CN219567741U - Purifying cylinder with internal separation mechanism - Google Patents

Abstract

The utility model discloses a purifying cylinder with a built-in separation mechanism, which relates to the field of purifying cylinders and comprises a cylinder body, a filtering reaction chamber and a biological contact oxidation reaction chamber, wherein the filtering reaction chamber is arranged above the left side of the cylinder body, a movable cover plate is arranged above the filtering reaction chamber, the inner wall of the filtering reaction chamber is connected with a wastewater inlet pipe, a support column is arranged below the filtering reaction chamber, and a filtering component is arranged inside the filtering reaction chamber. This establish purification jar of separating mechanism in, through utilizing filter element to filter the debris of major diameter in the waste water, utilize flat ceramic membrane to filter macromolecular substance such as suspended solid and glue in the waste water, speed up waste water purification's speed, utilize PH value test control assembly test and regulate and control the PH value of water, guarantee that the microorganism that is attached to on the packing is in a suitable environment, more thoroughly purify the harmful substance in the water, utilize sodium hydroxide solution to absorb unnecessary chlorine, guaranteed the safety problem of purification jar purification in-process.

Description

Purifying cylinder with internal separation mechanism

Technical Field

The utility model relates to the field of purifying cylinders, in particular to a purifying cylinder with a built-in separation mechanism.

Background

The wastewater treatment is to use physical, chemical and biological methods to check and treat the wastewater, so as to purify the wastewater and reduce pollution, thereby achieving wastewater recovery and reuse, fully utilizing water resources, and generally treating the wastewater in a purifying cylinder, wherein the purifying cylinder is a container for removing bad or unnecessary impurities in articles in a cylinder body, so that the articles reach purity degree.

However, the existing purifying cylinder still has some defects, such as a water storage purifying cylinder with the application number of CN181410792156.3, a separation mechanism is not considered, the purifying cylinder can not thoroughly purify water without a layering mechanism, the aim of recycling water sources cannot be achieved, impurities remain in the water, even harmful ions remain in the water, the water with the harmful ions still remains is used for irrigation, and toxic and harmful substances in the water pollute soil and enter a food chain through crops to endanger human health.

Therefore, there is an urgent need to improve the shortcomings, and the present utility model is to solve the existing structure and shortcomings, and provide a purifying cylinder with a built-in separation mechanism.

Disclosure of Invention

The utility model aims to provide a purifying cylinder with a separation mechanism inside, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an establish separating mechanism's purifying cylinder in, includes the cylinder body, filters reacting chamber and biological contact oxidation reaction chamber, the left side top of cylinder body is equipped with the filtration reacting chamber, and the top of filtering the reacting chamber is equipped with the movable cover plate, and the inner wall connection of filtration reacting chamber has the waste water inlet tube, and the below of filtering the reacting chamber is provided with the support column, the inside of filtering the reacting chamber is provided with filter element simultaneously, filter element's below is connected with dull and stereotyped ceramic membrane, and dull and stereotyped ceramic membrane's below is connected with drainage channel, and drainage channel connects the left side inner wall at the cylinder body, the right side of cylinder body is provided with the baffle, and the left side of baffle is equipped with biological contact oxidation reaction chamber, and the inside of biological contact oxidation reaction chamber is equipped with the filler, and the below of filler is provided with aeration equipment, biological contact oxidation reaction chamber's top is provided with the movable cylinder cap, and the bleeder vent has been seted up on the surface to the movable cylinder cap, and the left side top of movable cylinder cap is provided with PH value test control assembly, the upper segment of baffle runs through the gomphosis and the right side of baffle is provided with the third reacting chamber, the top of third reacting chamber is equipped with the sealed cylinder cap, and the sealed cylinder cap is connected with the sealed cylinder cap right side wall.

Further, the filter component comprises a first filter screen, a second filter screen and a third filter screen, and the first filter screen, the second filter screen and the third filter screen are equidistantly arranged in the filter reaction chamber from top to bottom.

Further, the flat ceramic membranes are arranged below the third filter screen, the number of the flat ceramic membranes is five, and the five flat ceramic membranes are equidistantly distributed from left to right.

Further, the aeration device is arranged at the bottom of the biological contact oxidation reaction chamber, one end of a pipeline of the aeration device is fixedly connected with the partition plate, and the other end of the pipeline of the aeration device penetrates through the cylinder body to be connected with the exhaust fan.

Further, the PH value test control assembly comprises a PH value test controller, an acid solution storage bottle and an alkaline solution storage bottle, and the PH value test controller is positioned in the middle of the acid solution storage bottle and the alkaline solution storage bottle.

Further, the chlorine pipeline is located the below of third reaction room, and the surface of chlorine pipeline is equipped with the gas outlet to the one end fixedly connected with baffle of chlorine pipeline, and the other end setting of chlorine pipeline links to each other with chlorine air feed equipment in the outside of cylinder body moreover.

Further, the chlorine removal assembly comprises an air inlet pipeline, a sodium hydroxide solution reaction box, a wooden box cover and an air outlet pipeline, wherein the air inlet pipeline 2101 is connected to the inner wall of the sealing cylinder cover 20, the air inlet pipeline 2101 is connected with the wooden box cover 2103 in a penetrating manner, the lower part of the wooden box cover 2103 is connected with the sodium hydroxide solution reaction box 2102 in a sealing manner, and meanwhile one end of the air outlet pipeline 2104 is tightly connected to the inner wall of the wooden box cover 2103 through a rubber ring.

The utility model provides a purifying cylinder with a built-in separation mechanism, which has the following beneficial effects: this establish purification jar of separating mechanism in, through utilizing filter element to filter the debris of major diameter in the waste water, utilize flat ceramic membrane to filter macromolecular substance such as suspended solid and glue in the waste water, speed up waste water purification's speed, utilize PH value test control assembly test and regulate and control the PH value of water, guarantee that the microorganism that is attached to on the packing is in a suitable environment, more thoroughly purify the harmful substance in the water, utilize sodium hydroxide solution to absorb unnecessary chlorine, guaranteed the safety problem of purification jar purification in-process.

1. The utility model is provided with the filtering reaction chamber, filters large-diameter impurities in the wastewater by utilizing the filtering component, filters macromolecular substances such as suspended matters and glue in the wastewater by utilizing the flat ceramic membrane, and filters the macromolecular substances in the wastewater by utilizing the flat ceramic membrane after improvement, only allows water, inorganic salt and micromolecular substances to permeate the membrane, thereby accelerating the wastewater purification speed, reducing the purification burden of the subsequent purification procedure and improving the working efficiency.

2. The utility model is provided with a biological contact oxidation reaction chamber, the PH value of water in the reaction chamber is tested by utilizing a PH value test control component, an acidic solution storage bottle or an alkaline solution storage bottle is timely controlled to put the acidic solution or the alkaline solution into the water, harmful substances such as ammonia nitrogen, nitrous acid, nitrate, hydrogen sulfide and the like in the water are removed by utilizing a biological contact oxidation method, the PH value of the water is tested and regulated by utilizing the PH value test control component, the PH value of the water is ensured to be stable to about seven, microorganisms attached to a filler are ensured to be in a proper environment, and the harmful substances in the water are more thoroughly purified.

3. The utility model is provided with the chlorine removal component, the redundant chlorine in the third reaction chamber is absorbed by the sodium hydroxide solution and is converted into harmless gas, the improved device generates the harmless gas by the reaction of the sodium hydroxide solution and the chlorine, the air pollution is not caused, and the safety problem in the purifying process of the purifying cylinder is ensured.

Drawings

FIG. 1 is a schematic view of the external structure of a purifying cylinder with a partition mechanism inside;

FIG. 2 is a schematic diagram of the front view of a purifying cylinder with a partition mechanism inside;

FIG. 3 is a schematic cross-sectional elevation view of a purge cylinder incorporating a separation mechanism according to the present utility model;

FIG. 4 is a schematic diagram showing a cross-sectional structure of a filtration reaction chamber of a purification cylinder with a partition mechanism therein according to the present utility model.

In the figure: 1. a cylinder; 2. filtering the reaction chamber; 3. a removable cover; 4. a wastewater inlet pipe; 5. a support column; 6. a filter assembly; 601. a first filter screen; 602. a second filter screen; 603. a third filter screen; 7. a flat ceramic membrane; 8. a drainage channel; 9. a partition plate; 10. a biological contact oxidation reaction chamber; 11. a filler; 12. an aeration device; 13. an exhaust fan; 14. a movable cylinder cover; 15. ventilation holes; 16. a pH test control assembly; 1601. a PH value test controller; 1602. an acidic solution storage bottle; 1603. an alkaline solution storage bottle; 17. a water pump; 18. a third reaction chamber; 19. a chlorine pipe; 20. sealing the cylinder cover; 21. a chlorine removal assembly; 2101. an air intake duct; 2102. a sodium hydroxide solution reaction tank; 2103. a wooden box cover; 2104. an air outlet pipe; 22. and a water outlet pipeline.

Description of the embodiments

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a purifying cylinder with a separation mechanism is arranged inside, which comprises a cylinder body 1, a filtering reaction chamber 2 and a biological contact oxidation reaction chamber 10, wherein the filtering reaction chamber 2 is arranged above the left side of the cylinder body 1, a movable cover plate 3 is arranged above the filtering reaction chamber 2, the inner wall of the filtering reaction chamber 2 is connected with a wastewater inlet pipe 4, a supporting column 5 is arranged below the filtering reaction chamber 2, a filtering component 6 is arranged inside the filtering reaction chamber 2, the filtering component 6 comprises a first filtering screen 601, a second filtering screen 602 and a third filtering screen 603, the first filtering screen 601, the second filtering screen 602 and the third filtering screen 603 are equidistantly arranged inside the filtering reaction chamber 2 from top to bottom, sundries with large diameters in wastewater can be filtered to the greatest extent, the workload is relieved for the subsequent purifying procedure, the number of the filtering component 6 is five, the five flat ceramic membranes 7 are equidistantly arranged below the third filtering screen 603, the five flat ceramic membranes 7 are equidistantly arranged from left to right, the purifying speed is accelerated, the purifying efficiency is improved, the wastewater is connected with the left side of the inner wall 8 of the ceramic membrane 7 is connected with the left side of the filtering reaction chamber 8, and the water is connected with the left side of the inner wall 8 of the ceramic channel 8.

As shown in fig. 1, 2 and 3, a baffle plate 9 is arranged on the right side of the cylinder body 1, a biological contact oxidation reaction chamber 10 is arranged on the left side of the baffle plate 9, a filler 11 is arranged in the biological contact oxidation reaction chamber 10, an aeration device 12 is arranged below the filler 11, the aeration device 12 is arranged at the bottom of the biological contact oxidation reaction chamber 10, one end of a pipeline of the aeration device 12 is fixedly connected with the baffle plate 9, the other end of the pipeline of the aeration device 12 penetrates through the cylinder body 1 to be connected with an exhaust fan 13, air is conveyed into the biological contact oxidation reaction chamber 10 by the exhaust fan 13, microorganisms are conveyed in water by the aeration device 12 to comprehensively purify the water, a valve is arranged on the pipeline to prevent equipment damage caused by backflow of water into the exhaust fan 13 by closing the valve, a movable cylinder cover 14 is arranged above the biological contact oxidation reaction chamber 10, and the surface of the movable cylinder cover 14 is provided with an air vent 15, the upper left side of the movable cylinder cover 14 is provided with a PH value test control assembly 16, the PH value test control assembly 16 comprises a PH value test controller 1601, an acid solution storage bottle 1602 and an alkaline solution storage bottle 1603, the PH value test controller 1601 is positioned between the acid solution storage bottle 1602 and the alkaline solution storage bottle 1603, the PH value test controller 1601 controls the acid solution storage bottle 1602 or the alkaline solution storage bottle 1603 to put acid solution or alkaline solution into water through a control line, the PH value of the water is kept stable to about seven, microorganisms attached on the filler 11 are ensured to be in a proper environment, harmful substances in the water are thoroughly purified, the upper section of the partition board 9 is penetrated and embedded with a water pump 17, a water inlet pipe of the water pump 17 stretches into the biological contact oxidation reaction chamber 10, a water outlet pipe of the water pump 17 stretches into the third reaction chamber 18, the water is discharged from the biological contact oxidation reaction chamber 10 to the third reaction chamber 18 through the water pump 17, the third reaction chamber 18 is arranged on the right side of the partition plate 9, the chlorine pipeline 19 is positioned below the third reaction chamber 18, an air outlet is formed in the outer surface of the chlorine pipeline 19, one end of the chlorine pipeline 19 is fixedly connected with the partition plate 9, the other end of the chlorine pipeline 19 is arranged on the outer side of the cylinder body 1 and is connected with a chlorine gas supply device, the water is disinfected by chlorine gas, a valve is arranged on the pipeline, and the water is prevented from flowing backwards into the pipeline to damage the device by closing the valve.

As shown in fig. 1, fig. 2 and fig. 3, the top of the third reaction chamber 18 is provided with a sealing cylinder cover 20, and the top of the sealing cylinder cover 20 is connected with a chlorine removal assembly 21, the chlorine removal assembly 21 comprises an air inlet pipeline 2101, a sodium hydroxide solution reaction box 2102, a wooden case cover 2103 and an air outlet pipeline 2104, the air inlet pipeline 2101 is connected to the inner wall of the sealing cylinder cover 20, the air inlet pipeline 2101 is connected with the wooden case cover 2103 in a penetrating manner, the lower part of the wooden case cover 2103 is connected with a sodium hydroxide solution reaction box 2102 in a sealing manner, one end of the air outlet pipeline 2104 is tightly connected to the inner wall of the wooden case cover 2103 through a rubber ring, harmless gas is generated by utilizing the reaction of sodium hydroxide solution and chlorine, the chlorine removal assembly 21 is connected with the sealing cylinder cover 20 in a sealing manner, the leakage of the harmful gas is avoided, the air pollution is avoided, the safety problem in the purifying process of the purifying cylinder is guaranteed, and the right side wall of the cylinder body 1 is provided with a water outlet pipeline 22.

In summary, this built-in separating mechanism's purification jar, firstly, through the structure that shows in fig. 1-4, through being provided with filter unit 6 in the inside of filtering reaction room 2, the debris of major diameter in the filtration waste water of the maximum degree lightens the work load for subsequent purification procedure, arrange from left to right equidistance in the below of third filter screen 603 and set up five dull and stereotyped ceramic membranes 7, the speed of waste water purification has been accelerated, work efficiency has been improved, the upper left side of movable cylinder cap 14 is provided with PH value test control assembly 16, maintain the PH value of water stable around seven, guarantee that the microorganism of attaching on the filler 11 is in a suitable environment, more thoroughly purify the harmful substance in the water, be connected with chlorine removal subassembly 21 in the top of sealed cylinder cap 20, utilize sodium hydroxide solution and chlorine reaction, generate harmless gas, chlorine removal subassembly 21 and sealed connection of sealed cylinder cap 20, avoid harmful gas to reveal, can not cause air pollution, and the safety problem in the purification jar purification process has been guaranteed.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a purification cylinder with a separation mechanism inside, which comprises a cylinder body (1), filter the reaction chamber (2) and biological contact oxidation reaction chamber (10), a serial communication port, the left side top of cylinder body (1) is equipped with filters reaction chamber (2), and the top of filters reaction chamber (2) is equipped with removable cover (3), and the inner wall of filters reaction chamber (2) is connected with waste water inlet tube (4), and the below of filters reaction chamber (2) is provided with support column (5), the inside of filters reaction chamber (2) is provided with filter assembly (6) simultaneously, the below of filter assembly (6) is connected with dull and stereotyped ceramic membrane (7), and the below of dull and stereotyped ceramic membrane (7) is connected with drainage channel (8), and drainage channel (8) are connected at the left side inner wall of cylinder body (1), the right side of cylinder body (1) is provided with baffle (9), and the left side of baffle (9) is equipped with biological contact oxidation reaction chamber (10), and the inside of biological contact oxidation reaction chamber (10) is equipped with filler (11), and the below of filler (11) is provided with aeration device (12), the below of filler (14) is provided with aeration device (14), and the top of biological contact oxidation reaction chamber (10) is provided with the movable cylinder cap (14), and PH value test control assembly (16) are provided with in the left side top of movable cylinder cap (14), the upper segment of baffle (9) runs through the gomphosis and has water pump (17), and the right side of baffle (9) is provided with third reaction chamber (18), the top of third reaction chamber (18) is equipped with sealed cylinder cap (20), and the top of sealed cylinder cap (20) is connected with dechlorination subassembly (21) to the right side wall of cylinder body (1) is provided with outlet conduit (22).

2. The purifying cylinder with the built-in separation mechanism according to claim 1, wherein the filtering assembly (6) comprises a first filtering screen (601), a second filtering screen (602) and a third filtering screen (603), and the first filtering screen (601), the second filtering screen (602) and the third filtering screen (603) are equidistantly arranged in the filtering reaction chamber (2) from top to bottom.

3. The purifying cylinder with the built-in separation mechanism according to claim 1, wherein the flat ceramic membranes (7) are arranged below the third filter screen (603), the number of the flat ceramic membranes (7) is five, and the five flat ceramic membranes (7) are equidistantly arranged from left to right.

4. The purifying cylinder with the built-in separation mechanism according to claim 1, wherein the aeration device (12) is arranged at the bottom of the biological contact oxidation reaction chamber (10), one end of a pipeline of the aeration device (12) is fixedly connected with the partition plate (9), and the other end of the pipeline of the aeration device (12) penetrates through the cylinder body (1) to be connected with the exhaust fan (13).

5. The purifying cylinder with the built-in partition mechanism according to claim 1, wherein the PH test control unit (16) includes a PH test controller (1601), an acidic solution storage bottle (1602) and an alkaline solution storage bottle (1603), and the PH test controller (1601) is located in the middle of the acidic solution storage bottle (1602) and the alkaline solution storage bottle (1603).

6. The purifying cylinder with the built-in separation mechanism according to claim 1, wherein a chlorine pipe (19) is arranged below the third reaction chamber (18), an air outlet is arranged on the outer surface of the chlorine pipe (19), one end of the chlorine pipe (19) is fixedly connected with a separation plate (9), and the other end of the chlorine pipe (19) is arranged outside the cylinder body (1) and is connected with a chlorine gas supply device.

7. The purifying cylinder with the built-in separation mechanism according to claim 1, wherein the chlorine removal assembly (21) comprises an air inlet pipeline (2101), a sodium hydroxide solution reaction tank (2102), a wooden case cover (2103) and an air outlet pipeline (2104), the air inlet pipeline (2101) is connected to the inner wall of the sealed cylinder cover (20), the air inlet pipeline (2101) is connected with the wooden case cover (2103) in a penetrating manner, the lower part of the wooden case cover (2103) is connected with the sodium hydroxide solution reaction tank (2102) in a sealing manner, and one end of the air outlet pipeline (2104) is tightly connected to the inner wall of the wooden case cover (2103) through a rubber ring.