CN213112785U - Industrial wastewater purification device - Google Patents

Abstract

The utility model discloses an industrial wastewater purification device, which comprises a circulating water tank, wherein one side of the circulating water tank is provided with a wastewater inlet, the other side of the circulating water tank is provided with a water outlet, a PH value detector is arranged at the water outlet, the bottom of the circulating water tank is provided with a base, the base is provided with a control center, and the top of the circulating water tank is provided with a detachable top cover; the circulating water tank is divided into four water chambers, three filter screens are arranged in the circulating water tank, the bottoms of the water chambers are respectively provided with a first activated carbon adsorption layer, one side wall of each water chamber is provided with a second activated carbon adsorption layer, the water chambers are respectively provided with a slag scraping plate, and the slag scraping plates are arranged on the base through electric hydraulic telescopic rods; the device has simple design and low manufacturing cost, avoids various defects of simply using physical method, chemical method and biological method to treat the waste water, reduces the labor cost and improves the waste water purification efficiency.

Description

Industrial wastewater purification device

Technical Field

The utility model relates to a purifier, in particular to industrial waste water purifier.

Background

The waste water produced in industrial production is many, and the prior art generally adopts the following modes: physical method: mainly utilizes physical action to separate non-soluble substances in the sewage, and does not change chemical properties in the treatment process. Gravity separation, centrifugal separation, reverse osmosis, air flotation, etc. are commonly used. The physical method is simple and economical in treating the structure, and is used for the conditions of large water volume, strong self-purification capacity and low requirement on sewage treatment degree of villages and towns; the biological method comprises the following steps: by utilizing the metabolism function of microorganisms, the organic matters in a dissolved or colloidal state in the sewage are decomposed and oxidized into stable inorganic substances, so that the sewage is purified. Commonly used are an activated sludge process and a biofilm process. The biological method has higher treatment degree than the physical method; the chemical method comprises the following steps: the method is a method for treating or recovering dissolved substances or colloidal substances of sewage by utilizing chemical reaction, and is mainly used for industrial wastewater. As the method, coagulation, neutralization, redox, ion exchange, etc. are generally used. The chemical treatment method has good treatment effect and high cost.

The prior art has the following problems:

1. the gravity separation, centrifugal separation, reverse osmosis, air floatation and the like in the physical method all need special equipment with higher cost, and the cost of the operation of the gravity separation, the centrifugal separation, the reverse osmosis, the air floatation and the like is also higher, so the production cost is integrally increased.

2. The biological method has too slow treatment speed, influences the use speed, and needs strict temperature control, thereby improving the feasibility of operation.

3. The chemical method is widely used on the whole, but the cost of raw materials capable of participating in chemical reaction is high, and the substance product after the reaction and the pH value of the solution after the reaction are difficult to control through the chemical reaction, so that the chemical method is not suitable for recycling the solution.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned problem, provide an industrial waste water purifier. The utility model adopts the technical proposal that: an industrial wastewater purification device comprises a circulating water tank, wherein a wastewater inlet is formed in one side of the circulating water tank, a water outlet is formed in the other side of the circulating water tank, a PH value detector is installed at the water outlet, a base is arranged at the bottom of the circulating water tank, a control center is arranged on the base, and a detachable top cover is arranged at the top of the circulating water tank;

the circulating water tank is divided into four water chambers, namely a first water chamber, a second water chamber, a third water chamber and a fourth water chamber in sequence, three filter screens are arranged in the circulating water tank, namely a first filter screen, a second filter screen and a third filter screen, the first water chamber is connected with the second water chamber through the first filter screen, the second water chamber is connected with the third water chamber through the second filter screen, the third water chamber is connected with the fourth water chamber through the third filter screen, the mesh number of the third filter screen is larger than that of the second filter screen, and the mesh number of the second filter screen is larger than that of the first filter screen;

the bottoms of the first water chamber, the second water chamber, the third water chamber and the fourth water chamber are all provided with a first activated carbon adsorption layer, and one side wall of each of the second water chamber, the third water chamber and the fourth water chamber is provided with a second activated carbon adsorption layer;

the first water chamber, the second water chamber and the third water chamber are internally provided with a slag scraping plate, and the slag scraping plate is arranged on the base through an electric hydraulic telescopic rod.

Further, the waste water inlet is connected with the first water chamber.

Further, the water outlet is connected with the fourth water chamber.

Furthermore, the top cover is provided with a plurality of buckles in a communicating mode, the top of the circulating water pool is provided with a plurality of clamping grooves, and the buckles are clamped in the clamping grooves.

Furthermore, a plurality of pull rings are arranged on the top cover.

Furthermore, a ladder stand is arranged on the outer side wall of the circulating water pool.

Further, the slag scraping plate is made of reticular stainless steel.

Further, the second activated carbon adsorption layer is respectively close to the first filter screen, the second filter screen and the third filter screen.

Furthermore, four outer walls of the circulating water tank are made of transparent materials.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model relates to an industrial waste water purifier, the waste water of production passes through waste water entry entering circulating water pond, through first hydroecium, the first filter screen in second hydroecium and the third hydroecium, the second filter screen, the third filter screen filters layer upon layer, and first hydroecium, the second hydroecium, the diversified multiple adsorption of first active carbon adsorption layer and second active carbon adsorption layer in third hydroecium and the fourth hydroecium, most impurity and harmful substance in the water of getting rid of, this device design is simple, low in manufacturing cost, the all sorts of drawbacks of having avoided using simple physics method, chemical method and biological method to handle waste water.

2. The utility model relates to an industrial waste water purifier all installs the scum board in first hydroecium, second hydroecium, the third hydroecium, and the scum board passes through electric hydraulic telescopic handle to be installed on the base, is provided with control center on the base. The scum board can scrape the impurity that is stained with on first filter screen, second filter screen and the third filter screen and glues, prevents that first filter screen, second filter screen and third filter screen mesh from blockking up, has reduced the number of times of the artifical clearance of first filter screen, second filter screen and third filter screen of parking operation, has reduced the cost of labor, has improved waste water purification efficiency.

3. The utility model relates to an industrial wastewater purification device, the extension of control center control electric hydraulic telescopic handle or with the motion of striking off impurity of scum board, can realize the intelligent and flexible activation of scum board work.

4. The utility model relates to an industrial waste water purification device, circulating water tank top are provided with can dismantle the top cap, and the accessible is dismantled down the top cap and is got into circulating water tank, clears up, work such as clean and disinfection, equipment change to first hydroecium, second hydroecium, third hydroecium and fourth hydroecium to guarantee circulating water tank's normal work.

Drawings

In order to more clearly explain the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without making any inventive changes.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the slag scraping plate of the present invention;

FIG. 3 is a schematic view of the control center of the present invention;

FIG. 4 is a schematic view of a first screen of the present invention;

FIG. 5 is a schematic view of a second screen according to the present invention;

fig. 6 is a schematic view of a third filter screen of the present invention.

FIG. 1-a circulating water tank, 2-a wastewater inlet, 3-a water outlet, 4-a pH value detector, 5-a base, 6-a control center, 7-a top cover, 101-a first water chamber, 102-a second water chamber, 103-a third water chamber, 104-a fourth water chamber, 105-a first filter screen, 106-a second filter screen, 107-a third filter screen, 8-a first activated carbon adsorption layer, 9-a second activated carbon adsorption layer, 10-a slag scraping plate and 11-an electric hydraulic telescopic rod.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be described clearly and completely with reference to the accompanying drawings.

The core of the utility model is to provide an industrial wastewater purification device, the design of the device is simple, the manufacturing cost is low, various defects of simply using physical method, chemical method and biological method to treat wastewater are avoided, the labor cost is reduced, and the wastewater purification efficiency is improved.

Fig. 1 is the utility model discloses the overall structure schematic diagram, fig. 2 is the utility model discloses the scum board schematic diagram, fig. 3 is the utility model discloses the control center schematic diagram, fig. 4 is the utility model discloses first filter screen schematic diagram, fig. 5 is the utility model discloses second filter screen schematic diagram, fig. 6 is the utility model discloses third filter screen schematic diagram. As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the industrial wastewater purifying device of the present invention comprises a circulating water tank 1, a wastewater inlet 2 is arranged on one side of the circulating water tank 1, a water outlet 3 is arranged on the other side of the circulating water tank 1, a PH detector 4 is arranged at the water outlet 3, a base 5 is arranged at the bottom of the circulating water tank 1, a control center 6 is arranged on the base 5, and a detachable top cover 7 is arranged at the top of the circulating water tank 1;

the circulating water tank 1 is divided into four water chambers, namely a first water chamber 101, a second water chamber 102, a third water chamber 103 and a fourth water chamber 104, three filter screens are arranged in the circulating water tank 1, namely a first filter screen 105, a second filter screen 106 and a third filter screen 107, the first water chamber 101 is connected with the second water chamber 102 through the first filter screen 105, the second water chamber 102 is connected with the third water chamber 103 through the second filter screen 106, the third water chamber 103 is connected with the fourth water chamber 104 through the third filter screen 107, the mesh number of the third filter screen 107 is larger than that of the second filter screen 106, and the mesh number of the second filter screen 106 is larger than that of the first filter screen 105.

The bottoms of the first water chamber 101, the second water chamber 102, the third water chamber 103 and the fourth water chamber 104 are all provided with a first activated carbon adsorption layer 8, and one side walls of the second water chamber 102, the third water chamber 103 and the fourth water chamber 104 are all provided with a second activated carbon adsorption layer 9;

the first water chamber 101, the second water chamber 102 and the third water chamber 103 are all internally provided with a slag scraping plate 10, and the slag scraping plate 10 is arranged on the base 5 through an electric hydraulic telescopic rod 11.

Specifically, the wastewater inlet 2 is connected to the first water chamber 101.

Specifically, drain port 3 is connected to fourth water chamber 104.

Specifically, the top cover 7 is provided with a plurality of buckles, the top of the circulating water tank 1 is provided with a plurality of clamping grooves, and the buckles are clamped in the clamping grooves.

Specifically, the top cover 7 is provided with a plurality of pull rings.

Specifically, a ladder stand is installed on the outer side wall of the circulating water tank 1.

Specifically, the scraper 10 is made of stainless steel mesh.

Specifically, four outer walls of the circulating water tank 1 are made of transparent materials.

Specifically, the second activated carbon adsorption layer 9 is respectively adjacent to the first sieve 105, the second sieve 106 and the third sieve 107.

The utility model discloses the theory of operation: the mesh number of the third screen 107 is larger than that of the second screen 106, and the mesh number of the second screen 106 is larger than that of the first screen 105.

The waste water of production passes through waste water entry 2 and gets into first hydroecium 101 in, and the first active carbon adsorption layer 8 of first hydroecium 101 bottom adsorbs particulate matter and harmful substance in to waste water, and first filter screen 105 filters water, filters the big impurity in the filtration water, makes in the water big impurity stay in first hydroecium 101.

Then, water enters the second water chamber 102 through the first filter screen 105, the second activated carbon adsorption layer 9 which is arranged on the side wall of the second water chamber 102 and is close to the first filter screen 105 adsorbs the water again to adsorb particulate matters and harmful substances in the water, and the first activated carbon adsorption layer 8 at the bottom of the second water chamber 102 adsorbs the particulate matters and the harmful substances in the wastewater to adsorb the particulate matters and the harmful substances in the water; the second screen 106 filters the water to filter out larger impurities in the water, so that the larger impurities in the water remain in the second water chamber 102.

Then, water enters the third water chamber 103 through the second filter screen 106, the second activated carbon adsorption layer 9 which is arranged on the side wall of the third water chamber 103 and is close to the second filter screen 106 adsorbs the water again to adsorb particulate matters and harmful substances in the water, and the first activated carbon adsorption layer 8 at the bottom of the third water chamber 103 adsorbs the particulate matters and the harmful substances in the wastewater to adsorb the particulate matters and the harmful substances in the water; the third filter 107 filters the water to filter small impurities in the water, so that the small impurities in the water are left in the third water chamber 103.

Then, water enters the fourth water chamber 104 through the third filter screen 107, the second activated carbon adsorption layer 9 which is close to the third filter screen 107 on the side wall of the fourth water chamber 104 adsorbs the water again to adsorb particulate matters and harmful substances in the water, and the first activated carbon adsorption layer 8 at the bottom of the third water chamber 103 adsorbs the particulate matters and the harmful substances in the wastewater to adsorb the particulate matters and the harmful substances in the water; a PH value detector 4 at the water outlet 3 detects the PH value of the water after the adsorption and filtration of the layer, and if the water reaches the standard, the water can be directly discharged or transported to a designated use place; if the standard is not met, the waste water is further treated to meet the standard and then is discharged or transported to a designated use site.

The first water chamber 101, the second water chamber 102 and the third water chamber 103 are all internally provided with a slag scraping plate 10, the slag scraping plate 10 is arranged on the base 5 through an electric hydraulic telescopic rod 11, and the base 5 is provided with a control center 6. The scraping plate 10 can scrape off the impurities adhered to the first screen 105, the second screen 106 and the third screen 107, and prevent the meshes of the first screen 105, the second screen 106 and the third screen 107 from being blocked. The control center 6 controls the expansion or contraction of the electrohydraulic telescopic rod 11 and the movement of the scraper bar 10 for scraping impurities.

The top of the circulating water tank 1 is provided with a detachable top cover 7, the top cover 7 can be detached to enter the circulating water tank 1, and the first water chamber 101, the second water chamber 102, the third water chamber 103 and the fourth water chamber 104 are cleaned, disinfected, replaced with equipment and the like.

The wastewater inlet 2 is connected with the first water chamber 101, so that wastewater enters from the first water chamber 101 and sequentially passes through the second water chamber 102, the third water chamber 103 and the fourth water chamber 104 to be filtered and adsorbed layer by layer.

The drain port 3 is connected to the fourth water chamber 104, and the drain port 3 is provided in the fourth water chamber 104 that is arranged at the end.

The top cover 7 is provided with a plurality of buckles on the way, and 1 top in circulating water pond is provided with a plurality of draw-in grooves, and the buckle card is in the draw-in groove, and top cover 7 is fixed in 1 top in circulating water pond through the buckle card in the draw-in groove.

Be provided with a plurality of pull rings on top cap 7, open the buckle and be connected with the draw-in groove, the accessible pull ring pulls top cap 7 down, realizes opening of top cap 7.

The outer side wall of the circulating water tank 1 is provided with a crawling ladder, and after the top cover 7 is opened, a worker can climb to the top of the circulating water tank 1 through the crawling ladder so as to enter the circulating water tank 1.

The scraper 10 is made of stainless steel mesh, which can effectively prevent the scraper 10 from being corroded and rusted.

The second activated carbon adsorption layer 9 is close to the first filter screen 105, the second filter screen 106 and the third filter screen 107 respectively, and is subjected to second activated carbon adsorption after passing through the first filter screen 105, the second activated carbon adsorption after passing through the second filter screen 106, and the second activated carbon adsorption after passing through the third filter screen 107, so that water is purified more thoroughly layer by layer through filtration and adsorption.

Four outer walls of the circulating water tank 1 are made of transparent materials, so that the condition of the circulating water tank 1 can be observed at any time. Such as whether the first screen 105, the second screen 106 and the third screen 107 are about to be clogged, whether the scraper 10 is normally operated, whether it is time for the circulation tank 1 to be manually cleaned, etc.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice in the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The above-described embodiments of the present application do not limit the scope of the present application.

Claims (9)

1. The industrial wastewater purification device comprises a circulating water tank and is characterized in that a wastewater inlet is formed in one side of the circulating water tank, a water outlet is formed in the other side of the circulating water tank, a PH value detector is installed at the water outlet, a base is arranged at the bottom of the circulating water tank, a control center is arranged on the base, and a detachable top cover is arranged at the top of the circulating water tank;

the circulating water tank is divided into four water chambers, namely a first water chamber, a second water chamber, a third water chamber and a fourth water chamber in sequence, three filter screens are arranged in the circulating water tank, namely a first filter screen, a second filter screen and a third filter screen, the first water chamber is connected with the second water chamber through the first filter screen, the second water chamber is connected with the third water chamber through the second filter screen, the third water chamber is connected with the fourth water chamber through the third filter screen, the mesh number of the third filter screen is larger than that of the second filter screen, and the mesh number of the second filter screen is larger than that of the first filter screen;

the bottoms of the first water chamber, the second water chamber, the third water chamber and the fourth water chamber are all provided with a first activated carbon adsorption layer, and one side wall of each of the second water chamber, the third water chamber and the fourth water chamber is provided with a second activated carbon adsorption layer;

the first water chamber, the second water chamber and the third water chamber are internally provided with a slag scraping plate, and the slag scraping plate is arranged on the base through an electric hydraulic telescopic rod.

2. The industrial wastewater purification apparatus of claim 1, wherein the wastewater inlet is connected to the first water chamber.

3. The industrial wastewater purification apparatus according to claim 1, wherein the drain port is connected to the fourth water chamber.

4. The industrial wastewater purification device according to claim 1, wherein the top cover is provided with a plurality of buckles, the top of the circulating water tank is provided with a plurality of clamping grooves, and the buckles are clamped in the clamping grooves.

5. The industrial wastewater purification apparatus of claim 1, wherein the top cover is provided with a plurality of pull rings.

6. The industrial wastewater purification apparatus according to claim 1, wherein a ladder stand is installed on an outer side wall of the circulation tank.

7. The industrial wastewater purification apparatus of claim 1, wherein the scraper plate is made of stainless steel mesh.

8. The industrial wastewater purification apparatus of claim 1, wherein the second activated carbon adsorption layer is adjacent to the first screen, the second screen, and the third screen, respectively.

9. The industrial wastewater purification apparatus according to claim 1, wherein the four outer walls of the circulation tank are made of transparent materials.

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