CN111847782A - Equipment for treating industrial organic wastewater by biological aeration method - Google Patents

Abstract

The invention discloses a device for treating industrial organic wastewater by a biological aeration method, wherein the locking of a wheel shaft comprises the following steps: the shoe connecting rod, the V-shaped tightening rod, the linkage rod, the driving shaft and the locking shoe; the driving shaft at one side is in driving connection with the V-shaped tightening rod through the linkage rod, the V-shaped tightening rod is in a V shape, the bottom end of the V-shaped tightening rod is rotationally connected with the linkage rod, and the top end of the V-shaped tightening rod is rotationally connected with the two locking shoes; the locking shoe is made of metal, rubber is adhered to the surface of the locking shoe, the locking shoe is shaped like an 1/5 arc, a plurality of locking shoes are connected in series through shoe connecting rods, and the shoe connecting rods are of high-strength spring structures. The equipment for treating industrial organic wastewater by the biological aeration method has the advantages of novel and reasonable structure, high working efficiency and wide equipment application range.

Description

Equipment for treating industrial organic wastewater by biological aeration method

Technical Field

The invention belongs to the technical field of industrial organic wastewater treatment facilities and treatment, and particularly relates to equipment for treating industrial organic wastewater by a biological aeration method.

Background

Under the condition of the prior art, the technology of industrial organic wastewater treatment equipment is not developed and matured, and mainly the technical scheme is that no wheel axle locking, shoe connecting rod, V-shaped tightening rod, linkage rod, driving shaft and locking shoe mechanism exists in the prior art. Due to lack of or immaturity of the mechanism, the defects of old process, high treatment cost, low working efficiency, long process flow, complex control, large occupied area and the like are caused.

Disclosure of Invention

In order to solve the technical problem, the invention provides a device for treating industrial organic wastewater by a biological aeration method, which comprises: the device comprises a liquid inlet buffer chamber 1, a spray pipe 2, a rectangular water treatment 3, a water outlet distribution 4, a liquid outlet buffer chamber 5, an air outlet pipe 6, a baffling wall 7 and a water inlet distribution 8; the liquid inlet buffer chamber 1 is positioned at one side, and water to be treated enters from a high position to generate a certain water level elevation; the liquid inlet buffer chamber 1 is communicated with the liquid outlet buffer chamber 5 at the other side, and water treated by the liquid outlet buffer chamber 5 is discharged from the liquid outlet buffer chamber; the right side of the liquid inlet buffer chamber 1 is provided with a water inlet distribution 8 which is communicated with the liquid inlet buffer chamber; the water inlet distribution 8 is communicated with the spray pipes 2 and the rectangular water treatment 3, the spray pipes 2 spray water to be treated into the box body, the rectangular water treatment 3 are arranged at two sides of the box body, and the water to be treated is discharged into the box body after being treated; a plurality of baffling walls 7 are arranged at the bottom of the box body, wherein one end of each baffling wall 7 is provided with an outlet, the outlets of the adjacent baffling walls 7 are staggered to realize the back-turning flow and the circuitous flow of water, an air outlet pipe 6 is arranged between every two adjacent baffling walls 7, and the air outlet pipe 6 generates bubbles to promote the decomposition of organic matters in the water body; the water outlet distribution 4 is arranged at the right high position of the box body, a plurality of water outlet distributions 4 are vertically arranged and are controlled to be communicated left and right, when the water outlet distributions 4 with different heights are opened, the water level elevation of the box body is controlled, the water outlet distributions 4 realize that the box body is communicated with the water outlet buffer chamber 5, a driving device in the water outlet distribution 4 drives a plunger piston which moves left and right through a connecting rod, and when the plunger piston moves right and slides out of the shell cavity, the water body is discharged from the right side of the shell cavity; when the cavity of the shell is in a closed state, when the pressure valve on the plunger moving left and right detects that the water pressure on the left side exceeds a limit value, the pressure valve automatically releases pressure; a tightening device is arranged on the outer ring of the housing cavity, and the driving device tightens or loosens the tightening device through a hub and is used for adjusting a gap between the housing cavity and the left-right moving plunger; the intake water distribution 8 includes: a T-shaped stirring blade 81, a water-medicine mixing chamber 82, a medicine feeding pump 83, a roller 84, a roller motor 85, a distribution chamber 86, a secondary stirring tank 87 and a nail-shaped stirring blade 88; the water-medicine mixing chamber 82 on one side is vertically arranged, water inlets to be treated are arranged at the upper end point, the middle end point and the lower end point of the water-medicine mixing chamber 82, the water-medicine mixing chamber 82 is communicated with the medicine adding pump 83 on the right side, and the medicine is pumped into the water-medicine mixing chamber 82 through the medicine adding pump 83 to promote the medicine to be mixed with water; the number of the rollers 84 is a plurality of rollers arranged up and down, a roller motor 85 drives the T-shaped stirring blades 81 and the nail-shaped stirring blades 88 in the rollers 84 to rotate, wherein the T-shaped stirring blades 81, the long arms and the top ends are provided with cross bars, two ends of each cross bar are provided with inclined supports, the T-shaped stirring blades 81 are fixedly connected around a horizontal shaft in an asymmetrical mode, and the T-shaped stirring blades 81 are used for stirring sticky materials; the nail type stirring blade 88 is fixed on the cylinder, and the surface is fully distributed with the inclined insertion nails for stirring the non-sticky substances; one end of the roller 84 is communicated with the water-medicine mixing chamber 82, and the other end of the roller is communicated with the distribution chamber 86; the solution is collected by the distribution chamber 86, transferred to the secondary stirring tank 87 and discharged from the other end thereof.

Further, the baffle wall 7 includes: a forward and backward moving slide 71, a driver sleeve 72, a lifter driver 73, a motor shaft 74, a lifter box 75, a baffling lifter 76, a water retaining wall 77 and a moving motor 78; the water retaining wall 77 positioned at the upper part is fixedly connected with the two baffling lifters 76 at the lower part, the lifter box bodies 75 are arranged around the baffling lifters 76, the baffling lifters 76 are in driving connection with the lifter driver 73 at the lower part, and the lifter driver 73 is in driving connection with the moving motor 78 through the motor shaft 74; a front-back moving slideway 71 is respectively arranged at two ends of the motor shaft 74, and the baffling wall 7 moves back and forth through the front-back moving slideway 71; a driver cover 72 is provided outside the elevator driver 73.

Further, the deflecting elevator 76 includes: a lifting column 761, a rotating rod 762, a gear lock 763, a column lock 764, a heat sink 765, and a rotating gear 766; the lifting column 761 in the middle is vertically arranged, moves up and down relative to the baffling lifter 76, one side of the lifting column 761 is provided with a rack which is meshed with the rotating gear 766, one side of the lifting column 761 is provided with a rotating rod 762, and the rotating rod 762 drives the lifting column 761 to move up and down through the rotating gear 766; a gear lock 763 is arranged on one side of the rotating gear 766 and is controlled to lock the rotating gear 766; a column lock 764 is arranged on one side of the lifting column 761 and is controlled to lock the lifting column 761; a radiator 765 is arranged at the other side of the lifting column 761 to cool the movement of the lifting column 761.

Further, the rectangular water treatment 3 includes: a vibration chamber 31, a check cap return spring 32, an extrusion wheel 33, a rubber inlet pipe 34, a main driving wheel 35 and a limit bolt 36; a rubber inlet pipe 34 positioned at the upper part, which is through from top to bottom, made of high-elasticity rubber material and is variable in extrusion, is wound among the three extrusion wheels 33 and is a water inlet pipe to be treated; the lower part of the rubber inlet pipe 34 is provided with three extrusion wheels 33 which are arranged in a shape like Chinese character 'pin', wherein the two extrusion wheels 33 at the upper part are symmetrically arranged left and right, and the rubber inlet pipe 34 is clamped in the middle; a main driving wheel 35 is arranged on one side of the extrusion wheel 33, the main driving wheel 35 drives the three extrusion wheels 33 to extrude towards the centers of the three extrusion wheels through a limit bolt 36, the non-return cap return spring 32 is sleeved outside the limit bolt 36, and the non-return cap return spring 32 realizes the recovery of the extrusion wheels 33; the vibration chamber 31 is provided below the pressing wheel 33, and the vibration chamber 31 penetrates vertically to promote decomposition of organic substances.

Further, the vibration chamber 31 includes: the device comprises a cam motor 311, a cam shaft 312, a cam 313, an elastic connecting rod 314, an oscillating column 315 and a wheel shaft lock 316; the vibration chamber 31 is communicated up and down, a plurality of groups of vibration columns 315 are arranged in the vibration chamber, the plurality of vibration columns 315 are connected in series with each other through an elastic connecting rod 314 to form a group, the elastic connecting rod 314 enables adjacent vibration columns 315 in the same group to be asynchronous with each other and to present wave-shaped fluctuation when vibrating, wherein each group of vibration columns 315 are respectively contacted with cams 313 with different rotation angles; the cams 313 are fixed on the same camshaft 312, and the included angles between the cams 313 on the same camshaft 312 and the horizontal plane are different; the cam motor 311 drives the cam 313 to rotate at high frequency through the cam shaft 312, so that the oscillating column 315 vibrates at high frequency, and the decomposition of organic matters is promoted due to the fact that a large number of microorganisms are attached to the surface of the oscillating column; an axle lock 316 is provided at the end of the camshaft 312 to lock the camshaft 312 when desired.

Further, the axle lock 316 includes: a shoe connecting rod 3161, a V-shaped tightening rod 3162, a linkage 3163, a driving shaft 3164 and a locking shoe 3165; the driving shaft 3164 positioned on one side is in driving connection with the V-shaped tightening rod 3162 through the linkage rod 3163, the V-shaped tightening rod 3162 is in a V shape, the bottom end of the V-shaped tightening rod 3162 is rotationally connected with the linkage rod 3163, and the top end of the V-shaped tightening rod 3162 is rotationally connected with the two locking shoes 3165; the locking shoes 3165 are made of metal, have rubber adhered on the surface and are shaped like 1/5 circular arcs, a plurality of locking shoes 3165 are mutually connected in series through shoe connecting rods 3161, and the shoe connecting rods 3161 are of high-strength spring structures.

Further, the working method of the equipment comprises the following steps:

step 1: in the operation of a device for treating industrial organic wastewater by a biological aeration method, water to be treated enters a liquid inlet buffer chamber 1, is treated by a spray pipe 2 and a rectangular water treatment 3 and then enters a box body, and the water reaching the standard is discharged from the bottom of a liquid outlet buffer chamber 5 under the action of an air outlet pipe 6 and a deflection wall 7;

in the operation of the water inlet distribution 8, water to be treated enters from the upper, middle and lower ports of the water-medicine mixing chamber 82, is mixed with the medicine from the medicine adding pump 83, and is distributed to the roller 84 for stirring, wherein the T-shaped stirring blade 81 is used for stirring the sticky substances; the pin-shaped stirring blade 88 is used for stirring the non-sticky substances; is fed to the secondary agitation tank 87 through the distribution chamber 86 and is discharged from the discharge pipe on the left side thereof;

step 2: during the operation of the deflection wall 7, the forward and backward movement slideway 71 promotes the deflection wall 7 to move forward and backward with small amplitude; the moving motor 78 drives the baffling lifter 76 to drive the water retaining wall 77 to ascend or descend in a small range through the motor shaft 74 and the lifter driver 73;

and 3, step 3: when the baffling lifter 76 works, the rotating rod 762 drives the lifting column 761 to move up and down through the rotating gear 766; the column latch 764 is controlled to lock the lifting column 761; the gear lock 763 is controlled to lock the rotating gear 766; the heat sink 765 cools the movement of the lifting column 761;

and 4, step 4: in the operation of the rectangular water treatment 3, water to be treated enters from the top of the rubber inlet pipe 34 and passes through the rubber inlet pipe 34, and the decomposition of organic matters is promoted by the vibration chamber 31; when the flow needs to be stopped, the main driving wheel 35 drives the three extrusion wheels 33 to approach to the centers of the three through the limit bolt 36, the rubber inlet pipe 34 is extruded, and the solution stops flowing;

and 5, step 5: when the vibration chamber 31 works, water to be treated passes through the vibration chamber 31, and the cam motor 311 drives the cam 313 to rotate at high frequency through the cam shaft 312, so that the vibration column 315 vibrates at high frequency, and organic matters are promoted to be decomposed;

and 6, step 6: in operation of the axle lock 316, the drive shaft 3164 pulls the bottom end of the V-shaped take-up lever 3162 through the linkage 3163, causing the top ends of the V-shaped take-up lever 3162 to move along the locking shoes 3165 to lock the workpiece passing through the center of its axis and prevent the workpiece from moving.

The invention has the advantages that: the structure is reasonable and compact, the use effect is good, the process is novel, and the application range of the equipment is wide.

Drawings

FIG. 1 is a diagram of an apparatus for treating industrial organic wastewater by a biological aeration method according to the present invention.

Fig. 2 is a view of the baffle wall 7 of the present invention.

Fig. 3 is a view of the baffling elevator 76 of the present invention.

FIG. 4 is a drawing of a rectangular water treatment 3 according to the present invention.

Fig. 5 is a view of the vibration chamber 31 in the present invention.

Figure 6 is a view of the axle lock 316 of the present invention.

Detailed Description

Examples

The following will further explain the equipment for treating industrial organic wastewater by the biological aeration method provided by the invention with reference to the attached drawings and examples.

FIG. 1 is a diagram of an apparatus for treating industrial organic wastewater by a biological aeration method according to the present invention. The method comprises the following steps: the device comprises a liquid inlet buffer chamber 1, a spray pipe 2, a rectangular water treatment 3, a water outlet distribution 4, a liquid outlet buffer chamber 5, an air outlet pipe 6, a baffling wall 7 and a water inlet distribution 8; the liquid inlet buffer chamber 1 is positioned at one side, and water to be treated enters from a high position to generate a certain water level elevation; the liquid inlet buffer chamber 1 is communicated with the liquid outlet buffer chamber 5 at the other side, and water treated by the liquid outlet buffer chamber 5 is discharged from the liquid outlet buffer chamber; the right side of the liquid inlet buffer chamber 1 is provided with a water inlet distribution 8 which is communicated with the liquid inlet buffer chamber; the water inlet distribution 8 is communicated with the spray pipes 2 and the rectangular water treatment 3, the spray pipes 2 spray water to be treated into the box body, the rectangular water treatment 3 are arranged at two sides of the box body, and the water to be treated is discharged into the box body after being treated; a plurality of baffling walls 7 are arranged at the bottom of the box body, wherein one end of each baffling wall 7 is provided with an outlet, the outlets of the adjacent baffling walls 7 are staggered to realize the back-turning flow and the circuitous flow of water, an air outlet pipe 6 is arranged between every two adjacent baffling walls 7, and the air outlet pipe 6 generates bubbles to promote the decomposition of organic matters in the water body; the water outlet distribution 4 is arranged at the right high position of the box body, a plurality of water outlet distributions 4 are vertically arranged and are controlled to be communicated left and right, when the water outlet distributions 4 with different heights are opened, the water level elevation of the box body is controlled, the water outlet distributions 4 realize that the box body is communicated with the water outlet buffer chamber 5, a driving device in the water outlet distribution 4 drives a plunger piston which moves left and right through a connecting rod, and when the plunger piston moves right and slides out of the shell cavity, the water body is discharged from the right side of the shell cavity; when the cavity of the shell is in a closed state, when the pressure valve on the plunger moving left and right detects that the water pressure on the left side exceeds a limit value, the pressure valve automatically releases pressure; a tightening device is arranged on the outer ring of the housing cavity, and the driving device tightens or loosens the tightening device through a hub and is used for adjusting a gap between the housing cavity and the left-right moving plunger; the intake water distribution 8 includes: a T-shaped stirring blade 81, a water-medicine mixing chamber 82, a medicine feeding pump 83, a roller 84, a roller motor 85, a distribution chamber 86, a secondary stirring tank 87 and a nail-shaped stirring blade 88; the water-medicine mixing chamber 82 on one side is vertically arranged, water inlets to be treated are arranged at the upper end point, the middle end point and the lower end point of the water-medicine mixing chamber 82, the water-medicine mixing chamber 82 is communicated with the medicine adding pump 83 on the right side, and the medicine is pumped into the water-medicine mixing chamber 82 through the medicine adding pump 83 to promote the medicine to be mixed with water; the number of the rollers 84 is a plurality of rollers arranged up and down, a roller motor 85 drives the T-shaped stirring blades 81 and the nail-shaped stirring blades 88 in the rollers 84 to rotate, wherein the T-shaped stirring blades 81, the long arms and the top ends are provided with cross bars, two ends of each cross bar are provided with inclined supports, the T-shaped stirring blades 81 are fixedly connected around a horizontal shaft in an asymmetrical mode, and the T-shaped stirring blades 81 are used for stirring sticky materials; the nail type stirring blade 88 is fixed on the cylinder, and the surface is fully distributed with the inclined insertion nails for stirring the non-sticky substances; one end of the roller 84 is communicated with the water-medicine mixing chamber 82, and the other end of the roller is communicated with the distribution chamber 86; the solution is collected by the distribution chamber 86, transferred to the secondary stirring tank 87 and discharged from the other end thereof.

Fig. 2 is a view of the baffle wall 7 of the present invention. The baffle wall 7 comprises: a forward and backward moving slide 71, a driver sleeve 72, a lifter driver 73, a motor shaft 74, a lifter box 75, a baffling lifter 76, a water retaining wall 77 and a moving motor 78; the water retaining wall 77 positioned at the upper part is fixedly connected with the two baffling lifters 76 at the lower part, the lifter box bodies 75 are arranged around the baffling lifters 76, the baffling lifters 76 are in driving connection with the lifter driver 73 at the lower part, and the lifter driver 73 is in driving connection with the moving motor 78 through the motor shaft 74; a front-back moving slideway 71 is respectively arranged at two ends of the motor shaft 74, and the baffling wall 7 moves back and forth through the front-back moving slideway 71; a driver cover 72 is provided outside the elevator driver 73.

Fig. 3 is a view of the baffling elevator 76 of the present invention. The deflecting elevator 76 includes: a lifting column 761, a rotating rod 762, a gear lock 763, a column lock 764, a heat sink 765, and a rotating gear 766; the lifting column 761 in the middle is vertically arranged, moves up and down relative to the baffling lifter 76, one side of the lifting column 761 is provided with a rack which is meshed with the rotating gear 766, one side of the lifting column 761 is provided with a rotating rod 762, and the rotating rod 762 drives the lifting column 761 to move up and down through the rotating gear 766; a gear lock 763 is arranged on one side of the rotating gear 766 and is controlled to lock the rotating gear 766; a column lock 764 is arranged on one side of the lifting column 761 and is controlled to lock the lifting column 761; a radiator 765 is arranged at the other side of the lifting column 761 to cool the movement of the lifting column 761.

FIG. 4 is a drawing of a rectangular water treatment 3 according to the present invention. The rectangular water treatment 3 includes: a vibration chamber 31, a check cap return spring 32, an extrusion wheel 33, a rubber inlet pipe 34, a main driving wheel 35 and a limit bolt 36; a rubber inlet pipe 34 positioned at the upper part, which is through from top to bottom, made of high-elasticity rubber material and is variable in extrusion, is wound among the three extrusion wheels 33 and is a water inlet pipe to be treated; the lower part of the rubber inlet pipe 34 is provided with three extrusion wheels 33 which are arranged in a shape like Chinese character 'pin', wherein the two extrusion wheels 33 at the upper part are symmetrically arranged left and right, and the rubber inlet pipe 34 is clamped in the middle; a main driving wheel 35 is arranged on one side of the extrusion wheel 33, the main driving wheel 35 drives the three extrusion wheels 33 to extrude towards the centers of the three extrusion wheels through a limit bolt 36, the non-return cap return spring 32 is sleeved outside the limit bolt 36, and the non-return cap return spring 32 realizes the recovery of the extrusion wheels 33; the vibration chamber 31 is provided below the pressing wheel 33, and the vibration chamber 31 penetrates vertically to promote decomposition of organic substances.

Fig. 5 is a view of the vibration chamber 31 in the present invention. The vibration chamber 31 includes: the device comprises a cam motor 311, a cam shaft 312, a cam 313, an elastic connecting rod 314, an oscillating column 315 and a wheel shaft lock 316; the vibration chamber 31 is communicated up and down, a plurality of groups of vibration columns 315 are arranged in the vibration chamber, the plurality of vibration columns 315 are connected in series with each other through an elastic connecting rod 314 to form a group, the elastic connecting rod 314 enables adjacent vibration columns 315 in the same group to be asynchronous with each other and to present wave-shaped fluctuation when vibrating, wherein each group of vibration columns 315 are respectively contacted with cams 313 with different rotation angles; the cams 313 are fixed on the same camshaft 312, and the included angles between the cams 313 on the same camshaft 312 and the horizontal plane are different; the cam motor 311 drives the cam 313 to rotate at high frequency through the cam shaft 312, so that the oscillating column 315 vibrates at high frequency, and the decomposition of organic matters is promoted due to the fact that a large number of microorganisms are attached to the surface of the oscillating column; an axle lock 316 is provided at the end of the camshaft 312 to lock the camshaft 312 when desired.

Figure 6 is a view of the axle lock 316 of the present invention. The axle lock 316 includes: a shoe connecting rod 3161, a V-shaped tightening rod 3162, a linkage 3163, a driving shaft 3164 and a locking shoe 3165; the driving shaft 3164 positioned on one side is in driving connection with the V-shaped tightening rod 3162 through the linkage rod 3163, the V-shaped tightening rod 3162 is in a V shape, the bottom end of the V-shaped tightening rod 3162 is rotationally connected with the linkage rod 3163, and the top end of the V-shaped tightening rod 3162 is rotationally connected with the two locking shoes 3165; the locking shoes 3165 are made of metal, have rubber adhered on the surface and are shaped like 1/5 circular arcs, a plurality of locking shoes 3165 are mutually connected in series through shoe connecting rods 3161, and the shoe connecting rods 3161 are of high-strength spring structures.

Claims (7)

1. An industrial organic wastewater treatment device by a biological aeration method comprises: the device comprises a liquid inlet buffer chamber (1), a spray pipe (2), a rectangular water treatment (3), a water outlet distribution (4), a liquid outlet buffer chamber (5), an air outlet pipe (6), a baffling wall body (7) and a water inlet distribution (8);

the device is characterized in that the liquid inlet buffer chamber (1) is positioned at one side, and water to be treated enters from a high position to generate a certain water level elevation; the liquid inlet buffer chamber (1) is communicated with the liquid outlet buffer chamber (5) at the other side, and water treated by the liquid outlet buffer chamber (5) is discharged from the liquid outlet buffer chamber; the right side of the liquid inlet buffer chamber (1) is provided with a water inlet distribution chamber (8) which is communicated with the liquid inlet buffer chamber; the water inlet distribution (8) is communicated with the spray pipes (2) and the rectangular water treatment devices (3), the spray pipes (2) spray water to be treated into the box body, and the rectangular water treatment devices (3) are arranged at two sides of the box body and discharge the water to be treated into the box body after being treated; a plurality of baffling walls (7) are arranged at the bottom of the box body, wherein one end of each baffling wall (7) is provided with an outlet, the outlets of adjacent baffling walls (7) are staggered to realize the back-turning flow and the circuitous flow of water, an air outlet pipe (6) is arranged between every two adjacent baffling walls (7), and the air outlet pipe (6) generates bubbles to promote the decomposition of organic matters in the water body; the high position of the right side of the box body is provided with water outlet distribution (4), a plurality of water outlet distribution (4) are vertically arranged and are controlled to be communicated left and right, when the water outlet distribution (4) with different heights is opened, the water level elevation of the box body is controlled, the water outlet distribution (4) realizes that the box body is communicated with a water outlet buffer chamber (5), a driving device in the water outlet distribution (4) drives a plunger piston which moves left and right through a connecting rod, and when the water outlet distribution moves right and slides out of the shell cavity, the water body is discharged from the right side of the shell cavity; when the cavity of the shell is in a closed state, when the pressure valve on the plunger moving left and right detects that the water pressure on the left side exceeds a limit value, the pressure valve automatically releases pressure; a tightening device is arranged on the outer ring of the housing cavity, and the driving device tightens or loosens the tightening device through a hub and is used for adjusting a gap between the housing cavity and the left-right moving plunger;

the intake water distribution (8) comprises: the device comprises a T-shaped stirring blade (81), a water-medicine mixing chamber (82), a medicine feeding pump (83), a roller (84), a roller motor (85), a distribution chamber (86), a secondary stirring tank (87) and a nail-shaped stirring blade (88);

the water-medicine mixing chamber (82) is vertically arranged, water inlets to be treated are arranged at the upper end point, the middle end point and the lower end point of the water-medicine mixing chamber (82), the water-medicine mixing chamber (82) is communicated with the dosing pump (83) at the right side, and the medicine is pumped into the water-medicine mixing chamber (82) through the dosing pump (83) to promote the medicine to be mixed with water; the number of the rollers (84) is a plurality of rollers which are arranged up and down, a roller motor (85) drives T-shaped stirring blades (81) and nail-shaped stirring blades (88) in the rollers (84) to rotate, wherein cross rods are arranged at the long arms and the top ends of the T-shaped stirring blades (81), inclined supports are arranged at two ends of each cross rod, the T-shaped stirring blades (81) are asymmetrically and fixedly connected around a horizontal shaft, and the T-shaped stirring blades (81) are used for stirring sticky substances; the nail-shaped stirring blades (88) are fixed on the cylinder, and the inclined inserting nails are fully distributed on the surface of the cylinder and are used for stirring the non-sticky substances; one end of the roller (84) is communicated with the water-medicine mixing chamber (82), and the other end of the roller is communicated with the distribution chamber (86); the solution is collected by the distribution chamber (86), transferred to the secondary stirring tank (87) and discharged from the other end thereof.

2. An apparatus for treating industrial organic waste water by biological aeration according to claim 1, characterized in that said baffle wall (7) comprises: a back-and-forth moving slide way (71), a driver sleeve (72), a lifter driver (73), a motor shaft (74), a lifter box body (75), a baffling lifter (76), a water retaining wall (77) and a moving motor (78);

the water retaining wall (77) positioned at the upper part is fixedly connected with the two baffling lifters (76) at the lower part, lifter boxes (75) are arranged around the baffling lifters (76), the baffling lifters (76) are in driving connection with a lifter driver (73) at the lower part, and the lifter driver (73) is in driving connection with a moving motor (78) through a motor shaft (74); a front-and-back moving slideway (71) is respectively arranged at two ends of the motor shaft (74), and the baffling wall body (7) moves front and back through the front-and-back moving slideway (71); a driver cover (72) is arranged outside the elevator driver (73).

3. An apparatus for treating industrial organic wastewater by biological aeration according to claim 2, characterized in that the baffling elevator (76) comprises: a lifting column (761), a rotating rod (762), a gear lock (763), a column lock (764), a radiator (765) and a rotating gear (766);

the lifting column (761) positioned in the middle is vertically arranged, moves up and down relative to the baffling lifter (76), one side of the lifting column (761) is provided with a rack, the rack is meshed with a rotating gear (766) and is connected with the rotating gear (766), one side of the lifting column (761) is provided with a rotating rod (762), and the rotating rod (762) drives the lifting column (761) to move up and down through the rotating gear (766); a gear lock (763) is arranged on one side of the rotating gear (766) and is controlled to lock the rotating gear (766); a column lock (764) is arranged on one side of the lifting column (761) and is controlled to lock the lifting column (761); a radiator (765) is arranged at the other side of the lifting column (761) to cool the movement of the lifting column (761).

4. The apparatus for treating industrial organic wastewater by biological aeration according to claim 3, wherein the rectangular water treatment (3) comprises: the device comprises a vibration chamber (31), a check cap return spring (32), an extrusion wheel (33), a rubber inlet pipe (34), a main driving wheel (35) and a limit bolt (36);

a rubber inlet pipe (34) positioned at the upper part, which is through up and down, made of high-elasticity rubber material and can be extruded variably, and is wound among three extrusion wheels (33) and is a water inlet pipe to be treated; the lower part of the rubber inlet pipe (34) is provided with three extrusion wheels (33) which are arranged in a delta shape, wherein the two extrusion wheels (33) at the upper part are symmetrically distributed in the left-right direction, and the rubber inlet pipe (34) is clamped in the middle; a main driving wheel (35) is arranged on one side of each extrusion wheel (33), the main driving wheel (35) drives the three extrusion wheels (33) to extrude towards the centers of the three extrusion wheels through a limiting bolt (36), a non-return cap return spring (32) is sleeved outside the limiting bolt (36), and the non-return cap return spring (32) realizes the recovery of the extrusion wheels (33); a vibration chamber (31) is arranged at the lower part of the extrusion wheel (33), and the vibration chamber (31) penetrates up and down to promote the decomposition of organic matters.

5. A plant for the treatment of industrial organic waste water by biological aeration according to claim 4, characterized in that said vibrating chamber (31) comprises: the device comprises a cam motor (311), a cam shaft (312), a cam (313), an elastic connecting rod (314), a vibrating column (315) and a wheel shaft lock (316);

the vibration chamber (31) is communicated up and down, a plurality of groups of vibration columns (315) are arranged in the vibration chamber, the vibration columns (315) are connected in series through an elastic connecting rod (314) to form one group, the elastic connecting rod (314) enables adjacent vibration columns (315) in the same group to be asynchronous with each other and to present wave-shaped fluctuation when vibrating, wherein each group of vibration columns (315) are respectively contacted with cams (313) with different rotation angles; the cams (313) are fixed on the same camshaft (312), and the included angles between the cams (313) on the same camshaft (312) and the horizontal plane are different; the cam motor (311) drives the cam (313) to rotate at high frequency through the cam shaft (312), so that the oscillating column (315) vibrates at high frequency, and the decomposition of organic matters is promoted due to the fact that a large number of microorganisms are attached to the surface of the oscillating column; an axle lock (316) is arranged at the end part of the camshaft (312) and locks the camshaft (312) when necessary.

6. The process for treating sewage from an isolation area where a new crown is in close contact with claim 5, wherein the axle lock (316) comprises: the device comprises a shoe connecting rod (3161), a V-shaped tightening rod (3162), a linkage rod (3163), a driving shaft (3164) and a locking shoe (3165);

the driving shaft (3164) positioned on one side is in driving connection with the V-shaped tightening rod (3162) through a linkage rod (3163), the V-shaped tightening rod (3162) is in a V-shaped shape, the bottom end of the V-shaped tightening rod is rotatably connected with the linkage rod (3163), and the top end of the V-shaped tightening rod is rotatably connected with the two locking shoes (3165); the locking shoes (3165) are made of metal, rubber is adhered to the surfaces of the locking shoes, the locking shoes (3165) are shaped like 1/5 arcs, the locking shoes (3165) are connected in series through shoe connecting rods (3161), and the shoe connecting rods (3161) are of high-strength spring structures.

7. A device for treating industrial organic wastewater by a biological aeration method is characterized in that the working method of the device comprises the following steps:

step 1: in the working of a device for treating industrial organic wastewater by a biological aeration method, water to be treated enters a liquid inlet buffer chamber (1), enters a box body after being treated by a spray pipe (2) and a rectangular water treatment chamber (3), and is discharged from the bottom of a liquid outlet buffer chamber (5) under the action of an air outlet pipe (6) and a baffling wall body (7);

in the water inlet distribution (8) work, water to be treated enters from the upper, middle and lower ports of a water-medicine mixing chamber (82), is mixed with a medicine from a medicine adding pump (83), is distributed to a roller (84) for stirring, and a T-shaped stirring blade (81) is used for stirring sticky materials; the pin-shaped stirring blade (88) is used for stirring the non-sticky substances; is delivered to a secondary stirring tank (87) through a distribution chamber (86) and is discharged from a discharge pipe at the left side thereof;

step 2: when the deflection wall body (7) works, the front-back moving slide way (71) promotes the deflection wall body (7) to move back and forth in a small amplitude; the mobile motor (78) drives the baffling lifter (76) to drive the water retaining wall (77) to ascend or descend in a small range through the motor shaft (74) and the lifter driver (73);

and 3, step 3: when the baffling lifter (76) works, the rotating rod (762) drives the lifting column (761) to move up and down through the rotating gear (766); the column lock (764) is controlled to lock the lifting column (761); the gear lock (763) is controlled to lock the rotating gear (766); the radiator (765) cools the movement of the lifting column (761);

and 4, step 4: during the operation of the rectangular water treatment (3), water to be treated enters from the top of the rubber inlet pipe (34) and passes through the rubber inlet pipe (34), and the decomposition of organic matters is promoted by the vibration chamber (31); when the flow needs to be stopped, the main driving wheel (35) drives the three extrusion wheels (33) to approach to the centers of the three extrusion wheels through the limit bolt (36), the rubber inlet pipe (34) is extruded, and the solution stops flowing;

and 5, step 5: when the vibration chamber (31) works, water to be treated passes through the vibration chamber (31), and the cam motor (311) drives the cam (313) to rotate at high frequency through the cam shaft (312), so that the vibration column (315) vibrates at high frequency, and the decomposition of organic matters is promoted;

and 6, step 6: in the operation of the wheel shaft locking (316), the driving shaft (3164) tensions the bottom end of the V-shaped tightening rod (3162) through the linkage rod (3163), so that the two top ends of the V-shaped tightening rod (3162) drive a plurality of locking shoes (3165) to lock a workpiece passing through the shaft center of the V-shaped tightening rod, and the workpiece is prevented from moving.

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