CN108771909B - Integrated device suitable for industrial sewage treatment - Google Patents
Integrated device suitable for industrial sewage treatment Download PDFInfo
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- CN108771909B CN108771909B CN201810707206.6A CN201810707206A CN108771909B CN 108771909 B CN108771909 B CN 108771909B CN 201810707206 A CN201810707206 A CN 201810707206A CN 108771909 B CN108771909 B CN 108771909B
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- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D36/00—Filter circuits or combinations of filters with other separating devices
- B01D36/04—Combinations of filters with settling tanks
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Abstract
An integrated device suitable for industrial sewage treatment comprises a precipitation device (1), a first pipeline device (2), an impurity recovery device (3), a first purification device (4), a second purification device (5), a second pipeline device (6), a buffer filtration device (7), a third pipeline device (8) and a drainage purification device (9), wherein the precipitation device (1) comprises a feeding frame (11), a first filter screen (12), a first supporting block (13) and a first shell (15), the sewage filter device comprises a first bending rod (14), a first rolling ball (16) and a stirring block, wherein the first pipeline device (2) comprises a first connecting pipe (21), a first water pump (22), a first connecting frame (23) and a first cross rod (24), and the impurity recovery device (3) comprises a recovery shell, a second connecting frame, a second cross rod, a discharge pipe, a second valve and a recovery frame.
Description
The invention relates to a divisional application of a patent with the application number of 2016108665604 and the application date of 2016, 09 and 30, and the name of the invention is 'an integrated device suitable for industrial sewage treatment'.
Technical Field
The invention relates to the technical field of sewage treatment, in particular to an integrated device suitable for industrial sewage treatment.
Background
With the development of industry, the discharge amount of industrial sewage is increasing day by day, after the industrial sewage which does not reach the discharge standard is discharged into a water body, the pollution of surface water and underground water is caused, the pollution of the surface water and the underground water causes that the quantity of water resources which can be utilized is reduced day by day, once the water body is polluted, the water body is returned to the original state in a short time with great difficulty, the production of industry, agriculture and fishery is influenced, and the harm is directly or indirectly brought to the life and the health of people.
Chinese patent CN203043694U discloses a sewage treatment apparatus, which comprises at least one water tank, each of the water tanks having a water inlet and a water outlet, wherein adjacent ones of the water tanks are sequentially communicated through a communication pipe; wherein, water outlet department is provided with the filter screen, filter screen department is provided with heating structure, every the inside of water pitcher further is provided with the circulating line, the one end of this circulating line with the delivery port intercommunication, the other end of this circulating line communicate to through the spraying filter screen department, the circulating line is provided with high pressure water pump, filter screen department further is provided with suction nozzle and drain, the suction nozzle with the drain intercommunication, control system, and with heating mechanism with first power structure connects respectively, and its beneficial effect is for can carrying out better processing to fibrous sewage. However, the sewage can be purified only by the filter screen, and some impurities with small volume cannot be effectively removed; and effective precipitation can not be carried out, so that some impurities are always fused in the sewage, and further the part of impurities can not be effectively removed; meanwhile, when the water pressure is high, the filter cannot effectively adapt to some filtering work with high water pressure because the filter cannot perform good pressure reduction buffering operation, so that the filter is easily damaged, the service life of the filter is greatly shortened; and only the filter screen is used for filtering, so the filtering effect is limited.
Therefore, a new technical solution is needed to solve the above technical problems.
Disclosure of Invention
The invention provides an integrated device suitable for industrial sewage treatment, which comprises a precipitation device, a first pipeline device, an impurity recovery device, a first purification device, a second pipeline device, a buffer filtration device, a third pipeline device and a drainage purification device, wherein the precipitation device comprises a feeding frame, a first filter screen, a first supporting block, a first shell, a first bending rod, a first rolling ball and a stirring block, the first pipeline device comprises a first connecting pipe, a first water pump, a first connecting frame and a first cross rod, the impurity recovery device comprises a recovery shell, a second connecting frame, a second cross rod, a discharge pipe, a second valve and a recovery frame, and the integrated device can perform multiple and diversified filtration effects on sewage.
In order to solve the technical problems, the invention adopts the following technical scheme:
the utility model provides an integrated device suitable for industrial sewage treatment, integrated device suitable for industrial sewage treatment is including deposiing the device, being located deposit the first pipe device on device right side, be located deposit the impurity recovery unit of device below, be located first purifier of first pipe device below, accept in second purifier in the first purifier, be located the left second pipe device of first purifier, be located the left buffer filter of second pipe device, be located the third pipe device on buffer filter right side and be located the drainage purifier on third pipe device right side, it includes the feeding frame to deposit the device, accept in the first filter screen in the feeding frame, be located the first supporting block of first filter screen below, be located the first casing of feeding frame below, be located, The first bending rods positioned on the left side and the right side of the first shell are accommodated in the first rolling balls in the first shell, and the stirring blocks are arranged on the first rolling balls, the first pipeline device comprises a first connecting pipe, a first water pump arranged on the first connecting pipe, a first connecting frame positioned on the left side of the first water pump, a first cross rod positioned on the left side of the first connecting frame, a first vertical rod positioned below the first connecting frame, and a first valve arranged on the first connecting pipe, the impurity recovery device comprises a recovery shell, a second connecting frame positioned on the left side of the recovery shell, a second cross rod arranged on the second connecting frame, a discharge pipe positioned below the recovery shell, a second valve arranged on the discharge pipe, a recovery frame positioned below the discharge pipe, a positioning frame positioned on the left side of the recovery frame, and a positioning rod positioned on the right side of the recovery frame, the first purification device comprises a second shell, a first bent plate contained in the second shell, a first top leaning rod contained in the first bent plate, a second filter screen positioned on the left side of the first bent plate, a first spring positioned below the second filter screen, a first baffle positioned on the left side of the first spring, a third filter screen positioned on the left side of the first baffle, a second purification device comprises a concentration frame, a first sponge block positioned below the concentration frame, a fourth filter screen positioned on the left side of the first sponge block, a second spring positioned on the right side of the first sponge block, a third spring positioned on the left side of the fourth filter screen, a second bent plate positioned on the left side of the third spring, a fourth spring positioned above the second bent plate, and a second pipeline device comprising a second connecting pipe, a second water pump arranged on the second connecting pipe, The buffering and filtering device comprises a third shell, a fifth filter screen accommodated in the third shell, first fixed rods positioned on the left side and the right side of the fifth filter screen, a sixth filter screen positioned below the fifth filter screen, a first moving block arranged on the sixth filter screen, a shunting block positioned above the first moving block, a fifth spring positioned below the first moving block, a fifth connecting frame positioned on the right side of the third shell, a second diagonal rod positioned above the fifth connecting frame and a fourth vertical rod positioned on the right side of the second diagonal rod, the third pipeline device comprises a third connecting pipe, a third water pump arranged on the third connecting pipe, a third valve, a sixth connecting frame positioned above the third connecting pipe, a fifth vertical rod positioned below the sixth connecting frame, and a third cross rod positioned below the fifth vertical rod, the drainage purification device comprises a fourth shell, a fourth connecting pipe positioned below the fourth shell, a fourth valve arranged on the fourth connecting pipe, a seventh filter screen accommodated in the fourth shell, a second roller positioned on the right side of the seventh filter screen, a concentration block positioned on the right side of the second roller, an eighth filter screen positioned below the concentration block, a second moving block positioned below the eighth filter screen, a baffle positioned on the right side of the second moving block, and a sixth spring positioned on the right side of the baffle, wherein the first shell is provided with a first through hole and a second through hole, the lower surface of the recycling shell is provided with a third through hole, the second shell is provided with a fourth through hole positioned on the upper surface of the second shell, and the third shell is provided with a fifth through hole positioned on the upper surface of the third shell and a sixth through hole positioned on the lower surface of the third shell.
The feeding frame is hollow round platform form, first filter screen is the level form, the side of first filter screen with the internal fixed surface of feeding frame is connected, first supporting block is the cuboid, the upper surface of first supporting block with the lower fixed surface of first filter screen is connected, first casing is hollow hemisphere, the upper surface of first casing with the lower fixed surface of feeding frame is connected, first spin is globular, first spin accept in the first casing and with the first casing axle is connected, the stirring piece is equipped with a plurality of, stirring piece evenly distributed is in on the first spin and rather than fixed connection.
The upper end of first connecting pipe is aimed at first thru hole and with the surface fixed connection of first casing, first link is the L type, the one end of first link with the surface fixed connection of first casing, the other end of first link with first water pump fixed connection, first horizontal pole is cuboid and level and places, the right-hand member of first horizontal pole with first link fixed connection, first montant is the cuboid, the vertical placing of first montant, the upper end of first montant with the lower fixed surface of first link is connected.
The recycling shell is hollow and is positioned below the second through hole, the upper surface of the recycling shell is fixedly connected with the outer surface of the first shell, the second connecting frame is L-shaped, the upper end of the second connecting frame is fixedly connected with the outer surface of the first shell, the lower end of the second connecting frame is vertical, the second cross rod is cuboid and horizontally arranged, the right end of the second cross rod is fixedly connected with the left surface of the recycling shell, the left end of the second cross rod is fixedly connected with the second connecting frame, the discharge pipe is vertical, the upper end of the discharge pipe is aligned with the third through hole and is fixedly connected with the lower surface of the recycling shell, the recycling frame is hollow and horizontally arranged, the recycling frame is positioned below the discharge pipe, the positioning frame is L-shaped, and the upper end of the positioning frame abuts against the left surface of the recycling frame, the lower extreme of locating rack is vertical form, the locating lever is cuboid and level and places, the right-hand member of locating lever with the left surface fixed connection of first montant, the left end top of locating lever is leaned on retrieve the frame on the right surface, the locating lever with retrieve frame sliding connection.
The second shell is a hollow cuboid and is horizontally placed, the lower end of the first connecting pipe is aligned to the fourth through hole and is fixedly connected with the upper surface of the second shell, the lower end of the first vertical rod is fixedly connected with the upper surface of the second shell, the lower end of the positioning frame is fixedly connected with the upper surface of the second shell, the lower surface of the recovery frame is slidably connected with the upper surface of the second shell, the lower end of the second connecting frame is fixedly connected with the upper surface of the second shell, the first bending plate is bent, the first bending plate is fixedly connected with the inner surface of the second shell, the first jacking rod is horizontally placed, the right end of the first jacking rod is fixedly connected with the inner surface of the second shell, the left end of the first jacking rod is fixedly connected with the first bending plate, the first partition board is a cuboid and is vertically placed, the side of first baffle with the internal surface fixed connection of second casing, the lower extreme of first baffle is equipped with first recess, the second filter screen is crooked form, the upper end of second filter screen with the internal surface fixed connection of second casing just is located the below of fourth thru hole, the lower extreme top of second filter screen is leaned on the right surface of first baffle and rather than sliding connection, first spring is vertical form, the lower extreme of first spring with the internal surface fixed connection of second casing, the upper end of first spring with the lower extreme fixed connection of second filter screen, the third filter screen is cuboid and vertical placing, the lower extreme of third filter screen with the internal surface fixed connection of second casing, the right surface of third filter screen with the left surface fixed connection of first baffle.
The cross section of the concentration frame is in a concave shape, the upper surface of the concentration frame is fixedly connected with the inner surface of the second shell, the first sponge block is cuboid and vertically arranged, the lower surface of the first sponge block is fixedly connected with the inner surface of the second shell, the first sponge block is positioned below the concentration frame, the fourth filter screen is cuboid and vertically arranged, the lower surface of the fourth filter screen is fixedly connected with the inner surface of the second shell, the right surface of the fourth filter screen is fixedly connected with the left surface of the first sponge block, the fourth filter screen is positioned below the concentration frame, the number of the second springs is two, the second springs are horizontal, the left ends of the second springs are fixedly connected with the first sponge block, and the right ends of the second springs are fixedly connected with the left surface of the third filter screen, the third spring is the level form, the right-hand member of third spring with the left fixed surface of fourth filter screen is connected, the left end of third spring with the right fixed surface of the crooked board of second is connected, the crooked board of second is crooked form, the lower extreme of the crooked board of second with the internal fixed surface of second casing is connected, the upper end of fourth spring with the internal fixed surface of second casing is connected, the lower extreme of fourth spring with the crooked board fixed connection of second.
The right end of the second connecting pipe penetrates through the inner surface and the outer surface of the second shell and extends into the second shell, the second connecting pipe is fixedly connected with the second shell, the right end of the second connecting pipe is fixedly connected with the upper surface of the second sponge block, the second sponge block is cuboid and horizontally placed, the lower surface of the second sponge block is fixedly connected with the inner surface of the second shell, the left surface of the second sponge block is fixedly connected with the inner surface of the second shell, the third connecting frame is L-shaped, one end of the third connecting frame is fixedly connected with the second water pump, the other end of the third connecting frame is fixedly connected with the left surface of the second shell, the second vertical rod is vertical, the upper end of the second vertical rod is fixedly connected with the third connecting frame, and the lower end of the second vertical rod is fixedly connected with the fourth connecting frame, the fourth link is the L type, the right-hand member of fourth link with the lower fixed surface of second casing is connected, the left end of fourth link is the level form, first down tube is the slope form, the upper end of first down tube with second casing fixed connection, the lower extreme of first down tube with third link fixed connection, the third montant is vertical form, the upper end of third montant with first down tube fixed connection.
The third shell is a hollow cuboid and is vertically placed, the left end of the second connecting pipe is aligned to the fifth through hole and is fixedly connected with the upper surface of the third shell, the left end of the fourth connecting frame is fixedly connected with the right surface of the third shell, the cross section of the fifth filter screen is in a V shape, the upper surface of the fifth filter screen is fixedly connected with the inner surface of the third shell, the fifth filter screen is positioned below the fifth through hole, two first fixing rods are arranged, the first fixing rods are horizontal, one end of each first fixing rod is fixedly connected with the inner surface of the third shell, the other end of each first fixing rod is fixedly connected with the side surface of the fifth filter screen, the sixth filter screen is placed horizontally and is fixedly connected with the inner surface of the third shell, the sixth filter screen is provided with a seventh through hole penetrating through the upper surface and the lower surface of the sixth filter screen, the first moving block is vertically arranged in a cylindrical manner, the first moving block penetrates through the seventh through hole and is connected with the sixth filter screen in a sliding manner, the shunting block is in a circular truncated cone shape, the lower surface of the shunting block is fixedly connected with the upper surface of the first moving block, two fifth springs are arranged, the fifth spring is vertically arranged, the lower end of the fifth spring is fixedly connected with the inner surface of the third shell, the upper end of the fifth spring is fixedly connected with the lower surface of the first moving block, the fifth connecting frame is in an L shape, the left end of the fifth connecting frame is fixedly connected with the right surface of the third shell, the right end of the fifth connecting frame is vertically arranged, the second inclined rod is inclined, and the upper end of the second inclined rod is fixedly connected with the lower surface of the third connecting frame, the lower extreme of second down tube with the right fixed surface of third casing is connected, the fourth montant is vertical form, the upper end of fourth montant with the lower fixed surface of third link is connected, the lower extreme of fourth montant with the upper fixed surface of fifth link is connected.
The upper end of third connecting pipe is aimed at sixth thru hole and with the lower fixed surface of third casing is connected, the sixth link is the L type, the left end of sixth link with the right fixed surface of fourth montant is connected, the right-hand member of sixth link is vertical form, the fifth montant is vertical form, the upper end of fifth montant with sixth link fixed connection, the lower extreme of fifth montant with third horizontal pole fixed connection, the third horizontal pole is the level form, the right-hand member of third horizontal pole with sixth link fixed connection, the left end of third horizontal pole with fifth link fixed connection.
The fourth shell is a hollow cuboid and is horizontally placed, an eighth through hole positioned on the left surface of the fourth shell and a ninth through hole positioned on the lower surface of the fourth shell are arranged on the fourth shell, the lower end of a third connecting pipe is aligned with the eighth through hole and is fixedly connected with the left surface of the fourth shell, a sixth connecting frame is fixedly connected with the upper surface of the fourth shell, the upper end of the fourth connecting pipe is aligned with the ninth through hole and is fixedly connected with the lower surface of the fourth shell, a seventh filter screen is hollow and hemispherical, the left surface of the seventh filter screen is fixedly connected with the inner surface of the fourth shell, the seventh filter screen is positioned on the right side of the eighth through hole, the second roller is cylindrical and is in shaft rotation connection with the fourth shell, a plurality of convex blocks are arranged on the second roller, and are uniformly distributed on the second roller and are fixedly connected with the second roller, the cross section of the concentration block is in an isosceles trapezoid shape, the upper surface of the concentration block is fixedly connected with the inner surface of the fourth shell, the eighth filter screen is in a cuboid and vertically arranged, the upper surface of the eighth filter screen is fixedly connected with the lower surface of the concentration block, the second moving block is in a cuboid and vertically arranged, the lower surface of the second moving block is slidably connected with the inner surface of the fourth shell, the upper surface of the second moving block is slidably connected with the lower surface of the eighth filter screen, a seventh spring is arranged on the right side of the second moving block, the seventh spring is in a horizontal shape, the left end of the seventh spring is fixedly connected with the second moving block, the right end of the seventh spring is fixedly connected with the left surface of the baffle, the baffle is in a cuboid and vertically arranged, and the lower surface of the baffle is fixedly connected with the inner surface of the fourth shell, the sixth spring is equipped with two, the sixth spring is vertical form, the upper end of sixth spring with the interior fixed surface of fourth casing is connected, the sixth spring is equipped with the ninth filter screen that is located its below, the ninth filter screen is cuboid and level and places, the lower extreme of sixth spring with the last fixed surface of ninth filter screen is connected, the right surface of ninth filter screen with the interior surface sliding connection of fourth casing, the left surface of ninth filter screen with the right surface sliding connection of baffle.
After the technical scheme is adopted, the invention has the following advantages:
the integrated device suitable for industrial sewage treatment provided by the invention has a simple structure, is convenient to use, and can perform multiple and diversified filtering effects on sewage; firstly, impurities with large volume in the sewage can be filtered, the impurities with large volume in the sewage are removed, then the sewage is fully precipitated, the impurities in the sewage are separated out, most of the impurities are deposited at the bottom of the sewage, the collection and treatment of the impurities are convenient, and the precipitated impurities can be collected; then the sewage is filtered in multiple diversification, and the sewage can play a good buffering role when the water pressure is higher, so that the damage to the sewage treatment device is prevented, and the application range of the sewage treatment device is enlarged.
Drawings
The following will further describe the embodiment of the integrated device for industrial wastewater treatment according to the present invention with reference to the accompanying drawings:
FIG. 1 is a schematic structural diagram of an integrated apparatus suitable for industrial wastewater treatment according to the present invention;
in the figure: 1-a precipitation device; 11-a feed frame; 12-a first filter screen; 13-a first support block; 14-a first curved bar; 15-a first housing; 151-a first through aperture; 152-a second through aperture; 16-a first ball; 17-stirring block; 2-a first pipe arrangement; 21-a first connection pipe; 22-a first water pump; 23-a first connecting frame; 24-a first cross bar; 25-a first vertical bar; 26-a first valve; 3-an impurity recovery device; 31-a second connecting frame; 32-a second cross bar; 33-recovering the shell; 331-
A third through aperture; 34-a discharge pipe; 35-a second valve; 36-a recovery frame; 37-a positioning frame; 38-positioning rods; 4-a first purification device; 41-a second housing; 411-fourth through aperture; 42-a first curved plate; 43-a first abutment bar; 44-a first separator; 45-a second filter screen; 441-a first groove; 46-a first spring; 47-a third filter screen; 5-a second purification device; 51-a focus box;
52-first sponge block; 53-a fourth filter screen; 54-a second spring; 55-a third spring; 56-second curved plate; 57-a fourth spring; 6-a second pipe arrangement; 61-a second connecting tube; 62-
A second water pump; 63-a second sponge block; 64-a third link frame; 65-a second vertical bar; 66-a fourth link; 67-a first diagonal; 68-third vertical bar; 7-a buffer filtration device; 71-a third housing; 711-fifth through hole; 712-a sixth through aperture; 72-fifth strainer; 73-a first fixing bar; 74-a sixth filter screen; 741-a seventh through aperture; 75-a first moving mass; 76-a shunting block; 77-fifth spring; 78-a fifth link; 79-second diagonal; 70-a fourth vertical bar; 8-a third pipe arrangement; 81-third connecting pipe; 82-a third water pump; 83-a third valve; 84-sixth link; 85-a second vertical bar; 86-a third cross bar; 9-a drain water purification device; 91-a fourth housing; 911-eighth through aperture; 912-ninth through aperture; 92-a fourth connecting tube; 93-a fourth valve; 94-a seventh filter screen; 95-a second roller; 951-a bump; 96-a concentration block; 97-eighth filter screen; 98-a baffle; 99-a sixth spring; 991-the ninth filter screen; 90 a second moving block; 901-seventh spring.
Detailed Description
As shown in fig. 1, the integrated device for industrial wastewater treatment according to the present invention includes a precipitation device 1, a first pipeline device 2 located on the right side of the precipitation device 1, an impurity recovery device 3 located below the precipitation device 1, a first purification device 4 located below the first pipeline device 2, a second purification device 5 housed in the first purification device 4, a second pipeline device 6 located on the left side of the first purification device 4, a buffer filtration device 7 located on the left side of the second pipeline device 6, a third pipeline device 8 located on the right side of the buffer filtration device 7, and a drainage purification device 9 located on the right side of the third pipeline device 8.
As shown in fig. 1, the settling device 1 includes a feeding frame 11, a first filter screen 12 accommodated in the feeding frame 11, a first support block 13 located below the first filter screen 12, a first housing 15 located below the feeding frame 11, first bending rods 14 located at the left and right sides of the first housing 15, a first rolling ball 16 accommodated in the first housing 15, and a plurality of stirring blocks 17 arranged on the first rolling ball 16. The feeding frame 11 is in a hollow round table shape, and the upper surface and the lower surface of the feeding frame 11 are communicated. The first filter screen 12 is horizontal, and the side surface of the first filter screen 12 is fixedly connected with the inner surface of the feeding frame 11. First supporting block 13 is the cuboid, the upper surface of first supporting block 13 with the lower surface fixed connection of first filter screen 12. The first casing 15 is a hollow hemisphere, the upper surface of the first casing 15 is fixedly connected to the lower surface of the feeding frame 11, so that the inside of the feeding frame 11 is communicated with the inside of the first casing 15, the first casing 15 is provided with a first through hole 151 and a second through hole 152, and the first through hole 151 and the second through hole 152 are communicated with the inside of the first casing 15. The first rolling ball 16 is spherical, the first rolling ball 16 is accommodated in the first housing 15 and is pivotally connected to the first housing 15, so that the first rolling ball 16 can rotate in the first housing 15, and the first rolling ball 16 is connected to a driving device, such as a motor, which can drive the first rolling ball 16 to actively rotate. Stirring piece 17 is equipped with a plurality of, stirring piece 17 evenly distributed is in on the first spin 16 and rather than fixed connection, when first spin 16 was rotatory, stirring piece 17 can be strikeed first supporting block 13 to can drive first supporting block 13 and first filter screen 12 vibration, prevent that first filter screen 12 from blockking up.
As shown in fig. 1, the first pipe device 2 includes a first connection pipe 21, a first water pump 22 disposed on the first connection pipe 21, a first connection frame 23 located on the left side of the first water pump 22, a first cross bar 24 located on the left side of the first connection frame 23, a first vertical bar 25 located below the first connection frame 23, and a first valve 26 disposed on the first connection pipe 21. The upper end of the first connecting tube 21 is aligned with the first through hole 151 and fixedly connected with the outer surface of the first housing 15 such that the interior of the first connecting tube 21 communicates with the interior of the first housing 15. The first water pump 22 is electrically connected to a power source, so that the first water pump 22 can operate normally. The first connecting frame 23 is L-shaped, one end of the first connecting frame 23 is fixedly connected with the outer surface of the first casing 15, and the other end of the first connecting frame 23 is fixedly connected with the first water pump 22, so that the first water pump 22 is fixed. First horizontal pole 24 is the cuboid and the level is placed, the right-hand member of first horizontal pole 24 with first link 23 fixed connection. The first vertical rod 25 is a cuboid, the first vertical rod 25 is vertically placed, and the upper end of the first vertical rod 25 is fixedly connected with the lower surface of the first connecting frame 23.
As shown in fig. 1, the impurity collecting device 3 includes a collecting case 33, a second link frame 31 positioned on the left side of the collecting case 33, a second cross bar 32 provided on the second link frame 31, a discharge pipe 34 positioned below the collecting case 33, a second valve 35 provided on the discharge pipe 34, a collecting frame 36 positioned below the discharge pipe 34, a positioning frame 37 positioned on the left side of the collecting frame 36, and a positioning rod 38 positioned on the right side of the collecting frame 36. The recycling shell 33 is hollow, the recycling shell 33 is located below the second through hole 152, the upper surface of the recycling shell 33 is fixedly connected with the outer surface of the first shell 15, so that the interior of the recycling shell 33 is communicated with the interior of the first shell 15, the lower surface of the recycling shell 33 is provided with a third through hole 331, and the third through hole 331 is circular. The second connecting frame 31 is L-shaped, the upper end of the second connecting frame 31 is fixedly connected with the outer surface of the first shell 15, and the lower end of the second connecting frame 31 is vertical. Second horizontal pole 32 is cuboid and level and places, the right-hand member of second horizontal pole 32 with retrieve the left surface fixed connection of shell 33, the left end of second horizontal pole 32 with second link 31 fixed connection. The discharge pipe 34 is vertically formed, and the upper end of the discharge pipe 34 is aligned with the third through hole 331 and is fixedly connected to the lower surface of the recovery casing 33, so that the inside of the discharge pipe 34 communicates with the inside of the recovery casing 33. Retrieve frame 36 and be hollow cuboid and level placement, retrieve frame 36's cross section and personally submit the character cut in bas-relief, retrieve frame 36 and be located the below of discharge pipe 34. The locating rack 37 is L-shaped, the upper end of the locating rack 37 is abutted against the left surface of the recovery frame 36, and the lower end of the locating rack 37 is vertical. The positioning rod 38 is a cuboid and is horizontally arranged, the right end of the positioning rod 38 is fixedly connected with the left surface of the first vertical rod 25, the left end of the positioning rod 38 abuts against the right surface of the recovery frame 36, and the positioning rod 38 is slidably connected with the recovery frame 36.
As shown in fig. 1, the first purification apparatus 4 includes a second casing 41, a first curved plate 42 housed in the second casing 41, a first abutting rod 43 housed in the first curved plate 42, a second filter 45 located on the left side of the first curved plate 42, a first spring 46 located below the second filter 45, a first partition 44 located on the left side of the first spring 46, and a third filter 47 located on the left side of the first partition 44. The second housing 41 is a hollow cuboid and is horizontally placed, the second housing 41 is provided with a fourth through hole 411 located on the upper surface of the second housing, the fourth through hole 411 is circular, the lower end of the first connecting pipe 21 is aligned with the fourth through hole 411 and is fixedly connected with the upper surface of the second housing 41, so that the inside of the first connecting pipe 21 is communicated with the inside of the second housing 41 through the fourth through hole 411, the lower end of the first vertical rod 25 is fixedly connected with the upper surface of the second housing 41, the lower end of the positioning frame 37 is fixedly connected with the upper surface of the second housing 41, the lower surface of the recycling frame 36 is slidably connected with the upper surface of the second housing 41, and the lower end of the second connecting frame 31 is fixedly connected with the upper surface of the second housing 41. The first curved plate 42 is curved, and the first curved plate 42 is fixedly connected to the inner surface of the second housing 41 and forms a closed space with the inner surface of the second housing 41. The first leaning rod 43 is horizontal, the right end of the first leaning rod 43 is fixedly connected with the inner surface of the second shell 41, and the left end of the first leaning rod 43 is fixedly connected with the first bending plate 42, so that the first bending plate 42 is supported. First baffle 44 is cuboid and vertical the placing, the side of first baffle 44 with the internal surface fixed connection of second casing 41, and can with the inner space of second casing 41 divides into two parts about, the lower extreme of first baffle 44 is equipped with first recess 441, first recess 441 is the cuboid form. The second filter screen 45 is curved, the upper end of the second filter screen 45 is fixedly connected with the inner surface of the second housing 41 and is located below the fourth through hole 411, the lower end of the second filter screen 45 is abutted against the right surface of the first partition plate 44 and is slidably connected with the right surface of the first partition plate, and the second filter screen 45 is made of an elastic material, so that the second filter screen 45 can elastically deform. First spring 46 is vertical form, first spring 46's lower extreme with the internal surface fixed connection of second casing 41, first spring 46's upper end with the lower extreme fixed connection of second filter screen 45, thus it is right second filter screen 45 plays the supporting role, makes the lower extreme of second filter screen 45 can be inseparable the top lean on the right surface of first baffle 44. Third filter screen 47 is cuboid and vertical the placing, third filter screen 47 the lower extreme with the internal surface fixed connection of second casing 41, third filter screen 47 the right surface with the left surface fixed connection of first baffle 44, third filter screen 47 blocks first recess 441 to make the water on first baffle 44 right side must pass through the filtration of third filter screen 47.
As shown in fig. 1, the second purification apparatus 5 includes a concentration frame 51, a first sponge block 52 located below the concentration frame 51, a fourth filter 53 located on the left side of the first sponge block 52, a second spring 54 located on the right side of the first sponge block 52, a third spring 55 located on the left side of the fourth filter 53, a second curved plate 56 located on the left side of the third spring 55, and a fourth spring 57 located above the second curved plate 56. The cross section of the concentration frame 51 is in a concave shape, and the upper surface of the concentration frame 51 is fixedly connected with the inner surface of the second shell 41. The first sponge block 52 is cuboid and vertically arranged, the lower surface of the first sponge block 52 is fixedly connected with the inner surface of the second shell 41, and the first sponge block 52 is located below the concentration frame 51. Fourth filter screen 53 is cuboid and vertical the placing, fourth filter screen 53's lower surface with the internal surface fixed connection of second casing 41, fourth filter screen 53's right surface with the left surface fixed connection of first sponge piece 52, fourth filter screen 53 is located the below of concentrated frame 51. Two second springs 54 are provided, the second springs 54 are horizontal,
the left end of the second spring 54 is fixedly connected with the first sponge block 52, and the right end of the second spring 54 is fixedly connected with the left surface of the third filter screen 47, so that the third filter screen 47 is supported. The third spring 55 is horizontal, the right end of the third spring 55 is fixedly connected with the left surface of the fourth filter screen 53, and the left end of the third spring 55 is fixedly connected with the right surface of the second bending plate 56, so that the fourth filter screen 53 is supported. The second bending plate 56 is bent, a lower end of the second bending plate 56 is fixedly connected to an inner surface of the second housing 41, front and rear surfaces of the second bending plate 56 are slidably connected to the inner surface of the second housing 41, and the second bending plate 56 is made of an elastic material, so that an upper end of the second bending plate 56 can be bent left and right. The upper end of the fourth spring 57 is fixedly connected to the inner surface of the second housing 41, and the lower end of the fourth spring 57 is fixedly connected to the second bending plate 56, so as to support the second bending plate 56.
As shown in fig. 1, the second pipe device 6 includes a second connecting pipe 61, a second water pump 62 disposed on the second connecting pipe 61, a second sponge block 63 located at one end of the second connecting pipe 61, a third connecting frame 64 located below the second water pump 62, a second vertical rod 65 located below the third connecting frame 64, a fourth connecting frame 66 located below the second vertical rod 65, a first diagonal rod 67 located on the right side of the fourth connecting frame 66, and a third vertical rod 68 located below the first diagonal rod 67. The right end of the second connecting pipe 61 penetrates through the inner and outer surfaces of the second casing 41 and extends into the second casing 41, the second connecting pipe 61 is fixedly connected with the second casing 41, and the right end of the second connecting pipe 61 is fixedly connected with the upper surface of the second sponge block 63. The second sponge block 63 is a cuboid and is horizontally placed, the lower surface of the second sponge block 63 is fixedly connected with the inner surface of the second casing 41, and the left surface of the second sponge block 63 is fixedly connected with the inner surface of the second casing 41. The second water pump 62 is connected to a power source so that the second water pump 62 can be normally operated. The third connecting frame 64 is L-shaped, one end of the third connecting frame 64 is fixedly connected to the second water pump 62, and the other end of the third connecting frame 64 is fixedly connected to the left surface of the second housing 41. The second vertical rod 65 is vertical, the upper end of the second vertical rod 65 is fixedly connected with the third connecting frame 64, and the lower end of the second vertical rod 65 is fixedly connected with the fourth connecting frame 66. The fourth connecting frame 66 is L-shaped, the right end of the fourth connecting frame 66 is fixedly connected with the lower surface of the second housing 41, and the left end of the fourth connecting frame 66 is horizontal. The first inclined rod 67 is inclined, the upper end of the first inclined rod 67 is fixedly connected with the second shell 41, and the lower end of the first inclined rod 67 is fixedly connected with the third connecting frame 66. The third vertical rod 68 is vertical, and the upper end of the third vertical rod 68 is fixedly connected with the first inclined rod 67.
As shown in fig. 1, the buffering filter device 7 includes a third housing 71, a fifth filter screen 72 accommodated in the third housing 71, first fixing rods 73 located on the left and right sides of the fifth filter screen 72, a sixth filter screen 74 located below the fifth filter screen 72, a first moving block 75 disposed on the sixth filter screen 74, a diverting block 76 located above the first moving block 75, a fifth spring 77 located below the first moving block 75, a fifth connecting frame 78 located on the right side of the third housing 71, a second diagonal rod 79 located above the fifth connecting frame 78, and a fourth vertical rod 70 located on the right side of the second diagonal rod 79. The third housing 71 is a hollow cuboid and is vertically disposed, the third housing 71 is provided with a fifth through hole 711 located on the upper surface thereof and a sixth through hole 712 located on the lower surface thereof, the fifth through hole 711 and the sixth through hole 712 are circular and are communicated with the inside of the third housing 71, the left end of the second connecting pipe 61 is aligned with the fifth through hole 711 and is fixedly connected with the upper surface of the third housing 71, so that the inside of the second connecting pipe 61 is communicated with the inside of the third housing 71, and the left end of the fourth connecting frame 66 is fixedly connected with the right surface of the third housing 71. The cross section of the fifth filter screen 72 is in a V shape, the upper surface of the fifth filter screen 72 is fixedly connected with the inner surface of the third housing 71, and the fifth filter screen 72 is located below the fifth through hole 711. The number of the first fixing rods 73 is two, the first fixing rods 73 are horizontal, one end of each first fixing rod 73 is fixedly connected with the inner surface of the third shell 71, and the other end of each first fixing rod 73 is fixedly connected with the side surface of the fifth filter screen 72, so that the fifth filter screen 72 is supported. The sixth filter 74 is a cuboid and is horizontally disposed, a side surface of the sixth filter 74 is fixedly connected with an inner surface of the third housing 71, a seventh through hole 741 penetrating through upper and lower surfaces of the sixth filter 74 is provided, and the seventh through hole 741 is circular. The first moving block 75 is a cylinder and is vertically disposed, and the first moving block 75 passes through the seventh through hole 741 and is slidably connected to the sixth filter 74, so that the first moving block 75 can move up and down. The shunting block 76 is in a circular truncated cone shape, and the lower surface of the shunting block 76 is fixedly connected with the upper surface of the first moving block 75. Two fifth springs 77 are provided, the fifth springs 77 are vertical, the lower ends of the fifth springs 77 are fixedly connected with the inner surface of the third housing 71, and the upper ends of the fifth springs 77 are fixedly connected with the lower surface of the first moving block 75, so as to support the first moving block 75. The fifth connecting frame 78 is L-shaped, the left end of the fifth connecting frame 78 is fixedly connected with the right surface of the third casing 71, and the right end of the fifth connecting frame 78 is vertical. The second inclined rod 79 is inclined, the upper end of the second inclined rod 79 is fixedly connected with the lower surface of the third connecting frame 66, and the lower end of the second inclined rod 79 is fixedly connected with the right surface of the third shell 71. The fourth vertical rod 70 is vertical, the upper end of the fourth vertical rod 70 is fixedly connected to the lower surface of the third connecting frame 66, and the lower end of the fourth vertical rod 70 is fixedly connected to the upper surface of the fifth connecting frame 78.
As shown in fig. 1, the third pipe device 8 includes a third connecting pipe 81, a third water pump 82 disposed on the third connecting pipe 81, a third valve 83, a sixth connecting frame 84 located above the third connecting pipe 81, a fifth vertical rod 85 located below the sixth connecting frame 84, and a third cross rod 86 located below the fifth vertical rod 85. The upper end of the third connection pipe 81 is aligned with the sixth through hole 712 and is fixedly connected to the lower surface of the third housing 71 such that the inside of the third connection pipe 81 communicates with the inside of the third housing 71. The third water pump 82 is electrically connected to a power source, so that the third water pump can work normally. The sixth connecting frame 84 is L-shaped, the left end of the sixth connecting frame 84 is fixedly connected with the right surface of the fourth vertical rod 70, and the right end of the sixth connecting frame 84 is vertical. The fifth vertical rod 85 is vertical, the upper end of the fifth vertical rod 85 is fixedly connected with the sixth connecting frame 84, and the lower end of the fifth vertical rod 85 is fixedly connected with the third cross rod 86. The third cross bar 86 is horizontal, the right end of the third cross bar 86 is fixedly connected with the sixth connecting frame 84, and the left end of the third cross bar 86 is fixedly connected with the fifth connecting frame 78.
As shown in fig. 1, the drain purifier 9 includes a fourth casing 91, a fourth connection pipe 92 located below the fourth casing 91, a fourth valve 93 provided on the fourth connection pipe 92, a seventh filter 94 housed in the fourth casing 91, a second roller 95 located on the right side of the seventh filter 94, a concentration block 96 located on the right side of the second roller 95, an eighth filter 97 located below the concentration block 96, a second moving block 90 located below the eighth filter 97, a baffle 98 located on the right side of the second moving block 90, and a sixth spring 99 located on the right side of the baffle 98. The fourth housing 91 is a hollow cuboid and is horizontally disposed, the fourth housing 91 is provided with an eighth through hole 911 located on a left surface thereof and a ninth through hole 912 located on a lower surface thereof, a lower end of the third connecting pipe 81 is aligned with the eighth through hole 911 and is fixedly connected with the left surface of the fourth housing 91, so that the inside of the third connecting pipe 81 is communicated with the inside of the fourth housing 91, and the sixth connecting frame 84 is fixedly connected with an upper surface of the fourth housing 91. The upper end of the fourth connection pipe 92 is aligned with the ninth through hole 912 and is fixedly connected to the lower surface of the fourth housing 91 such that the inside of the fourth connection pipe 92 communicates with the inside of the fourth housing 91. The seventh filter 94 is in the shape of a hollow hemisphere, the left surface of the seventh filter 94 is fixedly connected with the inner surface of the fourth housing 91, and the seventh filter 94 is located at the right side of the eighth through hole 911. The second roller 95 is a cylinder, the second roller 95 is pivotally connected to the fourth housing 91, so that the second roller 95 can rotate in the fourth housing 91, the second roller 95 is connected to a motor, the second roller 95 is driven to rotate, a plurality of bumps 951 are disposed on the second roller 95, and the bumps 951 are uniformly distributed on the second roller 95 and are fixedly connected to the second roller 95. The cross section of the concentration block 96 is isosceles trapezoid, and the upper surface of the concentration block 96 is fixedly connected with the inner surface of the fourth shell 91. Eighth filter screen 97 is cuboid and vertical the placing, eighth filter screen 97's upper surface with the lower surface fixed connection of concentrated piece 96. The second moving block 90 is a rectangular parallelepiped and is vertically disposed, the lower surface of the second moving block 90 is slidably connected to the inner surface of the fourth housing 91, the upper surface of the second moving block 90 is slidably connected to the lower surface of the eighth filter 97, so that the second moving block 90 can move left and right, a seventh spring 901 is disposed on the right side of the second moving block 90, the seventh spring 901 is horizontal, the left end of the seventh spring 901 is fixedly connected to the second moving block 90, and the right end of the seventh spring 901 is fixedly connected to the left surface of the baffle plate 98, so as to support the second moving block 90. Baffle 98 is the cuboid and vertical the placing, the lower surface of baffle 98 with the internal surface fixed connection of fourth casing 91, the front and back surface of baffle 98 with the internal surface fixed connection of fourth casing 91. Sixth spring 99 is equipped with two, sixth spring 99 is vertical form, the upper end of sixth spring 99 with the internal surface fixed connection of fourth casing 91, sixth spring 99 is equipped with the ninth filter screen 991 that is located its below, ninth filter screen 991 is cuboid and level and places, the lower extreme of sixth spring 99 with the last fixed surface of ninth filter screen 991 is connected, the right surface of ninth filter screen 991 with the internal surface sliding connection of fourth casing 91, the left surface of ninth filter screen 991 with the right surface sliding connection of baffle 98 makes ninth filter screen 991 can reciprocate.
As shown in fig. 1, when the integrated device for industrial sewage treatment provided by the present invention is used, firstly, sewage is poured from the feeding frame 11, the sewage enters the first housing 15 after being filtered by the first filter 12, and impurities with large volume in the sewage are filtered and concentrated on the first filter 12. Then start the drive arrangement who is connected with first spin 16, make first spin 16 is rotatory, simultaneously stirring piece 17 is rotatory thereupon, thereby can strike first supporting block 13, makes first supporting block 13 constantly reciprocates, and then can drive first filter screen 12 constantly reciprocates for first filter screen 12 is to the filtration of sewage, can prevent simultaneously that first filter screen 12 from blockking up, and can stir the sewage in the first casing 15, conveniently deposits it. After all the sewage enters the first shell 15, the motor connected with the first rolling ball 16 is turned off, so that the first rolling ball 16 does not rotate any more, and the sewage in the first shell 15 begins to precipitate. After a period of settling time, impurities in the sewage are settled out and settle to the bottom of the water, i.e., within the recovery housing 33. After the recycling shell 33 is fully deposited with impurities, the first valve 26 is opened, and the first water pump 22 is started, so that the water in the first housing 15 is pumped into the first connecting pipe 21, and only the water higher than the first through hole 151 in the first housing 15 can enter the first connecting pipe 21, at this time, the driving device connected with the first rolling ball 16 is started, so that the first rolling ball 16 slowly rotates counterclockwise, so that the water is driven to flow to the first through hole 151, and then continuously enters the first connecting pipe 21. When the impurities in the recycling shell 33 need to be removed, the second valve 35 is opened, so that the impurities in the recycling shell 33 enter the discharge pipe 34 and then enter the recycling frame 36, the impurities are conveniently recycled, and meanwhile, the impurities can be prevented from being driven to the first through hole 151 by the first rolling ball 16. Sewage is in the process the filtration of second filter screen 45, when water pressure is great, the first spring 46 of water pressure compression, the left end downstream of second filter screen 45, sewage can be followed second filter screen 45 with flow to the below between the first baffle 44 to make things convenient for sewage to flow through fast, reduce water pressure, play the effect of buffering. The sewage entering the lower part of the second filter screen 45 enters the left side of the second filter screen after passing through the first groove 441 and the third filter screen 47, and can slowly enter the left side of the second filter screen after passing through the first sponge block 52 and the fourth filter screen 53, when the sewage is filtered slowly and the water flow is large, the sewage can flow through the first sponge block 52 and the concentration frame 51 and then is concentrated on the right side of the second bending plate 56, the effect of pressure reduction and buffering can be achieved, and the filter screens are well protected. Then, the sewage enters the left side of the second bending plate 56 through the upper side of the second bending plate 56, when the sewage on the right side of the second bending plate 56 is more, the second bending plate 56 bends to the left side, and the sewage can enter the left side of the second bending plate 56 through the upper side thereof as soon as possible. Then start second water pump 62 for the left sewage of second crooked board 56 is quick after the filtration of second sponge piece 63 enters into in the second connecting pipe 61, then enters into in the third casing 71, enters into after the filtration of fifth filter screen 72 the below of fifth filter screen 72, impurity accumulation in the sewage is in the bottom of fifth filter screen 72 top to its both sides still can effectual filtration that carries out, guarantee its filterable effective going on, prolong its life. The sewage filtered by the fifth filter 72 enters the lower part of the fifth filter, and then enters the lower part of the sixth filter 74 after being filtered, when the water flow is large and the water pressure is large, the first moving block 75 compresses the fifth spring 77 and moves downward until the fifth spring is separated from the seventh through hole 741, that is, the sewage rapidly flows to the lower part of the sixth filter 74 through the seventh through hole 741 between the first moving block 75 and the sixth filter 74, so that the flow of the water flow can be decomposed, the pressure reduction and buffering are performed, the sixth filter 74 is protected by buffering, the smooth filtering of the sewage can be ensured, and the filtered sewage enters the third connecting pipe 81. Then, the third water pump 82 is started, and the third valve 83 is opened, so that the water in the third connection pipe 81 enters the fourth housing 91, is filtered by the seventh filter 94, and then enters the right side thereof. The motor that is connected with second gyro wheel 95 is started, makes second gyro wheel 95 clockwise rotation, and then drives lug 951 is rotatory thereupon to can stir the filterable sewage through seventh filter screen 94, prevent that it from directly striking eighth filter screen 97 is last, causes the damage to eighth filter screen 97. Then, the filtered sewage enters the right side of the eighth filter screen 97 after being filtered by the eighth filter screen 97, when the water pressure is still high, the second moving block 90 moves rightwards, the seventh spring 901 is compressed until the second moving block 90 moves to the right side of the eighth filter screen 97, and then the sewage rapidly passes through a gap between the second moving block 90 and the eighth filter screen 97, so that the functions of pressure reduction and buffering can be achieved, and rapid passing of water flow is guaranteed. Then, the filtered sewage enters the right side of the baffle 98 through the upper side thereof, and then enters the fourth connecting pipe 92 after being filtered by the ninth filter screen 991, and the fourth valve 93 is opened, so that the sewage is discharged from the fourth connecting pipe 92, and then the next process can be performed. So far, the use process of the integrated device suitable for industrial sewage treatment provided by the invention is described.
The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.
Claims (8)
1. The utility model provides an integrated device suitable for industrial sewage treatment, includes sediment device (1), is located first pipe device (2) on sediment device (1) right side, is located impurity recovery unit (3) of sediment device (1) below, is located first purifier (4) of first pipe device (2) below, accept in second purifier (5) in first purifier (4), be located left second pipe device (6) of first purifier (4), be located left buffer filter (7) of second pipe device (6), be located third pipe device (8) on buffer filter (7) right side and be located drainage purifier (9) on third pipe device (8) right side which characterized in that: the sedimentation device (1) comprises a feeding frame (11), a first filter screen (12) accommodated in the feeding frame (11), a first support block (13) positioned below the first filter screen (12), a first shell (15) positioned below the feeding frame (11), first bending rods (14) positioned at the left side and the right side of the first shell (15), a first rolling ball (16) accommodated in the first shell (15), and a plurality of stirring blocks arranged on the first rolling ball (16), wherein a first through hole (151) and a second through hole (152) are formed in the first shell (15); the first pipeline device (2) comprises a first connecting pipe (21), a first water pump (22) arranged on the first connecting pipe (21), a first connecting frame (23) positioned on the left side of the first water pump (22), a first cross rod (24) positioned on the left side of the first connecting frame (23), a first vertical rod (25) positioned below the first connecting frame (23) and a first valve arranged on the first connecting pipe (21); the first purification device (4) comprises a second shell (41), a first bent plate (42) accommodated in the second shell (41), a first abutting rod (43) accommodated in the first bent plate (42), a second filter screen (45) positioned on the left side of the first bent plate (42), a first spring (46) positioned below the second filter screen (45), a first partition plate (44) positioned on the left side of the first spring (46) and a third filter screen positioned on the left side of the first partition plate (44), wherein a fourth through hole (411) positioned on the upper surface of the second shell (41) is formed in the second shell (41); the drainage purification device (9) comprises a fourth shell (91), a fourth connecting pipe (92) positioned below the fourth shell (91), a fourth valve (93) arranged on the fourth connecting pipe (92), a seventh filter screen (94) accommodated in the fourth shell (91), a second roller (95) positioned on the right side of the seventh filter screen (94), a concentration block (96) positioned on the right side of the second roller (95), an eighth filter screen (97) positioned below the concentration block (96), a second moving block (90) positioned below the eighth filter screen (97), a baffle (98) positioned on the right side of the second moving block (90) and a sixth spring (99) positioned on the right side of the baffle (98);
the impurity recovery device (3) comprises a recovery shell (33), a second connecting frame (31) positioned on the left side of the recovery shell (33), a second cross rod (32) arranged on the second connecting frame (31), a discharge pipe (34) positioned below the recovery shell (33), a second valve (35) arranged on the discharge pipe (34), a recovery frame (36) positioned below the discharge pipe (34), a positioning frame (37) positioned on the left side of the recovery frame (36) and a positioning rod positioned on the right side of the recovery frame (36), wherein a third through hole (331) is formed in the lower surface of the recovery shell (33);
second casing (41) are hollow cuboid and level and place, the lower extreme of first connecting pipe (21) is aimed at fourth thru hole (411) and with the last fixed surface of second casing (41) is connected, the lower extreme of first montant (25) with the last fixed surface of second casing (41) is connected, the lower extreme of locating rack (37) with the last fixed surface of second casing (41) is connected, retrieve the lower surface of frame (36) with the last sliding surface of second casing (41) is connected, the lower extreme of second link (31) with the last fixed surface of second casing (41) is connected.
2. The integrated apparatus for industrial sewage treatment according to claim 1, wherein: the upper end of first connecting pipe (21) is aimed at first thru hole (151) and with the surface fixed connection of first casing (15), first link (23) are the L type, the one end of first link (23) with the surface fixed connection of first casing (15), the other end of first link (23) with first water pump (22) fixed connection, first horizontal pole (24) are cuboid and level and place, the right-hand member of first horizontal pole (24) with first link (23) fixed connection, first montant (25) are the cuboid, first montant (25) are vertical to be placed, the upper end of first montant (25) with the lower fixed connection of first link (23).
3. The integrated apparatus for industrial sewage treatment according to claim 1, wherein: first crooked board (42) are the crook, first crooked board (42) with the internal surface fixed connection of second casing (41), first top is leaned on pole (43) to be the level form, the right-hand member that first top was leaned on pole (43) with the internal surface fixed connection of second casing (41), the left end that first top was leaned on pole (43) with first crooked board (42) fixed connection, first baffle (44) are the cuboid and vertically place, the side of first baffle (44) with the internal surface fixed connection of second casing (41), the lower extreme of first baffle (44) is equipped with first recess (441), second filter screen (45) are the crook, the upper end of second filter screen (45) with the internal surface fixed connection of second casing (41) and be located the below of fourth thru hole (411), the lower extreme top of second filter screen (45) is leaned on the right surface of first baffle (44) and rather than the slip And (4) connecting.
4. The integrated apparatus for industrial sewage treatment according to claim 1, wherein: first spring (46) are vertical form, the lower extreme of first spring (46) with the internal surface fixed connection of second casing (41), the upper end of first spring (46) with the lower extreme fixed connection of second filter screen (45), third filter screen (47) are cuboid and vertical the placing, the lower extreme of third filter screen (47) with the internal surface fixed connection of second casing (41), the right surface of third filter screen (47) with the left fixed surface connection of first baffle (44).
5. The integrated apparatus for industrial sewage treatment according to claim 1, wherein: sixth spring (99) is equipped with two, sixth spring (99) is vertical form, the upper end of sixth spring (99) with the interior fixed surface connection of fourth casing (91), sixth spring (99) are equipped with ninth filter screen (991) that is located its below, ninth filter screen (991) is cuboid and level and places, the lower extreme of sixth spring (99) with the last fixed surface connection of ninth filter screen (991), the right surface of ninth filter screen (991) with the interior surface sliding connection of fourth casing (91), the left surface of ninth filter screen (991) with the right surface sliding connection of baffle (98).
6. The integrated apparatus for industrial sewage treatment according to claim 1, wherein: the second purification device (5) comprises a concentration frame (51), a first sponge block (52) located below the concentration frame (51), a fourth filter screen (53) located on the left side of the first sponge block (52), a second spring (54) located on the right side of the first sponge block (52), a third spring (55) located on the left side of the fourth filter screen (53), a second bent plate (56) located on the left side of the third spring (55), and a fourth spring (57) located above the second bent plate (56).
7. The integrated apparatus for industrial sewage treatment according to claim 1, wherein: the second pipeline device (6) comprises a second connecting pipe (61), a second water pump (62) arranged on the second connecting pipe (61), a second sponge block (63) positioned at one end of the second connecting pipe (61), a third connecting frame (64) positioned below the second water pump (62), a second vertical rod (65) positioned below the third connecting frame (64), a fourth connecting frame (66) positioned below the second vertical rod (65), a first inclined rod (67) positioned on the right side of the fourth connecting frame (66), and a third vertical rod (68) positioned below the first inclined rod (67).
8. The integrated apparatus for industrial sewage treatment according to claim 1, wherein: the buffer filtering device (7) comprises a third shell (71), a fifth filter screen (72) accommodated in the third shell (71), first fixing rods (73) positioned at the left side and the right side of the fifth filter screen (72), a sixth filter screen (74) positioned below the fifth filter screen (72), a first moving block (75) arranged on the sixth filter screen (74), a flow dividing block (76) positioned above the first moving block (75), a fifth spring (77) positioned below the first moving block (75), a fifth connecting frame (78) positioned at the right side of the third shell (71), a second inclined rod (79) positioned above the fifth connecting frame (78) and a fourth vertical rod (70) positioned at the right side of the second inclined rod (79), the third shell (71) is provided with a fifth through hole (711) positioned on the upper surface of the third shell and a sixth through hole (712) positioned on the lower surface of the third shell.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810707206.6A CN108771909B (en) | 2016-09-30 | 2016-09-30 | Integrated device suitable for industrial sewage treatment |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CN201610866560.4A CN106345175B (en) | 2016-09-30 | 2016-09-30 | A kind of integrated apparatus suitable for Industrial Waste Water Treatments |
CN201810707206.6A CN108771909B (en) | 2016-09-30 | 2016-09-30 | Integrated device suitable for industrial sewage treatment |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201610866560.4A Division CN106345175B (en) | 2016-09-30 | 2016-09-30 | A kind of integrated apparatus suitable for Industrial Waste Water Treatments |
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