CN220811920U - Heavy metal wastewater treatment device - Google Patents

Abstract

The utility model belongs to the technical field of sewage treatment, in particular to a heavy metal wastewater treatment device, a motor drives a rotary rod to rotate, a plurality of filter tables are driven to rotate when the rotary rod rotates, activated carbon is placed inside the plurality of filter tables, when heavy metal wastewater is poured into the device, the activated carbon is adsorbed, meanwhile, a plurality of groups of water discharging pipes are provided with filter screens, the outflow of the activated carbon is prevented, the adsorption is carried out, the plurality of first filter screens are used for filtering, the filter screens of the plurality of first filter screens are different in high-low density, large-particle impurities can be filtered, the activated carbon can exert longer time effect, the filter screens of different densities can enable the wastewater treatment to be more precise, and the surface particles of the activated carbon placed in the filter tables 11 can be thrown away due to centrifugal force by rotating the filter tables 11, so that the problem of influencing the water permeability caused by stacking of a large amount of particles on the surface of the activated carbon is reduced.

Description

Heavy metal wastewater treatment device

Technical Field

The utility model belongs to the technical field of sewage treatment, and particularly relates to a heavy metal wastewater treatment device.

Background

When heavy metal wastewater is produced, harmful wastewater discharged in industrial production is produced, and the heavy metal wastewater causes great harm to people and also causes pollution to ecological environment.

There are also various treatment methods for heavy metal wastewater, and when the heavy metal wastewater reaches the discharge standard, the heavy metal wastewater is subjected to innocent treatment and recycled, and activated carbon adsorption is one of the treatment methods for heavy metal wastewater.

To this end, the utility model provides a heavy metal wastewater treatment device.

Disclosure of utility model

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the utility model discloses a heavy metal wastewater treatment device, which comprises a device barrel, wherein a water inlet pipe is fixedly connected to the top of the device barrel, a motor is fixedly connected to the top of the outer part of the device barrel, a rotary rod is fixedly connected to the output end of the bottom of the motor, a plurality of filter tables are fixedly connected to the rotary rod, the filter tables are annular, the diameters of the filter tables are gradually decreased from top to bottom on the rotary rod, a plurality of groups of sewer pipes are fixedly connected to the bottom of the filter tables, a first filter screen is fixedly connected to the side wall of the filter table, a plurality of sieve plates are fixedly connected to the top of the first filter screen, a plurality of groups of small holes are formed in the sieve plates, when the wastewater is treated, activated carbon is not easy to splash due to rotation, then the activated carbon can play a longer time role when being discharged out of the device, the filter screens with different densities can enable the wastewater treatment to be more precise, the precipitated impurities can be blocked by different layers, effective filtration treatment can be continuously carried out, the surface of the activated carbon contained in the filter tables 11 can be enabled to be thrown off by centrifugal force due to the fact that the activated carbon is greatly influenced by the surface of the particles, and the surface of the activated carbon is greatly accumulated due to the fact that the activated carbon particles are greatly influenced by the surface is discharged.

Preferably, the inner wall of the device barrel is fixedly connected with a plurality of dirt collecting tables, the dirt collecting tables are annular, the outer sides of the dirt collecting tables are fixedly connected with second filter screens, the heights of the second filter screens are equal to those of the first filter screens, the dirt collecting tables are arranged on the inner wall of the device barrel, and the screened impurities can be collected in the rotating process and are subjected to secondary filtration after being collected.

Preferably, a plurality of first filter screen top rigid coupling has the arc wall, the arc wall is cyclic annular, arc wall thickness reduces from bottom to top, and the setting of arc wall can let large granule impurity naturally enter into among the dirt collecting table and filter once more, prevents to flow into below and the waste water mixture of filtering once more at rotatory in-process unfiltered waste water.

Preferably, the supporting rod is fixedly connected between the top of the inner wall of the barrel of the device and the water suction port, the bottom of the supporting rod is fixedly connected with the poking plate, the bottom of the poking plate is attached to the top filter table, poking is carried out through rotation of the rotating rod, large-particle impurities in the wastewater are effectively gathered together, and the impurities in the wastewater can be rapidly introduced into the top dirt collecting table by utilizing the scraping plate.

Preferably, the device barrel bottom rigid coupling has the outlet pipe, device barrel outside one end rigid coupling has the bath mouth, the inside one end rigid coupling of bath mouth has the pipe, the pipe is cylindric, the pipe is inside to be hollow setting, because the dirty platform of bottom album can block some with the water that washes in, makes its waste water impurity of collecting obtain the impact, lets rivers drive the waste water impurity of collecting, makes it can carry out the effect of cyclic filtration in the device barrel.

Preferably, the top of the circular tube is fixedly connected with two connecting pipes with the bottom of the dirt collecting table, when the bottom of the dirt collecting table is flushed into water, impurities in wastewater can be brought into the top circulation entering filter screen to be filtered, and when the filtered wastewater impurities are in the dirt collecting table and the filter table, the wastewater impurities can be flushed, and finally the wastewater impurities are sucked out by the water sucking port.

The beneficial effects of the utility model are as follows:

1. according to the heavy metal wastewater treatment device disclosed by the utility model, the motor drives the rotary rod to rotate, the rotary rod drives the plurality of filter tables to rotate when the rotary rod rotates, activated carbon is placed in the plurality of filter tables, when heavy metal wastewater is poured into the device, the activated carbon is adsorbed, meanwhile, a plurality of groups of water discharging pipes are provided with filter screens, the outflow of the activated carbon is prevented, the first filter screens are used for filtering while the adsorption is carried out, the first filter screens are different in density, large-particle impurities can be filtered out, when the plurality of filter tables rotate, the plurality of sieve plates can block splashing of the activated carbon caused by rotation at the moment, when the wastewater is treated, the sieve plates are increased, so that the activated carbon is not easy to splash caused by rotation in use, and then is discharged out of the device, so that the activated carbon can play a longer time effect, the filter screens with different densities can block impurities with different particles in different layers, and the precipitated impurities can be continuously and effectively filtered.

2. According to the heavy metal wastewater treatment device disclosed by the utility model, after large-particle impurities are filtered through the plurality of first filter screens, the impurities screened out of the plurality of screen plates can be screened out into the plurality of dirt collecting tables while the plurality of filter tables rotate, meanwhile, the impurities are filtered out again by the second filter screens, the plurality of dirt collecting tables are arranged on the inner wall of the device barrel, so that the screened out impurities can be collected in the rotating process, and secondary filtration is performed after the collection.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of a heavy metal wastewater treatment apparatus according to the present utility model;

FIG. 2 is a schematic diagram of the structure of the filter stage of the present utility model;

FIG. 3 is a schematic view of a dirt collecting table according to the present utility model;

FIG. 4 is a schematic view of the structure of the arcuate wall of the present utility model;

FIG. 5 is a schematic view of the structure of the round tube in the present utility model;

FIG. 6 is a schematic view of the structure of the shifting plate of the present utility model;

In the figure: 1. a rotating rod; 11. a filter stage; 12. a water supply pipe; 13. a first filter screen; 14. a sieve plate; 2. a dirt collecting table; 21. a second filter screen; 3. an arc-shaped wall; 4. a support rod; 41. a poking plate; 5. a round tube; 6. a connecting pipe; 7. a water outlet hole; 8. a device barrel; 81. a water inlet pipe; 82. a motor; 83. a water outlet pipe; 84. flushing a water gap; 85. and a water sucking port.

Detailed Description

The utility model is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 2 to 4, the heavy metal wastewater treatment device according to the embodiment of the utility model comprises a device barrel 8; the top of the device barrel 8 is fixedly connected with a water inlet pipe 81, the top of the outside of the device barrel 8 is fixedly connected with a motor 82, the output end of the bottom of the motor 82 is fixedly connected with a rotary rod 1, the middle part of the rotary rod 1 is fixedly connected with a plurality of filter tables 11, the filter tables 11 are annular, and the diameters of the filter tables 11 on the rotary rod 1 are gradually decreased from top to bottom; the bottom of the plurality of filter tables 11 is fixedly connected with a plurality of groups of sewer pipes 12, the side walls of the filter tables 11 are fixedly connected with first filter screens 13, the tops of the first filter screens 13 are fixedly connected with a plurality of sieve plates 14, the plurality of sieve plates 14 are provided with a plurality of groups of small holes, when the rotary rod 1 rotates, the rotary rod 1 is driven to rotate, activated carbon is placed in the plurality of filter tables 11, when heavy metal wastewater is poured into a device, the activated carbon is adsorbed, meanwhile, the plurality of groups of sewer pipes 12 are provided with filter screens, the outflow of the activated carbon is prevented, the adsorption is carried out, the plurality of first filter screens 13 are used for filtering, the filter screens of the plurality of first filter screens 13 are different along with the high density and the low density, large-particle impurities can be filtered, when the plurality of filter tables 11 rotate, the plurality of sieve plates 14 can block the splashing condition of the activated carbon caused by rotation, when the wastewater is treated, the activated carbon is not easy to cause the rotation in use, and then the activated carbon is discharged out of the device, the activated carbon can play a longer time effect, the activated carbon can be used, different treated with different layers of impurities can be blocked by the filter screens, different sediments can be filtered, and different impurities can be filtered; by rotating the filter table 11, the surface particles of the activated carbon contained in the filter table 11 can be thrown away by centrifugal force, and the problem of water permeability influence caused by accumulation of a large amount of particles on the surface of the activated carbon is reduced.

As shown in fig. 2 to 6, the inner wall of the device barrel 8 is fixedly connected with a plurality of dirt collecting tables 2, a plurality of dirt collecting tables 2 are annular, the outer sides of the plurality of dirt collecting tables 2 are fixedly connected with a second filter screen 21, the height of the second filter screen 21 is equal to that of the first filter screen 13, when the device is in operation, after the large-particle impurities are filtered out by the plurality of first filter screens 13, the impurities screened out from the plurality of screen plates 14 can be screened out into the plurality of dirt collecting tables 2 while the plurality of screen plates 11 rotate, and meanwhile, the second filter screen 21 is used for filtering and flowing out again, and the plurality of dirt collecting tables 2 are arranged on the inner wall of the device barrel 8, so that the screened impurities can be collected in the rotating process, and secondary filtration is performed after the collection.

As shown in fig. 4 to 6, a plurality of first filter screens 13 top rigid couplings have arc wall 3, arc wall 3 is cyclic annular, arc wall 3 thickness reduces from the bottom to the top, and during operation, the impurity after filtering is through the rotation of a plurality of sieve 14, and in arc wall 3 slides to dirt collection platform 2, and the setting of arc wall 3 can let large granule impurity naturally enter into dirt collection platform 2 in and filter again, prevents to flow into below and the waste water mixture of filtering again at rotatory in-process unfiltered waste water.

As shown in fig. 6, a supporting rod 4 is fixedly connected between the top of the inner wall of the device barrel 8 and the water suction port 85, a poking plate 41 is fixedly connected at the bottom end of the supporting rod 4, the bottom of the poking plate 41 is attached to the top filter table 11, when the device is in operation, the supporting rod 4 pokes through the rotation of the rotating rod 1 when being attached to the top screen plate 14, large-particle impurities in wastewater are effectively gathered together, and impurities in the wastewater can enter the top dirt collecting table 2 rapidly by utilizing a scraping plate.

As shown in fig. 4, the bottom of the device barrel 8 is fixedly connected with a water outlet pipe 83, one end of the outer side of the device barrel 8 is fixedly connected with a water flushing port 84, one end of the inner part of the water flushing port 84 is fixedly connected with a circular tube 5, the circular tube 5 is cylindrical, the inner part of the circular tube 5 is hollow, during operation, water is flushed into the circular tube 5 through the connection of the water flushing port 84, during operation of the water flushing port 84, the filtered wastewater can flow out from the water outlet pipe 83 through impacting the inner part of the device barrel 8, and because the water flushed in by the bottom dirt collecting table 2 blocks a part of the wastewater impurities collected by the water flushing table, the collected wastewater impurities are impacted, and the water flows drive the collected wastewater impurities to perform the function of circulating filtration in the device barrel 8.

As shown in fig. 3 to 5, two connecting pipes 6 are fixedly connected to the top of the circular pipe 5 and the bottom of the sewage collecting table 2, and when the sewage collecting table is operated, water is flushed into the bottom of the circular pipe 5 through the water flushing openings 84, the water enters the bottom of the sewage collecting table 2 through the two connecting pipes 6, and when the bottom of the sewage collecting table 2 is flushed into the water, impurities in the sewage can be brought into the top to be circularly filtered in the filter screen.

As shown in fig. 5, the outer side wall of the device barrel 8 is fixedly connected with a water suction port 85, the top of the circular tube 5 is fixedly connected with a plurality of water outlet holes 7, when the circular tube 5 is injected into water in operation, water is flushed out from bottom to top through the water outlet holes 7, and when filtered waste water impurities are in the dirt collecting table 2 and the filter table 11, the waste water impurities can be flushed out, and finally the waste water impurities are sucked out by the water suction port 85.

When in operation, the motor 82 drives the rotary rod 1 to rotate, when the rotary rod 1 rotates, the rotary rods drive the plurality of filter tables 11 to rotate, active carbon is placed in the plurality of filter tables 11, when heavy metal wastewater is poured into the device, the active carbon is adsorbed, meanwhile, a plurality of groups of downcomers 12 are provided with filter screens, the outflow of the active carbon is prevented, the adsorption is carried out, the plurality of first filter screens 13 are used for filtering, the filter screens of the plurality of first filter screens 13 are different in density along with the high density and the low density, large-particle impurities can be filtered, when the plurality of filter tables 11 rotate, the plurality of sieve plates 14 can block splashing conditions caused by the rotation of the active carbon, and after the plurality of first filter screens 13 are used for filtering the large-particle impurities, the impurity that can screen out on a plurality of sieve 14 when a plurality of filter tables 11 rotate screens out to a plurality of album of dirty platform 2 in, the impurity after filtering passes through the rotation of a plurality of sieve 14, in the arc wall 3 slides album of dirty platform 2, bracing piece 4 stirs through the rotation of rotary rod 1 when laminating with top sieve 14, connect through the bath mouth 84 and dash the pipe 5 with water, when bath mouth 84 operates, can be through striking the inside device bucket 8, waste water after filtering will flow out from outlet pipe 83 simultaneously, when punching into pipe 5 with water through the mouth 84, enter into album of dirty platform 2 bottom through two connecting pipes 6, when pipe 5 is poured into water, wash out water from bottom to top through apopore 7.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. A heavy metal wastewater treatment device comprises a device barrel (8); the method is characterized in that: the utility model discloses a device bucket, including device bucket (8), rotary rod (1), filter platform (14), filter platform (11) are the annular, a plurality of from big to little evenly distributed at rotary rod (1) top, a plurality of filter platform (11) bottom rigid coupling has multiunit downcomer (12), filter platform (11) lateral wall rigid coupling has first filter screen (13), first filter screen (13) top rigid coupling has a plurality of sieve (14), a plurality of sieve (14) are equipped with multiunit aperture.

2. The heavy metal wastewater treatment device according to claim 1, wherein: the device is characterized in that a plurality of dirt collecting tables (2) are fixedly connected to the inner wall of the device barrel (8), the dirt collecting tables (2) are annular, a plurality of second filter screens (21) are fixedly connected to the outer sides of the dirt collecting tables (2), and the heights of the second filter screens (21) are equal to those of the first filter screens (13).

3. A heavy metal wastewater treatment device according to claim 2, characterized in that: the top ends of the first filter screens (13) are fixedly connected with arc-shaped walls (3), the arc-shaped walls (3) are annular, and the thickness of the arc-shaped walls (3) is reduced from bottom to top.

4. A heavy metal wastewater treatment device according to claim 3, wherein: a supporting rod (4) is fixedly connected between the top of the inner wall of the device barrel (8) and the water suction port (85), a shifting plate (41) is fixedly connected to the bottom end of the supporting rod (4), and the bottom of the shifting plate (41) is attached to the top filter table (11).

5. The heavy metal wastewater treatment device according to claim 4, wherein: the device is characterized in that a water outlet pipe (83) is fixedly connected to the bottom of the device barrel (8), a flushing port (84) is fixedly connected to one end of the outer side of the device barrel (8), a circular pipe (5) is fixedly connected to one end of the inner portion of the flushing port (84), the circular pipe (5) is cylindrical, and the inner portion of the circular pipe (5) is hollow.

6. The heavy metal wastewater treatment device according to claim 5, wherein: two connecting pipes (6) are fixedly connected with the top of the round pipe (5) and the bottom of the dirt collecting table (2).

7. The heavy metal wastewater treatment device according to claim 6, wherein: the outer side wall of the device barrel (8) is fixedly connected with a water suction port (85), and the top of the round tube (5) is fixedly connected with a plurality of water outlet holes (7).