CN108545858A - A kind of processing method of dyeing waste water - Google Patents

Abstract

The present invention provides a kind of processing methods of dyeing waste water.It solves the technical problems such as the step of existing processing method is excessively complicated, and control parameter is difficult to effectively control, and processing is unstable.The processing method of this dyeing waste water, includes the following steps：A, the large granular impurity in dyeing waste water is removed by processing unit；B, dyeing waste water is input in stirred tank and is stirred, and fungicide is added, mixing time is 40 120min；C, dyeing waste water is input in sedimentation basin and is precipitated, isolate supernatant；D, supernatant is input in filtering ponds and is filtered, treated dyeing waste water can be obtained.The present invention has the advantages that processing is reliable.

Description

A kind of processing method of dyeing waste water

Technical field

The present invention relates to a kind of processing method, especially a kind of processing method of dyeing waste water.

Background technology

The rows such as printing and dyeing, woolens dyeing and finishing and silk mill to process cotton, fiber crops, chemical fibre and its blending product, based on silk The waste water gone out.Kinds of fibers and processing technology difference, the water and water quality of dyeing waste water are also different.Dyeing waste water has water Greatly, the features such as organic pollution content is high, alkalinity is big, change of water quality is big, belongs to one of intractable industrial wastewater, contains in waste water Dyestuff, slurry, auxiliary agent, finish, soda acid, fiber impurity, sand substance, inorganic salts etc..

Through retrieval, as Chinese patent literature discloses a kind of textile printing and dyeing wastewater processing method【Application number： 201710877541.6；Publication number：CN 107792994A】.This textile printing and dyeing wastewater processing method, it is characterised in that：It is described Method includes the collection step of textile printing and dyeing wastewater, for being filtered to remove larger contaminant filter step, for removing larger suspension Object staticly settles step, the acidification step for carrying out acidification to waste water, for carrying out PH adjustings and flocculation to waste water The regulating step of precipitation, the flocculation step for carrying out settlement treatment to solid impurity in waste water, for organic in degrading waste water The biooxidation step of object, the ultrafiltration step for impurity in filtered wastewater；The pretreatment collection step, settling step, Acidification step, regulating step, biooxidation step, secondary precipitation step, ultrafiltration step by be arranged be sequentially connected sedimentation basin, Acidification pool, regulating reservoir, flocculation basin, bio-oxidation pond, ultrafiltration apparatus realize the processing to textile waste, and last sludge passes through Treatment of Sludge is transported outward at mud cake, by the discharge of wastewater of ultrafiltration step；The wherein described regulating reservoir includes water inlet, reaction zone, sinks Shallow lake area, water outlet and accurate medicine system and valve control system, the accurate medicine system include raw water pH probes, reaction Area pH probes, pH hosts, feed water flow gauge, PLC control cabinet, FeCl3 dosing pumps, lime dosing pump, high polymer coagulant (PAM) Dosing pump, the valve control system include air intake valve and return valve, and the regulating step includes：A, opening raw water pump will Waste water squeezes into regulating reservoir by water inlet pipe, and opening simultaneously air intake valve makes water be in agitated conditions, and air intake valve remains out It opens；B, FeCl is opened₃Dosing pump, lime dosing pump and PAM high polymer coagulants dosing pump and return valve, pass through the pH master The pH value of measurement and traffic transformation are electric signal by machine and feed water flow gauge, as the input signal of PLC control cabinet, the PLC Switch board calculates FeCl according to input signal₃, lime and high polymer coagulant (PAM) dosage, and pass through control FeCl₃Add The frequency of Teat pipette, lime dosing pump and high polymer coagulant (PAM) dosing pump adjusts dosage, and along water inlet pipe water (flow) direction according to Secondary middle addition FeCl₃, lime and high polymer coagulant (PAM) realize that medicament precisely adds；C, waste water passes through abundant in reaction zone Enter settling zone after hybrid reaction and realizes mud-water separation；D, final, clear water is discharged into next place by the water outlet of settling zone end Unit is managed, sludge is discharged into sludge treating block.

Although processing method disclosed in the patent has effectively carried out materializing strategy to waste water, the processing method The step of it is excessively complicated, control parameter is difficult to effectively control, processing it is unstable, therefore, design a kind of processing of dyeing waste water Method is necessary.

Invention content

The purpose of the present invention is there is the above problem in view of the prior art, it is proposed that a kind of processing side of dyeing waste water Method, the processing method have the characteristics that processing is reliable.

Object of the invention can be realized by the following technical scheme：A kind of processing method of dyeing waste water, feature exist In including the following steps：

A, the large granular impurity in dyeing waste water is removed by processing unit；

B, dyeing waste water is input in stirred tank and is stirred, and fungicide is added, mixing time 40-120min；

C, dyeing waste water is input in sedimentation basin and is precipitated, isolate supernatant；

D, supernatant is input in filtering ponds and is filtered, treated dyeing waste water can be obtained.

Fungicide in the step b is dithiocyano-methane.

The mass ratio of dyeing waste water and fungicide in the step b is 200：3-200：9.

Sedimentation time in the step c is 2-5h.

Processing unit in the step a includes shell, and the upper surface of the shell is fixedly connected with the lower surface of cover board, The upper surface of cover board is connected with bearing, and bearing inner sleeve is connected to shaft, and the lower end of shaft is fixedly connected with that there are two paddles, and two are stirred Mix leaf at splayed structure, and paddle is located in shell, and the upper end of shaft is fixedly connected with the output shaft of first motor, The left side of one motor body is fixedly connected by the first fixed plate with the upper surface of cover board；The upper surface of cover board is provided with into water Mouthful, water inlet is located at the right side of first motor, and there are two sliding sleeves for the upper surface clamping of cover board, and two sliding sleeves are located at cover board The left and right sides of upper surface is socketed with slide bar in sliding sleeve, and the upper end of slide bar is connected with one end of connecting rod, the other end of connecting rod It is connected with the upper end of ratch, is located in the through-hole opened up in the second fixed plate in the middle part of ratch, the side of the second fixed plate and shell Side be fixedly connected, the upper surface of the second fixed plate is fixedly connected with the lower surface of the second motor body, the second motor it is defeated Go out shaft end to be fixedly connected with half gear, and half gear is meshed with ratch, the lower end of ratch and the upper surface of connecting plate It is fixedly connected, also there is stretching structure between connecting plate and the second fixed plate；Filter plate, filter plate and slide bar are provided in shell Lower end be fixedly connected, the lower surface of shell is provided with water outlet, and solenoid valve is provided in water outlet.

The operation principle of processing unit is as follows：Waste water is poured into from water inlet in shell, first motor work is then controlled So that shaft rotation so that shaft drives paddle rotation so that paddle drives the waste water rotation in shell, then controls the One motor is stopped so that paddle stops rotating so that the impurity in waste water can be precipitated quickly, when impurity is fallen in mistake Slowing for waste water filtering, two the second motors of control can be made to work at the same time when filter plate so that the output shaft of the second motor Rotation drives the rotation of half gear, and when half gear one side with teeth is meshed with ratch, ratch moves up, when half tooth tooth When taking turns one side with teeth and not being meshed with ratch, stretching structure extends through connecting plate and ratch is driven to move down, so that Slide bar can drive filter plate vertical tremor so that the impurity on filter plate will not be blocked, and solenoid valve is opened simultaneously so that Filtered waste water flows out shell by water outlet, and treatment effeciency is high.

The stretching structure includes telescopic rod, and the outer surface of telescopic rod is socketed with spring, the upper end point of telescopic rod and spring It is not fixedly connected with the lower surface of the second fixed plate, the lower end of telescopic rod and spring is fixed with the upper surface of connecting plate respectively to be connected It connects.

The lower surface of the shell is fixedly connected there are four support leg, and four support legs have been respectively fixedly connected under shell The four corners on surface.

The model Y160M-4 of the first motor, the model Y160M-1 of the second motor.

The upper surface of the cover board is provided with power supply, and there is switch, power supply to be located at the first fixed plate for the upper surface of power supply Left side.

The output end of the power supply is electrically connected with the input terminal of switch, the output end of switch respectively with first motor and second The input terminal of motor is electrically connected.

The filter plate includes plate body, the first filter screen and the second filter screen, mounting hole is offered in the middle part of plate body, and install The shape in hole is rectangular, and the first filter screen lower end is connected by the first connection strap of elasticity with the inner wall of mounting hole, the second filtering End off the net is connected by the second connection strap of elasticity with the inner wall of mounting hole, and the first filter screen upper end and the second filter screen upper end are logical The third connection strap for crossing elasticity is connected, and the first filter screen both sides are connected by the first connection sheet of elasticity with the inner wall of mounting hole, Second filter screen both sides are connected by the second connection sheet of elasticity with the inner wall of mounting hole.

Supplementary structure is additionally provided on the shell, supplementary structure includes air storage bag, regulates and controls air bag, driving plate and holder, Regulate and control air bag to be arranged in shell, regulation and control air bag lower surface is connected with the bottom of inner walls, regulates and controls air bag upper surface by the One connecting rod and the first filter screen upper end are connected, and regulation and control air bag upper surface is connected by second connecting rod and the second filter screen upper end, branch Frame is fixed on ratch upper end, and air storage bag is connected with holder, and driving plate is fixed in the second fixed plate, and driving plate energy and air storage bag It leans, air storage bag is connected with air-guide branch pipe one end, and the air-guide branch pipe other end is connected with the one end air guide manifold, air guide manifold It is connected in the middle part of the other end and regulation and control air bag lower surface.

Using the above structure, during filter plate moves up and down, air storage bag can repeatedly be contacted with driving plate, to gas storage Capsule is squeezed, and the gas in air storage bag is input in regulation and control air bag, the volume in regulation and control air bag is made to increase or reduce, is driven First filter screen and the second filter screen are swung repeatedly, and the impurity on the first filter screen and the second filter screen is made preferably to be slipped to two End, without increasing power source, so that it may preferably avoid the first filter screen and the second filter screen from blocking, auxiliary is convenient.

Also there is the first auxiliary piece and the second auxiliary piece, the upper end of the first auxiliary piece and regulation and control air bag in the regulation and control air bag The inner wall of upper surface is connected, and the lower end of the first auxiliary piece is free end one, and several via holes are offered in the middle part of the first auxiliary piece One, the upper end of the second auxiliary piece is connected with the inner wall of regulation and control air bag upper surface, and the lower end of the second auxiliary piece is free end two, and second Several via holes two are offered in the middle part of auxiliary piece, and both the first auxiliary piece and the second auxiliary piece form splayed.

Using the above structure, when the gas in air storage bag is input to regulation and control air bag, the first auxiliary piece and second can be assisted Piece is impacted, and so that the first auxiliary piece and the second auxiliary piece is generated and is shaken back and forth, the first filter screen can be driven to regulate and control air bag It is shaken back and forth with the second filter screen.

By the way that first motor, the second motor, ratch, half gear, paddle, slide bar, sliding sleeve and filter plate is arranged, will give up Water is poured into from water inlet in shell, is then controlled first motor and is worked so that shaft rotation so that and shaft drives paddle rotation, So that paddle drives the waste water rotation in shell, then controls first motor and be stopped so that paddle stops rotating, make The impurity obtained in waste water can be precipitated quickly, and slowing for waste water filtering can be made when impurity is fallen in filter plate, be controlled Two the second motors work at the same time so that the output shaft rotation of the second motor drives the rotation of half gear, when half gear is with teeth One side when being meshed with ratch ratch move up, when half gear one side with teeth is not meshed with ratch, stretch knot Structure extends through connecting plate and ratch is driven to move down, so that slide bar can drive filter plate vertical tremor so that filtering Impurity on plate will not be blocked, so that the speed of waste water filtering is accelerated, and improve the processing speed of waste water, and make It obtains working efficiency to improve, treatment effeciency is high.

By the way that sliding sleeve and slide bar is arranged, filter plate can be driven to move up and down so that slide bar moves up and down, and slide bar It is moved up and down in sliding sleeve, so that filter plate will not shake when moving up and down and more stablize.

By the way that bearing and shaft is arranged, so that shaft can drive paddle to be rotated in shell, and shaft is in axis Interior rotation is held, so that paddle will not shake and more stablize when rotated, and structure of the invention is compact, reasonable design, It is highly practical.

Compared with prior art, the present invention has the advantages that this：The step of this step processing method, is relatively simple, and very in detail Carefully, it is easy to control, processing is reliable.

Description of the drawings

Fig. 1 is the planar structure schematic diagram of processing unit.

Fig. 2 is the planar structure schematic diagram that processing unit removes part.

In figure, 1, connecting rod；2, sliding sleeve；3, slide bar；4, power supply；5, it switchs；6, first motor；7, the first fixed plate；8、 Shaft；9, bearing；10, water inlet；11, cover board；12, paddle；13, support leg；14, water outlet；15, solenoid valve；16, it filters Plate；16a, plate body；16a1, mounting hole；16b, the first connection strap；16c, the first filter screen；16d, the second connection strap；16e, second Filter screen；16f, third connection strap；17, shell；18, connecting plate；19, telescopic rod；21, spring；22, through-hole；23, it second fixes Plate；24, the second motor；25, half gear；26, ratch；27, holder；28, air storage bag；29, air-guide branch pipe；30, driving plate； 31, regulate and control air bag；32, air guide manifold；33, second connecting rod；34, first connecting rod；35, the second auxiliary piece；36, the first auxiliary piece.

Specific implementation mode

Following is a specific embodiment of the present invention in conjunction with the accompanying drawings, technical scheme of the present invention will be further described, However, the present invention is not limited to these examples.

The processing method of this dyeing waste water, includes the following steps：

A, the large granular impurity in dyeing waste water is removed by processing unit；

B, dyeing waste water is input in stirred tank and is stirred, and fungicide is added, mixing time 40-120min； In the present embodiment, dyeing waste water is input in stirred tank and is stirred, and fungicide is added, mixing time 90min；

C, dyeing waste water is input in sedimentation basin and is precipitated, isolate supernatant；

D, supernatant is input in filtering ponds and is filtered, treated dyeing waste water can be obtained.

Fungicide in step b is dithiocyano-methane, and fungicide is using the existing product that can be bought in the market.

The mass ratio of dyeing waste water and fungicide in step b is 200：3-200：9；In the present embodiment, in step b The mass ratio of dyeing waste water and fungicide is 50：1.

Sedimentation time in step c is 2-5h；In the present embodiment, the sedimentation time in step c is 3h.

As Figure 1-Figure 2, the processing unit in step a includes shell 17, and the lower surface of shell 17 is fixedly connected with four A support leg 13, and four support legs 13 are respectively fixedly connected with the four corners of 17 lower surface of shell, the upper surface of cover board 11 is set It is equipped with power supply 4, by the way that power supply 4 is arranged, is powered so that power supply 4 can be first motor 6 and the second motor 24 so that first Motor 6 and the second motor 24 can work normally, and the upper surface of power supply 4 has switch 5, by the way that switch 5 is arranged, so that can To control first motor 6 and the work of the second motor 24 respectively by switch 5, power supply 4 is located at the left side of the first fixed plate 7, power supply 4 Output end be electrically connected with the input terminal of switch 5, the output end input with first motor 6 and the second motor 24 respectively of switch 5 End electrical connection, the upper surface of shell 17 are fixedly connected with the lower surface of cover board 11, and in the present embodiment, the upper surface of shell 17 is logical Bolted mode is crossed to be fixedly connected with the lower surface of cover board 11；The upper surface of cover board 11 is connected with bearing 9,9 inner sleeve of bearing It is connected to shaft 8, by the way that bearing 9 and shaft 8 is arranged, so that shaft 8 can drive the rotation in shell 17 of paddle 12, and The rotation in bearing 9 of shaft 8, so that paddle 12 will not shake and more stablize when rotated, the lower end of shaft 8 is fixed Connection is there are two paddle 12, and in the present embodiment, the lower end of shaft 8 is fixedly connected with that there are two paddles by welding 12；Two paddles 12 form splayed structure, and paddle 12 is located in shell 17, upper end and the first motor 6 of shaft 8 Output shaft is fixedly connected, the model Y160M-4 of first motor 6, the model Y160M-1 of the second motor 24,6 machine of first motor The left side of body is fixedly connected by the first fixed plate 7 with the upper surface of cover board 11, by the way that the first fixed plate 7 is arranged, to make Obtaining fuselage when first motor 6 works will not shake and more stablize.

The upper surface of cover board 11 is provided with water inlet 10, by the way that water inlet 10 is arranged, so that passing through water inlet 10 pour into sewage in shell 17, and water inlet 10 is located at the right side of first motor 6, and there are two sliding sleeves for the upper surface clamping of cover board 11 2, and two sliding sleeves 2 are located at the left and right sides of 11 upper surface of cover board, and slide bar 3 is socketed in sliding sleeve 2, by the way that sliding sleeve 2 is arranged With slide bar 3, filter plate 16 can be driven to move up and down so that slide bar 3 moves up and down, and slide bar 3 moves down on sliding sleeve 2 is interior It is dynamic, so that filter plate 16 will not shake when moving up and down and more stablize, one end of the upper end and connecting rod 1 of slide bar 3 It is connected, the other end of connecting rod 1 is connected with the upper end of ratch 26, by the way that connecting rod 1 is arranged, so that ratch 26 moves up and down When can be moved up and down with moving slide-bar 3, the middle part of ratch 26 is located in the through-hole 22 opened up in the second fixed plate 23, logical by being arranged Hole 22, so that ratch 26 will not be hindered when moving up and down and be more stablized, the side of the second fixed plate 23 and shell 17 side is fixedly connected, and the upper surface of the second fixed plate 23 is fixedly connected with the lower surface of 24 fuselage of the second motor, by setting The second fixed plate 23 is set, so that fuselage will not rotate and more stablize the second motor 24 at work, the second motor 24 Output shaft end is fixedly connected with half gear 25, and in the present embodiment, the output shaft end of the second motor 24 passes through key connection Mode be fixedly connected with half gear 25；By the way that half gear 25 and ratch 26 is arranged, so that half gear 25 is with teeth One side when being meshed with ratch 26 ratch 26 move up, when half gear 25 one side with teeth is not meshed with ratch 26 When, stretching structure extends through connecting plate 18 and ratch 26 is driven to move down, so that slide bar 3 can drive filter plate 16 can To realize that vibrations make waste water filtering speed faster, and half gear 25 is meshed with ratch 26, the lower end of ratch 26 and connection The upper surface of plate 18 is fixedly connected, and also has stretching structure between connecting plate 18 and the second fixed plate 23, by the way that flexible knot is arranged Structure, so that when half gear 25 one side with teeth is not meshed with ratch 26, stretching structure extends through connecting plate 18 Ratch 26 is driven to be moved downward to initial position, stretching structure includes telescopic rod 19, and the outer surface of telescopic rod 19 is socketed with spring 21, the upper end of telescopic rod 19 and spring 21 is fixedly connected with the lower surface of the second fixed plate 23 respectively, telescopic rod 19 and spring 21 Lower end be fixedly connected respectively with the upper surface of connecting plate 18；It is provided with filter plate 16 in shell 17, filter plate 16 and slide bar 3 Lower end is fixedly connected, and the lower surface of shell 17 is provided with water outlet 14, and solenoid valve 15 is provided in water outlet 14, by the way that electricity is arranged Magnet valve 15, to which waste water will not leak out shell 17 when being stirred, so that impurity can carry out rapid precipitation.

Filter plate 16 includes plate body 16a, the first filter screen 16c and the second filter screen 16e, the lower end of plate body 16a and slide bar 3 It is fixedly connected；Mounting hole 16a1 is offered in the middle part of plate body 16a, and the shape of mounting hole 16a1 is rectangular, under the first filter screen 16c End is connected by the first connection strap 16b of elasticity with the inner wall of mounting hole 16a1, and the second lower ends filter screen 16e pass through elastic the Two connection strap 16d are connected with the inner wall of mounting hole 16a1, and the first upper ends filter screen 16c and the second upper ends filter screen 16e pass through bullet Property third connection strap 16f be connected, the first both sides filter screen 16c pass through elasticity the first connection sheet and mounting hole 16a1 inner wall It is connected, the second both sides filter screen 16e are connected by the second connection sheet of elasticity with the inner wall of mounting hole 16a1.

Supplementary structure is additionally provided on shell 17, supplementary structure includes air storage bag 28, regulation and control air bag 31, driving plate 30 and branch Frame 27, regulation and control air bag 31 are arranged in shell 17, and regulation and control 31 lower surface of air bag is connected with the bottom of 17 inner wall of shell, in this implementation In example, 31 lower surface of regulation and control air bag is connected with the bottom of 17 inner wall of shell by bolted connection；Regulate and control 31 upper table of air bag Face is connected by first connecting rod 34 with the first upper ends filter screen 16c, and 31 upper surface of regulation and control air bag passes through second connecting rod 33 and second The upper ends filter screen 16e are connected, and holder 27 is fixed on 26 upper end of ratch, in the present embodiment, the side that holder 27 is bolted Formula is fixed on 26 upper end of ratch；Air storage bag 28 is connected with holder 27, in the present embodiment, the side that air storage bag 28 is bolted Formula is connected with holder 27；Driving plate 30 is fixed in the second fixed plate 23, and in the present embodiment, driving plate 30 is bolted Mode be fixed in the second fixed plate 23；And driving plate 30 can lean with air storage bag 28, air storage bag 28 and air-guide branch pipe 29 One end is connected, and 29 other end of air-guide branch pipe is connected with 32 one end air guide manifold, 32 other ends of air guide manifold and regulation and control air bag It is connected in the middle part of 31 lower surfaces.

Using the structure, during filter plate 16 moves up and down, air storage bag 28 can repeatedly be contacted with driving plate 30, right Air storage bag 28 is squeezed, and the gas in air storage bag 28 is input in regulation and control air bag 31, the volume in regulation and control air bag 31 is made to increase Big or reduction, drives the first filter screen 16c and the second filter screen 16e to swing repeatedly, makes the first filter screen 16c and the second filter screen Impurity on 16e is preferably slipped to both ends, without increase power source, so that it may preferably avoid the first filter screen 16c and Second filter screen 16e is blocked, and auxiliary is convenient.

Regulating and controlling also has the first auxiliary piece 36 and the second auxiliary piece 35, the upper end of the first auxiliary piece 36 and regulation and control in air bag 31 The inner wall of 31 upper surface of air bag is connected, and the lower end of the first auxiliary piece 36 is free end one, and the middle part of the first auxiliary piece 36 offers Several via holes one, in the present embodiment, the quantity of via hole one is 30；The upper end of second auxiliary piece 35 and regulation and control air bag The inner walls of 31 upper surfaces is connected, and the lower end of the second auxiliary piece 35 is free end two, and the middle part of the second auxiliary piece 35 offers several Via hole two, in the present embodiment, the quantity of via hole two is 30；And first both auxiliary piece 36 and the second auxiliary piece 35 Form splayed；It, can be to the first auxiliary piece 36 and the when the gas in air storage bag 28 is input to regulation and control air bag 31 using the structure Two auxiliary pieces 35 are impacted, and so that the first auxiliary piece 36 and the second auxiliary piece 35 is generated and are shaken back and forth, to regulate and control 31 meeting of air bag The first filter screen and the second filter screen is driven to shake back and forth.

The operation principle of processing unit is as follows：Waste water is poured into from water inlet 10 in shell 17, first motor 6 is then controlled Work is so that shaft 8 rotates so that shaft 8 drives paddle 12 to rotate so that paddle 12 drives the waste water rotation in shell 17 Turn, then controls first motor 6 and be stopped so that paddle 12 stops rotating so that the impurity in waste water can quickly sink It forms sediment, slowing for waste water filtering, two the second motors 24 of control can be made to work at the same time, make when impurity is fallen in filter plate 16 The output shaft rotation for obtaining the second motor 24 drives the rotation of half gear 25, when half gear 25 one side with teeth is nibbled with 26 phase of ratch Ratch 26 moves up when conjunction, and when half gear 25 one side with teeth is not meshed with ratch 26, stretching structure extends through Connecting plate 18 drives ratch 26 to move down, so that slide bar 3 can drive 16 vertical tremor of filter plate so that filter plate 16 On impurity will not be blocked, open simultaneously solenoid valve 15 so that filtered waste water by water outlet 14 flow out shell 17, After wastewater treatment, the second motor 24 of control is stopped so that the stopping of slide bar 3 moves up and down no longer drive filter plate 16 It moves up and down.

By the way that first motor 6, the second motor 24, ratch 26, half gear 25, paddle 12, slide bar 3,2 and of sliding sleeve is arranged Filter plate 16 pours into waste water in shell 17 from water inlet 10, then controls first motor 6 and works so that shaft 8 rotates so that Shaft 8 drives paddle 12 to rotate so that paddle 12 drives the waste water rotation in shell 17, then controls first motor 6 and stops It only works so that paddle 12 stops rotating so that the impurity in waste water can be precipitated quickly, when impurity is fallen in filter plate 16 When can make slowing for waste water filtering, two the second motors 24 of control work at the same time so that the output shaft of the second motor 24 Rotation drives the rotation of half gear 25, and when half gear 25 one side with teeth is meshed with ratch 26, ratch 26 moves up, When half gear 25 one side with teeth is not meshed with ratch 26, stretching structure extend through connecting plate 18 drive ratch 26 to Lower movement, so that slide bar 3 can drive 16 vertical tremor of filter plate so that the impurity on filter plate 16 will not be blocked up Extremely, so that the speed of waste water filtering is accelerated, the processing speed of waste water is improved.

By setting sliding sleeve 2 and slide bar 3, filter plate 16 can be driven to move up and down so that slide bar 3 moves up and down, and Slide bar 3 moves up and down in sliding sleeve 2, so that filter plate 16 will not shake when moving up and down and more stablize.

By the way that bearing 9 and shaft 8 is arranged, so that shaft 8 can drive the rotation in shell 17 of paddle 12, and turn The rotation in bearing 9 of axis 8, so that paddle 12 will not shake and more stablize when rotated, and structure of the invention is compact, Reasonable design, it is highly practical.

Specific embodiment described herein is only an example for the spirit of the invention.Technology belonging to the present invention is led The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Claims (8)

1. a kind of processing method of dyeing waste water, which is characterized in that include the following steps：

A, the large granular impurity in dyeing waste water is removed by processing unit；

B, dyeing waste water is input in stirred tank and is stirred, and fungicide is added, mixing time 40-120min；

C, dyeing waste water is input in sedimentation basin and is precipitated, isolate supernatant；

D, supernatant is input in filtering ponds and is filtered, treated dyeing waste water can be obtained.

2. the processing method of dyeing waste water according to claim 1, which is characterized in that the fungicide in the step b is Dithiocyano-methane.

3. the processing method of dyeing waste water according to claim 1, which is characterized in that the dyeing waste water in the step b Mass ratio with fungicide is 200：3-200：9.

4. the processing method of dyeing waste water according to claim 1, which is characterized in that the sedimentation time in the step c For 2-5h.

5. the processing method of dyeing waste water according to claim 1, which is characterized in that the processing unit in the step a Including shell, the upper surface of the shell is fixedly connected with the lower surface of cover board, and the upper surface of cover board is connected with bearing, in bearing It is socketed with shaft, the lower end of shaft is fixedly connected there are two paddle, and two paddles form splayed structure, and paddle position In in shell, the upper end of shaft is fixedly connected with the output shaft of first motor, and the left side of first motor fuselage is solid by first Fixed board is fixedly connected with the upper surface of cover board；The upper surface of cover board is provided with water inlet, and water inlet is located at the right side of first motor, There are two sliding sleeves for the upper surface clamping of cover board, and two sliding sleeves are located at the left and right sides of cover board upper surface, are socketed in sliding sleeve There are slide bar, the upper end of slide bar to be connected with one end of connecting rod, the other end of connecting rod is connected with the upper end of ratch, position in ratch In in the through-hole opened up in the second fixed plate, the side of the second fixed plate is fixedly connected with the side of shell, the second fixed plate Upper surface is fixedly connected with the lower surface of the second motor body, and the output shaft end of the second motor is fixedly connected with half gear, And half gear be meshed with ratch, the lower end of ratch is fixedly connected with the upper surface of connecting plate, connecting plate and the second fixed plate Between also have stretching structure；Filter plate is provided in shell, filter plate is fixedly connected with the lower end of slide bar, the lower surface of shell It is provided with water outlet, solenoid valve is provided in water outlet.

6. the processing method of dyeing waste water according to claim 5, which is characterized in that the stretching structure includes flexible Bar, the outer surface of telescopic rod are socketed with spring, and the upper end of telescopic rod and spring is fixed with the lower surface of the second fixed plate respectively to be connected It connects, the lower end of telescopic rod and spring is fixedly connected with the upper surface of connecting plate respectively.

7. the processing method of dyeing waste water according to claim 5, which is characterized in that the lower surface of the shell, which is fixed, to be connected Support leg there are four connecing, and four support legs are respectively fixedly connected with the four corners of housing lower surface.

8. the processing method of dyeing waste water according to claim 5, which is characterized in that the model of the first motor Y160M-4, the model Y160M-1 of the second motor.