CN108726802A - A kind of industrial wastewater treatment system based on the endogenous consumption of sludge - Google Patents

Abstract

The invention discloses a kind of industrial wastewater treatment systems based on the endogenous consumption of sludge, its structure includes box main body, water inlet, water outlet, sludge-discharge pipe, access hole, regulating reservoir, biochemistry pool, flocculation sedimentation tank, sludge-tank, sterilization pool, grid, immersible pump, pumping device, slush pump, flocculant case, reflux pump, water inlet is set on the left of box main body, water outlet, sludge-discharge pipe is set on the right side of box main body, access hole is set to box main body upper surface, box main body is internally provided with regulating reservoir, biochemistry pool, flocculation sedimentation tank, sludge-tank, sterilization pool, grid, immersible pump is set to inside regulating reservoir, slush pump is set to inside flocculation sedimentation tank, flocculant case is set to inside flocculation sedimentation tank, reflux pump is set to inside sludge-tank.The present invention is internally provided with just separating mechanism and secondary separation mechanism in flocculation sedimentation tank, effectively raises the separation of the sludge and sewage in aeration tank, and the sewage purification that reduction is brought by sludge bulking is bad, reinforces whole wastewater purifying efficiency.

Description

A kind of industrial wastewater treatment system based on the endogenous consumption of sludge

Technical field

The present invention is a kind of industrial wastewater treatment system based on the endogenous consumption of sludge, belongs to field of industrial waste water treatment.

Background technology

Industrial wastewater refers to the waste water, sewage and waste liquid generated in industrial processes, wherein containing the work outflowed with water The pollutant generated in industry production materials, intermediate product and product and production process.Activated sludge process is to be with activated sludge The main method of the biological wastewater treatment of main body.Activated sludge process is that air is continuously passed through into waste water, through after a certain period of time because Aerobic microorganism is bred and the sludge-like flocculate of formation.

But there are waste water for the prior art in processing procedure, and sludge moisture content is more, is susceptible on sludge bulking and sludge Floating problem causes sludge in aeration tank to reduce, and sewage purification is gradually failed.

Invention content

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of industrial wastewaters based on the endogenous consumption of sludge Processing system, there are waste water to solve the prior art in processing procedure, and sludge moisture content is more, is susceptible to sludge bulking and dirt Mud On The Floating causes sludge in aeration tank to reduce, the defect that sewage purification is gradually failed.

To achieve the goals above, the present invention is to realize by the following technical solutions：One kind disappears based on sludge is endogenous The industrial wastewater treatment system of consumption, structure include box main body, water inlet, water outlet, sludge-discharge pipe, access hole, regulating reservoir, life Change pond, flocculation sedimentation tank, sludge-tank, sterilization pool, grid, immersible pump, pumping device, slush pump, flocculant case, reflux pump, it is described Water inlet is set to upper surface on the left of box main body, and the water inlet is connected with box main body by electric welding, and the water outlet is set to case Main body right lateral surface, the sludge-discharge pipe are set to lower surface on the right side of box main body, and below the water outlet, the sludge-discharge pipe with Box main body is connected by fitting, and the access hole is equipped with 5, and the access hole is set to box main body upper surface, the access hole Be connected by ring flange with box main body, box main body is internally provided with 5 chambers, and be from left to right followed successively by regulating reservoir, biochemistry pool, Flocculation sedimentation tank, sludge-tank, sterilization pool, the grid are set to regulating reservoir internal upper part, and the grid passes through bolt phase with regulating reservoir Connection, the immersible pump are installed on lower part in regulating reservoir, and the pumping device is set to inside flocculation sedimentation tank and passes through conveyance conduit It is connected with sterilization pool, the slush pump is set in flocculation sedimentation tank on the right side of lower part, and the flocculant case is set to flocculation sedimentation tank Internal upper part left wall, the flocculant case are connected with flocculation sedimentation tank by electric welding, and the reflux pump is set to inside sludge-tank, and It is connected by delivery pipe with flocculation sedimentation tank, the flocculation sedimentation tank is by flocculation sedimentation tank frame, feeding mechanism, first seperator Structure, secondary separation mechanism, transmission connecting structure, pollution discharge structure, composition, the flocculation sedimentation tank frame is in body structure, described Feeding mechanism is set on the left of flocculation sediment frame internal upper part, and is connected by pipeline with flocculant case lower surface, described just to divide Structure of disembarking is connected with feeding mechanism by electric welding in horizontal structure, and the secondary separation mechanism is in a vertical shape to be set to first seperator It is connected on the right side of structure lower surface and with pumping device, the pollution discharge structure is sequentially connected with feeding mechanism by transmission connecting structure.

Further, the feeding mechanism is made of feeding cylinder, movable plate, fixed block, (the first back-moving spring, sling, institute Feeding cylinder is stated on the left of upper wall in flocculation sedimentation tank and is located at flocculant case lower surface, the feeding cylinder is logical with flocculation sedimentation tank It crosses electric welding to be connected, the movable plate is set to inside feeding cylinder, and the fixed block is equipped with two pieces, and set on movable plate or so two Side, the fixed block are connected with movable plate by electric welding, and the (the first back-moving spring is equipped with two, and is set to fixed block upper table Face, the (the first back-moving spring are connected with fixed block by electric welding, and the sling is set in the middle part of movable plate lower surface, the rope Button is connected with movable plate by electric welding.

Further, the separating mechanism by No.1 rotating cylinder, the first swingle, the first pushing spiral leaf, the first return tube, Gear, driving motor, discharge port, leakage fluid dram composition are rotated, the No.1 rotating cylinder is set to feeding cylinder lower surface, the No.1 rotating cylinder It is connected by electric welding with feeding cylinder, first swingle is set to inside No.1 rotating cylinder, and first swingle turns with No.1 Cylinder is connected by fitting, and the first pushing spiral leaf is set to the first swingle surface, the first pushing spiral leaf and the One swingle is connected by electric welding, and first return tube is equipped with two, and set on upper and lower surface on the right side of the first swingle, institute It states the first return tube with the first swingle to be connected by electric welding, the rotation gear is set on the right side of the first swingle, and is located at No.1 rotating cylinder right, the rotation gear are connected with the first swingle by fitting, and the driving motor is set to the first rotation Bar right end face, and on the right side of rotation gear, the driving motor is connected with the first swingle by transmission, the discharging Mouth is set on the left of No.1 rotating cylinder lower surface, and the discharge port is connected with No.1 rotating cylinder by electric welding, and the leakage fluid dram is set to one On the right side of number rotating cylinder lower surface, the leakage fluid dram is connected with No.1 rotating cylinder by being welded.

Further, the secondary separation mechanism is by No. two rotating cylinders, the second swingle, bearing block, helical gear, the second pusher Helical-blade, the second return tube, limited block, water-supply-pipe composition, No. two rotating cylinders are connected with leakage fluid dram by pipeline, and described the Two swingles are in a vertical shape to be set to inside No. two rotating cylinders, and one end exposure and No. two rotating cylinders tops, second swingle and two Number rotating cylinder is connected by bearing block, and the helical gear is set to the second swingle upper end face, and the helical gear is rotated with second Bar is connected by electric welding, and the helical gear is connected with rotation gear by engaging, and the second pushing spiral leaf is set on the Two swingle surfaces, the second pushing spiral leaf are connected with the second swingle by electric welding, and second return tube is equipped with Two, second return tube is set to the second swingle middle and upper part or so side surface, second return tube and the second swingle It is connected by electric welding, the limited block is set to the second swingle rear surface, and the limited block and the second swingle pass through electricity Weldering is connected, and the water-supply-pipe is set to No. two rotating cylinder right uppers, and is connected with pumping device.

Further, the transmission connecting structure is made of support base, first pulley, movable plate, the first rope, the branch It supports seat and is set in flocculation sedimentation tank frame right side in the middle part of upper wall, the support base is connected with flocculation sedimentation tank frame by electric welding It connects, the first pulley is set to support base lower surface, and the first pulley is connected with support base by electric welding, the movable plate Set on No. two right surface lower portions of rotating cylinder, the movable plate is connected with No. two rotating cylinders by hinge, first rope one end with Sling winding is connected, and the other end is connected around first pulley with movable plate right lateral surface.

Further, the pollution discharge structure by storage mud frame, blow-off pipe, second pulley, third pulley, closure plate, pull block, Second back-moving spring, the second rope composition, the storage mud frame are set to lower part in flocculation sedimentation tank frame, and the blow-off pipe, which is set to, to be stored Mud frame right lateral surface, the blow-off pipe are connected with mud frame is stored by electric welding, and the second pulley, which is set to, stores upper wall in mud frame, institute It states second pulley and is connected by electric welding with mud frame is stored, the third pulley, which is set to, to be stored on the right side of mud frame lower inner wall, and the third is slided Wheel is connected with mud frame is stored by electric welding, and the closure plate is set to blow-off pipe and is set to and closes with mud frame junction, the pulling block is stored Plywood upper surface, the pulling block are connected with closure plate by electric welding, and the second back-moving spring is set to inside closure plate, institute It states second back-moving spring with closure plate to be connected by electric welding, second rope one end is connected with the winding of movable plate left-hand face It connects, and the other end is connected around second pulley, third pulley with block winding is pulled.

Further, the leakage fluid dram internal upper part was equipped with sieve.

Further, the pumping device is internally provided with self priming pump.

Advantageous effect

A kind of industrial wastewater treatment system based on the endogenous consumption of sludge of the present invention, sewage flow to biochemistry pool by regulating reservoir Handled, after mixing generates reaction in flocculant case, flow to feeding mechanism, movable plate by sewage impulse force, to moving down It is dynamic, sewage flows to No.1 rotating cylinder, is separated by solid-liquid separation under the rotation of driving motor, and liquid is by the first return tube from leakage fluid dram stream Go out, sludge then by discharge port be discharged into store mud frame, secondary separation mechanism rotation gear rotation under with rotating with it, by first Still there are some suspended sludges in the liquid of separating mechanism processing, secondary solid-liquid point is carried out under the rotation of secondary separation mechanism From liquid is separated out by the second return tube flow point and flows to water-supply-pipe, is sucked out by the self priming pump that pumping device is internally provided with, activity Plate is under the pressure of solid and under feeding mechanism effect downwards, and left plate moves down, and the solid after separation then flows to storage mud Frame, pollution discharge structure pull block that closure plate is driven to move down, open blowdown tube passage under the moving down of movable plate, Sludge is extracted out by slush pump；Conversely, movable plate is no longer influenced by hydraulic blow, upspring under the action of (the first back-moving spring It returns, restPoses, transmission connecting structure movable plate under the movable plate effect of moving up restores initial conditions, with movable plate The pollution discharge structure of other end connection pulls up lower second rope at it and is in loose state, closure plate second back-moving spring to Upper pop-up effect is lower to restore initial conditions, stops blowdown.

A kind of industrial wastewater treatment system based on the endogenous consumption of sludge of the present invention, is internally provided in flocculation sedimentation tank and just divides It disembarks structure and secondary separation mechanism, effectively raises the separation of the sludge and sewage in aeration tank, reduce due to sludge bulking The sewage purification brought is bad, reinforces whole wastewater purifying efficiency.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structural schematic diagram of the industrial wastewater treatment system based on the endogenous consumption of sludge of the present invention.

Fig. 2 is a kind of structural schematic diagram of flocculation sedimentation tank of the present invention.

Fig. 3 is a kind of detailed construction schematic diagram of flocculation sedimentation tank of the present invention.

Fig. 4 is a kind of operating diagram of flocculation sedimentation tank of the present invention.

In figure：Box main body -1, water inlet -2, water outlet -3, sludge-discharge pipe -4, access hole -5, regulating reservoir -6, biochemistry pool - 7, flocculation sedimentation tank -8, sludge-tank -9, sterilization pool -10, grid -11, immersible pump -12, pumping device -13, slush pump -14, flocculation Agent case -15, reflux pump -16, flocculation sedimentation tank frame -80, feeding mechanism -81, first separating mechanism -82, secondary separation mechanism - 83, transmission connecting structure -84, pollution discharge structure -85, feeding cylinder -810, movable plate -811, fixed block -812, (the first back-moving spring - 813, sling -814, No.1 rotating cylinder -820, the first swingle -821, the first pushing spiral leaf -822, the first return tube -823, rotation Rotating disk -824, driving motor -825, discharge port -826, leakage fluid dram -827, No. two rotating cylinders -830, the second swingle -831, axis Bearing -832, helical gear -833, the second pushing spiral leaf -834, the second return tube -835, limited block -836, water-supply-pipe -837, Support base -840, movable plate -842, the first rope -843, stores mud frame -850, blow-off pipe -851, the second cunning at first pulley -841 Wheel -852, closure plate -854, pulls block -855, second back-moving spring -856, the second rope -857 at third pulley -853.

Specific implementation mode

To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to Specific implementation mode, the present invention is further explained.

- Fig. 4 is please referred to Fig.1, the present invention provides a kind of industrial wastewater treatment system technical side based on the endogenous consumption of sludge Case：Its structure includes box main body 1, water inlet 2, water outlet 3, sludge-discharge pipe 4, access hole 5, regulating reservoir 6, biochemistry pool 7, flocculates and sink Shallow lake pond 8, sludge-tank 9, sterilization pool 10, grid 11, immersible pump 12, pumping device 13, slush pump 14, flocculant case 15, reflux pump 16, The water inlet 2 is set to 1 left side upper surface of box main body, and the water inlet 2 is connected with box main body 1 by electric welding, the water outlet Mouth 3 is set to 1 right lateral surface of box main body, and the sludge-discharge pipe 4 is set to 1 right side lower surface of box main body, and below water outlet 3, The sludge-discharge pipe 4 is connected with box main body 1 by fitting, and the access hole 5 is equipped with 5, and the access hole 5 is set to box main body 1 upper surface, the access hole 5 are connected with box main body 1 by ring flange, and box main body 1 is internally provided with 5 chambers, and from a left side to The right side is followed successively by regulating reservoir 6, biochemistry pool 7, flocculation sedimentation tank 8, sludge-tank 9, sterilization pool 10, and the grid 11 is set in regulating reservoir 6 Top, the grid 11 are connected with regulating reservoir 6 by bolt, and the immersible pump 12 is installed on lower part in regulating reservoir 6, the pumping Hydrophone 13 is set to 8 inside of flocculation sedimentation tank and is connected with sterilization pool 10 by conveyance conduit, and the slush pump 14 is set to flocculation In sedimentation basin 8 on the right side of lower part, the flocculant case 15 is set to 8 internal upper part left wall of flocculation sedimentation tank, the flocculant case 15 and wadding Solidifying sedimentation basin 8 is connected by electric welding, and the reflux pump 16 is set to inside sludge-tank 9, and passes through delivery pipe with flocculation sedimentation tank 8 It is connected, the flocculation sedimentation tank 8 is by flocculation sedimentation tank frame 80, feeding mechanism 81, first separating mechanism 82, secondary separation mechanism 83, transmission connecting structure 84, pollution discharge structure 85, composition, the flocculation sedimentation tank frame 80 are in body structure, the feeding mechanism 81 are set on the left of 80 internal upper part of flocculation sediment frame, and are connected by pipeline with 15 lower surface of flocculant case, the just separation Mechanism 82 is connected with feeding mechanism 81 by electric welding in horizontal structure, and in a vertical shape be set to of the secondary separation mechanism 83 is just divided It disembarks on the right side of 82 lower surface of structure and is connected with pumping device 13, the pollution discharge structure 85, which passes through to be sequentially connected with feeding mechanism 81, to be tied Structure 84 is sequentially connected, and the feeding mechanism 81 is by feeding cylinder 810, movable plate 811, fixed block 812, (the first back-moving spring 813, rope 814 composition of button, the feeding cylinder 810 are set in flocculation sedimentation tank 8 on the left of upper wall and are located at 15 lower surface of flocculant case, it is described into Barrel 810 is connected with flocculation sedimentation tank 8 by electric welding, and the movable plate 811 is set to inside feeding cylinder 810, the fixed block 812 are equipped with two pieces, and set on 811 left and right sides of movable plate, the fixed block 812 is connected with movable plate 811 by electric welding, institute It states (the first back-moving spring 813 and is equipped with two, and be set to 812 upper surface of fixed block, the (the first back-moving spring 813 and fixed block 812 are connected by electric welding, and the sling 814 is set in the middle part of 811 lower surface of movable plate, and the sling 814 is logical with movable plate 811 It crosses electric welding to be connected, the separating mechanism 82 is by No.1 rotating cylinder 820, the first swingle 821, the first pushing spiral leaf 822, first Return tube 823, rotation gear 824, driving motor 825, discharge port 826, leakage fluid dram 827 form, and the No.1 rotating cylinder 820 is set to 810 lower surface of feeding cylinder, the No.1 rotating cylinder 820 are connected with feeding cylinder 810 by electric welding, and first swingle 821 is set Inside No.1 rotating cylinder 820, first swingle 821 is connected with No.1 rotating cylinder 820 by fitting, the first pusher spiral shell Vane 822 is set to 821 surface of the first swingle, and the first pushing spiral leaf 822 is connected with the first swingle 821 by electric welding It connects, first return tube 823 is equipped with two, and is set to 821 right side upper and lower surface of the first swingle, first return tube 823 are connected with the first swingle 821 by electric welding, and the rotation gear 824 is set to 821 right side of the first swingle, and is located at 820 right of No.1 rotating cylinder, the rotation gear 824 are connected with the first swingle 821 by fitting, the driving motor 825 Set on 821 right end face of the first swingle, and positioned at 824 right side of rotation gear, the driving motor 825 and the first swingle 821 are connected by transmission, and the discharge port 826 is set on the left of 820 lower surface of No.1 rotating cylinder, the discharge port 826 and No.1 Rotating cylinder 820 by electric welding be connected, the leakage fluid dram 827 be set to 820 lower surface of No.1 rotating cylinder on the right side of, the leakage fluid dram 827 with No.1 rotating cylinder is connected by electric welding, and the secondary separation mechanism 83 is by No. two rotating cylinders 830, the second swingle 831, bearing block 832, helical gear 833, the second pushing spiral leaf 834, the second return tube 835, limited block 836, water-supply-pipe 837 form, and described two Number rotating cylinder 830 is connected with leakage fluid dram 827 by pipeline, and second swingle 831 is in a vertical shape to be set in No. two rotating cylinders 830 Portion, and one end exposure and No. two 830 tops of rotating cylinder, second swingle 831 pass through 832 phase of bearing block with No. two rotating cylinders 830 Connection, the helical gear 833 are set to 831 upper end face of the second swingle, and the helical gear 833 passes through with the second swingle 831 Electric welding is connected, and the helical gear 833 is connected with rotation gear 824 by engaging, and the second pushing spiral leaf 834 is set to Second swingle, 831 surface, the second pushing spiral leaf 834 are connected with the second swingle 831 by electric welding, and described second Return tube 835 is equipped with two, and second return tube 835 is set to 831 middle and upper part of the second swingle or so side surface, and described second Return tube 835 is connected with the second swingle 831 by electric welding, and the limited block 836 is set to 831 lower end table of the second swingle Face, the limited block 836 are connected with the second swingle 831 by electric welding, and it is right that the water-supply-pipe 837 is set to No. two rotating cylinders 830 Upper surface, and be connected with pumping device 13, the transmission connecting structure 84 is by support base 840, first pulley 841, movable plate 842, the first rope 843 forms, and the support base 840 is set in flocculation sedimentation tank frame 80 right side, the support in the middle part of upper wall Seat 840 is connected with flocculation sedimentation tank frame 80 by electric welding, and the first pulley 841 is set to 840 lower surface of support base, described First pulley 841 is connected with support base 840 by electric welding, and the movable plate 842 is set to No. two 830 right surface lower portions of rotating cylinder, The movable plate 842 is connected with No. two rotating cylinders 830 by hinge, and described first rope, 843 one end is connected with the winding of sling 823 It connects, and the other end is connected around first pulley 841 with 842 right lateral surface of movable plate, the pollution discharge structure 85 is by storage mud frame 850, blow-off pipe 851, second pulley 852, third pulley 853, closure plate 854, pull block 855, second back-moving spring 856, the Two ropes 857 form, and the storage mud frame 850 is set to lower part in flocculation sedimentation tank frame 80, and the blow-off pipe 851, which is set to, stores mud frame 850 right lateral surfaces, the blow-off pipe 851 are connected with mud frame 850 is stored by electric welding, and the second pulley 852, which is set to, stores mud frame Upper wall in 850, the second pulley 852 are connected with mud frame 850 is stored by electric welding, and the third pulley 853, which is set to, stores mud frame On the right side of 850 lower inner walls, the third pulley 853 is connected with mud frame 850 is stored by electric welding, and the closure plate 854 is set to blowdown Pipe 851 is set to 854 upper surface of closure plate, the pulling block 855 and closure plate with 850 junction of mud frame, the pulling block 855 is stored 854 by electric welding be connected, the second back-moving spring 856 be set to closure plate 854 inside, the second back-moving spring 856 with Closure plate 854 is connected by electric welding, and described second rope, 857 one end is connected with the winding of 842 left-hand face of movable plate, and another One end is connected around second pulley 852, third pulley 853 with the winding of block 855 is pulled, and 827 internal upper part of the leakage fluid dram is equipped with Sieve is crossed, the pumping device 13 is internally provided with self priming pump.

Flocculation sedimentation tank described in this patent is mainly used for enhancing the separating effect of sludge and sewage.

Carrying out in use, sewage flows to biochemistry pool 7 by regulating reservoir 6 is handled, in flocculant case 15 mixing produce After raw reaction, feeding mechanism 81 is flowed to, movable plate 811 is moved down by the impulse force of sewage, sewage flows to No.1 rotating cylinder 820, it is separated by solid-liquid separation under the rotation of driving motor 825, liquid is flowed out by the first return tube 823 from leakage fluid dram 827, and sludge is then It is discharged by discharge port 826 and stores mud frame 850, secondary separation mechanism 83, with rotating with it, is passed through under the rotation of rotation gear 824 Still there are some suspended sludges in the liquid that first separating mechanism 82 is handled, is carried out under the rotation of secondary separation mechanism 83 secondary Be separated by solid-liquid separation, liquid separated out by 835 flow point of the second return tube and flows to water-supply-pipe 837, by pumping device 13 be internally provided with from Sucking pump is sucked out, and under the pressure of solid and under the effect downwards of feeding mechanism 81, left plate moves down movable plate 842, point Solid from after, which then flows to, stores mud frame 850, and pollution discharge structure 85 pulls block 855 to drive under the moving down of movable plate 842 Closure plate 854 moves down, and opens 851 channel of blow-off pipe, is extracted out sludge by slush pump 14；Conversely, movable plate 811 is no longer By hydraulic blow, rebounds, restPose upwards under the action of (the first back-moving spring 813, transmission connecting structure 84 exists The lower movable plate 842 of the effect of moving up of movable plate 811 restores initial conditions, the pollution discharge structure being connect with 842 other end of movable plate 85 pull up lower second rope 857 at it is in loose state, and closure plate 854 pops up work in second back-moving spring 856 With lower recovery initial conditions, stop blowdown.

The present invention solves prior art waste water in processing procedure, and sludge moisture content is more, is susceptible to sludge bulking and dirt Mud On The Floating causes sludge in aeration tank to reduce, and sewage purification is gradually failed, and the present invention is combined with each other by above-mentioned component It is internally provided with just separating mechanism and secondary separation mechanism in flocculation sedimentation tank, effectively raises the sludge and sewage in aeration tank Separation, it is bad to reduce the sewage purification that is brought by sludge bulking, reinforces whole wastewater purifying efficiency.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, for this field skill For art personnel, it is clear that invention is not limited to the details of the above exemplary embodiments, and without departing substantially from the present invention spirit or In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state Bright restriction, it is intended that including all changes that come within the meaning and range of equivalency of the claims in the present invention It is interior.Any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (8)

1. a kind of industrial wastewater treatment system based on the endogenous consumption of sludge, structure includes box main body (1), water inlet (2), goes out The mouth of a river (3), access hole (5), regulating reservoir (6), biochemistry pool (7), flocculation sedimentation tank (8), sludge-tank (9), disappears at sludge-discharge pipe (4) Malicious pond (10), grid (11), immersible pump (12), pumping device (13), slush pump (14), flocculant case (15), reflux pump (16), It is characterized in that：

The water inlet (2) is set to upper surface on the left of box main body (1), and the water inlet (2) is connected with box main body (1) by electric welding It connecing, the water outlet (3) is set to box main body (1) right lateral surface, and the sludge-discharge pipe (4) is set to lower surface on the right side of box main body (1), And below water outlet (3), the sludge-discharge pipe (4) is connected with box main body (1) by fitting, and the access hole (5) sets There are 5, the access hole (5) is set to box main body (1) upper surface, and the access hole (5) is connected with box main body (1) by ring flange It connects, box main body (1) is internally provided with 5 chambers, and is from left to right followed successively by regulating reservoir (6), biochemistry pool (7), flocculation sedimentation tank (8), sludge-tank (9), sterilization pool (10), the grid (11) are set to regulating reservoir (6) internal upper part, the grid (11) and regulating reservoir (6) it is connected by bolt, the immersible pump (12) is installed on regulating reservoir (6) interior lower part, and the pumping device (13) is set to flocculation Sedimentation basin (8) is internal and is connected with sterilization pool (10) by conveyance conduit, and the slush pump (14) is set to flocculation sedimentation tank (8) On the right side of interior lower part, the flocculant case (15) is set to flocculation sedimentation tank (8) internal upper part left wall, the flocculant case (15) and flocculation Sedimentation basin (8) is connected by electric welding, and the reflux pump (16) is set to sludge-tank (9) inside, and passes through with flocculation sedimentation tank (8) Delivery pipe is connected；

The flocculation sedimentation tank (8) by flocculation sedimentation tank frame (80), feeding mechanism (81), first separating mechanism (82), secondary point Disembark structure (83), transmission connecting structure (84), pollution discharge structure (85), composition, the flocculation sedimentation tank frame (80) be in babinet knot Structure, the feeding mechanism (81) is set on the left of flocculation sediment frame (80) internal upper part, and passes through with flocculant case (15) lower surface Pipeline is connected, and the just separating mechanism (82) is connected with feeding mechanism (81) by electric welding in horizontal structure, described secondary Separating mechanism (83) is in a vertical shape to be set on the right side of first separating mechanism (82) lower surface and is connected with pumping device (13), the blowdown Structure (85) is sequentially connected with feeding mechanism (81) by transmission connecting structure (84).

2. a kind of industrial wastewater treatment system based on the endogenous consumption of sludge according to claim 1, it is characterised in that：Institute Feeding mechanism (81) is stated by feeding cylinder (810), movable plate (811), fixed block (812), (the first back-moving spring (813), sling (814) it forming, the feeding cylinder (810) is set on the left of the interior upper wall of flocculation sedimentation tank (8) and is located at flocculant case (15) lower surface, The feeding cylinder (810) is connected with flocculation sedimentation tank (8) by electric welding, and the movable plate (811) is set in feeding cylinder (810) Portion, the fixed block (812) are equipped with two pieces, and at left and right sides of movable plate (811), the fixed block (812) and movable plate (811) it is connected by electric welding, the (the first back-moving spring (813) is equipped with two, and is set to fixed block (812) upper surface, institute It states (the first back-moving spring (813) with fixed block (812) to be connected by electric welding, the sling (814) is set under movable plate (811) Surface middle part, the sling (814) are connected with movable plate (811) by electric welding.

3. a kind of industrial wastewater treatment system based on the endogenous consumption of sludge according to claim 1, it is characterised in that：Institute Separating mechanism (82) is stated by No.1 rotating cylinder (820), the first swingle (821), the first pushing spiral leaf (822), the first return tube (823), rotation gear (824), driving motor (825), discharge port (826), leakage fluid dram (827) composition, the No.1 rotating cylinder (820) it is set to feeding cylinder (810) lower surface, the No.1 rotating cylinder (820) is connected with feeding cylinder (810) by electric welding, described First swingle (821) is set to No.1 rotating cylinder (820) inside, and first swingle (821) passes through set with No.1 rotating cylinder (820) Conjunction is connected, and the first pushing spiral leaf (822) is set to the first swingle (821) surface, the first pushing spiral leaf (822) it is connected by electric welding with the first swingle (821), first return tube (823) is equipped with two, and set on the first rotation Upper and lower surface on the right side of bull stick (821), first return tube (823) is connected with the first swingle (821) by electric welding, described It rotates gear (824) to be set on the right side of the first swingle (821), and is located at No.1 rotating cylinder (820) right, the rotation gear (824) it is connected by fitting with the first swingle (821), the driving motor (825) is set to the first swingle (821) right end Surface, and on the right side of rotation gear (824), the driving motor (825) is connected with the first swingle (821) by transmission It connects, the discharge port (826) is set on the left of No.1 rotating cylinder (820) lower surface, the discharge port (826) and No.1 rotating cylinder (820) It is connected by electric welding, the leakage fluid dram (827) is set on the right side of No.1 rotating cylinder (820) lower surface, the leakage fluid dram (827) and one Number rotating cylinder is connected by electric welding.

4. a kind of industrial wastewater treatment system based on the endogenous consumption of sludge according to claim 1 or 3, feature exist In：The secondary separation mechanism (83) is by No. two rotating cylinders (830), the second swingle (831), bearing block (832), helical gear (833), the second pushing spiral leaf (834), the second return tube (835), limited block (836), water-supply-pipe (837) composition, described two Number rotating cylinder (830) is connected with leakage fluid dram (827) by pipeline, and second swingle (831) is in a vertical shape to be set to No. two and turn Cylinder (830) is internal, and one end exposure and No. two rotating cylinders (830) tops, second swingle (831) and No. two rotating cylinders (830) It is connected by bearing block (832), the helical gear (833) is set to the second swingle (831) upper end face, the helical gear (833) it is connected by electric welding with the second swingle (831), the helical gear (833) is with rotation gear (824) by engaging phase Connection, the second pushing spiral leaf (834) be set to the second swingle (831) surface, the second pushing spiral leaf (834) with Second swingle (831) is connected by electric welding, and second return tube (835) is equipped with two, second return tube (835) Set on the second swingle (831) middle and upper part or so side surface, second return tube (835) passes through with the second swingle (831) Electric welding is connected, and the limited block (836) is set to the second swingle (831) rear surface, the limited block (836) and the second rotation Bull stick (831) is connected by electric welding, and the water-supply-pipe (837) is set to No. two rotating cylinder (830) right uppers, and and pumping device (13) it is connected.

5. a kind of industrial wastewater treatment system based on the endogenous consumption of sludge according to claim 1, it is characterised in that：Institute Transmission connecting structure (84) is stated to be made of support base (840), first pulley (841), movable plate (842), the first rope (843), The support base (840) is set to right side, the support base (840) and flocculation sediment in the middle part of the interior upper wall of flocculation sedimentation tank frame (80) Pond frame (80) is connected by electric welding, and the first pulley (841) is set to support base (840) lower surface, the first pulley (841) it is connected by electric welding with support base (840), the movable plate (842) is set to No. two right surface lower portions of rotating cylinder (830), The movable plate (842) is connected with No. two rotating cylinders (830) by hinge, described first rope (843) one end and sling (823) Winding is connected, and the other end is connected around first pulley (841) with movable plate (842) right lateral surface.

6. a kind of industrial wastewater treatment system based on the endogenous consumption of sludge according to claim 1, it is characterised in that：Institute Pollution discharge structure (85) is stated by storage mud frame (850), blow-off pipe (851), second pulley (852), third pulley (853), closure plate (854), block (855), second back-moving spring (856), the second rope (857) composition, the storage mud frame (850) is pulled to be set to flocculation Sedimentation basin frame (80) interior lower part, the blow-off pipe (851) be set to store mud frame (850) right lateral surface, the blow-off pipe (851) with It stores mud frame (850) by electric welding to be connected, the second pulley (852), which is set to, stores mud frame (850) interior upper wall, the second pulley (852) it is connected by electric welding with storage mud frame (850), the third pulley (853), which is set to, to be stored on the right side of mud frame (850) lower inner wall, The third pulley (853) with store mud frame (850) by electric welding be connected, the closure plate (854) be set to blow-off pipe (851) with Mud frame (850) junction is stored, the pulling block (855) is set to closure plate (854) upper surface, the pulling block (855) and closure Plate (854) is connected by electric welding, and the second back-moving spring (856) is set to closure plate (854) inside, and described second resets bullet Spring (856) is connected with closure plate (854) by electric welding, described second rope (857) one end and movable plate (842) left-hand face Winding is connected, and the other end is connected around second pulley (852), third pulley (853) with block (855) winding is pulled.

7. a kind of industrial wastewater treatment system based on the endogenous consumption of sludge according to claim 3, it is characterised in that：Institute It states leakage fluid dram (827) internal upper part and was equipped with sieve.

8. a kind of industrial wastewater treatment system based on the endogenous consumption of sludge according to claim 1, it is characterised in that：Institute It states pumping device (13) and is internally provided with self priming pump.