CN213060310U - High-efficient magnetic mud-water separation device - Google Patents

Abstract

The utility model discloses a magnetic separation device for sewage purification, mainly relate to the sewage treatment field, including a high-efficient magnetic mud-water separation device, including mud water treatment ware, stirring rake, baffle, first drain, sedimentation tank, filter, stoving case, magnetic separator, electromagnetic rotor, magnetic powder scraper blade, magnetic powder recovery tube and dust outlet, mud-water is through high-speed stirring in mud water treatment ware, after magnetic and foreign particles separated, gets into sedimentation tank and stoving case, becomes dry dust, wherein the magnetic is adsorbed by electromagnetic rotor in the magnetic separator, is scraped the recovery by the magnetic powder scraper blade, and magnetic impurity content is low, can recycle; other dust is discharged from the dust outlet, and the dust is non-magnetic and does not cause secondary pollution to the environment.

Description

High-efficient magnetic mud-water separation device

Technical Field

The utility model mainly relates to the field of sewage treatment, in particular to a high-efficiency magnetic powder mud-water separation device.

Background

The treatment means of present industry sewage mainly is the impurity granule in utilizing the magnetic flocculation sedimentation method to remove sewage, the magnetic flocculation sedimentation method is in adding flocculating agent and magnetic into sewage, make the suspended particles in the sewage agglomerate and have magnetism, recycle devices such as magnetic roller and will wrap up the impurity granule adsorption of magnetic and get rid of, this method can consume a large amount of magnetic, and the magnetic in the impurity also can bring harm to the environment, to this problem, some enterprises can use magnetic separation device to retrieve the magnetic after the sewage flocculation sedimentation, make the magnetic recyclable, but still there is magnetic recovery efficiency not high, impurity content is more in the magnetic of recovery, manual operation is complicated, follow-up magnetic attraction effect that recycles reduces the scheduling problem.

SUMMERY OF THE UTILITY MODEL

In view of the defect and not enough that exist among the prior art, the utility model provides a high-efficient magnetic mud-water separation device, the device can improve the magnetic separation rate, and the magnetic impurity content is low and easy and simple to handle after the separation.

In order to solve the technical problem, the technical scheme of the utility model is that:

the utility model provides a high-efficient magnetic mud-water separation device, includes muddy water treater, stirring rake, baffle, first drain, sedimentation tank, filter, stoving case, magnetic separator, electromagnetic rotor, magnetic scraper blade, magnetic recovery tube and dust outlet, its characterized in that: the top of the sludge water treatment device is provided with a sludge water inlet, the middle lower part of the sludge water treatment device is provided with a partition plate, and circular holes with uniform size are distributed on the partition plate; the bottom of the sludge water treatment device is provided with a first sewage discharge port, a stirring paddle motor is arranged on the partition plate, and the stirring paddle is vertically arranged on the stirring paddle motor; the sludge water treatment device is connected with the sedimentation tank through a sludge water pipe, and the rear part of the sedimentation tank is sequentially connected with the drying box and the magnetic powder separator; the drying box is externally connected with a blower; an electromagnetic rotor is installed in the magnetic powder separator, a dust pipe is connected to the upper portion of the magnetic powder separator, a dust outlet is formed in one side of the lower portion of the magnetic powder separator, a magnetic powder recovery pipe is connected to the other side of the magnetic powder separator, and a magnetic powder scraper plate is installed on the magnetic powder recovery pipe.

Furthermore, the pipe orifice of the dust pipe is perpendicular to the surface of the electromagnetic rotor and is 45 degrees with the top of the magnetic powder separator.

Furthermore, a sludge water treatment device valve is arranged on the first sewage discharge port.

Furthermore, the connecting shaft between the magnetic powder scraper plate and the magnetic powder recovery tube is movably connected.

Further, install the filter in the sedimentation tank, the sedimentation tank lateral wall has the second drain, and the second drain is located the filter below.

Compared with the prior art, the beneficial effects of the utility model are that: the high-efficiency magnetic powder mud-water separation device can greatly improve the recovery rate of magnetic powder, has low content of recovered magnetic powder impurities, can directly enter the magnetic seed feeder through the magnetic powder recovery pipe and can be recycled as magnetic seeds, the device does not need manual operation, and the use mode is simple; the dust impurities after the magnetic powder is separated are discharged through a dust outlet, and the dust is non-magnetic and cannot cause secondary pollution to the environment.

Drawings

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 is the utility model relates to a high-efficient magnetic mud-water separation device's schematic structure diagram.

In the figure: 1 muddy water import, 2 stirring rake, 3 muddy water treatment ponds, 4 baffles, 5 muddy water treatment pond valves, 6 first drain, sedimentation tank, 8 filter, 9 second drain, 10 stoving casees, 11 electromagnetic rotor, 12 magnetic powder scraper blades, 13 connecting axles, 14 magnetic powder recovery tubes, 15 dust outlets, 16 air-blowers, 17 magnetic powder separators, 18 stirring rake motors, 19 muddy water pipes, 20 dust pipes.

Detailed Description

In order to make the technical solution and the advantages of the present invention clearer, the following description is made with reference to the embodiments of the present invention for further details.

As shown in figure 1, the utility model relates to a high-efficient magnetic powder mud-water separation device, including muddy water treater 3, stirring rake 2, baffle 4, first drain 6, sedimentation tank 7, filter 8, stoving case 10, magnetic separator 17, electromagnetic rotor 11, magnetic powder scraper blade 12, magnetic powder recovery tube 14 and dust outlet 15. The top of the sludge water processor 3 is provided with a sludge water inlet 1, the middle lower part of the sludge water processor is provided with a partition plate 4, the bottom of the sludge water processor is provided with a first sewage discharge port 6, the partition plate 4 is provided with a stirring paddle motor 18, and the stirring paddle 2 is vertically arranged on the stirring paddle motor 18; mud water with magnetic powder enters a mud water treatment device 3 from a mud water inlet 1, under the high-speed stirring of a stirring paddle 2, the magnetic powder in the mud water is separated from impurity particles, circular holes with uniform distribution sizes are formed in a partition plate 4, large particle impurities are deposited at the bottom of the mud water treatment device 3 through the circular holes in the partition plate 4 due to gravity, a mud water treatment device valve 5 is installed on a first sewage discharge port 6, when too much large particle impurities are deposited, the mud water treatment device valve 5 can be opened, the impurities are discharged through the first sewage discharge port 6, the discharged impurities do not contain magnetic powder, and the environment is not polluted; the mud water treatment device 3 is connected with the sedimentation tank 7 through a mud water pipe 19, and the rear part of the sedimentation tank 7 is sequentially connected with a drying box 10 and a magnetic powder separator 17; magnetic powder and other muddy water with small particle impurities enter a deposition pool 7 through a muddy water pipe 19, the content of moisture in the muddy water is further removed in the deposition pool 7, a filter plate 8 is installed in the deposition pool 7, a second sewage discharge port 9 is formed in the side wall of the deposition pool 7 and is positioned below the filter plate 8, moisture is discharged through the second sewage discharge port 9, other muddy water enters a drying box 10, and the drying box 10 is externally connected with a blower 16; the blower 16 can accelerate the flow velocity of gas in the drying box 10, improve the drying efficiency and prevent muddy water from blocking pipelines; the dried mud water is changed into a mixture of dust and magnetic powder, and is discharged into the magnetic powder separator 17 through a dust pipe 20, an electromagnetic rotor 11 is arranged in the magnetic powder separator 17, a dust outlet 15 is arranged on one side below the magnetic powder separator, the other side of the magnetic powder separator is connected with a magnetic powder recovery pipe 14, the pipe orifice of the dust pipe 20 is vertical to the surface of the electromagnetic rotor 11, 45 degrees with the top of the magnetic powder separator 17, when the electromagnetic rotor 11 rotates anticlockwise, the magnetic powder is adsorbed on the electromagnetic rotor 11, the dust falls to the bottom of the magnetic powder separator 17 and is discharged from a dust outlet 15, a magnetic powder scraper 12 is arranged on the magnetic powder recovery pipe 14, the magnetic powder adsorbed on the electromagnetic rotor 11 is scraped by the magnetic powder scraper 12, and is recovered by the magnetic powder recovery pipe 14 for recycling, the magnetic powder scraper 12 is movably connected with the magnetic powder recovery tube 14 through a connecting shaft 13, the magnetic powder scraping amount can be controlled by adjusting the gap between the magnetic powder scraper 12 and the electromagnetic rotor 11.

The utility model discloses a theory of operation: stirring rake 2 in the muddy water treater 3 can make the separation of the foreign particle in magnetic and the muddy water, the large granule subsides through gravity, discharge by first drain outlet 6, tiny particle and magnetic get into sedimentation tank 7 by muddy water pipe 19 and further get rid of moisture, mud gets into stoving case 10 afterwards, become dust and magnetic mixed particle in stoving case 10, get into magnetic separator 17 by dust pipe 20, the magnetic is adsorbed by electromagnetic rotor 11, scrape down by magnetic scraper blade 12, get into magnetic recovery tube 14, and other dusts are discharged by dust outlet 15, the magnetic separation recovery process in the muddy water ends up to this.

Claims (5)

1. The utility model provides a high-efficient magnetic particle mud-water separation device, includes muddy water treater (3), stirring rake (2), baffle (4), first drain port (6), sedimentation tank (7), filter (8), stoving case (10), magnetic particle separator (17), electromagnetism rotor (11), magnetic particle scraper blade (12), magnetic particle recovery tube (14) and dust outlet (15), its characterized in that: the top of the sludge water treatment device (3) is provided with a sludge water inlet (1), the middle lower part of the sludge water treatment device is provided with a partition plate (4), and circular holes with uniform sizes are distributed on the partition plate (4); the bottom of the sludge water treatment device (3) is provided with a first sewage discharge port (6), the partition plate (4) is provided with a stirring paddle motor (18), and the stirring paddle (2) is vertically arranged on the stirring paddle motor (18); the mud water treatment device (3) is connected with the sedimentation tank (7) through a mud water pipe (19), and the rear part of the sedimentation tank (7) is sequentially connected with a drying box (10) and a magnetic powder separator (17); the drying box (10) is externally connected with a blower (16); install electromagnetic rotor (11) in the magnetic particle separator, dust pipe (20) is connected to the top, and there is dust export (15) below one side, and magnetic recovery pipe (14) is connected to the opposite side, installs magnetic powder scraper blade (12) on magnetic recovery pipe (14).

2. The efficient magnetic powder mud-water separation device according to claim 1, which is characterized in that: the pipe orifice of the dust pipe (20) is perpendicular to the surface of the electromagnetic rotor (11) and is 45 degrees to the top of the magnetic powder separator (17).

3. The efficient magnetic powder mud-water separation device according to claim 1, which is characterized in that: and a sludge water treatment device valve (5) is arranged on the first sewage discharge port (6).

4. The efficient magnetic powder mud-water separation device according to claim 1, which is characterized in that: the magnetic powder scraper (12) is movably connected with the magnetic powder recovery tube (14) through a connecting shaft (13).

5. The efficient magnetic powder mud-water separation device according to claim 1, which is characterized in that: a filter plate (8) is arranged in the sedimentation tank (7), a second sewage draining exit (9) is arranged on the side wall of the sedimentation tank, and the second sewage draining exit is positioned below the filter plate (8).

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