CN212222712U - Container type magnetic loading and settling integrated treatment equipment - Google Patents

Abstract

The utility model discloses an integration treatment facility is subsided in container formula magnetism loading, be equipped with the coagulation reaction pond that communicates in proper order including the box in the box, magnetic separation pond and denitrogenation reaction pond, coagulation reaction pond and water inlet intercommunication, denitrogenation reaction pond and delivery port intercommunication, it throws the feeder apparatus to be equipped with the coagulant outside the box, the feeder apparatus is thrown to coagulant aid with throw feeder apparatus and magnetic core, be equipped with the magnetic separation machine on the magnetic separation pond, be equipped with the magnetic core separation recovery pond that communicates with the magnetic separation machine in the below of magnetic separation pond, magnetic core separation recovery pond throws the feeder apparatus with magnetic core and is linked together, it purifies the layer to be equipped with modular zeolite in the inside of denitrogenation. The utility model discloses in through integrated to the container with processing unit such as coagulating reaction pond, magnetic separation pond, denitrogenation reaction tank and magnetic core separation recovery pond, can be as required at any time mobile device's position, mobility is strong, and application scope is wide, and is effectual to the treatment of sewage.

Description

Container type magnetic loading and settling integrated treatment equipment

Technical Field

The utility model relates to a river course water administers technical field, especially container formula magnetism loading subsides integration treatment facility.

Background

At present, with the rapid growth of urban population, a large amount of sewage enters urban inland river water bodies through rainwater pipelines, so that the urban inland river gradually becomes a sewage receiving area, the water quality deteriorates year by year, and a black and odorous river can be seen everywhere. In recent years, with the deep progress of relevant work such as 'five-water co-treatment', 'zero-sewage straight-discharge area' and the like, the demand of the rapid purification technology for urban black and odorous water bodies is increasing. At present, the widely used method is a dredging and water-changing method, a super-magnetic separation water body purification technology and the like. The dredging and water-changing method has the advantages of quick response, high cost, unsustainable water quality maintenance, and black and odorous river water recovery in the later period after dredging and water changing. The supermagnetic separation water purification technology takes effect quickly, the purification effect is good, but the existing supermagnetic separation water purification device generally divides a plurality of processing units into a plurality of treatment units, the occupied area is large, the operation management is inconvenient, the moving is inconvenient, the mobility is poor, and the use limitation is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving above-mentioned prior art not enough and provide an integration treatment facility is subsided in container formula magnetic loading, concentrate each processing unit in the container, each processing unit is rationally distributed in the container, compact structure, and area is little, and the management of being convenient for removes moreover conveniently, can be as required at any time the mobile device's position, mobility is strong, and application scope is wide.

In order to achieve the purpose, the utility model discloses a container formula magnetic loading subsides integration treatment facility, including the box, be equipped with water inlet and delivery port respectively in the left and right sides of box, be equipped with coagulation reaction tank, magnetic separation pond and the denitrogenation reaction tank that communicates in proper order in the box, coagulation reaction tank fixes on the box bottom plate of water inlet one side, coagulation reaction tank comprises front check and back check that communicate with each other, front check and water inlet intercommunication, back check and magnetic separation pond intercommunication, be equipped with the quick mixer of coagulation in the front check, be equipped with the slow mixer of coagulation in the back check, be fixed with coagulant adding device, coagulant aid adding device and magnetic core adding device above the box roof, coagulant adding device and front check intercommunication, coagulant aid adding device and magnetic core adding device all communicate with the back check;

supporting legs are arranged on a bottom plate of the box body between the coagulation reaction tank and the denitrification reaction tank, the magnetic separation tank is fixed above the supporting legs, a magnetic separator is arranged on the magnetic separation tank, a magnetic nucleus separation recovery tank communicated with the magnetic separator is arranged below the magnetic separation tank, the magnetic nucleus separation and recovery tank is fixed on the bottom plate of the box body and comprises a stirring chamber, a magnetic nucleus separation chamber and a magnetic nucleus recovery chamber, a high-speed stirrer is arranged in the stirring chamber, a magnetic nucleus separator is arranged on the magnetic nucleus separation chamber, the bottom of the magnetic nucleus separation chamber is connected with a sludge lifting pump, the sludge lifting pump is fixed on a bottom plate of the box body outside the magnetic nucleus separation and recovery tank, a slow stirrer is arranged in the magnetic nucleus recovery chamber, the magnetic nucleus recovery chamber is also connected with a magnetic nucleus recovery pump, the magnetic nucleus recovery pump is fixed on a bottom plate of the box body outside the magnetic nucleus separation and recovery tank, and the magnetic nucleus recovery pump is communicated with a magnetic nucleus adding device outside the box body;

the denitrification reaction tank is fixed on the box bottom plate of delivery port one side, denitrification reaction tank and delivery port intercommunication are equipped with modular zeolite purification layer in the inside of denitrification reaction tank, are equipped with micropore aeration dish in the bottom of denitrification reaction tank, micropore aeration dish is connected with the aeration machine, the aeration machine is fixed on the box bottom plate on denitrification reaction tank right side, is equipped with the sludge squeezer with the mud elevator pump intercommunication on denitrification reaction tank left side, the sludge squeezer is fixed on the box bottom plate, the discharge gate of sludge squeezer stretches out outside the box.

In order to fix the fast mixer and the slow mixer for coagulation, a partition plate is arranged between the front lattice and the rear lattice of the coagulation reaction tank, a through hole penetrating through the front lattice and the rear lattice is reserved on the partition plate, a first mounting frame used for mounting the fast mixer for coagulation is arranged between the front side wall and the rear side wall of the front lattice, and a second mounting frame used for mounting the slow mixer for coagulation is arranged between the front side wall and the rear side wall of the rear lattice.

In order to make the whole structure of the equipment more compact, two ends of the magnetic separator are respectively fixed on the front side wall and the rear side wall of the magnetic separation tank.

In order to conveniently fix the rapid stirrer and the slow stirrer, a third mounting frame for mounting the rapid stirrer is arranged between the front side wall and the rear side wall of the stirring chamber, a fourth mounting frame for mounting the slow stirrer is arranged between the front side wall and the rear side wall of the magnetic nucleus recovery chamber, and two ends of the magnetic nucleus separator are respectively fixed on the front side wall and the rear side wall of the magnetic nucleus separation chamber.

In order to control the dosage conveniently, a first metering pump is arranged on a connecting pipeline between the coagulant adding device and the front lattice, and a second metering pump is arranged on a connecting pipeline between the coagulant adding device and the rear lattice.

In order to move the processing equipment conveniently and improve the maneuvering performance, four corners of the bottom of the box body are respectively provided with a roller.

The utility model discloses the integrated treatment facility is subsided in container formula magnetism loading that obtains, its technical effect is through with coagulating reaction pond, magnetism separation pond, denitrogenation reaction tank and magnetism nuclear separation recovery pond etc. processing unit integration to the container in, each processing unit is reasonable, compact in layout in the container, the whole area of equipment is little, the management of being convenient for, it is convenient to remove simultaneously, can be as required at any time the mobile device's position, mobility is strong, application scope is wide, and is good to the treatment effect of sewage.

Drawings

Fig. 1 is a schematic structural view of a container type magnetic loading and settling integrated treatment device of embodiment 1;

FIG. 2 is a schematic perspective view of a coagulation reaction tank according to example 1;

FIG. 3 is a schematic perspective view of the magnetic separation cell of example 1;

FIG. 4 is a schematic perspective view of the magnetic core separation and recovery tank according to example 1.

In the figure: the device comprises a box body 1, a water inlet 2, a water outlet 3, a coagulation reaction tank 4, a magnetic separation tank 5, a denitrification reaction tank 6, a front grid 7, a rear grid 8, a coagulation rapid mixer 9, a coagulation slow mixer 10, a coagulant adding device 11, a coagulant adding device 12, a magnetic nucleus adding device 13, supporting legs 14, a magnetic separator 15, a magnetic nucleus separation and recovery tank 16, a mixing chamber 17, a magnetic nucleus separation chamber 18, a magnetic nucleus recovery chamber 19, a high-speed mixer 20, a magnetic nucleus separator 21, a sludge lifting pump 22, a slow mixer 23, a magnetic nucleus recovery pump 24, a modular zeolite purification layer 25, a microporous aeration disc 26, an aerator 27, a partition plate 28, a first mounting frame 29, a second mounting frame 30, a third mounting frame 31, a fourth mounting frame 32, a roller 33, a sludge presser 34, a first metering pump 35 and a second metering pump 36.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1:

as shown in fig. 1, the container type magnetic loading and settling integrated treatment equipment provided by this embodiment includes a box body 1, a water inlet 2 and a water outlet 3 are respectively arranged at the left and right sides of the box body 1, a coagulation reaction tank 4, a magnetic separation tank 5 and a denitrification reaction tank 6 which are sequentially communicated are arranged in the box body 1, the coagulation reaction tank 4 is fixed on the bottom plate of the box body 1 at one side of the water inlet 2, the coagulation reaction tank 4 is composed of a front lattice 7 and a rear lattice 8 which are communicated with each other, the front lattice 7 is communicated with the water inlet 2, the rear lattice 8 is communicated with the magnetic separation tank 5, a coagulation rapid mixer 9 is arranged in the front lattice 7, a coagulation slow mixer 10 is arranged in the rear lattice 8, a coagulant adding device 11, a coagulant adding device 12 and a magnetic core adding device 13 are fixed above the top plate of the box body 1, the adding device is arranged outside the box body 1 to facilitate the, the coagulant adding device 11 is communicated with the front lattice 7, and the coagulant aid adding device 12 and the magnetic core adding device 13 are both communicated with the rear lattice 8;

a supporting leg 14 is arranged on a bottom plate of a box body 1 between a coagulation reaction tank 4 and a denitrification reaction tank 6, the magnetic separation tank 5 is fixed above the supporting leg 14, a magnetic separator 15 is arranged on the magnetic separation tank 5, a magnetic nucleus separation and recovery tank 16 communicated with the magnetic separator 15 is arranged below the magnetic separation tank 5, a sludge (with magnetic nuclei) conveying port of the magnetic separator 15 is communicated with a stirring chamber 17, the magnetic nucleus separation and recovery tank 16 is fixed on the bottom plate of the box body 1, the magnetic nucleus separation and recovery tank 16 comprises a stirring chamber 17, a magnetic nucleus separation chamber 18 and a magnetic nucleus recovery chamber 19, a high-speed stirrer 20 is arranged in the stirring chamber 17, a magnetic nucleus separator 21 is arranged on the magnetic nucleus separation chamber 18, a sludge lifting pump 22 is connected to the bottom of the magnetic nucleus separation chamber 18, the sludge lifting pump 22 is fixed on the bottom plate of the box body 1 on the right side of the magnetic nucleus separation and recovery tank 16, a slow-speed stirrer 23 is, the magnetic nucleus recovery chamber 19 is also connected with a magnetic nucleus recovery pump 24, the magnetic nucleus recovery pump 24 is fixed on the bottom plate of the box body 1 at the left side of the magnetic nucleus separation and recovery tank 16, and the magnetic nucleus recovery pump 24 is communicated with a magnetic nucleus feeding device 13 outside the box body 1;

the denitrification reaction tank 6 is fixed on the bottom plate of the box body 1 on one side of the water outlet 3, the denitrification reaction tank 6 is communicated with the water outlet 3, a modular zeolite purification layer 25 is arranged in the denitrification reaction tank 6, the zeolite purification layer is designed in a modular way, the zeolite can be changed very conveniently, only the zeolite purification layer needs to be taken out integrally, a new module is changed, the changed zeolite purification layer can be reused through regeneration technology, a microporous aeration disc 26 is arranged at the bottom of the denitrification reaction tank 6, the microporous aeration disc 26 can aerate and oxygenate sewage, microorganisms attached to the surface of the zeolite can form a biological membrane, pollutants in the sewage can be effectively degraded, the purification effect is improved, the microporous aeration disc 26 is connected with an aerator 27, the aerator 27 is fixed on the bottom plate of the box body 1 on the right side of the denitrification reaction tank 6, a sludge presser 34 communicated with a sludge lifting pump 22 is arranged on the left side of the denitrification reaction tank 6 on the, sludge press 34 is fixed on box 1 bottom plate, sludge press 34's discharge gate stretches out outside box 1, and sludge press 34's discharge gate can stretch out from box 1's preceding curb plate or posterior lateral plate, and sludge press 34 can carry out the filter-pressing to mud and handle, and the mud cake that has handled regularly carries out safe landfill through the discharge gate discharge box outside.

As shown in FIG. 2, a partition plate 28 is provided between the front cell 7 and the rear cell 8 of the coagulation reaction tank 4, a through hole penetrating the front cell 7 and the rear cell 8 is provided in the partition plate 28, a first mounting frame 29 for mounting the coagulation rapid mixer 9 is provided between the front and rear side walls of the front cell 7, and a second mounting frame 30 for mounting the coagulation slow mixer 10 is provided between the front and rear side walls of the rear cell 8.

As shown in FIG. 3, the two ends of the magnetic separator 15 are respectively fixed on the front and rear side walls of the magnetic separation tank 5, so that the whole structure of the device can be more compact.

As shown in fig. 4, a third mounting frame 31 for mounting the high-speed stirrer 20 is provided between the front and rear side walls of the stirring chamber 17, a fourth mounting frame 32 for mounting the slow stirrer 23 is provided between the front and rear side walls of the magnetic nucleus recovery chamber 19, and both ends of the magnetic nucleus separator 21 are fixed to the front and rear side walls of the magnetic nucleus separation chamber 18, respectively.

A first metering pump 35 is arranged on a connecting pipeline between the coagulant adding device 11 and the front lattice 7, and a second metering pump 36 is arranged on a connecting pipeline between the coagulant adding device 12 and the rear lattice 8.

Four corners of the bottom of the box body 1 are respectively provided with a roller 33, so that the equipment is convenient to move, and the maneuverability of the equipment is improved.

The container formula magnetism loading subsides integration treatment facility that this embodiment obtained, its flow of specific treatment sewage: the polluted water body in the water intake is lifted by a sewage lifting pump and enters a coagulation reaction tank 4 of the equipment through a water inlet 2. Coagulant is added into a front grid 7 of the coagulation reaction tank 4, the mixture is quickly reacted under the stirring action of a coagulation quick stirrer 9, the mixed solution enters a rear grid 8 of the coagulation reaction tank 4, coagulant aid and magnetic nuclei are added, and flocculation reaction is carried out under the stirring action of a coagulation slow stirrer 10 to form floc. Then the mixed liquid enters a magnetic separation tank 5 for mud-water separation, micro flocs with magnetic nuclei are adsorbed by a magnetic separator 15 and are conveyed to a magnetic nucleus separation recovery tank 16, and clear water enters a denitrification reaction tank 6. The modular zeolite purification layer 25 is arranged in the denitrification reaction tank 6, so that pollutants such as soluble pollutants, ammonia nitrogen pollutants, phosphate pollutants and the like in sewage can be effectively adsorbed, and the polluted water can be discharged at one time according to the standard.

The sludge with magnetic nuclei, which is conveyed from the magnetic separator 15, enters a magnetic nuclei separation and recovery tank 16 to perform a magnetic nuclei separation and recovery reaction. The sludge with magnetic nuclei is firstly subjected to desorption reaction under the stirring of a high-speed stirrer 20, then the magnetic nuclei are adsorbed by a magnetic nuclei separator 21 and enter a magnetic nuclei recycling chamber 19, the magnetic nuclei are uniformly mixed under the stirring action of a slow stirrer 23, and the mixture is conveyed into a magnetic nuclei adding device 13 through a magnetic nuclei recycling pump 24, so that the recycling of the magnetic nuclei is realized. And finally, the sludge separated from the magnetic nuclei enters the bottom of the magnetic nuclei separation chamber 18, is lifted to a sludge presser 34 through a sludge lifting pump 22 to carry out filter pressing treatment on the sludge, and the treated sludge cake is regularly and safely buried.

The container formula magnetism loading subsides integration treatment facility that this embodiment obtained is through in will coagulating reaction pond, magnetic separation pond, denitrogenation reaction tank and magnetic core separation recovery pond etc. processing unit integration to the container, and each processing unit is reasonable, compact in layout in the container, and the whole area that occupies of equipment is little, the management of being convenient for, and it is convenient to remove simultaneously, can be as required at any time the mobile device's position, and mobility is strong, and application scope is wide, and is effectual to the treatment of sewage.

Claims (6)

1. The utility model provides a container formula magnetic loading subsides integration treatment facility which characterized in that: comprises a box body (1), wherein a water inlet (2) and a water outlet (3) are respectively arranged at the left side and the right side of the box body (1), a coagulation reaction tank (4), a magnetic separation tank (5) and a denitrification reaction tank (6) which are sequentially communicated are arranged in the box body (1), the coagulation reaction tank (4) is fixed on a bottom plate of the box body (1) at one side of the water inlet (2), the coagulation reaction tank (4) consists of a front lattice (7) and a rear lattice (8) which are mutually communicated, the front lattice (7) is communicated with the water inlet (2), the rear lattice (8) is communicated with the magnetic separation tank (5), a coagulation rapid stirrer (9) is arranged in the front lattice (7), a coagulation slow stirrer (10) is arranged in the rear lattice (8), a coagulant adding device (11), a coagulant adding device (12) and a magnetic core adding device (13) are fixed above a top plate of the box body (1), the coagulant adding device (11) is communicated with the front grid (7), and the coagulant aid adding device (12) and the magnetic core adding device (13) are both communicated with the rear grid (8);

the utility model discloses a sewage treatment device, which comprises a coagulation reaction tank (4), a denitrification reaction tank (6), a magnetic separation tank (5), a magnetic separation recovery tank (16), a stirring chamber (17), a magnetic nucleus separation chamber (18) and a magnetic nucleus recovery chamber (19), wherein the bottom plate of the tank body (1) between the coagulation reaction tank (4) and the denitrification reaction tank (6) is provided with supporting legs (14), the magnetic separation tank (5) is fixed above the supporting legs (14), the magnetic separation tank (5) is provided with the magnetic nucleus separation recovery tank (15), the magnetic nucleus separation recovery tank (16) is provided with the magnetic nucleus separation recovery tank (16) which is communicated with the magnetic separation tank (15), the magnetic nucleus separation recovery tank (16) is fixed on the bottom plate of the tank body (1), the magnetic nucleus separation chamber (18) is provided with the magnetic nucleus separation tank (21), the bottom of the magnetic nucleus separation chamber (18) is connected with a sludge lifting pump (22), and the sludge lifting pump (22) is fixed on the bottom plate of the tank body (, a slow stirrer (23) is arranged in the magnetic nucleus recovery chamber (19), the magnetic nucleus recovery chamber (19) is also connected with a magnetic nucleus recovery pump (24), the magnetic nucleus recovery pump (24) is fixed on the bottom plate of the box body (1) outside the magnetic nucleus separation and recovery tank (16), and the magnetic nucleus recovery pump (24) is communicated with a magnetic nucleus feeding device (13) outside the box body (1);

denitrification reaction tank (6) are fixed on box (1) bottom plate of delivery port (3) one side, denitrification reaction tank (6) and delivery port (3) intercommunication are equipped with modular zeolite purification layer (25) in the inside of denitrification reaction tank (6), are equipped with micropore aeration dish (26) in the bottom of denitrification reaction tank (6), micropore aeration dish (26) are connected with aeration machine (27), aeration machine (27) are fixed on box (1) bottom plate on denitrification reaction tank (6) right side, are equipped with sludge squeezer (34) with mud elevator pump (22) intercommunication on denitrification reaction tank (6) left side, sludge squeezer (34) are fixed on box (1) bottom plate, the discharge gate of sludge squeezer (34) stretches out outside box (1).

2. The container type magnetic loading sedimentation integrated treatment equipment according to claim 1, wherein: be equipped with baffle (28) between preceding check (7) and back check (8) of coagulating reaction tank (4), leave the through-hole that link up preceding check (7) and back check (8) on baffle (28), be equipped with first mounting bracket (29) that are used for installing and congeal fast mixer (9) between the front and back both sides wall of preceding check (7), be equipped with second mounting bracket (30) that are used for installing and congeal slow mixer (10) between the front and back both sides wall of back check (8).

3. The container type magnetic loading sedimentation integrated treatment equipment according to claim 1, wherein: two ends of the magnetic separator (15) are respectively fixed on the front side wall and the rear side wall of the magnetic separation tank (5).

4. The container type magnetic loading sedimentation integrated treatment equipment according to claim 1, wherein: a third mounting frame (31) used for mounting a high-speed stirrer (20) is arranged between the front side wall and the rear side wall of the stirring chamber (17), a fourth mounting frame (32) used for mounting a slow stirrer (23) is arranged between the front side wall and the rear side wall of the magnetic nucleus recovery chamber (19), and two ends of the magnetic nucleus separator (21) are respectively fixed on the front side wall and the rear side wall of the magnetic nucleus separation chamber (18).

5. The container type magnetic loading sedimentation integrated treatment equipment according to claim 1, wherein: a first metering pump (35) is arranged on a connecting pipeline between the coagulant adding device (11) and the front lattice (7), and a second metering pump (36) is arranged on a connecting pipeline between the coagulant adding device (12) and the rear lattice (8).

6. The integrated container type magnetic loading and settling treatment equipment as claimed in claim 1, 2, 3, 4 or 5, wherein: four corners of the bottom of the box body (1) are respectively provided with a roller (33).

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