CN108341503B - Industrial wastewater treatment and recovery system based on industrial sewage reuse - Google Patents

Abstract

The invention discloses an industrial wastewater treatment and recovery system based on industrial wastewater recycling, which structurally comprises a vent hole, an aeration pipe, a processor fixing ring, a wastewater inlet pipe, an integrated processor shell, an anti-skidding support column, a product nameplate, a water quality detection controller, an access hole, a wastewater precipitation and disinfection tank, a detection and treatment tank, a reclaimed water outlet pipe and a partition plate.

Description

Industrial wastewater treatment and recovery system based on industrial sewage reuse

Technical Field

The invention relates to an industrial wastewater treatment and recovery system based on industrial sewage reuse, and belongs to the field of industrial wastewater treatment and recovery systems.

Background

The purification and recovery of waste water is also called as waste water reuse or waste water regeneration, i.e. the waste water is reused after being treated. The treated waste water can be used for irrigating farmlands and green belts, cleaning streets, recharging ground F water, supplementing water for industrial cooling water, boiler feed water, process water and the like.

But prior art simple structure, traditional industrial waste water treatment recovery system based on industrial sewage is recycled directly after sewage purification treatment when using, can't detect whether quality of water after purification treatment is up to standard, and sewage that does not reach standard directly discharges, can't purify again and discharge, and the device practicality is relatively poor.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an industrial wastewater treatment and recovery system based on industrial wastewater recycling, and aims to solve the problems that the prior art is simple in structure, the traditional industrial wastewater treatment and recovery system based on industrial wastewater recycling is directly recycled after wastewater purification treatment, whether the water quality after purification treatment reaches the standard cannot be detected, sewage which does not reach the standard is directly discharged, the sewage which does not reach the standard cannot be purified and discharged again, and the practicability of the device is poor.

In order to achieve the purpose, the invention is realized by the following technical scheme: an industrial wastewater treatment and recovery system based on industrial wastewater recycling comprises a vent hole, an aerator pipe, a processor fixing ring, a wastewater inlet pipe, an integrated processor shell, an anti-skidding supporting column, a product nameplate, a water quality detection controller and an inspection hole, wherein the wastewater inlet pipe is welded on the left surface of the integrated processor shell from top to bottom, the processor fixing ring is vertically welded at the left end and the right end of the front surface of the integrated processor shell, the back surface of the product nameplate is connected with the middle of the front surface of the integrated processor shell in an adhesive manner, the water quality detection controller is fixed on the right surface of the integrated processor shell through a bolt, the aerator pipe penetrates through the left end of the upper surface of the integrated processor shell, the vent hole is positioned on the right side of the aerator pipe on the integrated processor shell, and the inspection hole is connected on the right side of the vent hole, the integrated processor shell consists of a sewage precipitation disinfection tank, a detection treatment tank, a reclaimed water outlet pipe, a partition plate and a driving mechanism, wherein the sewage precipitation disinfection tank is positioned at the left end inside the integrated processor shell, the detection treatment tank is close to the left side of the detection treatment tank, the partition plate is inserted and embedded between the sewage precipitation disinfection tank and the detection treatment tank, the reclaimed water outlet pipe is welded above a water quality detection controller on the right side surface of the integrated processor shell and is positioned at the same horizontal line with a sewage inlet pipe, the detection treatment tank consists of a sewage connecting pipe, a driving pump body, a circulation treatment switching mechanism, a solenoid valve, a detection tank main body and a sewage filtering pipe, the top end of the sewage connecting pipe is in threaded connection with the top of the right side of the partition plate, the bottom of the sewage connecting pipe is in sealed connection with the top of the left side of the driving pump body, and, the circular treatment switch mechanism left end is in the same place with bolt connection in the middle of the detection pond main part, solenoid valve sealing connection in detection pond main part right side and with well water outlet pipe threaded connection, sewage filters pipe left side and the left sewage sedimentation disinfection pond through connection of baffle, sewage filters pipe right side and detection pond main part left side surface bolt fastening together.

Further, the water quality detection controller comprises controller shell, touch display screen, treater chip, integrated circuit board, water quality testing sensor, controller shell bolt fastening is in integration treater shell right side surface, integrated circuit board nestification is in the inside centre of controller shell, the treater chip welds in integrated circuit board left side surface, touch display screen nestification is in the controller shell openly in the middle of and be connected with the integrated circuit board electricity, water quality testing sensor is installed in the detection pond main part inside and is connected with the integrated circuit board electricity.

Further, the drive pump body comprises first driving motor, actuating lever, driving vane, sewage back flow, first driving motor places in the lower right corner in the detection and treatment pond, sewage back flow bolt fastening is in the left side of the first driving motor in detection and treatment pond bottom, the actuating lever is located inside middle and actuating lever right-hand member of sewage back flow and is in the same place with first driving motor left end mechanical connection, driving vane weld in the actuating lever side and with sewage back flow inner wall clearance fit.

Further, cyclic processing switching mechanism comprises second driving motor, first drive shaft, second drive shaft, first fixed pulley, second fixed pulley, switch door main part, second driving motor installs in the detection and handles pond right side and be connected with the water quality testing controller electricity, first drive shaft right-hand member is in the same place with the welding of second driving motor left end, the second drive shaft welds perpendicularly and is in the same place with first drive shaft, first fixed pulley meshing respectively in bottom of the pool face and top in the detection and handling pond, first fixed pulley is located second drive shaft left side, the second fixed pulley is installed in the detection and is managed inside of the pond main part and with first fixed pulley mechanical connection, switch door main part welds in second fixed pulley left side.

Further, the solenoid valve comprises inlet tube, solenoid valve body, outlet pipe, coil winding, plunger, from reset spring, electric wire box, the inlet tube becomes integrated structure and inlet tube with the solenoid valve body and is located the solenoid valve body left end, the outlet pipe is located the solenoid valve body right-hand member and is in the same place with well water outlet pipe sealing connection, the inlet tube left end is in the same place with detection pond main part right side welding, the plunger is installed in the inside centre of solenoid valve body, the coil winding nests in the left and right sides of solenoid valve body inner plunger, hug closely in the bottom of the plunger of solenoid valve body from reset spring, the electric wire box is located solenoid valve body bottom and is connected with the water quality testing controller electricity.

Furthermore, the detection pool main body is composed of a detection pool shell and a backflow funnel, and the upper surface of the backflow funnel is welded with the bottom surface of the detection pool shell.

Further, the sewage filters the pipe by first ring flange, pipe main part, active carbon filter, second ring flange and constitutes, first ring flange bolt fastening in sewage connecting pipe right side and with pipe main part left side surfacing together, second ring flange bolt fastening in detects the processing pond left side, the second ring flange other end is in the same place with pipe main part right side surfacing, active carbon filter mechanical connection is in the middle of the pipe main part is inside.

Further, actuating mechanism comprises hob, first rotating pulley, buoy, from reset spring piece, touching device, second rotating pulley, touching device bolted fixation in sewage sedimentation disinfection pond top, from reset spring piece mechanical connection in touching device below, second rotating pulley installs in touching device right side, first rotating pulley mechanical connection is in second rotating pulley below, the hob hugs closely in the baffle left side and with second rotating pulley meshing together, the buoy is placed inside sewage sedimentation disinfection pond.

Furthermore, the sealing rings are arranged at the two ends of the water inlet pipe and the two ends of the water outlet pipe respectively, so that the connection tightness is effectively improved, and water leakage is prevented.

Advantageous effects

The invention realizes that the industrial wastewater treatment and recovery system based on industrial wastewater reuse is provided with a detection and treatment tank, sewage flows in from a sewage inlet pipe, after the sewage is purified by a sewage sedimentation and disinfection tank, a buoy jacks up a self-reset spring block, a touch device on the self-reset spring block drives a first rotating pulley and a second rotating pulley to rotate and drives a screw rod to ascend, the sewage flows into a sewage filtering conduit through a sewage connecting conduit and is discharged into the detection tank body, the water quality condition after purification treatment is detected by a water quality detection sensor, a water quality detection controller controls a plunger of an electromagnetic valve to press downwards when the water quality reaches the standard, reclaimed water flows from the inlet pipe to a water outlet pipe and is finally discharged through a reclaimed water outlet pipe, the water quality detection controller controls a second driving motor to work when the water quality does not reach the standard, the second driving motor drives a first driving shaft and a second driving shaft to rotate, thereby the second drive shaft drives first fixed pulley, the second fixed pulley is rotatory, the left switch door main part of second fixed pulley is opened downwards, sewage flows into inside the sewage backward flow and drives the actuating lever through first driving motor and rotates, drive blade on the actuating lever carries out purification treatment again in leading-in sewage sedimentation disinfection pond with sewage through sewage connecting conduit, after handling, flow into sewage filtering conduit through sewage connecting conduit and discharge inside the detection pond main part and detect again based on industrial sewage reuse's industrial waste water treatment recovery system can detect sewage quality after using sewage purification treatment when using, quality of water up to standard rear can discharge, quality of water unqualified can carry out purification treatment again, discharge again up to quality of water up to standard, avoid quality of water just discharging for up to standard, effectively promote sewage treatment's quality.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of an industrial wastewater treatment and recovery system based on industrial wastewater reuse according to the present invention;

FIG. 2 is a schematic view of a detection processing cell according to the present invention;

FIG. 3 is a schematic diagram showing a detailed structure of a detection processing tank according to the present invention;

FIG. 4 is a first schematic view of the operation of a detection processing tank according to the present invention;

FIG. 5 is a second schematic diagram of the operation of the detection processing tank of the present invention.

In the figure: a ventilation hole-1, an aeration pipe-2, a processor fixing ring-3, a sewage inlet pipe-4, an integrated processor shell-5, an anti-skid supporting column-6, a product nameplate-7, a water quality detection controller-8, an access hole-9, a sewage sedimentation disinfection tank-501, a detection processing tank-502, a reclaimed water outlet pipe-503, a clapboard-504, a controller shell-801, a touch display screen-802, a processor chip-803, an integrated circuit board-804, a water quality detection sensor-805, a sewage connecting conduit-5021, a driving pump body-5022, a circulating processing switch mechanism-5023, an electromagnetic valve-5024, a detection tank main body-5025, a sewage filtering conduit-5026, a screw rod-5051, a first rotating pulley-5052, a second rotating pulley, a buoy-5053, a self-reset spring block-5054, a touch device-5055, a second rotating pulley-5056, a first driving motor-50221, a driving rod-50222, a driving blade-50223, a sewage return pipe-50224, a second driving motor-50231, a first driving shaft-50232, a second driving shaft-50233, a first fixed pulley-50234, a second fixed pulley-50235 and a switch door body-50236, a water inlet pipe-50241, a solenoid valve body-50242, a water outlet pipe-50243, a coil winding-50244, a plunger-50245, a self-resetting spring-50246, a wire box-50247, a detection cell shell-50251, a return funnel-50252, a first connecting conduit-50261, a second connecting conduit-50262, an activated carbon filter core-50263 and a connecting flange-50264.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 5, the present invention provides an industrial wastewater treatment and recovery system based on industrial wastewater recycling, which comprises a vent hole 1, an aerator pipe 2, a processor fixing ring 3, a wastewater inlet pipe 4, an integrated processor housing 5, an anti-skid support column 6, a product name plate 7, a water quality detection controller 8, and an access hole 9, wherein the wastewater inlet pipe 4 is welded at one fifth of the left surface of the integrated processor housing 5 from top to bottom, the processor fixing ring 3 is vertically welded at the left and right ends of the front surface of the integrated processor housing 5, the back surface of the product name plate 7 is connected to the middle of the front surface of the integrated processor housing 5 through glue, the water quality detection controller 8 is fixed on the right surface of the integrated processor housing 5 through a bolt, the aerator pipe 2 passes through the left end of the upper surface of the integrated processor housing 5, the vent hole 1 is located at the right side of the aerator pipe 2 on the integrated processor, the access hole 9 through connection is in the right side of 5 top ventilation holes 1 of integration treater shell, integration treater shell 5 comprises sewage sedimentation disinfection pond 501, detection treatment pond 502, well water outlet pipe 503, baffle 504, actuating mechanism 505, sewage sedimentation disinfection pond 501 is located the inside left end of integration treater shell 5, detection treatment pond 502 is near on the left of detection treatment pond 502, baffle 504 is inserted and is inlayed between sewage sedimentation disinfection pond 501 and detection treatment pond 502, well water outlet pipe 503 welds in the top of integration treater shell 5 right side surface water quality testing controller 8 and is located same water flat line with sewage inlet tube 4, detection treatment pond 502 comprises sewage connecting pipe 5021, drive pump body 5022, cyclic processing on-off mechanism 5023, solenoid valve 5024, detection pond main part 5, sewage filtration pipe 5026, sewage connecting pipe 5021 top threaded connection is in baffle 504 right side top, the bottom of the sewage connecting conduit 5021 is connected with the top of the left side of the driving pump body 5022 in a sealing way, the detection tank main body 5025 is mechanically connected above the driving pump body 5022, the left end of the cyclic processing switch mechanism 5023 is connected with the middle of the detection tank main body 5025 in a bolt way, the electromagnetic valve 5024 is connected with the right side of the detection tank main body 5025 in a sealing way and is in threaded connection with the reclaimed water outlet pipe 503, the left side of the sewage filtering conduit 5026 is connected with the sewage sedimentation disinfection tank 501 on the left side of the partition 504 in a penetrating way, the right side of the sewage filtering conduit 5026 is fixed with the surface of the left side of the detection tank main body 5025 in a bolt way, the water quality detection controller 8 comprises a controller shell 801, a touch display screen 802, a processor chip 803, an integrated circuit board 804 and a water quality detection sensor 805, the controller shell 801 is fixed on the surface of the right, the treater chip 803 welds in integrated circuit board 804 left surface, touch display screen 802 nests in the middle of controller shell 801 front and is connected with integrated circuit board 804 electricity, water quality testing sensor 805 is installed inside detection pond main part 5025 and is connected with integrated circuit board 804 electricity, drive pump body 5022 comprises first driving motor 50221, actuating lever 50222, drive blade 50223, sewage back flow pipe 50224, first driving motor 50221 is placed in detection processing pond 502 lower right corner, sewage back flow pipe 50224 bolt fastening is in the left side of the first driving motor 50221 in detection processing pond 502 bottom, actuating lever 50222 is located sewage back flow 50224 inside middle and actuating lever 50222 right end and first driving motor 50221 left end mechanical connection together, drive blade 50223 welds in the driving lever 22 side and with sewage back flow pipe 50224 inner wall clearance fit, cyclic processing switch mechanism 5023 is by second driving motor 50231, a little the water of the second driving motor 50231, A first driving shaft 50232, a second driving shaft 50233, a first fixed pulley 50234, a second fixed pulley 50235, a switch door main body 50236, wherein the second driving motor 50231 is installed at the right side in the detection treatment tank 502 and is electrically connected with the water quality detection controller 8, the right end of the first driving shaft 50232 is welded with the left end of the second driving motor 50231, the second driving shaft 50233 is vertically welded at the bottom of the detection treatment tank 502, the top of the second driving shaft 50233 is respectively engaged with the first driving shaft 50232 and the first fixed pulley 50234, the first fixed pulley 50234 is located at the left side of the second driving shaft 50233, the second fixed pulley 50235 is installed inside the detection treatment tank main body 5025 and is mechanically connected with the first fixed pulley 50234, the switch door main body 50236 is welded at the left side of the second fixed pulley 50235, the solenoid valve 5024 consists of a water inlet pipe 50241, a solenoid valve body 50242, a water outlet pipe 50243, a coil winding 50244, a plunger 50245, a self-, the water inlet pipe 50241 and the solenoid valve body 50242 are integrated into a whole and the water inlet pipe 50241 is located at the left end of the solenoid valve body 50242, the water outlet pipe 50243 is located at the right end of the solenoid valve body 50242 and is connected with the reclaimed water outlet pipe 503 in a sealing manner, the left end of the water inlet pipe 50241 is welded with the right side of the detection tank main body 5025, the plunger 50245 is installed in the middle of the inside of the solenoid valve body 50242, the coil winding 50244 is nested at the left and right sides of the plunger 50245 in the solenoid valve body 50242, the self-resetting spring 50246 is tightly attached to the bottom of the plunger 50245 of the solenoid valve body 50242, the wire box 50247 is located at the bottom of the solenoid valve body 50242 and is electrically connected with the water quality detection controller, the detection tank main body 5025 is composed of a detection tank shell 50251 and a backflow funnel 50252, the upper surface of the backflow funnel 50252 is welded with the bottom, An activated carbon filter 50263, a second flange 50264, the first flange 50261 is bolted to the right side of the sewage connecting conduit 5021 and welded to the left side surface of the conduit body 50262, the second flange 50264 is bolted to the left side of the detection treatment tank 502, the other end of the second flange 50264 is welded to the right side surface of the conduit body 50262, the activated carbon filter 50263 is mechanically connected to the middle inside of the conduit body 50262, the driving mechanism 505 is composed of a screw 5051, a first rotating pulley 5052, a float 5053, a self-return spring 5054, a touch 5055, a second rotating pulley 5056, the touch 5055 is bolted to the top of the sewage sedimentation disinfection tank 501, the self-return spring 5054 is mechanically connected below the touch 5055, the second rotating pulley 5056 is installed on the right side of the touch 5055, the first rotating pulley 5052 is mechanically connected below the second rotating pulley 5056, the spiral rod 5051 is tightly attached to the left side of the partition 504 and meshed with the second rotating pulley 5056, the buoy 5053 is placed inside the sewage sedimentation disinfection tank 501, and sealing rings are arranged at the two ends of the water inlet pipe and the two ends of the water outlet pipe respectively, so that the connection tightness is effectively improved, and water leakage is prevented.

The first fixed pulley-50234 is a small wheel which is provided with a groove on the periphery and can rotate around a shaft, and a simple machine which is composed of a disk which can rotate around a central shaft and is provided with a groove and a flexible cable crossing the disk and can rotate around the central shaft is called a pulley, and the central shaft of the fixed pulley is fixed. The function of the fixed pulley is to change the direction of force, but it cannot save labor.

When the device is used, sewage flows in from a sewage inlet pipe 4, after the sewage is purified by a sewage sedimentation and disinfection tank 501, a buoy 5053 jacks up a self-resetting spring block 5054, a touch device 5055 on the self-resetting spring block 5054 drives a first rotating pulley 5052 and a second rotating pulley 5056 to rotate and drive a spiral rod 5051 to ascend, the sewage flows into a sewage filtering conduit 5026 through a sewage connecting conduit 5021 and is discharged into a detection tank main body 5025, the water quality after purification treatment is detected by a water quality detection sensor 805, when the water quality reaches the standard, a plunger 50245 of an electromagnetic valve 5024 is controlled by a water quality detection controller 8 to press downwards, reclaimed water flows from a water inlet pipe 50241 to a water outlet pipe 50243 and is finally discharged through a reclaimed water outlet pipe 503, when the water quality does not reach the standard, the water quality detection controller 5028 controls a second driving motor 50231 to work, the second driving motor 50231 drives a first driving shaft 50232 and a second driving shaft 50233 to rotate, so that the second driving shaft 50233, The second fixed pulley 50235 is rotated, the door opening and closing body 50236 on the left side of the second fixed pulley 50235 is opened downward, sewage flows into the sewage return pipe 50224 and drives the driving rod 50222 to rotate through the first driving motor 50221, the driving blade 50223 on the driving rod 50222 leads the sewage into the sewage precipitation disinfection tank 501 through the sewage connection pipe 5021 for purification treatment again, and the sewage flows into the sewage filtering pipe 5026 through the sewage connection pipe 5021 after the treatment and is detected again in the detection tank body 5025.

The structure and the principle of the system can be known by technical manuals or conventional experimental methods, the system solves the problems that the prior art is simple in structure, the traditional industrial wastewater treatment and recovery system based on industrial wastewater recycling is directly recycled after wastewater purification treatment when in use, whether the water quality after purification treatment reaches the standard cannot be detected, sewage which does not reach the standard is directly discharged, cannot be re-purified and then discharged, and the device is poor in practicability, and the system realizes that the industrial wastewater treatment and recovery system based on industrial wastewater recycling detects the quality of the sewage after the wastewater purification treatment when in use, can discharge after the water quality reaches the standard, and can perform purification treatment again when the water quality is unqualified by the aid of the mutual combination of the components, the water is discharged until the water quality reaches the standard, so that the water is prevented from being discharged when the water quality reaches the standard, and the quality of sewage treatment is effectively improved.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides an industrial wastewater treatment recovery system based on industrial sewage recycles, its structure includes ventilation hole (1), aeration pipe (2), the solid fixed ring of treater (3), sewage inlet tube (4), integration treater shell (5), anti-skidding support column (6), product data plate (7), water quality testing controller (8), access hole (9), its characterized in that:

the sewage inlet pipe (4) is welded on the left side surface of the integrated processor shell (5) at one fifth from top to bottom, the processor fixing ring (3) is vertically welded at the left end and the right end of the front surface of the integrated processor shell (5), the back of the product nameplate (7) is connected to the middle of the front surface of the integrated processor shell (5) in an adhesive mode, the water quality detection controller (8) is fixed on the right side surface of the integrated processor shell (5) through bolts, the aeration pipe (2) penetrates through the left end of the upper surface of the integrated processor shell (5), the vent hole (1) is located on the right side of the aeration pipe (2) on the integrated processor shell (5), and the maintenance port (9) is connected to the right side of the vent hole (1) in the top of the integrated processor shell (5) in;

the integrated processor shell (5) is composed of a sewage precipitation and disinfection tank (501), a detection and treatment tank (502), a reclaimed water outlet pipe (503), a partition plate (504) and a driving mechanism (505), wherein the sewage precipitation and disinfection tank (501) is positioned at the left end inside the integrated processor shell (5), the sewage precipitation and disinfection tank (501) is close to the left side of the detection and treatment tank (502), the partition plate (504) is inserted and embedded between the sewage precipitation and disinfection tank (501) and the detection and treatment tank (502), and the reclaimed water outlet pipe (503) is welded above a water quality detection and control controller (8) on the right surface of the integrated processor shell (5) and is positioned on the same horizontal line with the sewage inlet pipe (4);

the detection treatment tank (502) consists of a sewage connection pipe (5021), a driving pump body (5022), a cyclic treatment switch mechanism (5023), an electromagnetic valve (5024), a detection tank main body (5025) and a sewage filtering pipe (5026), wherein the top end of the sewage connection pipe (5021) is in threaded connection with the top of the right side of the partition plate (504), the bottom of the sewage connection pipe (5021) is in sealed connection with the top of the left side of the driving pump body (5022), the detection tank main body (5025) is mechanically connected above the driving pump body (5022), the left end of the cyclic treatment switch mechanism (5023) is in threaded connection with the middle of the detection tank main body (5025), the electromagnetic valve (5024) is in sealed connection with the right side of the detection tank main body (5025) and in threaded connection with a reclaimed water outlet pipe (503), the left side of the sewage filtering pipe (5026) is in through connection with the sewage precipitation disinfection tank (501), the right side of the sewage filtering conduit (5026) is fixed with the surface of the left side of the detection pool main body (5025) through bolts;

the water quality detection controller (8) is composed of a controller shell (801), a touch display screen (802), a processor chip (803), an integrated circuit board (804) and a water quality detection sensor (805), wherein the controller shell (801) is fixed on the right side surface of the integrated processor shell (5) through bolts, the integrated circuit board (804) is nested in the middle of the inside of the controller shell (801), the processor chip (803) is welded on the left side surface of the integrated circuit board (804), the touch display screen (802) is nested in the middle of the front surface of the controller shell (801) and is electrically connected with the integrated circuit board (804), and the water quality detection sensor (805) is arranged inside the detection pool main body (5025) and is electrically connected with the integrated circuit board (804);

the driving pump body (5022) is composed of a first driving motor (50221), a driving rod (50222), driving blades (50223) and a sewage backflow pipe (50224), the first driving motor (50221) is placed at the right lower corner in the detection treatment pool (502), the sewage backflow pipe (50224) is fixed to the left side of the first driving motor (50221) at the bottom of the detection treatment pool (502) through bolts, the driving rod (50222) is located in the middle of the inside of the sewage backflow pipe (50224), the right end of the driving rod (50222) is mechanically connected with the left end of the first driving motor (50221), and the driving blades (50223) are welded to the side face of the driving rod (50222) and are in clearance fit with the inner wall of the sewage backflow pipe (50224);

the cyclic processing switch mechanism (5023) consists of a second driving motor (50231), a first driving shaft (50232), a second driving shaft (50233), a first fixed pulley (50234), a second fixed pulley (50235) and a switch door main body (50236), the second driving motor (50231) is installed on the right side in the detection processing pool (502) and is electrically connected with a water quality detection controller (8), the right end of the first driving shaft (50232) is welded with the left end of the second driving motor (50231), the second driving shaft (50233) is vertically welded on the bottom surface and the top of the detection processing pool (502) and is respectively meshed with the first driving shaft (50232) and the first fixed pulley (50234), the first fixed pulley (50234) is located on the left side of the second driving shaft (50233), the second fixed pulley (50235) is installed inside the detection pool main body (5025) and is mechanically connected with the first fixed pulley (50234), the switch door main body (50236) is welded on the left side of the second fixed pulley (50235);

the electromagnetic valve (5024) is composed of a water inlet pipe (50241), an electromagnetic valve body (50242), a water outlet pipe (50243), a coil winding (50244), a plunger (50245), a self-resetting spring (50246) and a wire box (50247), the water inlet pipe (50241) and the electromagnetic valve body (50242) are of an integrated structure, the water inlet pipe (50241) is located at the left end of the electromagnetic valve body (50242), the water outlet pipe (50243) is located at the right end of the electromagnetic valve body (50242) and is connected with a reclaimed water outlet pipe (503) in a sealing mode, the left end of the water inlet pipe (50241) is welded with the right side of a detection cell main body (5025), the plunger (50245) is installed in the middle inside the electromagnetic valve body (50242), the coil winding (50244) is nested on the left side and the right side of the plunger (50245) in the electromagnetic valve body (50242), the self-resetting spring (50246) is tightly attached, the wire box (50247) is positioned at the bottom of the electromagnetic valve body (50242) and is electrically connected with the water quality detection controller (8);

the detection cell main body (5025) consists of a detection cell shell (50251) and a backflow funnel (50252), and the upper surface of the backflow funnel (50252) is welded with the bottom surface of the detection cell shell (50251);

the sewage filtering conduit (5026) consists of a first flange plate (50261), a conduit main body (50262), an activated carbon filter element (50263) and a second flange plate (50264), the first flange plate (50261) is fixed on the right side of the sewage connecting conduit (5021) through bolts and welded with the left side surface of the conduit main body (50262), the second flange plate (50264) is fixed on the left side of the detection treatment tank (502) through bolts, the other end of the second flange plate (50264) is welded with the right side surface of the conduit main body (50262), and the activated carbon filter element (50263) is mechanically connected to the middle inside the conduit main body (50262);

the driving mechanism (505) consists of a spiral rod (5051), a first rotating pulley (5052), a buoy (5053), a self-resetting spring block (5054), a touch device (5055) and a second rotating pulley (5056), wherein the touch device (5055) is bolted to the top of the sewage sedimentation disinfection tank (501), the self-resetting spring block (5054) is mechanically connected below the touch device (5055), the second rotating pulley (5056) is installed on the right side of the touch device (5055), the first rotating pulley (5052) is mechanically connected below the second rotating pulley (5056), the spiral rod (5051) is tightly attached to the left side of the partition plate (504) and is meshed with the second rotating pulley (5056), and the buoy (5053) is placed inside the sewage sedimentation disinfection tank (501);

when in use, sewage flows in from the sewage inlet pipe, after being purified by the sewage sedimentation and disinfection tank, the buoy jacks up the self-resetting spring block, the touch device on the self-resetting spring block drives the first rotating pulley and the second rotating pulley to rotate and drives the screw rod to ascend, the sewage flows in the sewage filtering conduit and then is discharged into the detection tank main body, the water quality condition after purification treatment is detected by the water quality detection sensor, when the water quality reaches the standard, the plunger of the electromagnetic valve is controlled by the water quality detection controller to press downwards, the reclaimed water flows from the water inlet pipe to the water outlet pipe and finally is discharged through the reclaimed water outlet pipe, when the water quality does not reach the standard, the water quality detection controller controls the second driving motor to work, the second driving motor drives the first driving shaft and the second driving shaft to rotate, so that the second fixed pulley is driven by the second driving shaft to rotate, the switch door main body on the left, inside and drive the actuating lever through a driving motor and rotate that sewage flows into the sewage backward flow, driving blade on the actuating lever passes through sewage connecting pipe with sewage and carries out purification treatment again in the leading-in sewage sedimentation disinfection pond, it discharges into the inside retesting of detection pond main part again to flow into sewage filter pipe after the processing, industrial wastewater treatment recovery system based on industrial sewage reuse can detect sewage quality after using sewage purification treatment, quality of water rear up to standard can discharge, quality of water unqualified can carry out purification treatment again, discharge again after quality of water is up to standard, avoid quality of water just discharge not up to standard, effectively promote sewage treatment's quality.

Images