CN113955881A

CN113955881A - Wastewater recycling treatment system and method

Info

Publication number: CN113955881A
Application number: CN202111403737.4A
Authority: CN
Inventors: 王晓芳; 张冬艳; 韩春龙; 王辉
Original assignee: China Computer Room Equipment Engineering Co ltd
Current assignee: China Computer Room Equipment Engineering Co ltd
Priority date: 2021-11-24
Filing date: 2021-11-24
Publication date: 2022-01-21

Abstract

The invention discloses a wastewater recycling treatment system and a method, and the technical scheme is as follows: including handling the case, still include: the baffle plate is fixed in the treatment box and divides the treatment box into a first chamber and a second chamber; a dispersion assembly disposed within the first chamber; a discharge receiving assembly for selectively throwing contaminated water into the first and second chambers; disassembling a multistage sedimentation assembly arranged in the second chamber in the treatment box; a sediment cleaning assembly for cleaning sediment; a multi-stage filtration assembly disposed within the second chamber in the processing box; and the lifting assembly is used for driving the multistage filtering assembly to lift out of the second chamber. This waste water resourceful treatment system can fully handle waste water to can carry out the automation to the filter core and change, degree of automation is high.

Description

Wastewater recycling treatment system and method

Technical Field

The invention relates to the field of water treatment, in particular to a wastewater recycling treatment system and method.

Background

Water is an important resource, and the treatment of wastewater is an important means for comprehensively utilizing water resources.

The prior Chinese patent with publication number CN102616893B discloses a wastewater treatment system, which comprises a reaction tank body and an electrolysis device, the reaction tank body comprises a water inlet and a water outlet which are respectively arranged at the upper ends of two opposite side walls of the reaction tank body, the electrolytic device comprises a positive plate, a negative plate and a power supply, the positive plate and the negative plate are arranged in the reaction tank body, the power supply is electrically connected with the positive plate and the negative plate, the wastewater treatment system also comprises an electrolysis gas supply system, a catalytic material and a separation net, the electrolysis gas supply system comprises an aeration pipe and an air pump, the aeration pipe is arranged at the bottom of the reaction tank body, the catalytic material is filled in the reaction tank body, the catalytic material is transition metal-loaded carbon-based or silica-based particles, and the separation net is arranged at the water outlet.

The above patents have some disadvantages, such as: the automatic replacement of the filter element is inconvenient, and the wastewater cannot be fully treated.

Disclosure of Invention

In view of the problems mentioned in the background art, the present invention is to provide a system and a method for recycling wastewater to solve the problems mentioned in the background art.

The technical purpose of the invention is realized by the following technical scheme:

the utility model provides a waste water resourceful treatment system, includes the processing case, still includes:

the baffle plate is fixed in the treatment box and divides the treatment box into a first chamber and a second chamber;

a dispersion assembly disposed within the first chamber;

a discharge receiving assembly for selectively throwing contaminated water into the first and second chambers;

disassembling a multistage sedimentation assembly arranged in the second chamber in the treatment box;

a sediment cleaning assembly for cleaning sediment;

a multi-stage filtration assembly disposed within the second chamber in the processing box;

the lifting assembly is used for driving the multistage filtering assembly to lift out of the second chamber;

and the pushing assembly is used for pushing the multistage filtering assembly out of the treatment box after being lifted by the lifting assembly.

By adopting the technical scheme, the wastewater recycling treatment system can fully treat wastewater, can automatically replace the filter element, and has high automation degree; when utilizing this system, can utilize the emission to accept the first cavity and the second cavity of subassembly selectivity and discharge into waste water in the case, waste water dispersion can be accelerated to the dispersion subassembly in the first cavity, later waste water is precipitated through multistage precipitation subassembly, filter through multistage filtering component again, and the deposit in usable deposit clearance subassembly is to the second cavity is handled, when needs are changed multistage filtering component, can utilize the lifting subassembly to lift multistage filtering component out, and utilize the automatic release of promotion subassembly, degree of automation is high.

Preferably, the dispersion subassembly includes first servo motor, first dead lever, second dead lever, shaft coupling, support ring, a plurality of stirring leaf, shaft shoulder and clamping ring, first servo motor fixes handle the outside of case, first dead lever is fixed first servo motor's motor shaft tip, the second dead lever passes through the shaft coupling with first dead lever is connected fixedly, support ring threaded connection is in the outside of second dead lever, a plurality of stirring leaf is fixed respectively the outside of support ring, the shaft shoulder with second dead lever integrated into one piece, clamping ring threaded connection is in the outside of second dead lever.

Through adopting above-mentioned technical scheme, when starting first servo motor, it can drive first dead lever and second dead lever and rotate, drives the stirring leaf rotation on the support ring to reach the dispersion purpose, can make things convenient for the dismouting of support ring through utilizing shoulder and clamping ring.

Preferably, the discharge receiving assembly includes a carrying box, a third chamber, a fourth chamber, a grid plate, a bucket cover, a first pipeline, a second pipeline, a first flange and a second flange. The bearing box is fixed at the top of the processing box, the third chamber and the fourth chamber are respectively arranged in the bearing box, the third chamber is communicated with the first chamber, the fourth chamber is communicated with the second chamber, the grid plate is fixed in the third chamber, the hopper cover is fixed in the fourth chamber, the first pipeline is communicated with the hopper cover, the second pipeline is connected with the first pipeline through the first flange, and the second pipeline is communicated with the second chamber in the processing box through the second flange.

Through adopting above-mentioned technical scheme, when pouring into waste water into first cavity, can pour into waste water into from the third cavity in the bearing box, when needs are direct to pouring into waste water into in the second cavity, can pour into the bucket cover of fourth cavity with waste water into, through first pipeline, second pipeline pour into the second cavity in the treatment box.

Preferably, the multistage sedimentation assembly comprises a support plate, a first filter plate, a second filter plate, a third filter plate, an inclined blocking part and a vertical blocking part, wherein the first filter plate, the second filter plate and the third filter plate are respectively fixed on the support plate, the first filter plate, the second filter plate and the third filter plate are respectively inserted into the treatment box, the inclined blocking part is integrally formed on the third filter plate, the vertical blocking part is positioned at the end side of the inclined blocking part, and the support plate is fixedly connected with the treatment box through a plurality of bolts.

Through adopting above-mentioned technical scheme, can reach the purpose of deposiing one by one through utilizing first filter plate, second filter plate, the third filter plate in the backup pad to slope fender portion and vertical fender portion can improve waste water treatment effect, when needs clear up first filter plate, second filter plate, third filter plate, can stimulate the backup pad and drive first filter plate, second filter plate, third filter plate and go out the second cavity, and convenient the cleanness.

Preferably, the sediment cleaning assembly comprises a first outer extension pipe, a second outer extension pipe, a third outer extension pipe, a collection box and a third flange, wherein the first outer extension pipe, the second outer extension pipe and the third outer extension pipe are respectively positioned at the bottom of the treatment box, and the first outer extension pipe, the second outer extension pipe and the third outer extension pipe are respectively connected and fixed with the collection box through the third flange.

Through adopting above-mentioned technical scheme, the precipitate of sediment can be collected to the collecting box, and the third flange through utilizing first outer extension pipe, the outer extension pipe of second, third outer extension pipe bottom can make things convenient for the dismouting of collecting box fixed.

Preferably, the multistage filter assembly comprises a first filter box, a second filter box, a connecting plate, a sandstone layer, an activated carbon layer, an ion exchange resin layer, a nylon cotton layer and a plurality of support rods, wherein the first filter box and the second filter box are respectively fixedly connected with the connecting plate, the sandstone layer is arranged in the first filter box, the activated carbon layer, the ion exchange resin layer and the nylon cotton layer are respectively arranged in the second filter box, and the plurality of support rods are respectively fixed in the second chamber and used for bearing the first filter box and the second filter box.

Through adopting above-mentioned technical scheme, through utilizing the gravel layer in the first filter tank, through utilizing activated carbon layer, ion exchange resin layer, the cotton layer of acrylic fibre in the second filter tank, can reach good filter effect, the ability of filtering waste water is outstanding.

Preferably, the lifting assembly comprises a first fixing column, a first chute, a first slider, a second servo motor, a screw rod, a first sliding seat, a vacuum chuck and an air pump, the first fixing column is fixed outside the treatment box, the first chute is arranged in the first fixing column, the first slider is vertically connected in the first chute in a sliding manner, the second servo motor is fixed at the top of the first fixing column, the screw rod is fixed at the end of a motor shaft of the second servo motor, the screw rod is in threaded connection with the first slider, the first sliding seat is fixedly connected with the first slider, the vacuum chuck is fixed on the first sliding seat, the air pump is fixed on the first sliding seat, and the vacuum chuck is connected with the air pump through a pipeline.

Through adopting above-mentioned technical scheme, when needs lift first filter box and second filter box, can start the second servo motor of first fixed column tip to drive the screw rod and rotate, drive first slider and slide in first spout, drive first sliding seat and drive vacuum chuck and slide, drive backup pad, first filter box and the lift of second filter box, thereby reach the lifting purpose.

Preferably, the pushing assembly includes a second fixing column, a second chute, a second slider, a rodless cylinder, a second sliding seat, a servo electric cylinder and an L-shaped plate, the second fixing column is fixed at the top of the treatment box, the second chute is arranged in the second fixing column, the second slider is horizontally connected in the second chute in a sliding manner, the rodless cylinder is used for driving the second slider to slide in the second chute, the second sliding seat is fixedly connected with the second slider, the servo electric cylinder is fixed on the second sliding seat, and the L-shaped plate is fixedly connected with the end portion of the output shaft of the servo electric cylinder.

Through adopting above-mentioned technical scheme, when connecting plate, first filter box and second filter box were lifted a take the altitude, can start the servo electric jar on the second sliding seat, drive the bottom that first filter box and second filter box were put into to the L shaped plate, later can become flexible vacuum chuck, start rodless cylinder, drive the second slider and slide in the second spout, drive the first filter box and the second filter box of L shaped plate top and slide to conveniently carry out the filter core and change.

Preferably, a water pump is fixed outside the treatment box, a water inlet end of the water pump is connected with a third pipeline, the third pipeline is fixedly communicated with the second chamber, and a water outlet end of the water pump is connected with a fourth pipeline.

Through adopting above-mentioned technical scheme, can take out the water after the second cavity indoor processing through third pipeline, fourth pipeline through starting the water pump.

The invention also discloses a wastewater recycling treatment method, which comprises the following steps: selectively discharging wastewater into a first chamber and a second chamber in the treatment box by using the discharge receiving assembly; accelerating the wastewater dispersion by using a dispersion assembly in the first chamber, starting a first servo motor in the dispersion assembly, and driving stirring blades on the support ring to stir by using the first servo motor; then, the wastewater is precipitated by a first filter plate, a second filter plate and a third filter plate in a multi-stage precipitation assembly; then the sewage is filtered by a first filter box, a sandstone layer, a second filter box, an activated carbon layer, an ion exchange resin layer and a nylon cotton layer in the multistage filter assembly, and the sediment in the second chamber can be treated by a sediment cleaning assembly; when the multistage filtering component needs to be replaced, the multistage filtering component is lifted out by the lifting component and is automatically pushed out by the pushing component.

In summary, the invention mainly has the following beneficial effects:

the wastewater recycling treatment system can fully treat wastewater, can automatically replace the filter element, and has high automation degree; when utilizing this system, can utilize the emission to accept the first cavity and the second cavity of subassembly selectivity and discharge into waste water in the case, waste water dispersion can be accelerated to the dispersion subassembly in the first cavity, later waste water is precipitated through multistage precipitation subassembly, filter through multistage filtering component again, and the deposit in usable deposit clearance subassembly is to the second cavity is handled, when needs are changed multistage filtering component, can utilize the lifting subassembly to lift multistage filtering component out, and utilize the automatic release of promotion subassembly, degree of automation is high.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is one of the structural cross-sectional views of the present invention;

FIG. 4 is an enlarged view at B in FIG. 3;

FIG. 5 is an enlarged view at C in FIG. 3;

FIG. 6 is a second cross-sectional view of the present invention;

fig. 7 is a third structural sectional view of the present invention.

Reference numerals: 1. a treatment tank; 10. a partition plate; 11. a first chamber; 12. a second chamber; 2. a dispersion assembly; 3. a discharge receiving assembly; 4. a multi-stage sedimentation assembly; 5. a sediment cleaning assembly; 6. a multi-stage filtration assembly; 7. a lifting assembly; 8. a pushing assembly; 21. a first servo motor; 22. a first fixing lever; 23. a second fixing bar; 24. a coupling; 25. a support ring; 26. stirring the blades; 27. a shaft shoulder; 28. pressing a ring; 31. a carrying case; 32. a third chamber; 33. a fourth chamber; 34. a grid plate; 35. a bucket cover; 36. a first conduit; 37. a second conduit; 38. a first flange; 39. a second flange; 41. a support plate; 42. a first filter plate; 43. a second filter plate; 44. a third filter plate; 45. an inclined blocking part; 46. a vertical baffle; 51. a first outer extension tube; 52. a second outer extension tube; 53. a third outer extension tube; 54. a collection box; 55. a third flange; 61. a first filter box; 62. a second filter box; 63. a connecting plate; 64. a sandstone layer; 65. an activated carbon layer; 66. an ion exchange resin layer; 67. a acrylic cotton layer; 68. a support rod; 71. a first fixed column; 72. a first chute; 73. a first slider; 74. a second servo motor; 75. a screw; 76. a first sliding seat; 77. a vacuum chuck; 78. an air pump; 81. a second fixed column; 82. a second chute; 83. a second slider; 84. a rodless cylinder; 85. a second sliding seat; 86. a servo electric cylinder; 87. an L-shaped plate; 121. a water pump; 122. a third pipeline; 123. a fourth conduit.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1 and 3, a waste water recycling treatment system includes a treatment tank 1, and further includes: a partition plate 10 fixed in the processing tank 1, the partition plate 10 dividing the processing tank 1 into a first chamber 11 and a second chamber 12; a dispersion assembly 2 disposed within the first chamber 11; a discharge receiving member 3 for selectively throwing the sewage into the first chamber 11 and the second chamber 12; the multistage sedimentation assembly 4 arranged in the second chamber 12 in the treatment box 1 is disassembled and assembled; a sediment cleaning assembly 5 for cleaning sediment; a multi-stage filter assembly 6 disposed in the second chamber 12 of the treatment tank 1; a lifting assembly 7 for lifting the multistage filter assembly 6 out of the second chamber 12; and a pushing assembly 8 for pushing the multistage filtering assembly 6 lifted by the lifting assembly 7 out of the treatment tank 1.

Referring to fig. 1 and 3, the wastewater recycling treatment system can fully treat wastewater and can automatically replace the filter element, and the degree of automation is high; when utilizing this system, can utilize the emission to accept the selective waste water of discharging into first cavity 11 and the second cavity 12 in the case 1 of handling of subassembly 3, dispersion subassembly 2 in the first cavity 11 can be with higher speed the waste water dispersion, later waste water is depositd through multistage sedimentation subassembly 4, filter through multistage filtration subassembly 6 again, and the deposit in usable deposit clearance subassembly 5 is to the second cavity 12 is handled, when needs are changed multistage filtration subassembly 6, can utilize lifting subassembly 7 to lift out multistage filtration subassembly 6, and utilize pushing assembly 8 to automize and push out, degree of automation is high.

Referring to fig. 3 and 4, the dispersing assembly 2 includes a first servo motor 21, a first fixing rod 22, a second fixing rod 23, a coupling 24, a supporting ring 25, a plurality of stirring blades 26, a shoulder 27 and a clamping ring 28, the first servo motor 21 is fixed outside the treatment tank 1, the first fixing rod 22 is fixed at the motor shaft end of the first servo motor 21, the second fixing rod 23 is connected and fixed with the first fixing rod 22 through the coupling 24, the supporting ring 25 is screwed outside the second fixing rod 23, the plurality of stirring blades 26 are respectively fixed outside the supporting ring 25, the shoulder 27 is integrally formed with the second fixing rod 23, and the clamping ring 28 is screwed outside the second fixing rod 23; when the first servo motor 21 is started, it can drive the first fixing rod 22 and the second fixing rod 23 to rotate, and drive the stirring blade 26 on the support ring 25 to rotate, so as to achieve the purpose of dispersion, and the support ring 25 can be conveniently disassembled and assembled by using the shaft shoulder 27 and the pressing ring 28.

Referring to fig. 6 and 7, the drain receiving assembly 3 includes a carrying case 31, a third chamber 32, a fourth chamber 33, a grid plate 34, a bucket cover 35, a first pipe 36, a second pipe 37, a first flange 38, and a second flange 39. The bearing box 31 is fixed on the top of the processing box 1, the third chamber 32 and the fourth chamber 33 are respectively arranged in the bearing box 31, the third chamber 32 is communicated with the first chamber 11, the fourth chamber 33 is communicated with the second chamber 12, the grid plate 34 is fixed in the third chamber 32, the bucket cover 35 is fixed in the fourth chamber 33, the first pipeline 36 is communicated with the bucket cover 35, the second pipeline 37 is connected with the first pipeline 36 through the first flange 38, the second pipeline 37 is communicated with the second chamber 12 in the processing box 1 through the second flange 39, when waste water is injected into the first chamber 11, waste water may be injected from the third chamber 32 in the carrier box 31, and when it is desired to inject waste water directly into the second chamber 12, waste water can be injected into the hood 35 of the fourth chamber 33 and into the second chamber 12 in the treatment tank 1 through the first and

second pipes

36 and 37.

Referring to fig. 3 and 5, the multistage settling assembly 4 includes a support plate 41, a first filter plate 42, a second filter plate 43, a third filter plate 44, an inclined blocking portion 45 and a vertical blocking portion 46, wherein the first filter plate 42, the second filter plate 43 and the third filter plate 44 are respectively fixed on the support plate 41, the first filter plate 42, the second filter plate 43 and the third filter plate 44 are respectively inserted into the treatment tank 1, the inclined blocking portion 45 is integrally formed on the third filter plate 44, the vertical blocking portion 46 is located at an end side of the inclined blocking portion 45, the support plate 41 is fixedly connected to the treatment tank 1 by a plurality of bolts, successive settling can be achieved by using the first filter plate 42, the second filter plate 43 and the third filter plate 44 on the support plate 41, and the inclined blocking portion 45 and the vertical blocking portion 46 can improve wastewater treatment effect, when the first filter plate 42, the second filter plate 43 and the third filter plate 44 need to be cleaned, the support plate 41 can be pulled to drive the first filter plate 42, the second filter plate 43 and the third filter plate 44, The second filter plate 43 and the third filter plate 44 exit the second chamber 12, which facilitates cleaning.

Referring to fig. 3 and 5, the sediment cleaning assembly 5 includes a first outer pipe 51, a second outer pipe 52, a third outer pipe 53, a collection box 54, and a third flange 55, the first outer pipe 51, the second outer pipe 52, and the third outer pipe 53 are respectively located at the bottom of the treatment box 1, the first outer pipe 51, the second outer pipe 52, and the third outer pipe 53 are respectively connected and fixed with the collection box 54 through the third flange 55, the collection box 54 can collect the sediment, and the collection box 54 can be conveniently detached and fixed by using the third flange 55 at the bottom of the first outer pipe 51, the second outer pipe 52, and the third outer pipe 53.

Referring to fig. 3, the multistage filter assembly 6 includes a first filter box 61, a second filter box 62, a connecting plate 63, a sand layer 64, an activated carbon layer 65, an ion exchange resin layer 66, a nylon wool layer 67, and a plurality of support rods 68, the first filter box 61 and the second filter box 62 are respectively connected and fixed with the connecting plate 63, the sand layer 64 is disposed in the first filter box 61, the activated carbon layer 65, the ion exchange resin layer 66, and the nylon wool layer 67 are respectively disposed in the second filter box 62, the plurality of support rods 68 are respectively fixed in the second chamber 12 for supporting the first filter box 61 and the second filter box 62, and by using the sand layer 64 in the first filter box 61, by using the activated carbon layer 65, the ion exchange resin layer 66, and the nylon wool layer 67 in the second filter box 62, a good filtering effect can be achieved, and a capability of filtering wastewater is outstanding.

Referring to fig. 1, 2 and 3, the lifting assembly 7 includes a first fixing column 71, a first sliding chute 72, a first sliding block 73, a second servo motor 74, a screw 75, a first sliding seat 76, a vacuum chuck 77 and an air pump 78, the first fixing column 71 is fixed outside the processing box 1, the first sliding chute 72 is opened in the first fixing column 71, the first sliding block 73 is vertically slidably connected in the first sliding chute 72, the second servo motor 74 is fixed on the top of the first fixing column 71, the screw 75 is fixed on the end of the motor shaft of the second servo motor 74, the screw 75 is in threaded connection with the first sliding block 73, the first sliding seat 76 is fixedly connected with the first sliding block 73, the vacuum chuck 77 is fixed on the first sliding seat 76, the air pump 78 is fixed on the first sliding seat 76, the vacuum chuck 77 is connected with the air pump 78 through a pipeline, when the first filtering box 61 and the second filtering box 62 need to be lifted, the second servo motor 74 on the end of the first fixing column 71 can be started, thereby driving the screw 75 to rotate, driving the first sliding block 73 to slide in the first sliding groove 72, driving the first sliding seat 76 to drive the vacuum chuck 77 to slide, and driving the connecting plate 63, the first filtering box 61 and the second filtering box 62 to lift, thereby achieving the purpose of lifting.

Referring to fig. 1, 2 and 3, the pushing assembly 8 includes a second fixed column 81, a second sliding chute 82, a second sliding block 83, a rodless cylinder 84, a second sliding seat 85, a servo electric cylinder 86 and an L-shaped plate 87, the second fixed column 81 is fixed on the top of the treatment tank 1, the second sliding chute 82 is opened in the second fixed column 81, the second sliding block 83 is horizontally slidably connected in the second sliding chute 82, the rodless cylinder 84 is used for driving the second sliding block 83 to slide in the second sliding chute 82, the second sliding seat 85 is fixedly connected with the second sliding block 83, the servo electric cylinder 86 is fixed on the second sliding seat 85, the L-shaped plate 87 is fixedly connected with the end of the output shaft of the servo electric cylinder 86, when the connecting plate 63, the first filter box 61 and the second filter box 62 are lifted to a certain height, the servo electric cylinder 86 on the second sliding seat 85 can be started, the L-shaped plate 87 is driven to be placed in the bottoms of the first filter box 61 and the second filter box 62, then, the vacuum chuck 77 can be loosened, the rodless cylinder 84 is started, the second sliding block 83 is driven to slide in the second sliding groove 82, and the first filter box 61 and the second filter box 62 above the L-shaped plate 87 are driven to slide, so that the filter element replacement is convenient.

Referring to fig. 1 and 3, a water pump 121 is fixed outside the treatment tank 1, a third pipe 122 is connected to a water inlet end of the water pump 121, the third pipe 122 is fixedly communicated with the second chamber 12, a fourth pipe 123 is connected to a water outlet end of the water pump 121, and water treated in the second chamber 12 can be pumped out through the third pipe 122 and the fourth pipe 123 by starting the water pump 121.

The embodiment also discloses a wastewater recycling treatment method, which comprises the following steps: selectively discharging wastewater into a first chamber 11 and a second chamber 12 in the treatment tank 1 by using the discharge receiving assembly 3; accelerating wastewater dispersion by using the dispersion assembly 2 in the first chamber 11, starting the first servo motor 21 in the dispersion assembly 2, and driving the stirring blades 26 on the support ring 25 to stir by using the first servo motor 21; then the wastewater is precipitated by a first filter plate 42, a second filter plate 43 and a third filter plate 44 in the multistage precipitation assembly 4; then the wastewater is filtered by a first filter box 61, a sand layer 64, a second filter box 62, an activated carbon layer 65, an ion exchange resin layer 66 and a nylon cotton layer 67 in the multistage filter assembly 6, and the sediment in the second chamber 12 can be treated by a sediment cleaning assembly 5; when the multistage filter assembly 6 needs to be replaced, the multistage filter assembly 6 is lifted out by the lifting assembly 7 and automatically pushed out by the pushing assembly 8.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a waste water resourceful treatment system, includes treatment case (1), its characterized in that: further comprising:

a partition plate (10) fixed in the treatment tank (1), wherein the partition plate (10) divides the treatment tank (1) into a first chamber (11) and a second chamber (12);

a dispersion assembly (2) disposed within the first chamber (11);

a discharge take-up assembly (3) for selectively plunging contaminated water into the first chamber (11) and the second chamber (12);

disassembling a multistage sedimentation assembly (4) arranged in the second chamber (12) in the treatment tank (1);

a sediment cleaning assembly (5) for cleaning sediment;

a multi-stage filtration assembly (6) disposed in the treatment tank (1) within the second chamber (12);

a lifting assembly (7) for lifting the multistage filter assembly (6) out of the second chamber (12);

and a pushing assembly (8) used for pushing the multistage filtering assembly (6) out of the treatment box (1) after being lifted by the lifting assembly (7).

2. The wastewater recycling treatment system according to claim 1, characterized in that: the dispersing component (2) comprises a first servo motor (21), a first fixing rod (22), a second fixing rod (23), a coupler (24), a support ring (25), a plurality of stirring blades (26), a shaft shoulder (27) and a pressing ring (28), the first servo motor (21) is fixed outside the processing box (1), the first fixing rod (22) is fixed at the end part of a motor shaft of the first servo motor (21), the second fixing rod (23) is connected and fixed with the first fixing rod (22) through the coupler (24), the support ring (25) is in threaded connection with the outside of the second fixing rod (23), the stirring blades (26) are respectively fixed on the outside of the support ring (25), the shaft shoulder (27) and the second fixing rod (23) are integrally formed, and the pressing ring (28) is in threaded connection with the outer portion of the second fixing rod (23).

3. The wastewater recycling treatment system according to claim 1, characterized in that: the discharge receiving assembly (3) comprises a bearing box (31), a third chamber (32), a fourth chamber (33), a grid plate (34), a bucket cover (35), a first pipeline (36), a second pipeline (37), a first flange (38) and a second flange (39). The bearing box (31) is fixed to the top of the treatment box (1), the third chamber (32) and the fourth chamber (33) are respectively arranged in the bearing box (31), the third chamber (32) is communicated with the first chamber (11), the fourth chamber (33) is communicated with the second chamber (12), the grid plate (34) is fixed in the third chamber (32), the bucket cover (35) is fixed in the fourth chamber (33), the first pipeline (36) is communicated with the bucket cover (35), the second pipeline (37) is connected with the first pipeline (36) through the first flange (38), and the second pipeline (37) is communicated with the second chamber (12) in the treatment box (1) through the second flange (39).

4. The wastewater recycling treatment system according to claim 1, characterized in that: multistage sediment subassembly (4) are including backup pad (41), first filter plate (42), second filter plate (43), third filter plate (44), slope fender portion (45) and vertical fender portion (46), first filter plate (42), second filter plate (43), third filter plate (44) are fixed respectively on backup pad (41), first filter plate (42), second filter plate (43), third filter plate (44) are pegged graft respectively in handling case (1), slope fender portion (45) integrated into one piece is in on third filter plate (44), vertical fender portion (46) are located the terminal side of slope fender portion (45), backup pad (41) through a plurality of bolt with it is fixed to handle case (1) connection.

5. The wastewater recycling treatment system according to claim 1, characterized in that: the sediment cleaning assembly (5) comprises a first outer extension pipe (51), a second outer extension pipe (52), a third outer extension pipe (53), a collecting box (54) and a third flange (55), wherein the first outer extension pipe (51), the second outer extension pipe (52) and the third outer extension pipe (53) are respectively positioned at the bottom of the treatment box (1), and the first outer extension pipe (51), the second outer extension pipe (52) and the third outer extension pipe (53) are respectively connected and fixed with the collecting box (54) through the third flange (55).

6. The wastewater recycling treatment system according to claim 1, characterized in that: the multistage filter assembly (6) comprises a first filter box (61), a second filter box (62), a connecting plate (63), a sand layer (64), an activated carbon layer (65), an ion exchange resin layer (66), a nylon cotton layer (67) and a plurality of support rods (68), wherein the first filter box (61) and the second filter box (62) are fixedly connected with the connecting plate (63) respectively, the sand layer (64) is arranged in the first filter box (61), the activated carbon layer (65), the ion exchange resin layer (66) and the nylon cotton layer (67) are arranged in the second filter box (62) respectively, and the support rods (68) are fixed in the second chamber (12) respectively and used for bearing the first filter box (61) and the second filter box (62).

7. The wastewater recycling treatment system according to claim 1, characterized in that: the lifting assembly (7) comprises a first fixing column (71), a first sliding chute (72), a first sliding block (73), a second servo motor (74), a screw rod (75), a first sliding seat (76), a vacuum sucker (77) and an air pump (78), the first fixing column (71) is fixed outside the treatment box (1), the first sliding chute (72) is arranged in the first fixing column (71), the first sliding block (73) is vertically connected in the first sliding chute (72) in a sliding manner, the second servo motor (74) is fixed on the top of the first fixing column (71), the screw rod (75) is fixed at the end part of a motor shaft of the second servo motor (74), the screw rod (75) is in threaded connection with the first sliding block (73), the first sliding seat (76) is connected and fixed with the first sliding block (73), and the vacuum sucker (77) is fixed on the first sliding seat (76), the air pump (78) is fixed on the first sliding seat (76), and the vacuum sucker (77) is connected with the air pump (78) through a pipeline.

8. The wastewater recycling treatment system according to claim 1, characterized in that: the pushing assembly (8) comprises a second fixed column (81), a second sliding chute (82), a second sliding block (83), a rodless cylinder (84), a second sliding seat (85), a servo electric cylinder (86) and an L-shaped plate (87), the second fixing column (81) is fixed at the top of the treatment box (1), the second sliding chute (82) is arranged in the second fixing column (81), the second sliding block (83) is horizontally connected in the second sliding groove (82) in a sliding way, the rodless cylinder (84) is used for driving the second sliding block (83) to slide in the second sliding chute (82), the second sliding seat (85) is fixedly connected with the second sliding block (83), the servo electric cylinder (86) is fixed on the second sliding seat (85), and the L-shaped plate (87) is fixedly connected with the end part of an output shaft of the servo electric cylinder (86).

9. The wastewater recycling treatment system according to claim 1, characterized in that: the water pump (121) is fixed to the outer portion of the treatment box (1), a third pipeline (122) is connected to the water inlet end of the water pump (121), the third pipeline (122) is fixedly communicated with the second cavity (12), and a fourth pipeline (123) is connected to the water outlet end of the water pump (121).

10. A method for treating wastewater resource is characterized in that: the method comprises the following steps: selectively discharging waste water into a first chamber (11) and a second chamber (12) in the treatment box (1) by using the discharge adapting component (3); accelerating wastewater dispersion by using a dispersion assembly (2) in a first chamber (11), starting a first servo motor (21) in the dispersion assembly (2), and driving stirring blades (26) on a support ring (25) to stir by using the first servo motor (21); then, the wastewater is precipitated through a first filter plate (42), a second filter plate (43) and a third filter plate (44) in the multistage precipitation assembly (4); then the sediment is filtered by a first filter box (61), a sand layer (64), a second filter box (62), an activated carbon layer (65), an ion exchange resin layer (66) and a nylon cotton layer (67) in the multistage filter assembly (6), and the sediment in the second chamber (12) can be treated by a sediment cleaning assembly (5); when the multistage filtering component (6) needs to be replaced, the multistage filtering component (6) is lifted out by the lifting component (7) and is automatically pushed out by the pushing component (8).