CN214936537U - Modular industrial water purifier - Google Patents
Modular industrial water purifier Download PDFInfo
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- CN214936537U CN214936537U CN202121169310.8U CN202121169310U CN214936537U CN 214936537 U CN214936537 U CN 214936537U CN 202121169310 U CN202121169310 U CN 202121169310U CN 214936537 U CN214936537 U CN 214936537U
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Abstract
The utility model discloses a modular industrial water purifier, including first filtering area, the second filtering area, the third filtering area, clean water tank and equipment storehouse, all be provided with in first filtering area and the second filtering area and filter material subassembly, the bottom of first filtering area and the bottom of second filtering area are through first apopore intercommunication, the top intercommunication of overflow hole and third filtering area is passed through to the second filtering area, be provided with assembled filtering component in the third filtering area, assembled filtering component loops through the product water pipe, the product water pump is connected with clean water tank, the product water pump sets up in equipment storehouse. The utility model discloses a modular structure, easy and simple to handle, practicality are strong, do not throw any water purification medicament to in the water, do not have secondary pollution, mud production volume to the water and extremely low, and go out the water retrieval and utilization, practice thrift the valuable water resource, have extensive application prospect.
Description
Technical Field
The utility model relates to an environmental science and engineering field, concretely relates to modular industrial water purifier is suitable for but not limited to and contains turbidity industrial waste water treatment and reuse of reclaimed water.
Background
With the rapid development of industry, the types and the amount of wastewater, sewage and waste liquid (containing industrial production materials, intermediate products and pollutants generated in the production process which are lost along with water) generated in the industrial production process are rapidly increased, the pollution to water is also becoming wide and serious day by day, and the health and the safety of human beings are threatened. The treatment of industrial waste water is more important than the treatment of municipal sewage for environmental protection. At present, the treatment of industrial wastewater containing turbidity is mainly carried out by adopting a coagulating sedimentation device or a coagulating air flotation device in China, and the treated reclaimed water is reused for production, but the following defects exist:
(1) the waste water treatment system is generally integrally arranged, the floor area is large, and the installation is strict on the size and the position of a field;
(2) in the wastewater treatment process, chemical water purifying agents need to be added into the water body, so that the labor intensity needs to be increased and the operation cost is high;
(3) in the wastewater treatment process, a large amount of alum floc is formed after chemical water purifying agents are added into a water body to capture suspended matters in the water body, and then the purpose of solid-liquid separation is achieved through self gravity or a flotation mode, so that water quality purification is realized, but the sludge production amount is large, and the sludge treatment cost is extremely high;
(4) in the wastewater treatment process, a chemical water purifying medicament needs to be added into the water body, and water-soluble substances in the medicament remain in the water body to cause secondary pollution to the water body;
(5) the residual water-soluble substances in the chemical water purifying agent cause the continuous rising of the soluble solids in the water body, when the soluble solids in the water body reach a crystallization value, tap water needs to be added for dilution or water needs to be changed, the reclaimed water cannot be reused for a long time, and the water needs to be regularly drained to the external environment, so that certain environmental pollution is caused to the external environment, and the energy-saving and emission-reducing effects are not obvious.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the problem that the waste water treatment equipment area that prior art exists is big, and need throw chemical water purification medicament to in the waste water, and waste water treatment equipment running cost is high, and mud production volume is big, and the processing procedure can cause secondary pollution to the water, goes out water and can not recycle for a long time. The utility model provides a modular industrial water purifier, the utility model discloses a modular structure, easy and simple to handle, practicality are strong, do not throw any water purification medicament to in the water, do not have secondary pollution, mud production volume extremely low to the water, and go out the water retrieval and utilization, practice thrift the valuable water resource, have extensive application prospect.
The above object of the utility model is realized through following technical scheme:
a modular industrial water purifier comprises a first filtering area, a second filtering area, a third filtering area, a clean water tank and an equipment bin,
all be provided with the filter material subassembly in first filtering area and the second filtering area, the bottom of first filtering area and the bottom of second filtering area are through first apopore intercommunication, and the second filtering area passes through the top intercommunication of overflow hole and third filtering area, is provided with assembled filtering component in the third filtering area, and assembled filtering component loops through and produces the water pipe, produces the water pump and is connected with the clear water tank, produces the water pump setting in the equipment storehouse.
The bottom parts of the first filtering area, the second filtering area and the third filtering area are all provided with sludge hoppers, and sludge discharging flanges are arranged on the sludge hoppers.
As above assembled filtering component include filtering component support and set up a plurality of film elements on filtering component support, the film element top is provided with air inlet interface and water outlet interface, filtering component support top is provided with interior washing pipe that exposes to the sun, interior washing pipe one end that exposes to the sun communicates with the air inlet interface of film element, the washing pipe other end that exposes to the sun passes through the air inlet flange connection of hose and third filtering area lateral wall, assembled filtering component below is provided with a plurality of outer aeration and washs violently the pipe, outer aeration washs violently the pipe and has seted up the aeration hole, each outer aeration washs violently the pipe and is connected with outer aeration and washs the standpipe, outer aeration washs the standpipe and passes through hose and air inlet flange connection, the water outlet interface of film element passes through the product water pipe and is connected with the product water flange of third filtering area lateral wall.
The top of the third filtering area is provided with a first liquid level switch.
The equipment bin is also internally provided with an aeration fan, a water inlet of the water producing pump is connected with the water producing flange, and an air outlet of the aeration fan is connected with the air inlet flange.
The clean water tank is characterized in that a clean water tank water inlet flange is arranged at the bottom of the clean water tank and is connected with a water outlet of the water production pump through a water pipe, a reuse water pump is arranged in the clean water tank, a clean water tank water outlet flange is arranged at the top of the clean water tank, a water inlet of the reuse water pump is communicated with the bottom of the clean water tank, and a water outlet of the reuse water pump is communicated with the clean water tank water outlet flange through a water pipe.
The top of the clean water tank is provided with the high-level water tank, the high-level water tank is internally provided with the overflow pipe, the bottom end of the overflow pipe is communicated with the clean water tank, and the top end of the overflow pipe is lower than the height of the high-level water tank.
Compared with the prior art, the utility model, following beneficial effect has:
1. the first filtering area, the second filtering area, the third filtering area, the clean water tank and the equipment bin can realize integrated integration, the first filtering area, the second filtering area, the third filtering area, the clean water tank, the equipment bin and the assembled filtering component can realize modularization, membrane elements in the assembled filtering component are installed in a modularization mode, the number of the membrane elements is increased or reduced according to different application environments, and the utility model discloses after modularization, the whole occupied area is small;
2. the nano-scale particle filtration can be realized through the secondary filtration of the filter material components in the first filtration area and the second filtration area;
3. cost reduction and efficiency improvement: pure physical water purification is carried out by adopting the filter material filtering component and the assembled filter component, the physicochemical property of any substance in the water body is not changed, no secondary pollution is generated to the water body, the purpose of purifying the water quality is achieved by adopting the pure physical (adsorption and interception) principle, and the long-term recycling of the water resource is realized; the water purifying medicament is not consumed, and the medicament cost is zero; the operation condition is normal temperature and normal pressure, the electric energy consumption is low, and the electricity cost is low; pure physical water purification is adopted, the sludge amount is only the total amount of turbidity in the water body, the sludge production amount is extremely low, and the sludge disposal cost is low; the effluent can be recycled, so that precious water resources and tap water cost are saved; the effluent quality is excellent and stable.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic plan view of an equipment silo;
FIG. 3 is a side view of the assembled filter assembly;
FIG. 4 is a schematic top view of the assembled filter assembly;
FIG. 5 is a schematic top view of the high level tank;
in the figure: 1-a first filtration zone; 2-a second filtration zone; 3-a third filtration zone; 3 a-a membrane element; 3 b-an air inlet interface; 3 c-a water outlet interface; 4-a clear water tank; 4 a-a high level water tank; 4 b-an overflow tube; 5, an equipment bin; 6-sludge bucket; 7-water production pump; 8-an aeration fan; 9-reuse water pump; 10-a filter material component; 11-an assembled filter assembly; 12-a water inlet flange; 13-a water producing flange; 14-a clear water tank water inlet flange; 15-a clear water tank water outlet flange; 16-a mud discharge flange; 17-an air inlet flange; 18-inner aeration cleaning tube; 19-external exposure cleaning tube; 20-a water production pipe; 21-a hose; 22-filtration group holder; 23-an electrical control cabinet; 24-a first water outlet; 25-an overflow aperture; 26-a first level switch; 27-second level switch.
Detailed Description
To facilitate understanding and practice of the invention by those of ordinary skill in the art, the following detailed description of the invention is provided in connection with the examples, and it is to be understood that the examples described herein are for purposes of illustration and explanation only and are not intended to limit the invention.
Example 1:
as shown in fig. 1 and 2, the modular industrial water purifier comprises a first filtering area 1, a second filtering area 2, a third filtering area 3, a clean water tank 4, an equipment bin 5 and a sludge hopper 6.
The top of the first filtering area 1 is provided with a water inlet flange 12, a filtering material component 10 is arranged in the first filtering area 1, the bottom of the first filtering area 1 is communicated with a sludge hopper 6, and the bottom of the first filtering area 1 is communicated with the bottom of the second filtering area 2 through a first water outlet hole 24.
First filtering area 1 is provided with a set of filter material subassembly 10 as elementary filtering area, and 1 lateral wall welding in first filtering area has L shaped steel, and filter material subassembly 10 passes through the screw rod and the nut is fixed on the trompil of L shaped steel. The silt settled in the first filtering zone 1 falls into a sludge hopper 6 at the bottom of the first filtering zone 1.
A group of filtering material components 10 is arranged in the second filtering area 2, the bottom of the second filtering area 2 is communicated with the sludge hopper 6, the top of the second filtering area 2 is communicated with the top of the third filtering area 3 through an overflow hole 25, and the bottom of the third filtering area 3 is communicated with the sludge hopper 6.
The second filtering area 2 is used as a secondary filtering area, water filtered by the first filtering area 1 enters the bottom of the second filtering area 2 through the first water outlet hole 24, then passes through the filtering material component 10 in the second filtering area 2 from bottom to top, and overflows to the third filtering area 3 through the overflow hole 25. Two groups of filtering material assemblies 10 are arranged in the second filtering area 2, L-shaped steel is welded on the side wall of the second filtering area 2, and the filtering material assemblies 10 are fixed on the open holes of the L-shaped steel through screws and nuts. The silt settled in the second filtering zone 2 falls into a sludge hopper 6 at the bottom of the second filtering zone 2.
An assembled filter component 11 is arranged in the third filtering area 3, the bottom of the third filtering area 3 is communicated with a sludge hopper 6, the assembled filter component 11 comprises a filter component support 22 and a plurality of interlayer sheet-shaped membrane elements 3a arranged on the filter component support 22, the top of each membrane element 3a is provided with an air inlet interface 3b and a water outlet interface 3c, the top of the filter component support 22 is provided with an inner aeration cleaning pipe 18, one end of the inner aeration cleaning pipe 18 is communicated with the air inlet interface 3b of the membrane element 3a, the other end of the inner aeration cleaning pipe 18 is connected with an air inlet flange 17 on the side wall of the third filtering area 3 through a hose 21, a plurality of outer aeration transverse pipe cleaning pipes are arranged below the assembled filter component 11, aeration holes are arranged on the outer aeration cleaning transverse pipes to enable gas to flow out at high speed, each outer aeration cleaning transverse pipe is connected with an outer aeration cleaning vertical pipe, the outer aeration vertical pipe is connected with the air inlet flange 17 through the hose 21, the outer aeration cleaning vertical pipe and the outer aeration cleaning horizontal pipe form an outer aeration cleaning pipe 19, and a water outlet port 3c of the membrane element 3a is connected with a water production flange 13 on the side wall of the third filtering area 3 through a water production pipe 20. The top of the third filtering area 3 is provided with a first liquid level switch 26.
The water filtered by the second filtering area 2 overflows to the third filtering area 3, a sandwich-type membrane element can be selected for a membrane element 3a in the third filtering area 3, an air inlet interface 3b and a water outlet interface 3c are arranged at the top of the membrane element 3a, the water in the sandwich layer of the membrane element 3a can be pumped through the water outlet interface 3c, and when aeration flushing is needed, aeration is carried out on the water in the sandwich layer of the membrane element 3a through the air inlet interface 3b, so that aeration flushing of the membrane element 3a is carried out. In addition, a plurality of outer aeration cleaning transverse pipes are arranged below the assembled filter assembly 11, so that the whole assembled filter assembly 11 and the outside can be aerated and cleaned. The first level switch 26 allows monitoring of the water level in the third filtering zone 3.
A water producing pump 7 and an aeration fan 8 are arranged in the equipment bin 5, a water inlet of the water producing pump 7 is connected with a water producing flange 13, and an air outlet of the aeration fan 8 is connected with an air inlet flange 17.
The water production pump 7 provides suction force, and water purified in the third filtering area 3 is extracted through the water production flange 13, the water production pipe 20 and the water outlet interface 3c of the membrane element 3a in sequence. The aeration fan 8 provides high-pressure air sources for the inner aeration cleaning pipe 18 and the outer aeration cleaning pipe 19 for aeration and cleaning.
The bottom of the clean water tank 4 is provided with a clean water tank water inlet flange 14, the clean water tank water inlet flange 14 is connected with the water outlet of the water production pump 7 through a water pipe, a reuse water pump 9 is arranged in the clean water tank 4, the top of the clean water tank 4 is provided with a clean water tank water outlet flange 15, the water inlet of the reuse water pump 9 is communicated with the bottom of the clean water tank 4, and the water outlet of the reuse water pump 9 is communicated with the clean water tank water outlet flange 15 through a water pipe. The upper part of the clean water tank 4 is provided with a second liquid level switch 27.
The water pump 7 pumps the filtered water into the clean water tank 4 for storage, and the water in the clean water tank 4 is pumped out from the clean water tank outlet flange 15 through the reuse water pump 9.
The top of the clear water tank 4 is provided with a high-level water tank 4a, an overflow pipe 4b is arranged in the high-level water tank 4a, the bottom end of the overflow pipe 4b is communicated with the clear water tank 4, and the top end of the overflow pipe 4b is lower than the height of the high-level water tank 4 a. When the clean water tank 4 is filled with water and the water producing pump 7 is continuously operated, the water in the clean water tank 4 may overflow into the head water tank 4 a.
The first level switch 26 and the second level switch 27 each provide a level signal to the electrical control cabinet 23 in the equipment compartment 5. The water production pump 7, the aeration fan 8 and the reuse water pump 9 are controlled by the electric control cabinet 23 to operate.
A sludge discharging flange 16 is arranged on the sludge hopper 6. Sludge in the sludge hopper 6 is discharged to a workshop through a sludge discharge flange 16 for dehydration treatment, dry sludge is comprehensively utilized, and dehydration liquid returns to a reuse water tank of the workshop for cyclic utilization.
The embodiments described in the specification are merely illustrative of the spirit of the present invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.
Claims (7)
1. A modular industrial water purifier comprises a first filtering area (1), and is characterized by further comprising a second filtering area (2), a third filtering area (3), a clear water tank (4) and an equipment bin (5),
all be provided with in first filtering area (1) and the second filtering area (2) and filter material subassembly (10), the bottom of first filtering area (1) and the bottom of second filtering area (2) are through first apopore (24) intercommunication, the top intercommunication of second filtering area (2) through overflow hole (25) and third filtering area (3), be provided with assembled filtering component (11) in third filtering area (3), assembled filtering component (11) loop through product water pipe (20), product water pump (7) are connected with clear water tank (4), product water pump (7) set up in equipment storehouse (5).
2. The modular industrial water purifier as claimed in claim 1, wherein the bottoms of the first filtering area (1), the second filtering area (2) and the third filtering area (3) are provided with sludge hoppers (6), and the sludge hoppers (6) are provided with sludge discharge flanges (16).
3. The modular industrial water purifier as claimed in claim 1, wherein the assembled filter assembly (11) comprises a filter assembly support (22) and a plurality of membrane elements (3a) arranged on the filter assembly support (22), the top of the membrane elements (3a) is provided with an air inlet (3b) and a water outlet (3c), the top of the filter assembly support (22) is provided with an inner aeration cleaning pipe (18), one end of the inner aeration cleaning pipe (18) is communicated with the air inlet (3b) of the membrane elements (3a), the other end of the inner aeration cleaning pipe (18) is connected with an air inlet flange (17) on the side wall of the third filtering area (3) through a hose (21), a plurality of outer aeration cleaning transverse pipes are arranged below the assembled filter assembly (11), each outer aeration cleaning transverse pipe is provided with an aeration hole, and is connected with an outer aeration cleaning vertical pipe, the outer aeration cleaning vertical pipe is connected with an air inlet flange (17) through a hose (21), and a water outlet port (3c) of the membrane element (3a) is connected with a water production flange (13) on the side wall of the third filtering area (3) through a water production pipe (20).
4. The modular industrial water purifier as claimed in claim 1, characterized in that the third filtering section (3) is provided with a first level switch (26) at the top.
5. The modular industrial water purifier as claimed in claim 3, wherein the equipment chamber (5) is further provided with an aeration fan (8), the water inlet of the water generating pump (7) is connected with the water generating flange (13), and the air outlet of the aeration fan (8) is connected with the air inlet flange (17).
6. The modular industrial water purifier as claimed in claim 5, wherein the bottom of the clean water tank (4) is provided with a clean water tank inlet flange (14), the clean water tank inlet flange (14) is connected with the water outlet of the water production pump (7) through a water pipe, the clean water tank (4) is internally provided with a reuse water pump (9), the top of the clean water tank (4) is provided with a clean water tank outlet flange (15), the water inlet of the reuse water pump (9) is communicated with the bottom of the clean water tank (4), and the water outlet of the reuse water pump (9) is communicated with the clean water tank outlet flange (15) through a water pipe.
7. The modular industrial water purifier as claimed in claim 6, wherein the top of the clean water tank (4) is provided with a high water tank (4a), an overflow pipe (4b) is arranged in the high water tank (4a), the bottom end of the overflow pipe (4b) is communicated with the clean water tank (4), and the top end of the overflow pipe (4b) is lower than the high water tank (4 a).
Priority Applications (1)
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CN202121169310.8U CN214936537U (en) | 2021-05-27 | 2021-05-27 | Modular industrial water purifier |
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CN202121169310.8U CN214936537U (en) | 2021-05-27 | 2021-05-27 | Modular industrial water purifier |
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CN214936537U true CN214936537U (en) | 2021-11-30 |
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CN202121169310.8U Active CN214936537U (en) | 2021-05-27 | 2021-05-27 | Modular industrial water purifier |
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- 2021-05-27 CN CN202121169310.8U patent/CN214936537U/en active Active
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