KR102313551B1 - Contaminant treatment device - Google Patents

Abstract

A contaminant treatment device is provided. According to one embodiment, the contaminant treatment device includes: an introduced water tank in which water is introduced and stored; a treatment tank for separating the water introduced into the introduced water tank into contaminants and treated water; and a treated water discharge unit for discharging the treated water separated in the treatment tank to the outside, wherein the treatment tank can include: a main screen that is rotationally provided to separate the contaminants from the introduced water; and a treated water screen for secondarily separating residual contaminants contained in the treated water separated from the introduced water and discharged from the main screen.

Description

Contaminant treatment device {Contaminant treatment device}

The present invention relates to a contaminant treatment apparatus, and more particularly, to a contaminant treatment apparatus having a treated water screen capable of achieving a compact structure while improving separation efficiency.

In general, the contaminant removal device is a kind of waste treatment equipment installed in the discharge waterway of various sewage treatment plants. It is to easily filter and discharge various contaminants that cause clogging of waterways, including various types of foreign substances such as rubber and sand.

Accordingly, as disclosed in Utility Model Registration No. 20-0203076, which is installed and used for the same purposes as described above, a conveying pipe of a downward inclined structure equipped with a drive motor and a cylindrical structure in which a plurality of water holes are perforated ( Cylindrical screen) is combined into a link structure that enables mutual power transmission.

Then, the combined transfer pipe and the basket drum are fixed, the rake arm is rotated to scrape off impurities inside the drum, and a screw for transferring the impurities is installed inside the basket drum and discharged.

Such a conventional contaminant removal device needs to be periodically cleaned in order to improve the removal efficiency, and the cylindrical screen is cleaned using a separate liquid.

However, when a separate external liquid is used, cleaning equipment is further provided accordingly, thereby increasing the cost.

In order to solve this problem, a technology to reduce costs by using the treated water separated from the cylindrical screen to clean the cylindrical screen has been developed and used. There is a problem in that the screen is blocked or the cleaning nozzle is blocked to prevent smooth cleaning.

In order to solve this problem, as disclosed in Patent Registration No. 10-1616225, a technique for preventing the washing nozzle from clogging by secondary filtering of the treated water separated by the cylindrical screen by providing a treated water filtering means has been proposed. According to this technology, the volume of the contaminant removal device is excessively large, or the treated water filter of the treated water filtering means is sludge because the treated water filtering means must inevitably be provided with a separate mounting part for secondary filtering. The secondary filtering efficiency by the treated water filtering means rapidly deteriorates due to clogging by the There was a problem that made it difficult.

In addition, the conventional contaminant removal device has a problem in that the treated raw water is discharged together with the contaminants when the cylindrical screen is not operated due to an overload or a malfunction of the cylindrical screen.

In addition, the conventional contaminant removal device adopts a structure in which the drive shaft of the rotary motor is installed to be parallel to the cylindrical screen and rotates the cylindrical screen using a chain, but the inconvenience of continuously controlling the tension of the chain during driving and the chain gear There was a risk of personal injury due to

In addition, the conventional contaminant removal device adopts a structure for transmitting the rotational force of the rotary motor to the contaminant discharge unit (hopper) constituting the end of the cylindrical screen. As a result, in the conventional contaminant removal device, the sprocket for engaging the chain with the contaminant discharge unit and the wheel supporting the rotation of the cylindrical screen by being disposed under the cylindrical screen should all be disposed, so that the area of the contaminant discharge unit is large and the inclination angle is small As the structure was adopted, there was a problem in that the discharge efficiency of contaminants was deteriorated.

Therefore, the screen is cleaned using the treated water, but the problem caused by blocking the outlet of the cleaning nozzle is solved to improve the separation efficiency and at the same time achieve a compact structure, and solve the problem that the treated raw water is discharged together with contaminants, It is necessary to develop a technology that can eliminate the hassle of continuously controlling the tension of the chain during operation and the possibility of human accidents, and improve the efficiency of discharging contaminants by adopting a structure with a narrow contaminant discharge area and a large inclination angle. .

Republic of Korea Registered Utility Model No. 20-0203076 (2000.09.02) Republic of Korea Patent Registration No. 10-1616225 (2016.04.21)

The present invention is to solve the problems of the prior art as described above, but using treated water to clean the screen, and solve the problems caused by blocking the outlet of the cleaning nozzle to improve the separation efficiency and achieve a compact structure, , it solves the problem of raw water being discharged together with contaminants, eliminates the trouble of continuously controlling the tension of the chain during operation and the possibility of human accidents, and adopts a structure with a narrow contaminant discharge area and a large inclination angle An object of the present invention is to provide a contaminant treatment device capable of improving the discharge efficiency.

In order to solve the above problems, the present invention includes: an inflow water tank in which inflow water is introduced and stored; a treatment tank for separating the influent water introduced into the inflow water tank into contaminants and treated water; and a treated water discharging unit discharging the treated water separated from the treatment tank to the outside, wherein the treatment tank is rotatably provided to separate the main screen for separating contaminants from the influent water and the influent water and falls out of the main screen Provided is a foreign matter treatment device including a treated water screen for secondary separation of residual impurities contained in the discharged treated water.

The present invention also, in order to solve the above problems, the influent is introduced and stored in the influent tank; After the influent flows into the main screen, it is separated into treated water and contaminants, and the contaminants are discharged through a contaminant discharge unit provided at the other end of the main screen, and the treated water falls and is stored in the treated water storage tank; The treated water passes through the treated water screen provided adjacent to one end of the main screen and then falls and the washing water is stored in the washing water reservoir disposed below the treated water reservoir; The washing water is sucked into the washing water suction pipe by the washing pump and then discharged to the washing water injection pipe; The washing water sprayed to the washing water injection pipe is sprayed to the treated water screen through the treated water screen injection nozzle and to the main screen through the main screen injection nozzle; including, the treated water screen injection nozzle and the treated water screen nozzle is branched from the same washing water injection pipe, and the main screen injection nozzle sprays the washing water from the outside to the inside of the main screen, and the treated water screen injection nozzle has a direction in which the treated water passes through the treated water screen. By spraying the washing water in the opposite direction, foreign matter is prevented from being accumulated in the main screen spray nozzle and the treated water screen spray nozzle or the foreign matter is prevented from being trapped in the main screen and the treated water screen, thereby improving the foreign matter treatment efficiency , to provide a contaminant treatment system.

According to an embodiment of the present invention, it is possible to achieve a compact structure while improving the separation efficiency by solving a problem caused by blocking the outlet of the injection nozzle.

In addition, according to an embodiment of the present invention, when the main screen is overloaded or the main screen does not operate due to a malfunction, the problem of influent water being discharged together with contaminants can be solved by diverting the influent to the treated water discharge tank. .

In addition, according to an embodiment of the present invention, by adopting a structure in which the driving shaft of the rotating means is perpendicular to the main screen central axis, the inconvenience and lifespan of continuously controlling the tension of the chain during driving of the contaminant treatment apparatus that occurred in the prior art The possibility of accidents can be eliminated.

In addition, according to an embodiment of the present invention, by adopting a structure that transmits the rotational force of the rotating means to the end of the main screen rather than the contaminant discharge unit, the contaminant discharge efficiency is improved by applying the contaminant discharge unit having a narrow area and a large inclination angle. can

1 and 2 show a contaminant treatment apparatus according to an embodiment of the present invention.
3 and 4 show a state in which the outer casing of the contaminant treatment apparatus according to an embodiment of the present invention is separated, viewed from different sides.
5 and 6 show the main screen injection nozzle and the treated water screen injection nozzle of the contaminant treatment apparatus according to an embodiment of the present invention.
7 shows a washing water storage tank and a treated water discharge tank of the contaminant treatment apparatus according to an embodiment of the present invention.
8 is a view showing the first to the fourth inflow water tank diaphragm provided to bypass the influent in the contaminant treatment apparatus according to an embodiment of the present invention.
9 to 11 are views showing the end of the gear unit and the main screen according to an embodiment of the present invention.

A preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 and 2 show a contaminant treatment apparatus according to an embodiment of the present invention.

Referring to FIG. 1 , the contaminant treatment apparatus 1 includes an inflow water tank 10 , a treatment tank 20 , and a treated water discharge unit 30 .

In the inflow tank 10, the influent, which is the inflow source water, is introduced through the inflow inlet 15.

The treatment tank 20 separates the influent water into treated water and impurities, and a screen device, for example, a rotating means 24 for rotating the main screen 21 to be described later may be installed. For example, the treatment tank 20 may include a treated water storage tank 40 , a washing water storage tank 50 , and a treated water discharge tank 60 to be described later. The rotating means 24 may be installed so that the driving shaft (24a in FIG. 9) is perpendicular to the main screen central axis (21a in FIG. 9), as will be described later.

The treated water discharge unit 30 is for discharging the treated water separated from the treatment tank 20 to the outside, and when the main screen 21 does not operate normally, the influent water may be discharged, and details will be described later.

3 and 4 show a state in which the outer casing of the contaminant treatment apparatus according to an embodiment of the present invention is separated, viewed from different sides.

3 and 4 , the contaminant treatment apparatus 1 includes an inflow water tank 10 , a treated water storage tank 40 , a washing water storage tank 50 , and a treated water discharge tank 60 .

The treated water storage tank 40 stores the treated water separated from the influent in the main screen 21 .

At least a part of the main screen 21 may have a cylindrical shape, and may be installed to be inclined upward from one end through which the inflow water is introduced to the other end at which the contaminant discharge unit 23 is provided, and the rotating means 24 and the gear unit. It is connected to (25) and can be rotated by the driving force generated from the driving motor of the rotating means (24). For example, in the present invention, unlike the prior art, the driving force generated from the driving motor of the rotating means 24 is transmitted to the other end of the main screen 21 rather than to the contaminant discharge unit 23. By adopting the contaminants discharge unit 23 has a narrow area and a large inclination, it is possible to improve the discharge efficiency of contaminants.

The main screen 21 may have a screw (not shown) installed therein. For example, the screw is configured to communicate with the rotation center of the main screen 21 , that is, the main screen central axis (21a in FIG. 9 ). It is fixed in a spiral shape along the inner circumferential surface of the main screen 21 and can rotate in the same way.

The main screen 21 is formed in the form of a mesh or at least part of the mesh is provided so that contaminants remain inside the main screen 21 and the treated water separated from the influent falls into the treated water storage tank 40 by its own weight. The contaminants remaining in the main screen 21 are pushed out to the other end of the main screen 21 by the screw and discharged from the main screen 21 through the contaminants discharge unit 23 .

The contaminant discharge unit 23 has a different diameter or a different inclination angle from the main screen at the end of the main screen 21 . For example, when the main screen 21 has a constant diameter, the contaminant discharge unit 23 may include at least some sections having a diameter different from that of the main screen 21 . For example, when the main screen 21 has a predetermined inclination angle, the contaminant discharge unit 23 may include at least some sections having a different inclination angle from the main screen 21 . Accordingly, it is possible to prevent the foreign matter discharged through the foreign matter discharge unit 23 from flowing down along the main screen (21).

On the other hand, when the conventional technique of separating contaminants from the influent using a rotary drum is applied as it is, all contaminants in the influent are not filtered by the main screen 21 and are discharged to the treated water storage tank 40 together with the treated water, which will be described later. The main screen spray nozzle 73 and the treated water screen spray nozzle 74 for cleaning may be clogged, or the cleaning effect of the screen by the spray nozzle may not occur.

Accordingly, the applicant of the present invention further includes the treated water screen 22 after various trial and error, but adopted a compact and efficient cleaning structure as described later.

The treated water screen 22 is provided to secondarily separate residual contaminants contained in the treated water separated from the influent and discharged from the main screen 21 .

The treated water screen 22 is formed in a mesh shape, or a mesh is provided in at least some areas partitioned by a frame, and the residual contaminants introduced into the treated water storage tank 40 together with the treated water are filtered by the treated water screen 22 and , the washing water separated from the residual contaminants is discharged to the washing water storage tank 50 by its own weight.

The treated water screen 22 is provided to surround the main screen 21 so as to be able to rotate on the outer periphery of the main screen 21 . Accordingly, the entire mesh of the treated water screen 22 can be cleaned while the treated water screen 22 is rotated even if the number of the treated water screen spray nozzles 74 to be described later is not large. For example, by spraying washing water from the opposite side of the treated water screen 22 to filter out residual contaminants filtered out by the treated water screen 22 , the screen efficiency by the treated water screen 22 can be maintained.

For example, when the treated water screen 22 is installed adjacent to the one end of the main screen 21 and the treated water dropped from the main screen 21 inclined upward toward the other end becomes higher than a predetermined water level. It can pass through the treated water screen 22 without the need to provide additional driving force such as a pump.

5 and 6 show the main screen injection nozzle and the treated water screen injection nozzle of the contaminant treatment apparatus according to an embodiment of the present invention.

5 and 6 , the contaminant treatment apparatus 1 may further include a main screen spray nozzle 73 and a treated water screen spray nozzle 74 .

The main screen spray nozzle 73 may be installed along the direction in which the main screen 21 extends. The main screen spray nozzle 73 may spray the washing water that has passed through the treated water screen 22 to be described later from the outside of the main screen 21 to the inside in order to desorb contaminants inserted into the main screen 21 .

The treated water screen spray nozzle 74 may be provided to spray the washing water from one surface of the treated water screen 22 . The treated water screen spray nozzle 74 sprays washing water to the treated water screen 22 in the opposite direction to the direction in which the treated water passes through the treated water screen 22 to remove residual contaminants trapped in the treated water screen 22 . can do it

Referring back to FIG. 3 , the contaminant treatment apparatus 1 may further include a washing water storage tank 50 disposed below the treated water storage tank 40 and storing the washing water passing through the treated water screen 22 . At this time, the treated water storage tank 40 and the washing water storage tank 50 may be separated by the first treated water storage tank 41 .

The contaminant treatment device 1 sprays the washing water separated even from the residual contaminants to the main screen 21 and the treated water screen 11 . Accordingly, a washing pump connected to the washing water storage tank 50 to suck the washing water into the washing water suction pipe 71 and spray it to the main screen 21 and the treated water screen 22 through the washing water injection pipe 72 . (70).

For example, the main screen injection nozzle 73 and the treated water screen injection nozzle 74 may be branched from one washing water injection pipe 72 . Accordingly, contaminants trapped in the main screen 21 and the treated water screen 22 can be efficiently removed using a single washing water suction pipe 71 and a washing water injection pipe 72 without complicated facilities, A compact structure can be achieved.

Referring back to FIG. 3 , the contaminant treatment device 1 includes a second treated water storage diaphragm 42 and a first treated water storage tank provided on one side of the treated water tank 40 in the direction in which the main screen 21 extends. It may further include a third treated water storage diaphragm 43 formed to be inclined upward in the direction in which the treated water screen is installed at one end of the diaphragm 41 .

For example, the third treated water storage diaphragm 43 is spaced apart from the second inflow water diaphragm 12 defining the end of the inflow water tub 10 by a predetermined distance and may be disposed spaced apart from the main screen 21 by a predetermined distance. have.

For example, the third treated water storage diaphragm 43 may have one end connected to the first treated water storage diaphragm plate 41 and the other end may have a shape corresponding to the shape of the outer periphery of the main screen 21 .

For example, a form in which the treated water screen 22 is attached to the rear surface of the third treated water storage diaphragm plate 43 may be applied.

Accordingly, when the treated water that has fallen from the main screen 21 to the first treated water tank diaphragm 41 rises to a water level higher than the end of the third treated water storage diaphragm plate 43, it is left by the treated water screen 22 The contaminants are separated, and the washing water from which the residual contaminants are separated from the treated water is between the third treated water storage diaphragm 43 and the main screen 21 and the third treated water storage diaphragm 43 and the second inflow water diaphragm 12 ) by passing through the space defined between and flowing into the washing water storage tank 50 by its own weight, it is possible to achieve a compact structure.

7 shows a washing water storage tank and a treated water discharge tank of the contaminant treatment apparatus according to an embodiment of the present invention.

3, 4 and 7, the contaminant treatment apparatus 1 is provided with a treated water discharge unit 30 to discharge the treated water stored in the treated water storage tank 40 to the outside; further includes

The treated water discharge tank 60 and the washing water storage tank 50 may be divided by the second treated water storage tank plate 42 .

The second treated water storage diaphragm plate 42 is vertically extended, and the upper portion of the second treated water storage diaphragm plate 42 with respect to the first treated water storage diaphragm plate 41 is the treatment tank 20 and the treated water discharge tank 60 ), and the lower portion of the second treated water storage diaphragm 42 can separate the washing water storage tank 50 and the treated water discharge tank 60 .

A treated water discharge hole 44 through which the treated water is discharged to the treated water discharge tank 60 may be provided in the second treated water storage tank plate 42 .

The treated water discharge hole 44 may be provided to be spaced apart from the first treated water storage diaphragm plate 41 by a predetermined height.

For example, the lowermost end of the treated water discharge hole 44 may be provided at a higher position than the lower end of the other end of the third treated water storage diaphragm plate 43 . Accordingly, as the water level of the treated water increases, the treated water passes through the treated water screen 22 first, and when the water level is higher, it is discharged to the treated water discharge tank 60, so that when the contaminant treatment device 1 is driven, sufficient An amount of washing water may be stored in the washing water storage tank 50 .

A washing water discharge valve 62 may be provided on the second treated water storage diaphragm 42 above the washing water storage tank 50 . Accordingly, when the level of the washing water in the washing water storage tank 50 is higher than a predetermined level, the washing water is discharged to the treated water discharge tank 60 , so that the treated water continuously passes through the treated water screen 22 to pass the washing water storage tank 50 ) can be introduced into

8 is a view showing the first to the fourth inflow water tank diaphragm provided to bypass the influent in the contaminant treatment apparatus according to an embodiment of the present invention.

Referring to FIGS. 4 and 8 , first to fourth inflow water tank diaphragms 11 , 12 , 13 and 14 are installed in the inflow water tank 10 .

The first inflow water diaphragm plate 11 may be provided with an inflow water inlet 15 for introducing influent water into the contaminant treatment device 1 from the outside.

The second inflow water diaphragm 12 separates the inflow water tank 10 and the treatment tank 20, and is installed at a position corresponding to the first inflow water tank 11 and one end of the main screen 21 is installed. can At this time, at least a part of the second inlet water tank diaphragm 12 may extend to an upper position of the treated water discharge tank 50 .

The third inflow water diaphragm 13 may extend in a direction in which the first inflow water diaphragm 11 is provided from the second inflow water diaphragm 12 . For example, the third inlet diaphragm 13 is formed to have a lower height than the second inlet diaphragm 12 , and the influent overflows the third inlet diaphragm 13 and flows into the treated water outlet 60 . can make it happen

The fourth inlet diaphragm 14 may be bent at the third inlet diaphragm 13 to extend to an upper position of the treated water outlet 60 . For example, the fourth inlet diaphragm 14 is formed to have a lower height than the second inlet diaphragm 12 , and the influent overflows the third inlet diaphragm 13 and flows into the treated water outlet 60 . can make it happen

That is, when the influent is excessively introduced or the treated water is not separated from the influent due to a load or operation abnormality of the main screen 21, the influent is the third inlet water diaphragm 13 and the fourth inlet water diaphragm 14. By overflowing at least one of the above and flowing into the treated water discharge tank 60, untreated influent water is prevented from being discharged through the contaminant discharge unit 23 together with contaminants. It is also possible to prevent deterioration of treatment efficiency.

9 to 11 are views showing the gear unit and the ends of the main screen according to an embodiment of the present invention. In FIG. 9, the x-axis refers to the central axis of rotation of the main screen, and the z-axis refers to the driving axis of the rotating means 24, respectively. .

The inventors of the present invention, as described above, eliminate the hassle of continuously controlling the tension of the chain during driving, which has frequently occurred in the prior art, and the possibility of human accidents. In order to improve the discharge efficiency of contaminants, the end structure of the gear unit and the main screen disclosed in FIGS. 9 to 11 was developed after various trials and errors.

9 to 11, in the present invention, in order to solve the problems caused by using the conventional chain, the driving shaft 24a of the rotating means 24 of the present invention is perpendicular to the main screen central axis 21a. The structure to be installed was applied as much as possible. In addition, the present invention applies a worm gear 25b and a worm 25a that are fixedly installed on the main screen 21 so that the driving shaft 24a of the rotating means 24 of the present invention is perpendicular to the main screen central axis 21a. The structure to be installed was applied. Accordingly, the rotational force generated by the driving motor of the rotating means 24 is transmitted to the main screen 21 through the worm 25a and the worm gear 25b. For example, the driving shaft 24a of the rotating means 24 constitutes the x-axis, the driving shaft of the worm 25a constitutes the y-axis, and the driving shaft of the worm gear 25b and the main screen 21 constitutes the z-axis to form a vertical direction, respectively. can

9 to 11 , in the present invention, the worm gear 25b may be installed at the distal end of the main screen 21 , and, for example, a structure surrounding the main screen 21 may be applied. That is, the conventional contaminants removal devices transmit the rotational force generated by the rotating means 24 to the contaminant discharge unit 23, so as to avoid interference between the gear unit and the main screen support wheel 26, contaminants having a large area and a large inclination angle. As the discharge unit 23 is applied, there is a problem that the efficiency of discharging contaminants is deteriorated, but the contaminant treatment device 1 adopts a structure that transmits the rotational force to the distal end of the main screen 21, so that the area is narrow and contaminants with a large inclination angle. The discharge part 23 could be applied, and thus the discharge efficiency of contaminants can be greatly improved.

1-11, the present invention also includes a contaminant treatment system.

In the contaminant treatment system, the inflow water is introduced and stored in the inflow water tank 10; After the influent flows into the main screen 21, it is separated into treated water and contaminants, and the contaminants are discharged through the contaminants discharge unit 23 provided at the other end of the main screen 21, and the treated water falls to the treated water storage tank. stored in (40); The treated water passes through the treated water screen 22 provided adjacent to one end of the main screen 21 and then falls and the washing water is stored in the washing water storage tank 50 disposed below the treated water storage tank 40; The washing water is sucked into the washing water suction pipe 71 by the washing pump 70 and then discharged to the washing water injection pipe 72; and the washing water sprayed to the washing water spray pipe 72 is sprayed to the treated water screen 22 through the treated water screen spray nozzle 74 and to the main screen 21 through the main screen spray nozzle 73; may include.

At this time, the main screen injection nozzle 73 and the treated water screen injection nozzle 74 are branched from the same washing water injection pipe 72, and the main screen injection nozzle 73 is cleaned from the outside of the main screen 21 to the inside. The water is sprayed, and the treated water screen spray nozzle 74 sprays the washing water in the opposite direction to the direction in which the treated water passes through the treated water screen 22, so that contaminants are removed from the main screen spray nozzle 73 and the treated water screen. It is possible to prevent the accumulation of the nozzle 74 or the contaminants from being trapped in the main screen 21 and the treated water screen 22, so that the contaminant treatment efficiency can be improved.

At this time, the inflow water tank 10 is provided with a first inflow water tank diaphragm 11 in which the inflow water inlet 15 is installed, and one end of the main screen 21, at least a portion of which extends to the upper position of the treated water discharge tank 30 The second inflow water diaphragm 12, which extends in the direction in which the first inflow water diaphragm 11 is provided, from the second inflow water diaphragm 12, the third inflow water diaphragm 13, and the third inflow water diaphragm 13 ) and a fourth inlet water diaphragm 14 that is bent and extended to the upper position of the treated water outlet 30 is provided, at least one of the third inlet water diaphragm 13 and the fourth inlet water diaphragm 14 is 2 It is formed lower than the inlet water diaphragm 12, and when the inflow water flows into the inflow water tank 10 above a predetermined water level, the inflow water closes at least one of the third inlet water tank 13 and the fourth inlet water tank 14. By allowing the overflow to be discharged to the treated water discharge tank 60, it is possible to prevent deterioration of contaminant treatment efficiency.

In addition, the foreign matter treatment system, the drive shaft (24a) of the rotating means (24) may be applied to a structure that is installed so as to be perpendicular to the main screen central axis (21a). In addition, the present invention applies a worm gear 25b and a worm 25a that are fixedly installed on the main screen 21 so that the driving shaft 24a of the rotating means 24 of the present invention is perpendicular to the main screen central axis 21a. A structure installed so that this can be applied. Accordingly, the rotational force generated by the driving motor of the rotating means 24 is transmitted to the main screen 21 through the worm 25a and the worm gear 25b. For example, the driving shaft 24a of the rotating means 24 constitutes the x-axis, the driving shaft of the worm 25a constitutes the y-axis, and the driving shaft of the worm gear 25b and the main screen 21 constitutes the z-axis to form a vertical direction, respectively. can For example, the worm 25a may be disposed below or above the main screen 21 .

The worm gear 25b may be installed at the distal end of the main screen 21 , for example, a structure surrounding the main screen 21 may be applied. That is, the conventional contaminants removal devices transmit the rotational force generated by the rotating means 24 to the contaminant discharge unit 23, so as to avoid interference between the gear unit and the main screen support wheel 26, contaminants having a large area and a large inclination angle. As the discharge unit 23 is applied, there is a problem in that the efficiency of discharging contaminants is poor, but the contaminant treatment system adopts a structure that transmits the rotational force to the distal end of the main screen 21, so that the area is narrow and the angle of inclination is large. (23) could be applied, and thus the efficiency of discharging contaminants could be greatly improved.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but since the above-described embodiments have only been described with preferred examples of the present invention, the present invention is limited only to the above embodiments. It should not be understood, and the scope of the present invention should be understood as the following claims and their equivalents.

1: Contaminant treatment device
10: inflow tank
11: 1st inflow water diaphragm
12: second inflow water diaphragm
13: third inflow water diaphragm
14: fourth inflow water diaphragm
15: inlet inlet
20: treatment tank
21: main screen
21a: main screen central axis
22: treated water screen
23: contaminant discharge unit
24: rotation means
24a: drive shaft
25: gear unit
25a: worm
25b: worm gear
26: main screen support wheel
30: treated water discharge unit
40: treated water storage tank
41: first treated water storage diaphragm
42: second treated water storage diaphragm
43: third treated water storage diaphragm
44: treated water discharge hole
50: washing water storage tank
60: treated water discharge tank
62: washing water discharge valve
63: inlet water guide plate
70: cleaning pump
71: washing water suction pipe
72: washing water pipe
73: main screen spray nozzle
74: treated water screen spray nozzle

Claims (15)

an influent tank in which the influent is introduced and stored;
a treatment tank for separating the influent water introduced into the inflow water tank into contaminants and treated water; and
a treated water discharge unit for discharging the treated water separated in the treatment tank to the outside;
including,
The treatment tank includes a main screen that is rotatably provided to separate contaminants from the influent and a treated water screen for secondary separation of residual contaminants contained in the treated water separated from the influent and exiting the main screen,
The main screen further comprises a washing water storage tank disposed below the treated water storage tank in which the treated water separated from the influent is stored and in which the washing water that has passed through the treated water screen is stored, wherein the treated water storage tank and the washing water storage tank are Separated by a first treated water storage diaphragm, a contaminant treatment device.
The method according to claim 1,
a main screen spray nozzle for spraying the washing water that has passed through the treated water screen to the main screen in order to desorb contaminants inserted into the main screen; and
a treated water screen spray nozzle for spraying the washing water onto the treated water screen in order to desorb residual contaminants inserted into the treated water screen;
further comprising,
The main screen spray nozzle sprays the washing water from the outside to the inside of the main screen,
The treated water screen spray nozzle sprays the washing water in a direction opposite to the direction in which the treated water passes through the treated water screen.
The method according to claim 1,
The treated water screen is provided to surround the main screen and rotates on the outer periphery of the main screen, foreign matter treatment device.
4. The method according to claim 3,
The main screen is installed to be inclined upward from one end where the inflow water is introduced to the other end where the contaminant discharge part is provided,
The treated water screen is installed adjacent to the one end of the main screen, foreign matter treatment device.
delete The method according to claim 1,
Further comprising a washing pump connected to the washing water storage tank to suck the washing water into the washing water suction pipe and spraying the washing water to the main screen and the treated water screen through the washing water injection pipe.
The method according to claim 1,
A second treated water storage diaphragm provided on one side of the treated water storage tank in the direction in which the main screen extends and a third treatment formed to be inclined upward in the direction in which the treated water screen is installed at one end of the first treated water storage tank Further comprising a water storage diaphragm, foreign matter processing device.
8. The method of claim 7,
The treated water discharge unit further comprises a treated water discharge tank for discharging the treated water stored in the treated water storage tank to the outside,
The treated water discharge tank and the washing water storage tank are separated by the second treated water storage tank plate,
A contaminant treatment apparatus, which is spaced apart from the first treated water storage diaphragm by a predetermined height and discharges treated water from the treated water storage tank to the treated water discharge tank through a treated water discharge hole provided in the second treated water storage diaphragm.
9. The method of claim 8,
The washing water storage tank and the treated water discharge tank are separated by the second treated water storage tank plate, contaminants treatment apparatus.
10. The method of claim 9,
A washing water discharge valve is provided on the second treated water storage diaphragm above the washing water storage tank, and the washing water is discharged to the treated water discharge tank when the level of the washing water in the washing water storage tank reaches a predetermined level or higher. Device.
The method according to claim 1,
The treated water discharge unit further comprises a treated water discharge tank for discharging the treated water stored in the treated water storage tank to the outside,
The inflow water tank includes a first inflow water tank diaphragm installed with an inflow water inlet, a second inflow water tank diaphragm having one end of the main screen installed, at least a portion of which extends to an upper position of the treated water discharge tank, and the second inlet water tank diaphragm A third inlet diaphragm extending in the direction in which the first inlet diaphragm is provided, and a fourth inlet diaphragm bent from the third inlet diaphragm and extending to the upper position of the treated water outlet are provided,
At least one of the third inlet water diaphragm and the fourth inlet water diaphragm is formed lower than the second inlet water diaphragm, so that when the inflow water flows into the inflow water tank at a water level above a predetermined level, the inflow water flows into the third inflow water diaphragm and Contaminant treatment apparatus for preventing the deterioration of the contaminant treatment efficiency by overflowing at least one of the fourth inlet water diaphragm plate and discharging it to the treated water discharge tank.
The method according to claim 1,
Further comprising a rotating means for rotating the main screen,
The drive shaft of the rotating means is perpendicular to the central axis of the main screen, foreign matter processing apparatus.
The method according to claim 1,
Further comprising a worm gear installed at the distal end of the main screen, foreign matter processing apparatus.
The influent is introduced and stored in the influent tank;
After the influent flows into the main screen, it is separated into treated water and contaminants, and the contaminants are discharged through a contaminant discharge unit provided at the other end of the main screen, and the treated water falls and is stored in the treated water storage tank;
The treated water passes through the treated water screen provided adjacent to one end of the main screen and then falls and the washing water is stored in the washing water reservoir disposed below the treated water reservoir;
The washing water is sucked into the washing water suction pipe by the washing pump and then discharged to the washing water injection pipe;
The washing water sprayed to the washing water injection pipe is injected to the treated water screen through the treated water screen injection nozzle and to the main screen through the main screen injection nozzle;
includes,
The treated water screen injection nozzle and the main screen injection nozzle are branched from the same washing water injection pipe,
The main screen spray nozzle sprays the washing water from the outside to the inside of the main screen, and the treated water screen spray nozzle sprays the washing water in a direction opposite to the direction in which the treated water passes through the treated water screen. , The contaminant treatment system to improve the contaminant treatment efficiency by preventing contaminants from being accumulated in the main screen spray nozzle and the treated water screen spray nozzle or contaminants from being trapped in the main screen and the treated water screen.
15. The method of claim 14,
A treated water discharge unit for discharging the separated treated water to the outside and a treated water discharge unit provided with the treated water discharge unit further include a treated water discharge tank for discharging the treated water stored in the treated water storage tank to the outside,
The inflow water tank includes a first inflow water tank diaphragm installed with an inflow water inlet, a second inflow water tank diaphragm having one end of the main screen installed, at least a portion of which extends to an upper position of the treated water discharge tank, and the second inlet water tank diaphragm A third inlet diaphragm extending in the direction in which the first inlet diaphragm is provided, and a fourth inlet diaphragm bent from the third inlet diaphragm and extending to the upper position of the treated water outlet are provided,
At least one of the third inlet water diaphragm and the fourth inlet water diaphragm is formed lower than the second inlet water diaphragm, so that when the inflow water flows into the inflow water tank at a water level above a predetermined level, the inflow water flows into the third inflow water diaphragm and By overflowing at least one of the fourth inlet water diaphragm plate and discharging it to the treated water discharge tank, the contaminant treatment system prevents deterioration of contaminant treatment efficiency.

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