KR20100001943A - Device for screening wastes in water - Google Patents

Abstract

PURPOSE: A waste disposal device of sewage is provided to be easily compatible to sewage treatment systems and efficiently filter wastes included in sewage which has high volume and weight. CONSTITUTION: A waste disposal device(100) of sewage comprises a cylindrical housing(110), a cylinder screen(120), a spiral plate(130), and a waste hopper(140). The cylinder screen is installed inside the housing to maintain fixed interval to the inner wall of the housing. The spiral plate is fixed in the spiral direction along the inner circumference of the cylinder screen. A waste dropping space(132) is formed on the center of the spiral plate. The waste hopper is installed on the lower part of the housing. A waste discharge outlet(142) is formed on the waste hopper. The waste discharge outlet guides the waste to the outside of the housing.

Description

Device for screening wastes in water

The present invention relates to an apparatus for treating sewage in sewage, and more specifically, it is installed at an initial stage of a sewage treatment facility for purifying domestic sewage, industrial wastewater or initial rainwater, and the like, and primarily screening for impurities having a relatively large size and weight. The present invention relates to a sewage contaminant treatment apparatus for screening so that a subsequent sewage treatment process can be performed more efficiently.

In general, it is well known that sewage that may contaminate river or sea water, such as domestic sewage, industrial wastewater or initial rainwater, is regulated to be discharged to a certain level of water quality at a sewage treatment facility. The place where the sewage is stored or where the sewage is joined must be equipped with a physical, chemical or biological sewage treatment facility in a form suitable for the type of sewage to be treated. Through such sewage treatment facilities, living sewage, industrial wastewater, or initial rainwater can be prevented from destroying ecosystems as it is discharged to rivers, rivers, or seas with a certain level of water quality.

The sewage treatment plant is configured to purify water quality through the first, second, third or more sewage treatment processes depending on the degree of contamination of the sewage to be treated. In other words, depending on the nature of the sewage to be treated, the quality of the water required through various and complex steps such as the step of removing the suspended matter, sedimenting the dirt, filtration of sewage, adsorption of foreign matter, chemical treatment, microbial treatment This will purify the sewage.

The process of sedimentation or removal of foreign matter, which is the primary process of sewage treatment, is generally performed by passing sewage through stepped tanks or through a mesh screen. It was.

On the other hand, 'Pulverization crushing device for pretreatment process of sewage treatment plant' of Korean Utility Model Publication No. 20-152529, 'Sewage and wastewater pretreatment method and apparatus thereof' of Patent Registration No. 10-402759, 'Patent Registration No. 10-467055' Wastewater Treatment System, 'Temperature Removal and Comprehensive Pretreatment Device for Water, Sewage and Wastewater', Patent Registration No. 10-555142, 'Wastewater Pretreatment Device', Patent Registration No. 10-721437, and Patent Registration No. 10-696702 Pre-treatment system for industrial wastewater treatment, 'Premium water treatment system including cartridge spiral screen' of patent registration No. 10-800559, and 'Radiation initial water treatment system' of patent registration no. Prior to the treatment it can be seen that various types of devices for the first removal of foreign matter contained in sewage, waste water and the like.

However, as described above, most of the known wastewater or wastewater pretreatment devices have disadvantages in terms of efficiency, such as not only a complicated structure but also incompatibility with other wastewater treatment facilities.

Therefore, the present invention was devised in view of the above-mentioned problems of the prior art, and the volume contained in the sewage at the first stage of the sewage treatment facility for purifying domestic sewage, industrial wastewater, or initial rainwater is large. It is an object of the present invention to provide an apparatus for treating sewage contaminants of a type that can be caught more efficiently, as well as easily compatible with other sewage treatment facilities.

In addition, another object of the present invention is to provide an apparatus for treating sewage in sewage, which allows a process from the flow of sewage to the flow of sewage after the first screening can be performed in a unit composed of a single body. There is a purpose.

The present invention configured to achieve the above object is as follows. That is, the present invention in the sewage sewage treatment apparatus for segregation of the sewage contained in domestic sewage, industrial wastewater and initial rainwater, having a certain volume inside, the lower one side is provided with an outlet for inducing the outflow of the screened sewage On the other hand, the lower surface is a closed cylindrical housing; The outer periphery of the housing is concentrically placed in the inner center of the housing so that it is installed to be kept at a constant distance from the inner periphery of the housing, and an upper side thereof is provided with an inlet for introducing sewage above a certain water pressure, while being fixed on the cylindrical wall. A cylindrical screen having a plurality of small through holes spaced apart from each other; While the outer end is fixedly mounted on the inner circumferential surface of the cylindrical screen, the adjacent inner ends are rotated several times in a spiral at regular intervals from the upper inner circumference to the lower inner circumference of the cylindrical screen without being in contact with each other. The spiral plate is formed in the direction from the upper side to the lower side in the form of contaminant falling space of a certain diameter; And it is installed on the lower portion of the housing to accumulate the particles falling through the contaminant falling space of the spiral plate while the lower side is composed of a hopper containing a contaminant outlet formed to guide the collected contaminants to the outside of the housing.

Further, in the sewage contaminant treatment apparatus according to the present invention, the water outlet of the cylindrical screen is installed along the spiral direction of the spiral plate, and the vertical gap thereof may be formed at the pitch interval of the spiral plate.

In addition, in the sewage contaminant treatment apparatus according to the present invention, the cylindrical screen may be formed in the shape of the upper and lower diameters of the same shape, or in the form of a light emitting strait that is smaller in diameter than the upper portion.

In addition, in the sewage contaminant treatment apparatus according to the present invention, the lowermost layer of the spiral plate may be formed in a non-helical shape such that an object flowing along the spiral plate is concentrated in the contaminant hopper.

According to the apparatus for treating sewage in sewage according to the present invention, water flows to the outside of the cylindrical screen by centrifugal force and centripetal force generated while flowing in the helical direction by causing sewage along the spiral plate by the hydraulic pressure of the sewage input. On the other hand, as the contaminants fall into the contaminant dropping space, the contaminants are naturally separated from the sewage.

In addition, according to the present invention, the sewage treatment apparatus for sewage has a series of processes from the flow of sewage to the flow of sewage from which the sewage is separated by a single unit. There is a huge advantage that can be easily compatible with processing facilities.

Hereinafter, with reference to the accompanying drawings, preferred embodiments according to the configuration and operation of the sewage treatment apparatus in sewage according to the present invention will be described in detail.

1 is a cutaway perspective view of an apparatus for treating sewage in sewage according to an embodiment of the present invention, FIG. 2 is a front sectional view of an apparatus for treating sewage in sewage in accordance with an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention. 4 is a plan view of the apparatus for treating sewage in sewage according to an embodiment of the present invention, and FIG. 5 is a view illustrating an operating state of the apparatus for treating sewage in sewage according to an embodiment of the present invention. 6 is a view showing an operating state of the sewage treatment apparatus in sewage according to another embodiment of the present invention. Reference numeral 100 indicated in the figure indicates an apparatus for treating sewage contaminants in accordance with the present invention.

1 to 6 in the sewage contaminant treatment device 100 shown in FIG. 1 to be installed on the ground or underground to treat the sewage in the state containing the contaminants, such as living sewage, industrial wastewater or initial rainwater It is configured to be effectively separated by the centrifugal force and centripetal force generated in the process of the sewage flow along the spiral plate 130 of the spiral (helical) shape to some extent bulky or heavy contained.

The apparatus for treating sewage within sewage according to the present invention for allowing the above-described operation to be made is maintained such that the housing 110 and the inner wall of the housing 110 have a predetermined interval as shown in the drawing. Cylindrical cylindrical screen 120, which is installed concentrically inside the housing 110, is fixedly installed in a spiral direction at regular intervals along the inner circumferential surface of the cylindrical screen 120, but the contaminant drop space 132 in the center portion It is installed in the lower portion of the housing 110 so that the contaminants falling from the spiral plate 130 and the contaminant falling space 132 is provided, while the lower side is guided to collect the collected contaminants to the outside of the housing 110 Constitution is made including a hopper 140 is formed for the chaebol outlet 142.

First, the housing 110 installed on the ground or the ground according to the present invention is formed in a cylindrical shape having a predetermined volume therein, while one side of the lower surface 112 in the process of filthy water flows along the spiral plate 130. An outlet 104 is provided for guiding the sewage in the state of tea screening to separate the contaminants.

When the sewage contaminant treatment apparatus 100 according to the present invention is installed on the ground, the support 114 may be installed at the lower portion of the housing 110 as shown in the figure.

In addition, an inlet 102 for inducing the inflow of sewage is provided at an upper side of the cylindrical screen 120 concentrically installed with the housing 110 inside the housing 110. Through the inlet 102 provided on the upper portion of the cylindrical screen 120, the sewage of a predetermined water pressure or more during operation of the sewage contaminant processing apparatus 100 according to the present invention is input.

In addition, the inlet 102 described above is one side toward the upper surface side of the spiral plate so that the influent sewage flows in the spiral direction along the spiral plate 130 from the beginning of inflow as shown in FIG. It is preferably formed in a biased form.

A plurality of through holes 122 are formed on the wall of the cylindrical housing 120 at a predetermined pitch interval, and the through holes 122 are centrifugal force during the process of filthy water flowing along the direction in which the spiral plate 130 is installed. It is configured to be able to escape the path of the water toward the outside by the spiral plate 130 by.

In particular, the through hole 122 is preferably formed through the gap between the outer end of the spiral plate 130 located above and the outer end of the spiral plate 130 located below along the spiral direction of the spiral plate 130. That is, the waste water input through the inlet 102 over a predetermined water pressure flows along the flow path provided on the spiral plate 130, causing a swirl by the centrifugal force generated from the water pressure of the introduced waste water. The water facing is configured to pass through the through hole 122 provided in the wall of the cylindrical screen 120.

By the way, in the form of the cylindrical screen 120 according to an embodiment of the present invention shown in Figures 1 to 4 through the inlet 102, the sewage introduced over a certain water pressure flows along the spiral plate 130 As the water pressure gradually decreases, as the water pressure decreases on the spiral plate 130 after a predetermined height, a phenomenon in which no further purification may be performed may occur. In other words, in the upper section of the cylindrical screen 120 according to an embodiment of the present invention, as long as the hydraulic pressure of filthy water flowing along the spiral plate 130 is maintained at a predetermined level or more, the present invention may sufficiently achieve the purpose. However, in the lower section where the water pressure of the sewage flowing along the spiral plate 130 is lowered, most of the sewage may not pass through the through hole 122 and may be concentrated on the central side of the spiral plate 130 together with the contaminants. In order to prevent such a phenomenon in the device according to an embodiment of the present invention through the hole 122 of the cylindrical screen 120 to maintain a certain level of water pressure even in the sewage passing through the lower section of the spiral plate 130 ) Is preferably of appropriate size. That is, although the wastewater directed outward in the upper section of the spiral plate 130 may be designed to completely pass through the through hole 122 of the cylindrical screen 120, only a predetermined amount may be designed to pass therethrough.

Meanwhile, the above-described cylindrical housing 110 may be formed in a cylindrical shape having an upper diameter and a lower diameter having the same diameter as shown in FIGS. 1 to 4, but as shown in FIGS. 5 to 6. The diameter of the lower part than the diameter may be made in the form of the ordinary light strait.

That is, even if the hydraulic pressure of the sewage flowing along the spiral plate 130 is reduced, as in the case of another embodiment of the present invention shown in Figures 5 and 6 to secure more effective screening (screeing) of contaminants May continue to be configured to reduce the radius of rotation of the spiral plate 130 to pass through the through-hole 122 of the cylindrical screen 120.

Spiral plate 130 is installed in a form in which the outer end is rotated several times in the spiral direction along the inner circumferential surface of the cylindrical screen 120, as shown in the figure in a spiral direction Rotating and the outer end may be installed to be fixed, or may be made in the form of attaching and attaching a plate made in a predetermined size unit.

In particular, even if the inner end of the spiral plate 130 is installed in the form of rotating in a spiral form because the adjacent inner ends are installed in contact with each other, the center portion is penetrated in the vertical direction as shown in the figure A contaminant falling space 132 is formed.

On the other hand, by the centripetal force by the swirl (swirl) in the course of the sewage flow along the spiral plate 130, the contaminants are directed to the contaminant falling space 132 with a part of the sewage, so falling through the contaminant falling space 132 A hopper 140 is formed in the lower central portion of the housing 110 to collect the contaminants. In addition, at the lower side of the contaminant hopper 140, a contaminant discharge port 142 is formed to guide the contaminant to be discharged to the outside of the housing 110 together with some sewage.

In addition, the lowermost layer 130a of the spiral plate 130 is preferably formed in a non-helical shape as shown in the drawing so that an object flowing along the spiral plate is concentrated to the contaminant hopper 140. Of course, even if the bottom layer (130a) of the spiral plate 130 is made of a spiral shape that is continuous from the upper layer, if the bottom end is formed in a bent upwards, sewage and contaminants flowing along the spiral plate 130, etc. 140) can be a condition that can be concentrated.

In addition, in the process of describing one embodiment and another embodiment of the present invention, although the hopper 140 is included as part of the configuration, the sewage and contaminants concentrated below the lowermost layer of the spiral plate 130 are properly discharged to the outside. If the conditions can be made, the space below the lowermost layer of the spiral plate 130 may replace the function of the contaminant hopper.

Hereinafter, a state in which the sewage contaminant treatment device 100 configured by one embodiment and the other embodiment of the present invention is operated with reference to FIGS. 4 and 6.

The wastewater that can be treated through the sewage contaminant treatment apparatus 100 according to the present invention may include all of the sewage, industrial wastewater, and initial rainwater as described above. On the other hand, the apparatus for treating sewage in sewage according to the present invention 100 is not intended for the complete purification of sewage, as the name suggests, but to purify the primary level of filtering the impurities that are somewhat bulky or heavy. It is for.

As shown in FIGS. 4 and 6, the sewage introduced through the inlet 102 provided on the upper portion of the cylindrical screen 120 is gradually lowered along the spiral plate 130. Due to the shape of the plate 130, the sewage causes swirl. Therefore, the sewage flowing along the spiral plate 130 has a centrifugal force component intended to face the outside of the circle and a centripetal force component intended to face the inside of the circle, so that some of the sewage may have a cylindrical screen 120 provided at the outer end side of the spiral plate 130. Pass through the through hole 122 and some of the sewage is directed to the contaminant drop space 132 provided on the inner end side of the spiral plate 130.

In particular, the contaminants having a certain level of volume or a certain level of weight are directed toward the contaminant dropping space 132 with some sewage, and eventually collect into the contaminant hopper 140.

The sewage that is discharged into the housing 110 through the through hole 122 provided on the cylindrical screen 120 is collected in the lower portion of the housing 110 and then flows into the next sewage treatment facility through the outlet 104.

Meanwhile, the contaminants discharged together with some of the sewage through the contaminant outlet 142 are filtered and then properly processed through a separate simple filtering process, while some of the sewage discharged together is recycled and re-received through the inlet 102. It is introduced and treated or it is treated separately.

The apparatus for treating sewage within sewage according to the present invention is not limited to the above-described embodiments, and may be modified in various ways within the scope of the technical idea of the present invention.

1 is a perspective view of the cutaway sewage treatment apparatus in sewage according to an embodiment of the present invention.

Figure 2 is a front sectional view of the sewage contaminant treatment apparatus according to an embodiment of the present invention.

3 is a plan view of the sewage contaminant treatment apparatus according to an embodiment of the present invention.

4 is a view showing an operating state of the sewage contaminant treatment apparatus according to an embodiment of the present invention.

Figure 5 is a front sectional view of the sewage contaminant treatment apparatus according to another embodiment of the present invention.

6 is a view showing an operating state of the sewage contaminant treatment apparatus according to another embodiment of the present invention.

[Description of Code for Major Parts of Drawing]

100. Sewage treatment device in sewage 102. Inlet

104. Outlet 110. Housing

112. Bottom surface 114. Support

120. Cylindrical Screen 122. Through Hole

130. Spiral plate 132. Contaminant drop space

140. Contaminant hopper 142. Contaminant outlet

Claims (4)

In sewage treatment apparatus for sewage separation for the sewage contained in domestic sewage, industrial wastewater and initial rainwater, It has a predetermined volume therein, but the lower side is provided with an outlet for inducing the outflow of the screened sewage while the lower surface is a closed cylindrical housing; The outer periphery of the housing is concentrically installed in the inner center of the housing so as to be kept at a predetermined distance from the inner periphery of the housing, and the upper one side is provided with an inlet for introducing sewage above a predetermined water pressure while the cylindrical wall is provided. A cylindrical screen formed with a plurality of small through holes at regular intervals thereon; While the outer end is fixedly mounted on the inner circumferential surface of the cylindrical screen, the adjacent inner ends are rotated several times in a spiral at regular intervals from the upper inner circumference to the lower inner circumference of the cylindrical screen without being in contact with each other. A central plate having a spiral plate in which a contaminant drop space having a predetermined diameter is formed in a direction from an upper side to a lower side; And It is installed on the lower portion of the housing to accumulate the particles falling through the contaminant falling space of the spiral plate, while the lower one side comprises a concave hopper formed with a contaminant discharge port to guide the collected contaminants to the outside of the housing Sewage treatment device in wastewater. The apparatus of claim 1, wherein the water outlet of the cylindrical screen is installed along the spiral direction of the spiral plate, and the vertical gap is formed at the pitch interval of the spiral plate. The method of claim 1 or claim 2, wherein the cylindrical screen is formed in the form of the upper and lower diameters of the same shape or the lower diameter of the upper light lower strait compared to the upper portion of the sewage contaminant treatment, characterized in that Device. 4. The apparatus of claim 3, wherein the lowermost layer of the spiral plate is formed in a non-helical shape such that an object flowing along the spiral plate is concentrated in a contaminant hopper.

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