CN211563421U

CN211563421U - Paint spraying system for automobile part paint spraying production line

Info

Publication number: CN211563421U
Application number: CN201921191440.4U
Authority: CN
Inventors: 沈宇; 王植
Original assignee: Nantong Bo Source Automotive Components Co ltd
Current assignee: Nantong Bo Source Automotive Components Co ltd
Priority date: 2019-07-26
Filing date: 2019-07-26
Publication date: 2020-09-25
Anticipated expiration: 2029-07-26

Abstract

The utility model relates to a paint spraying system for a paint spraying production line of automobile parts, which comprises a conveying assembly, a plurality of conveying frames which are distributed in parallel are arranged on a conveying chain belt, and material supporting plates are arranged on the conveying frames; the material supporting component comprises material supporting brackets arranged on two sides of the conveying bracket; the paint spraying assembly comprises a paint spraying base arranged beside the material supporting assembly, a paint spraying platform is arranged on the paint spraying base, and a pair of rotating brackets are arranged on two sides of the upper end of the paint spraying platform; and the robot is arranged between the material supporting component and the paint spraying component. The utility model has the advantages that: through the cooperation between conveying assembly, support material subassembly, the subassembly and the robot of spraying paint to on moving the product from conveying assembly to the side and spraying paint the back and then feeding back the conveying assembly, reduced the pollution to conveying assembly, also avoided the pollution of all the other kinds of lacquer to the product, ensure the going on smoothly of spraying paint.

Description

Paint spraying system for automobile part paint spraying production line

Technical Field

The invention relates to the field of automobile part paint spraying, in particular to a paint spraying system for an automobile part paint spraying production line.

Background

The automobile parts are all units forming the whole automobile and serve as a product of the automobile, along with the improvement of the living standard of people, people consume more and more automobiles, the market of automobile parts becomes larger and larger, and the painting of the automobile parts in the processing process is one of the essential links. The traditional painting process adopts a manual handheld spray gun to spray paint, has high labor intensity, wastes manpower and material resources, and has low spraying efficiency and difficult guarantee of spraying quality.

Consequently, to above-mentioned phenomenon, just mentioned an auto parts painting device in patent CN206604700U, which comprises a frame, the frame upper end is equipped with conveyer, the frame side is equipped with the support, the frame upper end is equipped with paint spraying apparatus, the paint spraying apparatus rear end is provided with the paint spraying head, the inside paint spraying head that is equipped with of paint spraying apparatus, the detection device rear end is provided with drying device, the inside detection camera that is equipped with of detection device, detection device and drying device are located the support both sides, the inside wind wheel that is equipped with of drying device, the frame tail end is provided with the product case, the side of the opposite frame of support is equipped with the collection box. The utility model discloses a novel structure, the mopping is efficient, and the practicality is strong, can practice thrift more manufacturing cost and be worth promoting.

Although the painting device also achieves the purpose of automatic painting and reduces manual labor, the painting device still has certain defects: it is when spraying paint, it is direct to the product that carries on the conveyer belt spray paint, and the lacquer that the spray head sprayed is the coating cloud usually, consequently, inevitably have partial coating cloud to spray on the conveyer belt, long-term in the past, can lead to the conveyer belt whole to be seriously polluted by the lacquer, need change, and the change of conveyer belt is more troublesome, and if the product is directly put on the conveyer belt can lead to the product also can be attached to the not dry lacquer on the conveyer belt with the one side that contacts on the conveyer belt, influence the going on smoothly of spraying paint, and if heterogeneous lacquer, probably still can cause the influence to the product itself, follow-up still need carry out the paint removal and handle, unusual trouble.

Disclosure of Invention

The invention aims to solve the technical problem of providing a paint spraying system for an automobile part paint spraying production line, which avoids polluting a conveying belt and ensures smooth product paint spraying.

In order to solve the technical problems, the technical scheme of the invention is as follows: the utility model provides an automobile parts paint spraying system for production line that sprays paint, its innovation point lies in: comprises that

The conveying assembly comprises a conveying support and a conveying chain belt arranged on the conveying support, a plurality of conveying frames distributed in parallel are mounted on the conveying chain belt, and material supporting plates are placed on the conveying frames;

the material supporting component comprises material supporting brackets arranged on two sides of the conveying bracket, one of the material supporting brackets is provided with a pair of positioning clamping jaws, the two positioning clamping jaws are close to each other by a clamping mechanism so as to clamp the conveying bracket, and a guide limiting mechanism is also arranged between the two material supporting brackets;

the paint spraying assembly comprises a paint spraying base arranged beside the material supporting assembly, a paint spraying platform is arranged on the paint spraying base and driven to rotate by a rotating motor arranged in the paint spraying base, a pair of rotating brackets are arranged on two sides of the upper end of the paint spraying platform, the rotating brackets are driven to rotate by the rotating motor arranged in the paint spraying platform, a spray gun is arranged above the paint spraying platform, and a demisting mechanism is arranged beside the paint spraying platform;

and the robot is arranged between the material supporting assembly and the paint spraying assembly, a carrier roller is arranged on the robot, and the carrier roller is driven by the robot to perform reciprocating switching movement between the material supporting assembly and the paint spraying assembly.

Furthermore, the conveying frame comprises a conveying base, the bottom end of the conveying base is connected with a conveying chain belt, conveying guide rails matched with the conveying base are further arranged on two sides, located above the conveying support, of the conveying base, conveying idler wheels matched with the conveying guide rails are further arranged on two sides of the conveying base, the conveying base is driven by the conveying chain belt to move circularly along the conveying guide rails, the conveying guide rails extend along the conveying direction of the conveying chain belt, a bottom plate is installed above the conveying base, lightening holes are formed in the bottom plate, four support columns distributed in a cuboid shape are installed on the bottom plate, and the material support plate is supported on the support columns.

Furthermore, an auxiliary conveying seat is arranged on the rear side of the conveying base along the conveying direction of the conveying chain belt in parallel, the auxiliary conveying seat is hinged with the conveying base, and conveying rollers matched with conveying guide rails are arranged on two sides of the auxiliary conveying seat.

Furthermore, the material supporting plate is in a fence shape.

Further, the clamping mechanism is: the material supporting bracket is provided with a clamping jaw mounting seat, the two positioning clamping jaws are hinged on the clamping jaw mounting seat, the middle positions of the positioning clamping jaws are hinged with the clamping jaw mounting seat, the tail ends of the two positioning clamping jaws are connected through a pair of connecting rods which are distributed in a V shape and are hinged, the connecting rods are hinged with the positioning clamping jaws, the hinged positions of the two connecting rods are driven by a clamping cylinder and drive the tail ends of the two positioning clamping jaws to be close to or far away from each other, and therefore the front ends of the two positioning clamping jaws are close to or far away from each other.

Further, the guiding and limiting mechanism is: all install a direction limiting plate in two one sides that hold in the palm the material support is relative, install a plurality of direction spacing posts that distribute side by side along the direction of delivery of conveyor belt on the direction limiting plate, the vertical setting of direction spacing post, and the upper and lower both sides of the spacing post of direction pass through slewing bearing and direction limiting plate connection, through adjusting bolt connection between direction limiting plate and the support material support, have one on holding in the palm the material support and hold the screw thread through-hole that adjusting bolt passed, adjusting bolt passes behind the screw thread through-hole of holding in the palm the material support, and the front side is connected with the direction limiting plate through slewing bearing.

Furthermore, the rotating bracket comprises a rotating base, a plurality of lightening holes are further formed in the rotating base, and four rotating support columns distributed in a rectangular shape are arranged on the rotating base.

Furthermore, defogging mechanism includes that one sets up in the circulating water pond of the base side of spraying paint and sets up in the trickle pipeline of circulating water pond top, and it has a plurality of mouths of drenching to open at the downside of trickle pipeline, and the consecutive side by side distribution has once effluent water sump, secondary effluent water sump, filtering ponds, clean water basin between circulating water pond and trickle pipeline, and wherein once the effluent water sump passes through the pipeline and links to each other with the circulating water pond, and the clean water basin passes through the pipeline and links to each other with the trickle pipeline.

The invention has the advantages that: in the invention, the conveying assembly, the material supporting assembly, the paint spraying assembly and the robot are matched, so that the product is moved to the side from the conveying assembly to be sprayed with paint and then is conveyed back to the conveying assembly, the pollution to the conveying assembly is reduced, the pollution of other kinds of paint to the product is also avoided, and the smooth paint spraying is ensured.

The material supporting plate is designed into a fence shape, so that when the paint is sprayed, redundant paint mist can conveniently pass through the gap of the material supporting plate, most of the paint mist is prevented from remaining on the material supporting plate, and the pollution to the material supporting plate is reduced.

The design of carriage adopts the mode of carrying base and auxiliary conveyor seat cooperation transport for the operation of whole carriage is more stable, and the cooperation of bottom plate and support post and the rotating base of rotating bracket and the cooperation mode of rotating support post all cooperate for the bearing roller with on the robot, makes things convenient for the bearing roller to get and puts the material layer board.

The clamping jaw mounting seat, the connecting rod and the clamping cylinder are matched with the positioning clamping jaw, so that the position of the conveying frame is positioned, and the carrier roller of a subsequent robot can be conveniently moved to a fixed position to take and place the material supporting plate on the conveying frame.

The guide limiting mechanism is arranged to guide and limit the passing material supporting plate by utilizing the matching of the guide limiting plate and the guide limiting column, so that the position of the material supporting plate on the conveying frame is ensured, and the material supporting plate is prevented from falling off the conveying frame due to too large deviation of the relative position between the material supporting plate and the conveying frame; the guide limiting plate is connected with the material supporting bracket through the adjusting bolt, so that the relative position of the guide limiting plate and the material supporting bracket can be adjusted, the distance between the two guide limiting plates can be adjusted according to the size of the material supporting plate or other requirements, and the guide limiting of the material supporting plate is ensured.

The setting of defogging mechanism utilizes drenching the water piping and comes the coating cloud that spreads in the air to the in-process production of spraying paint to fuse for the coating cloud is along with rivers entering circulating water pond in, and primary effluent water sump, secondary effluent water sump, filtering ponds, clean water basin deposit, filtration treatment to the water in the circulating water pond, with the lacquer that contains in the aquatic of getting rid of, and the water of handling carries out cyclic utilization again, reduce cost.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a painting system for an automobile parts painting line according to the present invention.

Fig. 2 is a schematic view of a carriage according to the present invention.

Fig. 3 is a schematic view of a material pallet of the present invention.

FIG. 4 is a schematic view of a material holding assembly of the present invention.

Fig. 5 is a schematic view of a clamping mechanism of the present invention.

FIG. 6 is a schematic view of a defogging mechanism according to the present invention.

Detailed Description

The following examples are presented to enable one of ordinary skill in the art to more fully understand the present invention and are not intended to limit the scope of the embodiments described herein.

A painting system for a painting line for automobile parts, as shown in figures 1 to 6, comprises

A conveying assembly, conveying assembly include a conveying support 1 and set up the conveyer belt on conveying support 1, install a plurality of carriage 2 that distribute side by side on the conveyer belt, placed material layer board 3 on carriage 2, material layer board 3 is the fence form. Be fence form to material layer board 3 design to when spraying paint, make things convenient for unnecessary coating cloud to pass through in the clearance of material layer board 3, avoid most coating cloud to remain on material layer board 3, reduce the pollution to material layer board 3, also avoided other coating clouds to remain on material layer board 3 simultaneously, and the one side that leads to product and material layer board to contact also is dyed other lacquer.

The conveying frame 2 comprises a conveying base 21, the bottom end of the conveying base 21 is connected with a conveying chain belt, conveying guide rails 22 matched with the conveying base 21 are further arranged on two sides of the conveying base 21 above the conveying frame 1, conveying rollers 23 matched with the conveying guide rails 22 are further arranged on two sides of the conveying base 21, guide wheels 24 distributed horizontally are further arranged on the conveying base 21, the guide wheels 24 are attached to the inner walls of the conveying guide rails 22 to guide the conveying base 21 and avoid the deviation phenomenon of the conveying base 21, the conveying base 21 is driven by the conveying chain belt to circularly move along the conveying guide rails 22, the conveying guide rails 22 extend along the conveying direction of the conveying chain belt, a bottom plate 25 is arranged above the conveying base 21, weight reducing holes are formed in the bottom plate 25 to reduce the weight of the base 25, four support columns 26 distributed in a cuboid shape are arranged on the bottom plate 25, the four support columns 26 are matched together to support the material supporting plate 3.

The rear side of the conveying base 21 along the conveying direction of the conveying chain belt is also provided with an auxiliary conveying base 27 in parallel, the auxiliary conveying base 27 and the conveying base 21 are connected through a connecting beam 28, two sides of the connecting beam 28 are hinged with the auxiliary conveying base 27 and the conveying base 21, and conveying rollers and guide wheels matched with the conveying guide rails 22 are also installed on two sides of the auxiliary conveying base 21. The design of carriage 2 adopts the mode that conveying base 21 and auxiliary conveyor 27 cooperate and carry for the operation of whole carriage 2 is more stable.

As can be seen from the schematic views shown in fig. 4 and 5, the material supporting assembly 4 includes a material supporting bracket 41 disposed on both sides of the conveying bracket, a pair of positioning clamping jaws 42 is mounted on one of the material supporting bracket 41, and the two positioning clamping jaws 42 are close to each other by a clamping mechanism to clamp the conveying bracket 2, the clamping mechanism is: the material supporting bracket 41 is provided with a clamping jaw mounting seat 43, the two positioning clamping jaws 42 are hinged on the clamping jaw mounting seat 43, the middle positions of the positioning clamping jaws 42 are hinged with the clamping jaw mounting seat 43, the tail ends of the two positioning clamping jaws 42 are connected through a pair of connecting rods 44 which are distributed in a V shape and hinged, the connecting rods 44 are hinged with the positioning clamping jaws 42, the hinged positions of the two connecting rods 44 are driven by a clamping cylinder 45 and drive the tail ends of the two positioning clamping jaws 42 to be close to or far away from each other, and therefore the front ends of the two positioning clamping jaws 42 are close to or far away from each other. The clamping mechanism is arranged, and the clamping jaw mounting seat 43, the connecting rod 44 and the clamping cylinder 45 are matched with the positioning clamping jaw 42, so that the position of the conveying frame 2 is positioned, and the carrier roller of the following robot can move to a fixed position conveniently to pick and place the material supporting plate 3 on the conveying frame 2.

When clamping is carried out, the clamping cylinder 45 pulls the connecting rods 44 to move towards the outer side direction of the material supporting bracket 41 provided with the positioning clamping jaws 42, so that the opening of the V-shaped opening formed by the two connecting rods 44 is gradually increased, the tail ends of the two positioning clamping jaws 42 are pushed to be gradually opened towards the outer side, correspondingly, the front ends of the positioning clamping jaws 42 are gradually closed, and the clamping and positioning of the conveying frame 2 are realized.

A guide limiting mechanism is also arranged between the two material supporting brackets 41; the guiding and limiting mechanism is as follows: a guide limiting plate 46 is arranged on one side, opposite to the two material supporting brackets 41, of each material supporting bracket, a plurality of guide limiting columns 47 which are distributed in parallel along the conveying direction of the conveying chain belt are arranged on the guide limiting plates 46, the guide limiting columns 47 are vertically arranged, the upper side and the lower side of each guide limiting column 47 are connected with the guide limiting plates 46 through slewing bearings, so that the guide limiting columns 47 can roll freely, the guide limiting plates 46 are connected with the material supporting brackets 41 through a plurality of adjusting bolts 48, each adjusting bolt 48 is distributed in parallel along the conveying direction of the conveying chain belt, each material supporting bracket 41 is provided with a threaded through hole through which the adjusting bolt 48 penetrates, after the adjusting bolt 48 penetrates through the threaded through hole in the material supporting bracket 41, the front side of the adjusting bolt 48 is connected with the guide limiting plates 46 through the slewing bearings, and the rear side of the adjusting bolt 48. The arrangement of the guide limiting mechanism is that the guide limiting plate 46 and the guide limiting column 47 are matched to guide and limit the passing material supporting plate 3, so that the position of the material supporting plate 3 on the conveying frame 2 is ensured, and the material supporting plate 3 is prevented from falling off the conveying frame 2 due to too large deviation of the relative position between the material supporting plate 3 and the conveying frame 2; the guide limiting plates 46 are connected with the material supporting bracket 41 through adjusting bolts 48, so that the relative positions of the guide limiting plates 46 and the material supporting bracket 41 can be adjusted, the distance between the two guide limiting plates 46 can be adjusted according to the size of the material supporting plate 3 or other requirements, and the guide limiting of the material supporting plate 3 is ensured.

A paint spraying component 5, the paint spraying component 5 comprises a paint spraying base 51 arranged beside the material supporting component 4, a paint spraying platform 52 is arranged on the paint spraying base 51, the paint spraying platform 52 is driven by a rotary motor arranged in the paint spraying base 51 to rotate, a pair of rotary brackets are arranged at two sides of the upper end of the paint spraying platform 52, each rotary bracket comprises a rotary base 53, a plurality of lightening holes are also arranged on each rotary base 53, so that the weight of the rotary base 53 can be lightened, the rotary bases are convenient to rotate, four rotary supporting columns 54 distributed in a cuboid shape are arranged on each rotary base 53, the four rotary supporting columns 54 are matched to jointly realize the support of the material supporting plate 3, each rotary bracket is driven by the rotary motor arranged in the paint spraying platform 52 to rotate, a spray gun is also arranged above the paint spraying platform 52, and the spray gun is driven by a robot to reciprocate, a defogging mechanism is also disposed beside the paint spraying platform 52.

Defogging mechanism includes one sets up in the circulating water basin 55 of base 51 side of spraying paint and sets up in the trickle pipeline 56 in circulating water basin 55 top, it has a plurality of mouths of drenching to open at the downside of trickle pipeline 56, it has once effluent water sump 57 to distribute side by side in proper order between circulating water sump 55 and trickle pipeline 56, secondary effluent water sump 58, filtering ponds 59, clean water basin 60, two adjacent ponds communicate each other, wherein once effluent water sump 57 passes through the pipeline and links to each other with circulating water sump 55, be connected with the circulating pump on this pipeline, clean water basin 60 passes through the pipeline and links to each other with trickle pipeline 56, also be connected with the circulating pump on this pipeline. The demisting mechanism is arranged, paint mist diffused into air in the paint spraying process is fused by the water spraying pipeline 56, so that the paint mist enters the circulating water tank 55 along with water flow, water in the circulating water tank is precipitated and filtered by the primary sewage tank 57, the secondary sewage tank 58, the filtering tank 59 and the clean water tank 60, so that paint contained in the water is removed, and the treated water is sent into the water spraying pipeline 56 for cyclic utilization, so that the cost is reduced.

When water is treated, water in the circulating water tank 55 is pumped into the primary sewage tank 57 by the circulating pump for primary precipitation, the water after primary precipitation flows into the secondary sewage tank 58 for secondary precipitation, the water after secondary precipitation flows into the filtering tank 59 for filtering by using a filter screen and the like in the filtering tank 59, the water after final filtering enters the clean water tank 60, and the clean water in the clean water tank 60 is pumped into the water sprinkling pipeline 56 by the circulating pump for recycling.

And the robot 61 is arranged between the material supporting assembly 4 and the paint spraying assembly 5, a carrier roller 62 is arranged on the robot 61, and the carrier roller 62 is driven by the robot 61 to reciprocate between the material supporting assembly 4 and the paint spraying assembly 5.

The working principle is as follows: firstly, putting a product on a material supporting plate 3, putting the material supporting plate 3 on a conveying frame 2 for conveying, when the conveying frame 2 is conveyed to a material supporting component 4, stopping conveying a conveying chain belt, driving two positioning clamping jaws 42 to clamp the conveying frame 2 by a clamping cylinder 45, positioning the position of the conveying frame 2, driving a carrier roller 62 to move to the lower side of the material supporting plate 3 by a robot 61, inserting and lifting the carrier roller 62 from the lower side of the material supporting plate 3, driving the material supporting plate 3 from the conveying frame 2 by the robot 61, moving the material supporting plate 3 to a rotating bracket, supporting the material supporting plate 3 on a rotating upright post 54, driving the carrier roller 62 to be separated from the material supporting plate 3 by the robot 61, lifting the next material supporting plate 3, rotating a paint spraying platform 52 by 180 degrees under the action of a rotating motor, and moving the material supporting plate 3 to the upper side of a circulating water tank 55, at this time, the rotary bracket without the material supporting plate is moved to the outer side, the next material supporting plate can be placed on the rotary bracket by the robot 61, then the spray gun starts to work, the corresponding robot drives the rotary bracket to reciprocate, thereby realizing the paint spraying work of the product on the material supporting plate 3, the rotary bracket is driven by the rotary motor to rotate during the paint spraying, thereby realizing the omnibearing paint spraying of the product, after the paint spraying work is finished, the rotary bracket stops rotating, the paint spraying platform 52 rotates 180 degrees again, at this time, the rotary bracket with the painted product is moved to the outer side, the rotary bracket with the product not painted is braked to the inner side for paint spraying, the material supporting plate 3 on the rotary bracket at the outer side is taken down from the rotary bracket by the robot 61 and placed on the empty conveying frame 2, and the locking cylinder 45 drives the positioning clamping jaw 42 to contact with the conveying frame 2 for locking, and is driven by the conveying frame 2 to continue conveying. This is repeated.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an automobile parts paint spraying system for production line that sprays paint which characterized in that: comprises that

2. The painting system for an automobile parts painting production line according to claim 1, wherein: the conveying frame comprises a conveying base, the bottom end of the conveying base is connected with a conveying chain belt, lightening holes are further formed in the conveying base, conveying guide rails matched with the conveying base are further arranged on two sides, located above the conveying support, of the conveying base, conveying idler wheels matched with the conveying guide rails are further arranged on two sides of the conveying base, the conveying base is driven by the conveying chain belt to move circularly along the conveying guide rails, the conveying guide rails extend along the conveying direction of the conveying chain belt, a bottom plate is installed above the conveying base, the lightening holes are formed in the bottom plate, four support columns distributed in a cuboid shape are installed on the bottom plate, and the material support plate is supported on the support columns.

3. The painting system for an automobile parts painting production line according to claim 2, wherein: the rear side of the conveying base along the conveying direction of the conveying chain belt is also provided with an auxiliary conveying seat in parallel, the auxiliary conveying seat is hinged with the conveying base, and conveying rollers matched with conveying guide rails are arranged on two sides of the auxiliary conveying seat.

4. The painting system for an automobile parts painting production line according to claim 1, wherein: the material supporting plate is in a fence shape.

5. The painting system for an automobile parts painting production line according to claim 1, wherein: the clamping mechanism is as follows: the material supporting bracket is provided with a clamping jaw mounting seat, the two positioning clamping jaws are hinged on the clamping jaw mounting seat, the middle positions of the positioning clamping jaws are hinged with the clamping jaw mounting seat, the tail ends of the two positioning clamping jaws are connected through a pair of connecting rods which are distributed in a V shape and are hinged, the connecting rods are hinged with the positioning clamping jaws, the hinged positions of the two connecting rods are driven by a clamping cylinder and drive the tail ends of the two positioning clamping jaws to be close to or far away from each other, and therefore the front ends of the two positioning clamping jaws are close to or far away from each other.

6. The painting system for an automobile parts painting production line according to claim 1, wherein: the guide limiting mechanism is as follows: all install a direction limiting plate in two one sides that hold in the palm the material support is relative, install a plurality of direction spacing posts that distribute side by side along the direction of delivery of conveyor belt on the direction limiting plate, the vertical setting of direction spacing post, and the upper and lower both sides of the spacing post of direction pass through slewing bearing and direction limiting plate connection, through adjusting bolt connection between direction limiting plate and the support material support, have one on holding in the palm the material support and hold the screw thread through-hole that adjusting bolt passed, adjusting bolt passes behind the screw thread through-hole of holding in the palm the material support, and the front side is connected with the direction limiting plate through slewing bearing.

7. The painting system for an automobile parts painting production line according to claim 1, wherein: the rotary bracket comprises a rotary base, a plurality of lightening holes are further formed in the rotary base, and four rotary supporting columns distributed in a cuboid shape are arranged on the rotary base.

8. The painting system for an automobile parts painting production line according to claim 1, wherein: defogging mechanism includes that one sets up in the circulating water pond of the base side that sprays paint and sets up in the trickle pipeline of circulating water pond top, and it has a plurality of mouths of drenching to open at the downside of trickle pipeline, and the sewage pond, secondary sewage pond, filtering ponds, clean water basin have been distributed side by side in proper order between circulating water pond and trickle pipeline, and wherein once the sewage pond passes through the pipeline and links to each other with the circulating water pond, and the clean water basin passes through the pipeline and links to each other with the trickle pipeline.