AU2020103633A4

AU2020103633A4 - A Kind of Complex Oily Wastewater Treatment Device

Info

Publication number: AU2020103633A4
Application number: AU2020103633A
Authority: AU
Inventors: Xiao Liang; Zhi LIANG; Jie Ma; Shaocheng Ma; Teng MA
Original assignee: Xuzhou University of Technology; Nanjing Tiaoyao Intelligent Equipment Co Ltd; Xuzhou Luyuan Intelligent Technology Co Ltd; Xuzhou Tengrui Intelligent Equipment Co Ltd; Xuzhou Xiaoxiang Intellectual Property Services Co Ltd
Current assignee: Xuzhou University of Technology; Nanjing Tiaoyao Intelligent Equipment Co Ltd; Xuzhou Luyuan Intelligent Technology Co Ltd; Xuzhou Tengrui Intelligent Equipment Co Ltd; Xuzhou Xiaoxiang Intellectual Property Services Co Ltd
Priority date: 2020-11-24
Filing date: 2020-11-24
Publication date: 2021-02-04
Anticipated expiration: 2028-11-24

Abstract

of Descriptions The present invention discloses a kind of treatment device for treating complex oily wastewater, consists of: water inlet pipe, processor, agent filling device, rotator, drainage pipe, rotary driver, air injection mechanism, and rotating body; wherein, the rotating body is located in the shell and is driven and connected to the rotator, and thus, realizes the internal rotation of the rotating body along the axis of the shell; in addition, a processor is arranged inside the rotating body to process high-molecular organic matter in water; and the rotator is mechanically connected to an external rotary driver; furthermore, an water inlet pipe is arranged on one side of the shell, and the other side is equipped with a drainage pipe, both of which are connected to each other; the upper part of the shell is connected to an agent filling device, which is used to fill agent in the shell; and the lower part of the shell is connected to an air injection mechanism to supply oxygen for the growth of microorganisms; and the lower part of one side of the shell is connected to a drainage pipe to discharge sediment; the water pump drives the water to be treated into the shell through the water inlet pipe, and the rotary driver drives the rotating body to rotate through the rotator, and thus facilitates microorganisms to contact with sewage sufficiently; as well as increases the dissolved oxygen through air injection mechanism, and thus, facilitates microorganisms to adhere on the processor. The drainage pipe connected at the top of one end of the tail of the equipment is used to discharge the treated water body, and the drainage pipe is used to discharge sediment. The said kind of treatment device for treating complex oily wastewater of the present invention has a novel and reasonable structure, with high working efficiency and the equipment can be widely applicable. Drawings of Descriptions Figure 1 22 2 21 24 2s Figure 2 1/4

Description

Drawings of Descriptions

Figure 1

22 2 21

24 2s

Figure 2

1/4

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A Kind of Complex Oily Wastewater Treatment Device

Technical Field The present invention relates to the treatment device and the treatment technical field of complex oily wastewater, specifically relates to a kind of treatment device for treating complex oily wastewater.

Background Technology Based upon the existing technical conditions, the technology of the treatment equipment to treat complex oily wastewater has not yet matured, which is mainly reflected in terms of the absence of water inlet pipe, processor, agent filling device, rotor, drainage pipe, rotary driver, air injection mechanism, and rotating body in the prior art. Due to the lack or immaturity of the above-mentioned institutions, it leads to such disadvantages as uses old technology, with high processing cost, low work efficiency, long process flow, and complicated control process, as well as occupies large area.

Summary of the Invention For the purpose of solving the above technical problems, the present invention provides a kind of treatment device for treating complex oily wastewater, consists of: water inlet pipe 1, processor 2, agent filling device 3, rotator 4, drainage pipe 5, rotary driver 6, air injection mechanism 7, and rotating body 8; the rotating body 8 is located in the shell and is driven and connected to the rotator 4, and thus, realizes the internal rotation of the rotating body 8 along the axis of the shell; in addition, a processor 2 is arranged inside the rotating body 8 to process high-molecular organic matter in water; and the rotator 4 is mechanically connected to an external rotary driver 6; furthermore, an water inlet pipe 1 is arranged on one side of the shell, and the other side is equipped with a drainage pipe, both of which are connected to each other; the upper part of the shell is connected to an agent filling device 3, which is used to fill agent in the shell; and the lower part of the shell is connected to an air injection mechanism 7 to supply oxygen for the growth of microorganisms; and the lower part of one side of the shell is connected to a drainage pipe 5 to discharge sediment; the water pump drives the water to be treated into the shell through the water inlet pipe 1, and the rotary driver 6 drives the rotating body 8 to rotate through the rotator 4, and thus facilitates microorganisms to contact with sewage sufficiently; as well as increases the dissolved oxygen through air injection mechanism 7, and thus, facilitates microorganisms to adhere on the processor 2. The drainage pipe connected at the top of one end of the tail of the equipment is used to discharge the treated water body, and the drainage pipe 5 is used to discharge sediment.

Further, the said processor 2 consists of: annular wound pipe 21, square pipe with holes 22, counter spray ring 23, spray head 24, buffer hollowing disk 25, distributor 26; wherein, at the left, right, and middle ends of the processor 2 inside are arranged counter spray rings 23 respectively,

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which are composed of hollowing ring pipe, and such hollowing ring pipe at least has three layers from large to small, which are concentric circles and pass through to each other through cross radiant tubes, wherein, several cross radiant tubes are equipped with distributors 26 at the center, and the distributor 26 is connected to the external gas through a horizontal bend, wherein, at least one spray head 24 is connected to the left end of the ring pipe, which is used to deliver oxygen into the cavity; in addition, a buffer hollowing disk 25 is arranged in the middle of the processor 2, with a multi-layer mesh structure and is transparent from left to right, which is used to allow microorganisms to adhere; furthermore, several square pipes with holes 22 are horizontally placed inside, and the square pipe is with square section and has a large number of through holes on the surface, one end is the water inlet end, the other end is sealed, and the water flows out from the through holes; in addition, the annular wound pipe 21 is arranged at the periphery of the square pipes with holes 22, which adopts hollowing structure and allows hot water to flow inside to keep warm of the processor 2, and both ends of the annular wound pipe 21 are connected with an external heat source; furthermore, inside the distributor 26, there is a main air inlet pipe on one side, which is connected to the air outlet pipe through the output air passage; the number of air outlet pipes is six, and the air outlet pipe is connected to the annular transition cavity through a gas regulator, wherein, the gas regulator is used to adjust the extended length and air output of the air outlet pipe; the annular transition cavity ring adopts hollowing structure, and is used for gas storage; the annular transition cavity is connected to the output air passage through the piston; the piston is made of rubber, and one side of which is closely adhered to the air inlet end of the air outlet pipe, and realizes the relative displacement water against the air intake end through piston rod; in addition, the locking system is arranged on one side of the piston, which is used to realize the lockup of the movement of the piston.

Further, the said square pipe with holes 22 consists of: rotating shaft 221, swing arm 222, swing shaft 223, drainage through hole 224, pressure release valve 225, pipe hole cleaning device 226, and pipe body 227;

The swing shaft 223 in the middle is placed horizontally and passes through the pipe body 227, and both ends of the swing shaft 223 are equipped with a swing arm 222 respectively. The swing shaft 223 is rotatably connected with the swing arm 222; and the swing arm 222 is connected to the driven device through the rotating shaft 221, the driven device drives the entire pipe body 227 through the rotating shaft 221, the swing arm 222, and the swing shaft 223 to make the pipe body swing in circle at a low speed on the vertical plane, and the pipe body 227 is always kept horizontal when swinging; a plurality of drainage through holes 224 are arranged on the surface of the pipe body 227 to discharge the water; and the pipe hole cleaning device 226 is arranged on the surface of the drainage through hole 224, which is used to clean the drainage through hole 224; in addition, one end of the pipe body 227 is connected to a pressure release valve 225 to protect the pressure safety of the pipe body 227.

Further, the said pipe hole cleaning device 226 consists of: square pipe shell 2261, quick-release orifice plate 2262, orifice plate connector 2263, orifice plate cleaning device 2264, swing spray device 2265, spray head 2266, and rack 2267;

The section of square pipe shell 2261 at the bottom is square in shape, wherein, the upper

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surface is equipped with a quick-release orifice plate 2262, and the quick-release orifice plate 2262 is airtightly connected to the square pipe shell 2261 through the orifice plate connector 2263, in addition, the quick-release orifice 2262 is horizontally inserted into the chute on the edge of the square pipe shell 2261 and locked by the orifice connector 2263; the surface of the quick-release orifice 2262 has quite a lot of through holes, and there are racks 2267 arranged on both sides of the quick-release orifice plate 2262, as well as the surface of the quick-release orifice plate 2262 is equipped with orifice plate cleaning device 2264, wherein, the orifice plate cleaning device 2264 slides along the surface of the quick-release orifice plate 2262 through the rack 2267 to clean the through holes on the surface of the orifice plate 2262; in addition, a swing spray device 2265 is arranged over the square pipe shell 2261, and the swinging of the swing spray 2265 is realized by mechanical control function, and the swing spray device 2265 is connected to a spray head 2266 at the lower part.

Further, the said swing spray device 2265 consists of: adjustable bracket 22651, two-dimensional swing rod 22652, water-containing tank 22653, swing motor 22654, horizontal pendulum tractor 22655, truss 22656, vertical pendulum tractor 22657, and water sprayer 22658;

The adjustable bracket 22651 is located at the lower part, and the number of which is 4, and are all fixed on the legs of the inverted U-shaped frame. The adjustable bracket 22651 itself adopts spiral structure, and can be extended or contracted; the lower part of the inverted U-shaped frame is equipped with a vertical pendulum tractor 22657, which is connected to the truss 22656 through one end of a steel cable, and the other end is connected to a swing motor 22654. The swing motor 22654 drives the water sprayer 22658 to move up and down through the traction truss 22656 of the steel cable; and the said water sprayer 22658 is equipped with a spray head downward, and the number is at least 1, the water sprayer 22658 is erected on the hollowing truss 22656, and the water inlet end of the water sprayer 22658 is connected to the external water source, and the other end is connected to the bottom of the water-containing tank 22653; furthermore, the horizontal pendulum tractors 22655 are arranged on the front and rear sides of the truss 22656, and the horizontal pendulum tractor 22655 is connected to the truss 22656 through one end of the steel cable, and the other end is connected to the swing motor 22654, the swing motor 22654 drives the water sprayer 22658 to move left and right through the steel cable of the horizontal pendulum tractor 22655 and the truss 22656; in addition, the water sprayer 22658 is equipped with a water-containing tank 22653 at the lower part, and there is a washing object between the water sprayer 22658 and the water-containing tank 22653. The water sprayer 22658 sprays the washing object, and the water-containing tank 22653 adopts slightly sloped design to contain washing water, such sloped design may facilitate the separation of muddy water and complete the circulating utilization of water; and the water-containing tank 22653 is at least equipped with one two-dimensional swing rod 22652 at the lower part, which forces the horizontal swing of the water-containing tank 22653 to facilitate the separation of muddy water.

Further, the said two-dimensional swing rod 22652 consists of: swing ball joint 226521, swing driver 226522, swing spring 226523, impact hammer 226524, bearing 226525, rocker of water tank 226526, balance wheel 226527, cover rail 226528, elastic rod 226529, and hammer protection device 226520;

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The rocker of water tank 226526 located at the center of the vertical axis stands upright, and the upper part is fixedly connected to the bottom of the box body. Several impact hammers 226524 are evenly distributed around the rocker of water tank 226526, and the impact hammer 226524 is wrapped with rubber, and the outside of the top end of impact hammer 226524 is connected to the cover rail 226528 through the hammer protection device 226520, and the hammer protection device 226520 is used to prevent the impact hammer 226524 from violently hitting the cover rail 226528; as well as the inside of the top end of the impact hammer 226524 is connected to the rocker of water tank 226526 through spring, and the spring forces the impact hammer 226524 to return back; the cover rail 226528 surrounds the periphery of several impact hammers 226524; and the bottom of the impact hammer 226524 is elastically connected to the base; in addition, a balance wheel 226527 is slidingly connected to the periphery of the cover rail 226528. The mass of the balance wheel 226527 is large, which is 9 times the mass of the cover rail 226528, and the diameter of the balance wheel 226527 is 3 times that of the cover rail 226528, the balance wheel 226527 realizes the relative sliding with the cover rail 226528 through the bearing 226525, and swings annularly around the cover rail 226528 in a wide range; the lower part of the balance wheel 226527 is fixedly connected to the swing spring 226523 through several elastic rods 226529, and the diameter of the swing spring 226523 is large enough. Furthermore, the swing spring 226523 is rotatablely connected to swing ball joint 226521 at the lower part, meanwhile, the swing spring 226523 is driven and connected to the swing driver 226522 on one side; and the swing drive 226522 drives the balance wheel 226527 to rotate along the periphery of the cover rail 226528 through the swing spring 226523 and the elastic rod 226529. The rotation of the swing wheel 226527 produces asymmetric swing, and the swing wheel 226527 drives the impact hammer 226524 to hit the rocker of water tank 226526 through the cover rail 226528, and thus forces the upper part and the tank to swing in multiple directions along the horizontal plane.

Further, the said impact hammer 226524 consists of: hydraulic mechanism 2265241, telescopic rod spring 2265242, rod length adjuster 2265243, telescopic vertical rod 2265244, buffer plate 2265245, elastic L-shaped support 2265246, elastic spring 2265247, and gravity hammer 2265248;

The gravity hammer 2265248 located at the top is fixedly connected with four symmetrically distributed elastic springs 2265247 at the lower part. The elastic spring 2265247 is connected to the buffer plate 2265245 through the elastic L-shaped support 2265246, wherein, the elastic L-shaped support 2265246 is made of high-elastic steel plate and is in L-shaped. The two end points are respectively connected to the buffer plate 2265245 and elastic spring 2265247; and the lower part of the buffer plate 2265245 is fixedly connected to a hydraulic mechanism 2265241 and two telescopic vertical rods 2265244, all of which form a triangle layout. Wherein, the waist of the telescopic vertical rod 2265244 is equipped with a telescopic rod spring 2265242 and rod length adjuster 2265243, and the length of the telescopic vertical rod 2265244 is adjusted by the rod length 2265243 adjuster.

Further, the said distributor 26 consists of: main air inlet end 260, air-flow channel 261, bott stick 262, annular cavity 263, air outlet stemming 264, air outlet adjuster 265, branch outlet pipe 266, locking link 267, and locking mechanism 268;

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The main air inlet end 260 on one side is connected to the branch outlet pipe 266 through the air-flow channel 261, and the number of the said branch outlet pipes 266 is 5, the branch outlet pipes 266 is connected to the annular cavity 263 through the air outlet adjuster 265, wherein, the air outlet adjuster 265 is used to adjust the extension length and the air output of the branch outlet pipe 266; the annular cavity 263 adopts a circular ring and hollowing structure and is used for air storage; the annular cavity 263 is connected to the air-flow channel 261 through the air outlet stemming 264; the air outlet stemming 264 is made of rubber, wherein, one side of which is closely adhered to the inlet end of the branch outlet pipe 266, and thus realizes the relative displacement of the air outlet stemming 264 against the air inlet end through the bott stick 262; and there is a locking mechanism 268 equipped on one side of the air outlet stemming 264, and the locking mechanism 268 realizes the lockup of the air outlet stemming 264 through the locking link 267.

Further, the operation method of the equipment includes following steps:

Step 1: During the operation of a kind of treatment device for treating complex oily wastewater, the water pump pumps the water to be treated into the shell through the water inlet pipe 1, and the rotary driver 6 drives the rotating body 8 to rotate through the rotator 4, and the agentfilling device 3 fills emulsifier and degrading bacteria to force the decomposition of high molecular organic matter; meanwhile, under the action of the air injection mechanism 7, a large number of microorganisms proliferate, and by means of the action of the processor 2, the high molecular organic matter in the sewage is effectively degraded, and the water body is discharged from the drainage pipe located on the top of one end after treatment, and the sediment is discharged from the drainage pipe 5;

Step 2: During the operation of the processor 2, the water to be treated flows in from one end of the square pipe with holes 22, and is discharged from a large number of through holes on the surface of the square pipe with holes 22. At the appropriate temperature produced by the annular wound pipe 21, and under the effect of oxygen produced by a plurality of spray heads 24, microorganisms degrade the high molecular organic matter in the water body. Meanwhile, a large number of microorganisms adhere to the surface of the buffer hollowing disk 25. When the water body flows through the buffer hollowing disk 25, the high molecular organic matter is further degraded;

Step 3: During the operation of the square pipe with holes 22, the driving device drives the entire pipe body 227 to make circular swing at a low-speed through the rotating shaft 221, the swing arm 222, and the swing shaft 223, and the pipe body 227 always remains horizontal when it swings; in addition, the pipe hole cleaning 226 on the surface of the drain through hole 224 cleans the drain through holes 224; and the pressure release valve 225 at one end of the pipe body 227 is used to protect the internal pressure safety of the pipe body 227;

Step 4: During the operation of the pipe hole cleaning device 226, the swing spray device 2265 above the square pipe shell 2261 can realize wide-range swing and spray operation through

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mechanical control; the orifice plate cleaning device 2264 slides along the surface of the quick-release orifice plate 2262 through the rack 2267 to clean the through holes on the surface of the orifice plate 2262; the quick-release orifice plate 2262 is horizontally inserted into the chute on the edge of the square pipe shell 2261 through the orifice plate connector 2263 and locked;

Step 5: During the operation of swing spray device 2265, the swing motor 22654 drives the water sprayer 22658 to move up and down through the steel cable of 22655 through the vertical pendulum tractor 22657 and the truss of the tractor 22656; the swing motor 22654 drives the water sprayer 22658 to move left and right through the steel cable of horizontal pendulum tractor 22655 and the truss of the tractor 22656; the water sprayer 22658 sprays the washing object, and the water-containing tank 22653 adopts slightly sloped design to collect water body and facilitate the separation of muddy water, and is connected to the water sprayer 22658 through the hose to realize the circulating utilization of water; the two-dimensional swing rod 22652 drives the water-containing tank 22653 to swing in the horizontal plane, and thus facilitates the separation of muddy water;

Step 6: During the operation of the two-dimensional swing rod 22652, the swing drive 226522 drives the balance wheel 226527 to rotate along the periphery of the cover rail 226528 in a wide range through the swing spring 226523 and the elastic rod 226529, and the rotation of the swing wheel 226527 produces asymmetric swing, and the swing wheel 226527 drives the impact hammer 226524 to hit the rocker of water tank 226526 through the cover rail 226528, and thus forces the upper part and the tank to swing in multiple directions along the horizontal plane;

Step 7: During the operation of the impact hammer 226524, a hydraulic mechanism 2265241 adopted triangle layout and two telescopic vertical rods 2265244 realize the uniform support for the gravity hammer 2265248 through the upper buffer plate 2265245; four symmetrically distributed elastic springs 2265247 and elastic L-shaped support 2265246 realize the uniform support for the gravity hammer 2265248 jointly; when the gravity hammer 2265248 swings, multiple elastic inertia makes the impact stronger;

Step 8: During the operation of the distributor 26, the gas enters in from the main air inlet end 260 and flows out from the branch outlet pipe 266 through the air-flow channel 261 and the annular cavity 263; wherein, the bott stick 262 drives the air outlet stemming 264 to block or unblock the air inlet end of the branch outlet pipe 266; and the locking link 267 drives the locking mechanism 268 to realize the lockup of the air outlet stemming 264.

The patent for the present invention has the advantages of: using reasonable and compact structure, having good use effect and novel technology, and the equipment can be widely appliable.

Brief Description of the Drawings

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Figure 1 is a diagram of a kind of treatment device for treating complex oily wastewater of the present invention.

Figure 2 is a diagram of the processor 2 of the present invention.

Figure 3 is a diagram of the square tube with holes 22 of the present invention.

Figure 4 is a diagram of the pipe hole cleaning device 266 of the present invention.

Figure 5 is a diagram of the swing spray device 2265 of the present invention.

Figure 6 is a diagram of the two-dimensional swing rod 22652 of the present invention.

Figure 7 is a diagram of the impact hammer 226524 of the present invention.

Figure 8 is a diagram of the distributor 26 of the present invention.

Detailed Description of the Presently Preferred Embodiments Embodiment

The text below will further describe a kind of treatment device for treating complex oily wastewater described in the present invention with reference to the accompanying drawings and embodiments.

Figure 1 is a diagram of a kind of treatment device for treating complex oily wastewater of the present invention. Consists of: water inlet pipe 1, processor 2, agent filling device 3, rotator 4, drainage pipe 5, rotary driver 6, air injection mechanism 7, and rotating body 8; the rotating body 8 is located in the shell and is driven and connected to the rotator 4, and thus, realizes the internal rotation of the rotating body 8 along the axis of the shell; in addition, a processor 2 is arranged inside the rotating body 8 to process high-molecular organic matter in water; and the rotator 4 is mechanically connected to an external rotary driver 6; furthermore, an water inlet pipe 1 is arranged on one side of the shell, and the other side is equipped with a drainage pipe, both of which are connected to each other; the upper part of the shell is connected to an agent filling device 3, which is used to fill agent in the shell; and the lower part of the shell is connected to an air injection mechanism 7 to supply oxygen for the growth of microorganisms; and the lower part of one side of the shell is connected to a drainage pipe 5 to discharge sediment; the water pump drives the water to be treated into the shell through the water inlet pipe 1, and the rotary driver 6 drives the rotating body 8 to rotate through the rotator 4, and thus facilitates microorganisms to contact with sewage sufficiently; as well as increases the dissolved oxygen through air injection mechanism 7, and thus,

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facilitates microorganisms to adhere on the processor 2. The drainage pipe connected at the top of one end of the tail of the equipment is used to discharge the treated water body, and the drainage pipe is used to discharge sediment.

Figure 2 is a diagram of the processor 2 of the present invention. the said processor 2 consists of: annular wound pipe 21, square pipe with holes 22, counter spray ring 23, spray head 24, buffer hollowing disk 25, distributor 26; wherein, at the left, right, and middle ends of the processor 2 inside are arranged counter spray rings 23 respectively, which are composed of hollowing ring pipe, and such hollowing ring pipe at least has three layers from large to small, which are concentric circles and pass through to each other through cross radiant tubes, wherein, several cross radiant tubes are equipped with distributors 26 at the center, and the distributor 26 is connected to the external gas through a horizontal bend, wherein, at least one spray head 24 is connected to the left end of the ring pipe, which is used to deliver oxygen into the cavity; in addition, a buffer hollowing disk 25 is arranged in the middle of the processor 2, with a multi-layer mesh structure and is transparent from left to right, which is used to allow microorganisms to adhere; furthermore, several square pipes with holes 22 are horizontally placed inside, and the square pipe is with square section and has a large number of through holes on the surface, one end is the water inlet end, the other end is sealed, and the water flows out from the through holes; in addition, the annular wound pipe 21 is arranged at the periphery of the square pipes with holes 22, which adopts hollowing structure and allows hot water to flow inside to keep warm of the processor 2, and both ends of the annular wound pipe 21 are connected with an external heat source; furthermore, inside the distributor 26, there is a main air inlet pipe on one side, which is connected to the air outlet pipe through the output air passage; the number of air outlet pipes is six, and the air outlet pipe is connected to the annular transition cavity through a gas regulator, wherein, the gas regulator is used to adjust the extended length and air output of the air outlet pipe; the annular transition cavity ring adopts hollowing structure, and is used for gas storage; the annular transition cavity is connected to the output air passage through the piston; the piston is made of rubber, and one side of which is closely adhered to the air inlet end of the air outlet pipe, and realizes the relative displacement water against the air intake end through piston rod; in addition, the locking system is arranged on one side of the piston, which is used to realize the lockup of the movement of the piston.

Figure 3 is a diagram of the square tube with holes 22 of the present invention. the said square pipe with holes 22 consists of: rotating shaft 221, swing arm 222, swing shaft 223, drainage through hole 224, pressure release valve 225, pipe hole cleaning device 226, and pipe body 227;

The swing shaft 223 in the middle is placed horizontally and passes through the pipe body 227, and both ends of the swing shaft 223 are equipped with a swing arm 222 respectively. The swing shaft 223 is rotatably connected with the swing arm 222; and the swing arm 222 is connected to the driven device through the rotating shaft 221, the driven device drives the entire pipe body 227

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through the rotating shaft 221, the swing arm 222, and the swing shaft 223 to make the pipe body swing in circle at a low speed on the vertical plane, and the pipe body 227 is always kept horizontal when swinging; a plurality of drainage through holes 224 are arranged on the surface of the pipe body 227 to discharge the water; and the pipe hole cleaning device 226 is arranged on the surface of the drainage through hole 224, which is used to clean the drainage through hole 224; in addition, one end of the pipe body 227 is connected to a pressure release valve 225 to protect the pressure safety of the pipe body 227.

Figure 4 is a diagram of the pipe hole cleaning device 266 of the present invention. the said pipe hole cleaning device 226 consists of: square pipe shell 2261, quick-release orifice plate 2262, orifice plate connector 2263, orifice plate cleaning device 2264, swing spray device 2265, spray head 2266, and rack 2267;

The section of square pipe shell 2261 at the bottom is square in shape, wherein, the upper surface is equipped with a quick-release orifice plate 2262, and the quick-release orifice plate 2262 is airtightly connected to the square pipe shell 2261 through the orifice plate connector 2263, in addition, the quick-release orifice 2262 is horizontally inserted into the chute on the edge of the square pipe shell 2261 and locked by the orifice connector 2263; the surface of the quick-release orifice 2262 has quite a lot of through holes, and there are racks 2267 arranged on both sides of the quick-release orifice plate 2262, as well as the surface of the quick-release orifice plate 2262 is equipped with orifice plate cleaning device 2264, wherein, the orifice plate cleaning device 2264 slides along the surface of the quick-release orifice plate 2262 through the rack 2267 to clean the through holes on the surface of the orifice plate 2262; in addition, a swing spray device 2265 is arranged over the square pipe shell 2261, and the swinging of the swing spray 2265 is realized by mechanical control function, and the swing spray device 2265 is connected to a spray head 2266 at the lower part.

Figure 5 is a diagram of the swing spray device 2265 of the present invention. the said swing spray device 2265 consists of: adjustable bracket 22651, two-dimensional swing rod 22652, water-containing tank 22653, swing motor 22654, horizontal pendulum tractor 22655, truss 22656, vertical pendulum tractor 22657, and water sprayer 22658;

The adjustable bracket 22651 is located at the lower part, and the number of which is 4, and are all fixed on the legs of the inverted U-shaped frame. The adjustable bracket 22651 itself adopts spiral structure, and can be extended or contracted; the lower part of the inverted U-shaped frame is equipped with a vertical pendulum tractor 22657, which is connected to the truss 22656 through one end of a steel cable, and the other end is connected to a swing motor 22654. The swing motor 22654 drives the water sprayer 22658 to move up and down through the traction truss 22656 of the steel cable; and the said water sprayer 22658 is equipped with a spray head downward, and the number is at least 1, the water sprayer 22658 is erected on the hollowing truss 22656, and the water inlet end of the water sprayer 22658 is connected to the external water source, and the other end is connected to the bottom of the water-containing tank 22653; furthermore, the horizontal pendulum tractors 22655

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are arranged on the front and rear sides of the truss 22656, and the horizontal pendulum tractor 22655 is connected to the truss 22656 through one end of the steel cable, and the other end is connected to the swing motor 22654, the swing motor 22654 drives the water sprayer 22658 to move left and right through the steel cable of the horizontal pendulum tractor 22655 and the truss 22656; in addition, the water sprayer 22658 is equipped with a water-containing tank 22653 at the lower part, and there is a washing object between the water sprayer 22658 and the water-containing tank 22653. The water sprayer 22658 sprays the washing object, and the water-containing tank 22653 adopts slightly sloped design to contain washing water, such sloped design may facilitate the separation of muddy water and complete the circulating utilization of water; and the water-containing tank 22653 is at least equipped with one two-dimensional swing rod 22652 at the lower part, which forces the horizontal swing of the water-containing tank 22653 to facilitate the separation of muddy water.

Figure 6 is a diagram of the two-dimensional swing rod 22652 of the present invention. the said two-dimensional swing rod 22652 consists of: swing ball joint 226521, swing driver 226522, swing spring 226523, impact hammer 226524, bearing 226525, rocker of water tank 226526, balance wheel 226527, cover rail 226528, elastic rod 226529, and hammer protection device 226520;

Figure 7 is a diagram of the impact hammer 226524 of the present invention. the said

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impact hammer 226524 consists of: hydraulic mechanism 2265241, telescopic rod spring 2265242, rod length adjuster 2265243, telescopic vertical rod 2265244, buffer plate 2265245, elastic L-shaped support 2265246, elastic spring 2265247, and gravity hammer 2265248;

Figure 8 is a diagram of the distributor 26 of the present invention. the said distributor 26 consists of: main air inlet end 260, air-flow channel 261, bott stick 262, annular cavity 263, air outlet stemming 264, air outlet adjuster 265, branch outlet pipe 266, locking link 267, and locking mechanism 268;

Claims

1. A kind of treatment device for treating complex oily wastewater, consists of: water inlet pipe (1), processor (2), agent filling device (3), rotator (4), drainage pipe (5), rotary driver (6), air injection mechanism (7), and rotating body (8);

It is characterized in that the rotating body (8) is located in the shell and is driven and connected to the rotator (4), and thus, realizes the internal rotation of the rotating body (8) along the axis of the shell; in addition, a processor (2) is arranged inside the rotating body (8) to process high-molecular organic matter in water; and the rotator (4) is mechanically connected to an external rotary driver (6); furthermore, an water inlet pipe (1) is arranged on one side of the shell, and the other side is equipped with a drainage pipe, both of which are connected to each other; the upper part of the shell is connected to an agent filling device (3), which is used to fill agent in the shell; and the lower part of the shell is connected to an air injection mechanism (7) to supply oxygen for the growth of microorganisms; and the lower part of one side of the shell is connected to a drainage pipe (5) to discharge sediment; the water pump drives the water to be treated into the shell through the water inlet pipe (1), and the rotary driver (6) drives the rotating body (8) to rotate through the rotator (4), and thus facilitates microorganisms to contact with sewage sufficiently; as well as increases the dissolved oxygen through air injection mechanism (7), and thus, facilitates microorganisms to adhere on the processor (2). The drainage pipe connected at the top of one end of the tail of the equipment is used to discharge the treated water body, and the drainage pipe (5) is used to discharge sediment.

2. The said kind of treatment device for treating complex oily wastewater according to Claim 1, characterized in that, the said processor (2) consists of: annular wound pipe (21), square pipe with holes (22), counter spray ring (23), spray head (24), buffer hollowing disk (25), distributor (26);

wherein, at the left, right, and middle ends of the processor (2) inside are arranged counter spray rings (23) respectively, which are composed of hollowing ring pipe, and such hollowing ring pipe at least has three layers from large to small, which are concentric circles and pass through to each other through cross radiant tubes, wherein, several cross radiant tubes are equipped with distributors (26) at the center, and the distributor (26) is connected to the external gas through a horizontal bend, wherein, at least one spray head (24) is connected to the left end of the ring pipe, which is used to deliver oxygen into the cavity; in addition, a buffer hollowing disk (25) is arranged in the middle of the processor (2), with a multi-layer mesh structure and is transparent from left to right, which is used to allow microorganisms to adhere; furthermore, several square pipes with holes (22) are horizontally placed inside, and the square pipe is with square section and has a large number of through holes on the surface, one end is the water inlet end, the other end is sealed, and the water flows out from the through holes; in addition, the annular wound pipe (21) is arranged at the periphery of the square pipes with holes (22), which adopts hollowing structure and allows hot water to flow inside to keep warm of the processor (2), and both ends of the annular wound pipe (21) are connected with an external heat source;

Inside the distributor (26), there is a main air inlet pipe on one side, which is connected to the air outlet pipe through the output air passage; the number of air outlet pipes is six, and the air outlet pipe is connected to the annular transition cavity through a gas regulator, wherein, the gas regulator

Claims is used to adjust the extended length and air output of the air outlet pipe; the annular transition cavity ring adopts hollowing structure, and is used for gas storage; the annular transition cavity is connected to the output air passage through the piston; the piston is made of rubber, and one side of which is closely adhered to the air inlet end of the air outlet pipe, and realizes the relative displacement against the air intake end through piston rod; in addition, the locking system is arranged on one side of the piston, which is used to realize the lockup of the movement of the piston.

3. The said kind of treatment device for treating complex oily wastewater according to Claim 2, characterized in that the said square pipe with holes (22) consists of: rotating shaft (221), swing arm (222), swing shaft (223), drainage through hole (224), pressure release valve (225), pipe hole cleaning device (226), and pipe body (227);

The swing shaft (223) in the middle is placed horizontally and passes through the pipe body (227), and both ends of the swing shaft (223) are equipped with a swing arm (222) respectively. The swing shaft (223) is rotatably connected with the swing arm (222); and the swing arm (222) is connected to the driven device through the rotating shaft (221), the driven device drives the entire pipe body (227) through the rotating shaft (221), the swing arm (222), and the swing shaft (223) to make the pipe body swing in circle at a low speed on the vertical plane, and the pipe body (227) is always kept horizontal when swinging; a plurality of drainage through holes (224) are arranged on the surface of the pipe body (227) to discharge the water; and the pipe hole cleaning device (226) is arranged on the surface of the drainage through hole (224), which is used to clean the drainage through hole (224); in addition, one end of the pipe body (227) is connected to a pressure release valve (225) to protect the pressure safety of the pipe body (227).

4. The said kind of treatment device for treating complex oily wastewater according to Claim 3, characterized in that the said pipe hole cleaning device (226) consists of: square pipe shell (2261), quick-release orifice plate (2262), orifice plate connector (2263), orifice plate cleaning device (2264), swing spray device (2265), spray head (2266), and rack (2267);

The section of square pipe shell (2261) at the bottom is square in shape, wherein, the upper surface is equipped with a quick-release orifice plate (2262), and the quick-release orifice plate (2262) is airtightly connected to the square pipe shell (2261) through the orifice plate connector (2263), in addition, the quick-release orifice (2262) is horizontally inserted into the chute on the edge of the square pipe shell (2261) and locked by the orifice connector (2263); the surface of the quick-release orifice (2262) has quite a lot of through holes, and there are racks (2267) arranged on both sides of the quick-release orifice plate (2262), as well as the surface of the quick-release orifice plate (2262) is equipped with orifice plate cleaning device (2264), wherein, the orifice plate cleaning device (2264) slides along the surface of the quick-release orifice plate (2262) through the rack (2267) to clean the through holes on the surface of the orifice plate (2262); in addition, a swing spray device (2265) is arranged over the square pipe shell (2261), and the swinging of the swing spray (2265) is realized by mechanical control function, and the swing spray device (2265) is connected to a spray head (2266) at the lower part.

5. The said kind of treatment device for treating complex oily wastewater according to Claim 4,

Claims characterized in that the said swing spray device (2265) consists of: adjustable bracket (22651), two-dimensional swing rod (22652), water-containing tank (22653), swing motor (22654), horizontal pendulum tractor (22655), truss (22656), vertical pendulum tractor (22657), and water sprayer (22658);

The adjustable bracket (22651) is located at the lower part, and the number of which is 4, and are all fixed on the legs of the inverted U-shaped frame. The adjustable bracket (22651) itself adopts spiral structure, and can be extended or contracted; the lower part of the inverted U-shaped frame is equipped with a vertical pendulum tractor (22657), which is connected to the truss (22656) through one end of a steel cable, and the other end is connected to a swing motor (22654). The swing motor (22654) drives the water sprayer (22658) to move up and down through the traction truss (22656) of the steel cable; and the said water sprayer (22658) is equipped with a spray head downward, and the number is at least 1, the water sprayer (22658) is erected on the hollowing truss (22656), and the water inlet end of the water sprayer (22658) is connected to the external water source, and the other end is connected to the bottom of the water-containing tank (22653); furthermore, the horizontal pendulum tractors (22655) are arranged on the front and rear sides of the truss (22656), and the horizontal pendulum tractor (22655) is connected to the truss (22656) through one end of the steel cable, and the other end is connected to the swing motor (22654), the swing motor (22654) drives the water sprayer (22658) to move left and right through the steel cable of the horizontal pendulum tractor (22655) and the truss (22656); in addition, the water sprayer (22658) is equipped with a water-containing tank (22653) at the lower part, and there is a washing object between the water sprayer (22658) and the water-containing tank (22653). The water sprayer (22658) sprays the washing object, and the water-containing tank (22653) adopts slightly sloped design to contain washing water, such sloped design may facilitate the separation of muddy water and complete the circulating utilization of water; and the water-containing tank (22653) is at least equipped with one two-dimensional swing rod (22652) at the lower part, which forces the horizontal swing of the water-containing tank (22653) to facilitate the separation of muddy water.

6. The said kind of treatment device for treating complex oily wastewater according to Claim 5, characterized in that the said two-dimensional swing rod (22652) consists of: swing ball joint (226521), swing driver (226522), swing spring (226523), impact hammer (226524), bearing (226525), rocker of water tank (226526), balance wheel (226527), cover rail (226528), elastic rod (226529), and hammer protection device (226520);

The rocker of water tank (226526) located at the center of the vertical axis stands upright, and the upper part is fixedly connected to the bottom of the box body. Several impact hammers (226524) are evenly distributed around the rocker of water tank (226526), and the impact hammer (226524) is wrapped with rubber, and the outside of the top end of impact hammer (226524) is connected to the cover rail (226528) through the hammer protection device (226520), and the hammer protection device (226520) is used to prevent the impact hammer (226524) from violently hitting the cover rail (226528); as well as the inside of the top end of the impact hammer (226524) is connected to the rocker of water tank (226526) through spring, and the spring forces the impact hammer (226524) to return back; the cover rail (226528) surrounds the periphery of several impact hammers (226524); and the bottom of the impact hammer (226524) is elastically connected to the base; in addition, a

Claims balance wheel (226527) is slidingly connected to the periphery of the cover rail (226528). The mass of the balance wheel (226527) is large, which is 9 times the mass of the cover rail (226528), and the diameter of the balance wheel (226527) is 3 times that of the cover rail (226528), the balance wheel (226527) realizes the relative sliding with the cover rail (226528) through the bearing (226525), and swings annularly around the cover rail (226528) in a wide range; the lower part of the balance wheel (226527) is fixedly connected to the swing spring (226523) through several elastic rods ( 226529), and the diameter of the swing spring (226523) is large enough. Furthermore, the swing spring (226523) is rotatablely connected to swing ball joint (226521) at the lower part, meanwhile, the swing spring (226523) is driven and connected to the swing driver ( 226522) on one side; and the swing drive (226522) drives the balance wheel (226527) to rotate along the periphery of the cover rail (226528) through the swing spring (226523) and the elastic rod (226529). The rotation of the swing wheel (226527) produces asymmetric swing, and the swing wheel (226527) drives the impact hammer (226524) to hit the rocker of water tank (226526) through the cover rail (226528), and thus forces the upper part and the tank to swing in multiple directions along the horizontal plane.

7. said kind of treatment device for treating complex oily wastewater according to Claim 6, characterized in that the said impact hammer (226524) consists of: hydraulic mechanism (2265241), telescopic rod spring (2265242), rod length adjuster (2265243), telescopic vertical rod (2265244), buffer plate (2265245), elastic L-shaped support (2265246), elastic spring (2265247), and gravity hammer (2265248);

The gravity hammer (2265248) located at the top is fixedly connected with four symmetrically distributed elastic springs (2265247) at the lower part. The elastic spring (2265247) is connected to the buffer plate (2265245) through the elastic L-shaped support (2265246), wherein, the elastic L-shaped support (2265246) is made of high-elastic steel plate and is in L-shaped. The two end points are respectively connected to the buffer plate (2265245) and elastic spring (2265247); and the lower part of the buffer plate (2265245) is fixedly connected to a hydraulic mechanism (2265241) and two telescopic vertical rods (2265244), all of which form a triangle layout. Wherein, the waist of the telescopic vertical rod (2265244) is equipped with a telescopic rod spring (2265242) and rod length adjuster (2265243), and the length of the telescopic vertical rod (2265244) is adjusted by the rod length (2265243) adjuster.

8. The said kind of treatment device for treating complex oily wastewater according to Claim 7, characterized in that the said distributor (26) consists of: main air inlet end (260), air-flow channel (261), bott stick (262), annular cavity (263), air outlet stemming (264), air outlet adjuster (265), branch outlet pipe (266), locking link (267), and locking mechanism (268);

The main air inlet end (260) on one side is connected to the branch outlet pipe (266) through the air-flow channel (261), and the number of the said branch outlet pipes (266) is 5, the branch outlet pipes (266) is connected to the annular cavity (263) through the air outlet adjuster (265), wherein, the air outlet adjuster (265) is used to adjust the extension length and the air output of the branch outlet pipe (266); the annular cavity (263) adopts a circular ring and hollowing structure and is used for air storage; the annular cavity (263) is connected to the air-flow channel (261) through the air outlet stemming (264); the air outlet stemming (264) is made of rubber, wherein, one side of which is

C la ims closely adhered to the inlet end of the branch outlet pipe (266), and thus realizes the relative displacement of the air outlet stemming (264) against the air inlet end through the bott stick (262); and there is a locking mechanism (268) equipped on one side of the air outlet stemming (264), and the locking mechanism (268) realizes the lockup of the air outlet stemming (264) through the locking link (267).