CN213327220U

CN213327220U - Energy-saving mine water treatment facilities

Info

Publication number: CN213327220U
Application number: CN202021926845.0U
Authority: CN
Inventors: 赵永胜; 丁铭绩; 许晋斌; 申秀颀; 徐向东; 申忠生; 王常兴; 夏罗威; 姚健; 罗占飞; 刘明义; 王利江; 王谦; 宋敏; 徐磊磊; 褚永红; 陈哲
Original assignee: Shanxi Coal Imp & Exp Group Technology Development Co ltd
Current assignee: Shanxi Coal Imp & Exp Group Technology Development Co ltd
Priority date: 2020-09-07
Filing date: 2020-09-07
Publication date: 2021-06-01
Anticipated expiration: 2030-09-07

Abstract

The utility model discloses an energy-saving mine water treatment facilities, including filtering ponds, anaerobism pond, oxygen deficiency pond, good oxygen pond and MBR membrane cisterna, filtering ponds, anaerobism pond, oxygen deficiency pond, good oxygen pond and MBR membrane cisterna are ladder structure from the top down and set gradually. The utility model has the advantages of excellent treatment effect, reduction area, energy saving and emission reduction, its mainly used is to the processing of mine domestic water.

Description

Energy-saving mine water treatment facilities

Technical Field

The utility model relates to a mine water treatment technical field, specific energy-saving mine water treatment facilities that says so.

Background

Mine water is mine workman's domestic water, for realizing the cyclic utilization of water resource, need handle the back with domestic water, uses once more, consequently just needs water treatment facilities, but current water treatment facilities generally builds on ground for area is great, and for realizing the flow of water, needs use a large amount of water pumps, makes and needs a large amount of electric energy, and energy saving and emission reduction effect is relatively poor.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing an energy-saving mine water treatment facilities that treatment effect is excellent, reduce area, energy saving and emission reduction.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: the utility model provides an energy-saving mine water treatment facilities, includes filtering ponds, anaerobism pond, oxygen deficiency pond, good oxygen pond and MBR membrane cisterna, filtering ponds one side is close to its top and is provided with first inlet tube, correspond on the filtering ponds be close to its bottom on the side of first inlet tube and be provided with first outlet pipe, the inside multiunit filter screen that has set gradually of filtering ponds, multiunit the aperture of filter screen reduces from first inlet tube to first outlet pipe in proper order, filtering ponds bottom fixedly connected with anaerobism pond and oxygen deficiency pond, the anaerobism pond with the oxygen deficiency pond links to each other, the anaerobism pond with be provided with the hole between the oxygen deficiency pond, the anaerobism pond top is provided with the second inlet tube, the oxygen deficiency pond is close to its bottom and is provided with the second outlet pipe, first outlet pipe with through first pipe connection between the second inlet tube, anaerobism pond, MBR, Oxygen deficiency bottom of the pool fixedly connected with good oxygen pond, be close to its top on the good oxygen pond and be provided with the third and advance the outlet pipe, be close to its bottom on the good oxygen pond and be provided with the third outlet pipe, the second outlet pipe with through second pipe connection between the third inlet pipe, good oxygen bottom of the pool fixedly connected with MBR membrane cisterna, be close to its top on the MBR membrane cisterna and be provided with the fourth inlet tube, be close to its bottom on the MBR membrane cisterna and be provided with the fourth outlet pipe, the third outlet pipe with through third pipe connection between the fourth inlet tube, equal fixed connection in filtering ponds, anaerobism pond, oxygen deficiency pond, good oxygen pond, MBR membrane cisterna is on the installation rack.

And the first pipeline, the second pipeline and the third pipeline are respectively provided with an electric control valve.

The filter screen in the filter tank adopts two sets ofly, correspond on the filter tank and match every group the filter screen all is provided with the clearance mouth, fixedly connected with closing cap on the clearance mouth.

The filter tank, the anaerobic tank, the anoxic tank, the aerobic tank and the MBR membrane tank are arranged from top to bottom according to a step structure.

The installation rack includes from supreme chassis, one-level frame, second grade frame, the tertiary frame that sets gradually down, filtering ponds fixed connection be in on the tertiary frame, oxygen deficiency pond fixed connection be in on the second grade frame, good oxygen pond fixed connection is on the one-level frame, MBR membrane cisterna fixed connection be in on the chassis.

Be close to on the chassis MBR membrane cisterna is provided with the effluent water sump, the effluent water sump with connect through the inlet channel between the first inlet tube, be provided with high-pressure suction pump on the inlet channel.

And the high-pressure water suction pump is fixedly arranged on the three-stage frame.

And the mounting rack is also fixedly connected with a maintenance climbing ladder.

The utility model has the advantages that: this device carries out sewage treatment through filtering ponds, oxygen deficiency pond, anaerobism pond, good oxygen pond and MBR membrane cisterna for the treatment effect is excellent, and sets for through the stair structure between filtering ponds, oxygen deficiency pond, anaerobism pond, good oxygen pond and the MBR membrane cisterna, reducible area like this, and usable gravity effect realizes the downflow of water, reduces water pump use amount, thereby energy saving and emission reduction.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1 filter tank, 101 first inlet tube, 102 first outlet pipe, 103 filter screens, 104 clearance mouth, 2 anaerobism pond, 201 second inlet tube, 3 oxygen deficiency pond, 301 second outlet pipe, 4 good oxygen pond, 401 third inlet tube, 402 third outlet pipe, 5MBR membrane cisterna, 501 fourth inlet tube, 502 fourth outlet pipe, 6 first pipeline, 7 second pipeline, 8 third pipeline, 9 installation rack,

chassis

901, 902 first grade frame, 903 second grade frame, 904 third grade frame, 905 maintenance climbing ladder, 10 electrically controlled valve, 11 sewage pond, 12 inlet channel, 13 high-pressure suction pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, an energy-saving mine water treatment device comprises a filter tank 1, an anaerobic tank 2, an anoxic tank 3, an aerobic tank 4 and an MBR membrane tank 5, wherein a first water inlet pipe 101 is arranged on one side of the filter tank 1 near the top of the filter tank, a first water outlet pipe 102 is arranged on the side of the filter tank 1 corresponding to the first water inlet pipe 101 near the bottom of the filter tank, a plurality of groups of filter screens 103 are sequentially arranged in the filter tank 1, the aperture of each group of filter screens 103 is sequentially reduced from the first water inlet pipe 101 to the first water outlet pipe 102, impurities in sewage can be filtered through the filter tank 1, the anaerobic tank 2 and the anoxic tank 3 are fixedly connected to the bottom of the filter tank 1, the anaerobic tank 2 is connected to the anoxic tank 3, a hole is arranged between the anaerobic tank 2 and the anoxic tank 3, a second water inlet pipe 201 is arranged on the top of the anaerobic tank 2, a second water outlet pipe 301 is arranged near the bottom of the anoxic tank 3, the anaerobic tank 2, the aerobic tank 4 is fixedly connected to the bottom of the anoxic tank 3, a third water inlet and outlet pipe is arranged on the aerobic tank 4 close to the top of the aerobic tank, a third water outlet pipe 402 is arranged on the aerobic tank 4 close to the bottom of the aerobic tank, the second water outlet pipe 301 is connected with the third water inlet pipe 401 through a second pipeline 7, an MBR membrane tank 5 is fixedly connected to the bottom of the aerobic tank 4, a fourth water inlet pipe 501 is arranged on the MBR membrane tank 5 close to the top of the MBR membrane tank, a fourth water outlet pipe 502 is arranged on the MBR membrane tank 5 close to the bottom of the MBR membrane tank, the third water outlet pipe 402 is connected with the fourth water inlet pipe 501 through a third pipeline 8, the filter tank 1, the anaerobic tank 2, the anoxic tank 3, the aerobic tank 4 and the MBR membrane tank 5 are fixedly connected to an installation rack 9, so that the device can reduce the floor area by increasing the height.

The first pipeline 6 and the second pipeline 7 and the third pipeline 8 of the device are both provided with an electric control valve 10, and the water flow speed is adjusted through the electric control valve 10;

filter screen 103 in filtering ponds 1 adopts two sets ofly, and it all is provided with clearance mouth 104 to correspond every filter screen 103 of matching on filtering ponds 1, and fixedly connected with closing cap on the clearance mouth 104 can clear up the impurity in filtering ponds 1 through clearance mouth 104, guarantees the filter effect.

In the utility model, the filtering tank 1, the anaerobic tank 2, the anoxic tank 3, the aerobic tank 4 and the MBR membrane tank 5 are arranged from top to bottom according to a ladder structure, the mounting rack 9 comprises a bottom frame 901, a first-level frame 902, a second-level frame 903 and a third-level frame 904 which are arranged from bottom to top in sequence, the filtering tank 1 is fixedly connected to the third-level frame 904, the anoxic tank 3 is fixedly connected to the second-level frame 903, the aerobic tank 4 is fixedly connected to the first-level frame 902, and the MBR membrane tank 5 is fixedly connected to the bottom frame 901;

a sewage tank 11 is arranged on the underframe 901 close to the MBR membrane tank 5, the sewage tank 11 is used for collecting mine water, the sewage tank 11 is connected with the first water inlet pipe 101 through a water inlet pipeline 12, a high-pressure water pump 13 is arranged on the water inlet pipeline 12, the high-pressure water pump 13 is fixedly arranged on the third-stage frame 904, and sewage in the sewage tank 11 is pumped into the filtering tank 1 through the high-pressure water pump;

the mounting rack 9 is also fixedly connected with a maintenance climbing ladder 905 which is convenient for maintaining the whole device.

The utility model discloses a theory of operation is: domestic water is uniformly discharged to a sewage tank 11 on a mine, sewage in the sewage tank 11 is pumped to a filtering tank 1 through a high-pressure water pump for filtering, and the filtered sewage is sequentially treated through an anaerobic tank 2, an anoxic tank 3, an aerobic tank 4 and an MBR membrane tank 5.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides an energy-saving mine water treatment facilities, includes filtering ponds (1), anaerobism pond (2), oxygen deficiency pond (3), good oxygen pond (4) and MBR membrane cisterna (5), its characterized in that: the anaerobic filter is characterized in that a first water inlet pipe (101) is arranged on one side of the filter tank (1) close to the top of the filter tank, a first water outlet pipe (102) is arranged on the side, corresponding to the first water inlet pipe (101), of the filter tank (1) close to the bottom of the filter tank, a plurality of groups of filter screens (103) are sequentially arranged in the filter tank (1), the apertures of the plurality of groups of filter screens (103) are sequentially reduced from the first water inlet pipe (101) to the first water outlet pipe (102), an anaerobic tank (2) and an anoxic tank (3) are fixedly connected to the bottom of the filter tank (1), the anaerobic tank (2) is connected with the anoxic tank (3), a hole is formed between the anaerobic tank (2) and the anoxic tank (3), a second water inlet pipe (201) is arranged on the top of the anaerobic tank (2), a second water outlet pipe (301) is arranged on the anoxic tank (3) close to the bottom of the anoxic tank, the first water outlet pipe (102, the bottom parts of the anaerobic tank (2) and the anoxic tank (3) are fixedly connected with the aerobic tank (4), a third water inlet pipe is arranged on the aerobic tank (4) near the top of the aerobic tank, a third water outlet pipe (402) is arranged on the aerobic tank (4) near the bottom of the aerobic tank, the second water outlet pipe (301) is connected with the third water inlet pipe (401) through a second pipeline (7), the bottom of the aerobic tank (4) is fixedly connected with the MBR membrane tank (5), a fourth water inlet pipe (501) is arranged on the MBR membrane tank (5) near the top thereof, a fourth water outlet pipe (502) is arranged on the MBR membrane tank (5) near the bottom thereof, the third water outlet pipe (402) is connected with the fourth water inlet pipe (501) through a third pipeline (8), the filter tank (1), the anaerobic tank (2), the anoxic tank (3), the aerobic tank (4) and the MBR membrane tank (5) are all fixedly connected to the mounting rack (9).

2. The energy-saving water treatment device for the mine as claimed in claim 1, wherein: and the first pipeline (6) and the second pipeline (7) and the third pipeline (8) are respectively provided with an electric control valve (10).

3. The energy-saving water treatment device for the mine as claimed in claim 1, wherein: filter screen (103) in filtering ponds (1) adopt two sets ofly, correspond on filtering ponds (1) and match every group filter screen (103) all are provided with clearance mouth (104), fixedly connected with closing cap on clearance mouth (104).

4. The energy-saving water treatment device for the mine as claimed in claim 1, wherein: the filter tank (1), the anaerobic tank (2), the anoxic tank (3), the aerobic tank (4) and the MBR membrane tank (5) are arranged from top to bottom according to a step structure.

5. The energy-saving water treatment device for the mine as claimed in claim 4, wherein: the mounting rack (9) comprises a bottom frame (901), a first-stage frame (902), a second-stage frame (903) and a third-stage frame (904), wherein the bottom frame (901), the first-stage frame (902), the second-stage frame (903) and the third-stage frame (904) are sequentially arranged from bottom to top, the filter tank (1) is fixedly connected onto the third-stage frame (904), the anoxic tank (3) is fixedly connected onto the second-stage frame (903), the aerobic tank (4) is fixedly connected onto the first-stage frame (902), and the MBR membrane tank (5) is fixedly connected onto the.

6. The energy-saving water treatment device for the mine as claimed in claim 5, wherein: a sewage tank (11) is arranged on the underframe (901) and close to the MBR membrane tank (5), the sewage tank (11) is connected with the first water inlet pipe (101) through a water inlet pipeline (12), and a high-pressure water suction pump (13) is arranged on the water inlet pipeline (12).

7. The energy-saving water treatment device for the mine as claimed in claim 6, wherein: and the high-pressure water pump (13) is fixedly arranged on the three-stage frame (904).

8. The energy-saving water treatment device for the mine as claimed in claim 4, wherein: and the mounting rack (9) is also fixedly connected with a maintenance climbing ladder (905).