate are kept on the same plane through the torsion springs, the second sterilizing plate can rotate up and down relative to the first sterilizing plate through the hinge shafts, the first sterilizing lamp is divided into three parts, one part of the first sterilizing lamp is arranged on the top surface of the first sterilizing plate, and the other two parts of the first sterilizing lamp are respectively arranged on the top surfaces of the two second sterilizing plates.

As a further preferred mode, a guide pillar which is vertically upwards is arranged in the treatment pool, the guide pillar is vertically upwards, a bending part which is bent downwards is arranged at the top end of the guide pillar, a guide hole is formed in the first sterilization plate, the first sterilization plate is in sliding fit with the guide pillar through the guide hole, the first sterilization plate is lifted stably, the bending part is bent downwards above the second sterilization plate, and when the first sterilization plate is lifted to enable the top surface of the second sterilization plate to be contacted with the bottom end of the bending part, the second sterilization plate is enabled to automatically deflect downwards under the contact of the bottom end of the bending part.

As a further preferable aspect, a lifting gap is left between the outer edge of the second sterilizing plate and the second sterilizing lamp.

As further preferable, an aerator is arranged in the cavity of the last filtering unit, an automatic water pollution detection system is arranged in the cavity of the last filtering unit, a motor is arranged outside the treatment tank, a belt wheel is arranged on the action shaft of the motor and the outer end of the crankshaft, the two belt wheels are connected together through a conveying belt, the automatic water pollution detection system at least comprises an acidity detection sensor and a controller, the acidity detection sensor is electrically connected with the controller, and the controller is electrically connected with the motor.

The invention also provides an intelligent industrial wastewater treatment process, which comprises the following steps:

s01, adding a purifying agent into the treatment tank, and installing an automatic water pollution detection system in the last filtering unit cavity;

Step S02, connecting the feeding pipe to industrial equipment;

Step S03, connecting the water outlet end of the treatment tank to lower-stage purification equipment;

Step S04, industrial wastewater enters the treatment pool from the feeding pipe, is sequentially sterilized and filtered by the plurality of filter unit cavities, and then is sent to the last filter unit cavity to be detected by the automatic water pollution detection system, and when the acidity of the detected wastewater is higher, the auxiliary filter mechanism is started, and the auxiliary filter mechanism sterilizes the water quality.

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

The waste water flows into the first filter unit cavity through the feeding pipe, enters the second filter unit cavity after being filtered by the first filter plate, enters the third filter unit cavity after being filtered by the second filter plate, and is detected by the acidity detection sensor in the automatic water pollution detection system to obtain data, when the acidity is still out of standard, a signal is fed back to the controller, the controller sends the signal to the motor to enable the motor to automatically electrify and work, the motor rotates with the crankshaft, according to the driving principle of the crankshaft, the bending part on each section is lifted with the lifting rod when the crankshaft rotates, the first sterilizing plates are lifted with the lifting rods, the second sterilizing plates are lifted with the first sterilizing plates, and the second sterilizing plates are lifted with the first sterilizing plates corresponding to the filter unit cavity, so that the second sterilizing plates work with the lifting of the second sterilizing plates in the filter unit cavity, the waste water in the filter unit cavity is lifted upwards, and flows downwards along the top surfaces of the first sterilizing plate and the second sterilizing plate along with the lifting of the top, under the action of gravity, the waste water falls back into the filter unit cavity from the lifting gap between the second sterilizing plate and the second sterilizing lamp, when the waste water is lifted upwards along with the first sterilizing plate and the second sterilizing plate, the waste water stays on the top surfaces of the first sterilizing plate and the second sterilizing plate for a period of time, and then falls back into the filter unit cavity from the lifting gap, and the first sterilizing lamp is arranged on the first sterilizing plate and the second sterilizing plate, so that the waste water achieves the aim of sterilizing treatment, and the waste water falls back into the filter unit cavity after the waste water is lifted, so that the contact time of the waste water and the first sterilizing lamp is prolonged, and the sterilizing time is prolonged, the sterilization efficiency is improved, and as the first sterilization plate and the second sterilization plate with the structures are arranged in the plurality of filter unit cavities, bacteria in the wastewater are effectively killed as the wastewater is discharged to the discharging side.

Drawings

FIG. 1 is a schematic diagram of an external structure of an intelligent industrial wastewater treatment device according to an embodiment of the present invention;

FIG. 2 is a schematic plan view of an intelligent industrial wastewater treatment facility according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an intelligent industrial wastewater treatment device according to an embodiment of the present invention when a dead photovoltaic power generation panel is removed;

FIG. 4 is a schematic top plan view of the intelligent industrial wastewater treatment facility from FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a schematic view of an intelligent industrial wastewater treatment facility according to an embodiment of the present invention, taken along the A-side of the facility from FIG. 4;

FIG. 6 is a schematic diagram of an intelligent industrial wastewater treatment facility according to an embodiment of the present invention with a set of auxiliary filtering mechanisms removed;

FIG. 7 is a schematic view of part of an auxiliary filtering mechanism in an intelligent industrial wastewater treatment device according to an embodiment of the present invention;

FIG. 8 is a schematic view of an intelligent industrial wastewater treatment facility according to an embodiment of the present invention, after disassembly, from FIG. 7;

fig. 9 is a schematic diagram of an intelligent industrial wastewater treatment device according to an embodiment of the present invention from a bottom view of fig. 7.

In the figure, 1, a treatment tank, 2, a filter plate, 3, a filter unit cavity, 4, an auxiliary filter mechanism, 5, a feed pipe, 6, a bearing, 7, a crank shaft, 8, a bending part, 9, a first sterilization plate, 10, a first sterilization lamp, 11, a second sterilization lamp, 12, a photovoltaic power generation plate, 13, a third sterilization lamp, 14, a second sterilization plate, 15, a torsion spring, 16, a guide post, 17, a bending part, 18, a guide hole, 19, a lifting gap, 20, a motor, 21, a belt pulley, 22, a conveyor belt, 23, a suspender, 24, a hinge shaft, 25 and an automatic water pollution detection system.

Detailed Description

The foregoing and other embodiments and advantages of the invention will be apparent from the following, more complete, description of the invention, taken in conjunction with the accompanying drawings. It will be apparent that the described embodiments are merely some, but not all, embodiments of the invention.

In one embodiment, as shown in fig. 1-9, the embodiment provides an intelligent industrial wastewater treatment device, which comprises a treatment tank 1, wherein a plurality of filter plates 2 are arranged in the treatment tank 1, a filter unit cavity 3 is formed between every two adjacent filter plates 2, a set of auxiliary filter mechanism 4 is arranged in each filter unit cavity 3, the top ends of all filter plates 2 are close to the top of the treatment tank 1, the bottom ends of all filter plates 2 are connected to the bottom of the treatment tank 1, a feed pipe 5 is connected to the water inlet end of the treatment tank 1, the pipe orifice of the feed pipe 5 stretches into the first filter unit cavity 3, the top ends of all filter plates 2 are provided with assembly holes, bearings 6 are arranged in the assembly holes, all bearings 6 are arranged on the same straight line, a crankshaft 7 is commonly arranged on all bearings 6, each section of bending part 8 on the crankshaft 7 is distributed in one filter unit cavity 3, the auxiliary filter mechanism 4 comprises a first sterilizing plate 9, the first sterilizing plate 9 is hinged to the top surface 23, the first sterilizing plate 9 is arranged in the filter unit cavity 3, the top surface 9 is horizontally arranged, the first sterilizing plate 9 is connected to the bottom the first sterilizing plate 9 through the first bending part 7 and the first sterilizing plate 9 and the first sterilizing plate is provided with a lifting lamp 8 along the first side of the first sterilizing lamp cavity 10 through the first lifting lamp 8, and the first side of the first sterilizing plate 9 is rotated along the first side of the first lamp cavity 10, and the first side of the first sterilizing lamp 8 is opposite to the first side of the first lamp cavity 10 is rotated along the first side of the first sterilizing part and the first side of the first lamp 8 through the first lifting lamp 8.

The auxiliary filtering mechanism 4 further comprises a photovoltaic power generation plate 12 installed on the treatment tank 1, and the photovoltaic power generation plate 12 is electrically connected to the first sterilizing lamp 10 and the second sterilizing lamp 11.

A third germicidal lamp 13 is arranged on the bottom surface of the photovoltaic panel 12 facing above the filter unit cavities 3, the photovoltaic panel 12 covering all the filter unit cavities 3.

The left and right sides of the second germicidal lamp 11 pass through the left and right sides of the filter plate 2, and the second germicidal lamp 11 is bent a plurality of times along the length direction of the filter plate 2.

The auxiliary filtering mechanism 4 further comprises hinge shafts 24 arranged on the left and right sides of the first sterilizing board 9, and further comprises a second sterilizing board 14 arranged on the left and right sides of the first sterilizing board 9 through the hinge shafts 24, a torsion spring 15 is arranged on the hinge shafts 24, one free end of the torsion spring 15 is limited on the bottom surface of the second sterilizing board 14, the other free end of the torsion spring 15 is connected on the bottom surface of the first sterilizing board 9, the second sterilizing board 14 and the first sterilizing board 9 are kept on the same plane by the torsion spring 15, the second sterilizing board 14 can rotate up and down relative to the first sterilizing board 9 by the hinge shaft 24, the first sterilizing lamp 10 is divided into three parts, one part is arranged on the top surface of the first sterilizing board 9, and the other two parts are respectively arranged on the top surfaces of the two second sterilizing boards 14.

The treatment tank 1 is internally provided with a guide pillar 16 which is vertically upwards, the guide pillar 16 is vertically upwards, the top end of the guide pillar 16 is provided with a bending part 17 which is bent downwards, the first sterilization plate 9 is provided with a guide hole 18, the first sterilization plate 9 is slidably matched with the guide pillar 16 through the guide hole 18, the first sterilization plate 9 is stably lifted, the bending part 17 is bent downwards above the second sterilization plate 14, and when the first sterilization plate 9 is lifted to enable the top surface of the second sterilization plate 14 to be contacted with the bottom end of the bending part 17, the bottom end of the bending part 17 is contacted, so that the second sterilization plate 14 is automatically deflected downwards.

A lifting gap 19 is left between the outer edge of the second sterilizing board 14 and the second sterilizing lamp 11.

An aerator is arranged in the last filter unit cavity 3, an automatic water pollution detection system 25 is arranged in the last filter unit cavity 3, a motor 20 is arranged outside the treatment tank 1, a belt wheel 21 is arranged on the action shaft of the motor 20 and the outer end of the crankshaft 7, the two belt wheels 21 are connected together through a conveying belt 22, the automatic water pollution detection system 25 at least comprises an acidity detection sensor and a controller, the acidity detection sensor is electrically connected with the controller, and the controller is electrically connected with the motor 20. After multi-stage sterilization and purification, wastewater enters the last filter unit cavity 3 and is fully reacted with the added chemical agent after being treated by an aerator, so that the aim of purifying the wastewater again is fulfilled, in addition, an acidity detection sensor is utilized to detect water quality, if the acidity is large, a motor 20 is utilized to drive a crankshaft 7 to rotate, a plurality of sections of bending parts 8 on the crankshaft 7 are utilized to rotate, the bending parts 8 drive a first sterilization plate 9 and a second sterilization plate 14 to frequently lift in the filter unit cavity 3, the first sterilization lamp 10 on the first sterilization plate 9 and the second sterilization plate 14 are frequently contacted with the wastewater, the wastewater is frequently lifted, and the wastewater is frequently accepted to be sterilized by the first sterilization lamp 10 and then falls into the filter unit cavity 3 to assist in chemical agent so that the wastewater is rapidly purified.

Working principle and effect: the waste water flows into the first filter unit cavity 3 through the feeding pipe 5, enters the second filter unit cavity 3 after being filtered by the first filter plate 2, enters the third filter unit cavity 3 after being filtered by the second filter plate 2, and is detected by the acidity detection sensor in the automatic water pollution detection system 25 to obtain data, when the acidity is still out of standard, the controller feeds back a signal to the controller, the controller sends the signal to the motor 20 to enable the motor 20 to automatically electrify and work, the motor 20 rotates with the crankshaft 7, according to the driving principle of the crankshaft 7, the bent part 8 on each section is utilized to lift with the lifting rod 23 when the crankshaft 7 rotates, each first sterilizing plate 9 is lifted with the lifting rods 23, each second sterilizing plate 14 is lifted with the first sterilizing plates 9, as the second sterilizing plates 14 are corresponding to the first sterilizing plates 9 in the filter unit cavity 3, so that as they rise up in the filter unit chamber 3, the waste water in the filter unit chamber 3 is lifted up, and as it rises to the top, it flows down along the top surfaces of the first sterilizing plate 9 and the second sterilizing plate 14, under the action of gravity, the waste water falls back into the filter unit chamber 3 from the lifting gap 19 between the second sterilizing plate 14 and the second sterilizing lamp 11, and as the waste water rises up along the first sterilizing plate 9 and the second sterilizing plate 14, it stays for a while on the top surfaces of the first sterilizing plate 9 and the second sterilizing plate 14, and then falls back into the filter unit chamber 3 from the lifting gap 19, because the first sterilizing lamps 10 are installed on the first sterilizing plate 9 and the second sterilizing plate 14, in this way, the waste water achieves the purpose of sterilizing treatment, and because after the waste water is lifted up, the waste water is then fallen back into the filter unit cavity 3, so that the contact time between the waste water and the first sterilizing lamp 10 is prolonged, the sterilizing time is prolonged, and the sterilizing efficiency is improved. When the wastewater is treated, chemical agents are added into the wastewater, so that the purification efficiency of the wastewater is further improved by combining the sterilization function.

In addition, the surface of the filter plate 2 is provided with the second sterilizing lamp 11, and when the wastewater is purified into the filter unit cavity 3, the wastewater is sterilized in advance through the second sterilizing lamp 11, and under the repeated lifting action of the first sterilizing lamp 10 and the combined action of the first sterilizing lamp 10 and the second sterilizing lamp 11, the purification efficiency of the wastewater is improved again.

In addition, when the first sterilizing board 9 is lifted to the point that the bottom ends of the bending parts 17 are contacted with the top surfaces of the two second sterilizing boards 14, the two second sterilizing boards 14 deflect downwards relative to the two sides of the first sterilizing board 9, the lifted waste water is discharged downwards more smoothly relative to the second sterilizing lamps 11, when the first sterilizing board 9 is lifted down with the second sterilizing board 14, the top surfaces of the second sterilizing boards 14 are far away from the bottom ends of the two bending parts 17, one free end of the torsion spring 15 rebounds upwards, the second sterilizing board 14 is pushed to swing upwards to be kept on the same horizontal plane with the first sterilizing board 9, and when the first sterilizing board 9 is lifted up again with the two second sterilizing boards 14, the waste water can be lifted upwards.

The invention also provides an intelligent industrial wastewater treatment process, which comprises the following steps:

Step S01, adding a purifying agent into the treatment tank 1, and installing an automatic water pollution detection system 25 in the last filtering unit cavity 3;

step S02, connecting the feeding pipe 5 to industrial equipment;

Step S03, connecting the water outlet end of the treatment tank 1 to lower-stage purification equipment;

Step S04, industrial wastewater enters the treatment tank 1 through the feeding pipe 5, is sterilized and filtered by the plurality of filter unit cavities 3, is sent to the last filter unit cavity 3 to be detected by the automatic water pollution detection system 25, starts the auxiliary filter mechanism 4 when the acidity of the detected wastewater is high, sterilizes the water quality by the auxiliary filter mechanism 4, simultaneously adds salty auxiliary agent into the last filter unit cavity 3 according to the action of the auxiliary filter mechanism 4, neutralizes the acidity of the wastewater, and finally flows to the lower-level purification equipment (such as a sewage processor) to be finally treated, and is discharged outwards after reaching the standard after detection. Of course, in the actual assembly, a circuit may be provided, and a switch may be provided on the circuit to control the motor 20 to operate alone, so that the motor 20 can rotate all the time with the crankshaft 7, and all the auxiliary filtering mechanisms 4 are driven by the crankshaft 7 to continuously perform sterilization operation on the waste water. The acidity detection sensor can detect the acidity of the purified wastewater again, and according to the detected data, salty auxiliary agents are added into the wastewater to neutralize the acidity of the wastewater.

The above orientation is not intended to represent a specific orientation of each component in the present embodiment, but the present embodiment is merely for convenience of description of the embodiments, and is set by referring to the orientation in the drawings, and it is essential that the specific orientation of each component is described in terms of its actual installation and actual use and orientation that are habitual to those skilled in the art, and this is described in detail.

The above-described embodiments are provided to further explain the objects, technical solutions, and advantageous effects of the present invention in detail. It should be understood that the foregoing is only illustrative of the present invention and is not intended to limit the scope of the present invention. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art without departing from the spirit and principles of the present invention are intended to be included in the scope of the present invention.

Claims (9)

1. The utility model provides an intelligent industrial wastewater treatment equipment, its characterized in that, including handling the pond, be equipped with a plurality of filter in the pond, every adjacent two form a filter unit chamber between the filter, every filter unit intracavity is equipped with a set of auxiliary filtration mechanism, all the top of filter is close the top of handling the pond, all the bottom of filter is connected the bottom of the pond of handling the pond, the inlet end of handling the pond is connected with the inlet pipe, the mouth of pipe of inlet pipe stretches into first filter unit intracavity, all the pilot hole has been seted up on the top of filter, installs the bearing in the pilot hole, all install a bent axle jointly on the bearing, every section bending part on the bent axle distributes in one filter unit intracavity, auxiliary filtration mechanism includes first sterilizing plate, still includes the articulated jib on the first sterilizing plate top surface.

2. The intelligent industrial wastewater treatment device according to claim 1, wherein the first sterilizing plate is horizontally placed in the cavity of the filtering unit, the top surface of the first sterilizing plate is connected to a bending portion of the crankshaft through the hanging rod, when the crankshaft rotates, the first sterilizing plate is lifted along the cavity of the filtering unit through the bending portion, a first sterilizing lamp is further arranged on the top surface of the first sterilizing plate, a second sterilizing lamp is arranged on the surface of the filtering plate opposite to one side of the cavity of the filtering unit, and when the first sterilizing lamp is lifted along with the first sterilizing plate, two sides of the first sterilizing lamp are lifted and rotated relative to the second sterilizing lamp, and the auxiliary filtering mechanism further comprises a photovoltaic power generation plate arranged on the treatment tank and electrically connected to the first sterilizing lamp and the second sterilizing lamp.

3. The intelligent industrial wastewater treatment device of claim 2, wherein a third germicidal lamp facing above the filter unit cavities is provided on the bottom surface of the photovoltaic panel, which covers all of the filter unit cavities.

4. The intelligent industrial wastewater treatment apparatus according to claim 3, wherein the left and right sides of the second germicidal lamp pass through the left and right sides of the filter plate, and the second germicidal lamp is in a multi-bent shape provided along the length direction of the filter plate.

5. The intelligent industrial wastewater treatment apparatus according to claim 4, wherein the auxiliary filtering mechanism further comprises hinge shafts provided on both sides of the first sterilizing plate, and further comprises a second sterilizing plate mounted on both sides of the first sterilizing plate through the hinge shafts, torsion springs are mounted on the hinge shafts, one free ends of the torsion springs are limited on the bottom surface of the second sterilizing plate, the other free ends of the torsion springs are connected on the bottom surface of the first sterilizing plate, the second sterilizing plate and the first sterilizing plate are kept on the same plane through the torsion springs, the second sterilizing plate can rotate up and down relative to the first sterilizing plate through the hinge shafts, and the first sterilizing lamp is divided into three parts, one part is arranged on the top surface of the first sterilizing plate, and the other two parts are respectively arranged on the top surfaces of the two second sterilizing plates.

6. The intelligent industrial wastewater treatment device according to claim 5, wherein a guide pillar is arranged in the treatment tank, the guide pillar is vertically upward, a bending part is arranged at the top end of the guide pillar and is bent downward, a guide hole is formed in the first sterilization plate, the first sterilization plate is slidably matched with the guide pillar through the guide hole, so that the first sterilization plate is lifted stably, the bending part is bent downward above the second sterilization plate, and when the first sterilization plate is lifted to enable the top surface of the second sterilization plate to be contacted with the bottom end of the bending part, the second sterilization plate is enabled to automatically deflect downward under the contact of the bottom end of the bending part.

7. The intelligent industrial wastewater treatment device of claim 6, wherein a lifting gap is left between the outer edge of the second sterilizing plate and the second sterilizing lamp.

8. The intelligent industrial wastewater treatment device according to claim 7, wherein an aerator is arranged in the last filtering unit cavity, an automatic water pollution detection system is arranged in the last filtering unit cavity, a motor is arranged outside the treatment tank, a belt wheel is arranged on an action shaft of the motor and at the outer end of the crankshaft, the two belt wheels are connected together through a conveying belt, the automatic water pollution detection system at least comprises an acidity detection sensor and a controller, the acidity detection sensor is electrically connected with the controller, and the controller is electrically connected with the motor.

9. An intelligent industrial wastewater treatment process, suitable for the intelligent industrial wastewater treatment equipment as claimed in any one of claims 1 to 8, comprising the steps of:

s01, adding a purifying agent into the treatment tank, and installing an automatic water pollution detection system in the last filtering unit cavity;

Step S02, connecting the feeding pipe to industrial equipment;

Step S03, connecting the water outlet end of the treatment tank to lower-stage purification equipment;

Step S04, industrial wastewater enters the treatment pool from the feeding pipe, is sequentially sterilized and filtered by the plurality of filter unit cavities, and then is sent to the last filter unit cavity to be detected by the automatic water pollution detection system, and when the acidity of the detected wastewater is higher, the auxiliary filter mechanism is started, and the auxiliary filter mechanism sterilizes the water quality.