KR102481167B1 - Tri-directional general material remover - Google Patents

Abstract

The present invention provides a continuous type sewage treatment device including a water tank, a first screen device, a second screen device, a discharge water tank, and a screw conveyor. The continuous type sewage treatment device is custom-made, supplied as a module, and installed on site. The continuous type sewage treatment device treats sewage quickly and appropriately, can be installed in accordance with an environment, is durable, and has a long service life because the device is trouble-free.

Description

Tri-directional general material remover}

The present invention relates to a continuous hybrid sewage treatment system. More specifically, the present invention relates to a treatment device for efficiently purifying sewage by disposing a screen device in a water tank.

BACKGROUND OF THE INVENTION Many foreign substances and impurities exist in water discharged from households, commercial and industrial facilities, water from rainwater treatment plants, or natural waters of rivers and streams. A screen device for removing foreign substances from sewage containing such contaminated water or wastewater is well known. The screen device is installed in the channel where the water flows, and the screen moving in a caterpillar type filters out floating foreign substances when the water passes.

In Patent No. 10-1648938 ("three-way screen device", registered on August 10, 2016), the applicant is installed inside the waterway of the water treatment plant, and the inflow water flowing through the waterway flows into the front, rear, and bottom A body that is discharged and flows through the side, and a conveyor installed inclined to circulate vertically inside the body to filter out contaminants contained in the inflow water flowing into the front, rear, and bottom of the main body, and filtered water from which the contaminants are filtered out of the main body. A three-way screen device with a screen structure that discharges through the side is proposed.

This device is efficient in purifying water flowing in from three directions, but it is burdensome to purify the water flowing in as much as it is, and it has frequent breakdowns. There was a case where the screw conveyor for removing the sediment was out of order due to overflow of sewage.

The present invention was devised to solve the above disadvantages of the prior art at once.

Therefore, the present invention quickly treats foreign substances in the sewage, exhibits high performance even when the water level is high due to the constant inflow of a large amount of sewage, and even when the sewage flows intermittently, and arranges a plurality of screen devices to burden the screen device It is an object of the present invention to provide a continuous type sewage treatment device that is robust and has fewer malfunctions and can effectively transport foreign substances and discharge them to the outside.

In order to achieve the above object, the present invention includes a water tank, a first screen device, a second screen device, a discharge tank and a screw conveyor, and is custom-made and supplied as a module to be installed on site, continuous sewage processing equipment is provided.

An inlet is installed on the upper part of the front of the water tank tank, sewage flows into the inside of the water tank through the inlet, a first screen device is disposed adjacent to the inlet, and a second screen device is disposed at the rear downstream of the water tank tank, A discharge tank through which purified sewage is discharged may be disposed adjacent to the second screen device.

The lower part of the water tank has a convergent shape as it slopes downward, and foreign matter in the sewage flows downward and collects. It may be composed of an inclined screw conveyor that extends upward from a predetermined point of the rearward to a position exceeding the height of the water tank tank and further extends to the outside.

The lattice spacing of the first screen of the first screen device is greater than the lattice spacing of the second screen of the second screen device, and the second screen can filter foreign matter floating in sewage.

The lattice spacing of the first screen may be 10 mm to 20 mm, and the lattice spacing of the second screen may be 3 mm to 5 mm.

The first screen device may be installed along the front and rear directions of the water tank, and the second screen device may be installed along a width direction perpendicular to the front and rear directions of the water tank.

The first screen device and the second screen device may be installed along the front and rear directions of the water tank.

The first screen device or the second screen device is a three-way screen device in which sewage flowing in from the front, rear, and bottom is discharged to the side, and the rear screen that blocks sewage flowing in from the rear can be removed.

The second screen device is manufactured so that its lower part is adjacent to the bottom of the water tank tank, so that when sewage flows in temporarily in a short time using an arm roll box, it can purify the sewage even when the water level is low. can be installed on

An inlet guide is placed between the inlet and the first screen device so that all sewage flowing through the inlet passes through the first screen device, and a discharge guide connecting the side of the second screen device and the discharge tank is installed to allow the second screen Any sewage that has passed through the unit can be discharged into the sump.

The present invention quickly treats foreign substances in the sewage, exhibits high performance even when the water level is high due to a large amount of sewage constantly flowing in, and even when the sewage flows intermittently, and arranges a plurality of screen devices to It is effective in providing a solid and trouble-free continuous sewage treatment device capable of reducing the burden, effectively transporting foreign substances and discharging them to the outside.

1 is a perspective view showing the overall structure of a continuous hybrid sewage treatment system of the present invention.
FIG. 2A is an overall side view of the continuous treatment device of FIG. 1 from inside the water tank, and FIG. 2B is a view of FIG. 2A viewed from AA to explain the arrangement of the first screen device and the second screen device.
3 is a diagram showing an example of a screen device applied to the first and second screen devices of the present invention.
Figure 4a is an overall side view of the continuous treatment device inside the water tank, and Figure 4b is a view of Figure 4a viewed from BB to explain the arrangement of the first screen device and the second screen device.
5 is an internal view showing another embodiment of the continuous treatment device of the present invention.
6 is a view showing another embodiment of the continuous treatment device of the present invention.

Objects and effects of the present invention, and technical configurations for achieving them will become clear with reference to embodiments described later in detail in conjunction with the accompanying drawings. In the description of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily flow the gist of the present invention, the detailed description will be omitted.

Throughout the specification, when a certain component is said to "include", it means that it may further include other components without excluding other components unless otherwise stated. Meanwhile, in an embodiment of the present invention, each component, functional block or means may be composed of one or more sub-components.

1 is a perspective view showing the overall structure of a continuous type hybrid sewage treatment device (hereinafter, “continuous type treatment device”: 1) of the present invention. The continuous treatment device 1 of the present invention includes a water tank 10, a first screen device 20 and a second screen device 30 installed inside the water tank 10. The water passing through the second screen device 30 is discharged to the outside through the outlet 40 . A conveyor belt 50 extending to the outside is installed across the lower surface of the water tank 10 and the top and bottom of the inside.

The continuous type treatment device (1) does not independently install the screen device in the sewage inflow passage or cross passage or in the already installed water tank as in the prior art, but in the water tank tank to suit the installation site and surrounding environment and working conditions. (10), the first screen device 20, the second screen device 30, the discharge water tank 40, and the screw conveyor 50 are designed to be customized, supplied, and installed. The continuous processing device 1 can be built in the field by optimally arranging components in various sizes and specifications, from small to large indoor playgrounds. In this respect, the continuous treatment device 1 of the present invention can be referred to as a module or assembly.

FIG. 2A is an overall side view of the continuous treatment device 1 of FIG. 1 from inside the water tank 10, and FIG. 2B is an illustration of the arrangement of the first screen device 20 and the second screen device 30. 2a is a view viewed from the right side. In FIG. 2A , water flows from left to right, so the left side is referred to as front or upstream, and the right side is referred to as back or downstream.

Referring to the two drawings together, the water tank 10 has a large length and height and is manufactured to a size that can sufficiently accommodate the inflow water. The lower part of the water tank 10 has a convergent shape that slopes downward, so that foreign substances in the water naturally flow downward. Sewage is assumed to be filled by the height (H). In the present invention, the water tank 10 filled with sewage serves as a grit chamber.

An inlet 70 is installed on the front upper portion of the water tank tank 10, and sewage flows into the water tank tank 10 through the inlet pipe 700. The first screen device 20 is disposed adjacent to the inlet 70 on the upstream side, which is the front side, and the second screen device 30 is disposed on the downstream side, which is the rear side. Adjacent to the second screen device 30, a discharge water tank 40 is disposed. The inflowed sewage flows through the first screen device 20 and the second screen device 30 in order and is discharged to the outside through the discharge water tank 40.

A pump may be disposed inside or outside the water tank 10 to speed up the flow of sewage, or it may flow naturally without a pump, and for this purpose, the water tank 10 may be installed slightly inclined.

The first screen device 20 is installed along the front and rear directions of the water tank 10, and the grid spacing of the first screen 200 is formed, for example, from 10 mm to 20 mm, so that impurities of 10 mm or more are removed from the first screen 200. filtered by

The second screen device 30 is installed along the width direction, which is perpendicular to the front and rear directions of the water tank 10 (see FIG. 2B), and the grid spacing of the second screen 300 is formed, for example, from 3 mm to 5 mm. 3 mm or larger impurities are filtered out by the second screen (300).

The screw conveyor 50 includes a horizontal screw conveyor 52 continuously installed across the front and rear on the lowest surface of the water tank 10, and the water tank 10 toward the rear from a predetermined point in front of the horizontal screw conveyor 52. It is composed of an inclined screw conveyor 54 extending upward to a position exceeding the height and further extending to the outside. The horizontal screw conveyor 52 is driven by a driving source 520 mounted outside the water tank 10, and the inclined screw conveyor 54 is driven by a driving source 540 to move in a caterpillar manner along the installed trajectory.

According to the present invention, foreign substances and contaminants remaining in the sewage that has passed through the first screen 200 flow to the lower part of the water tank 10 and are collected by the horizontal screw conveyor 52, and are passed through the inclined screw conveyor 54 to the outside. It is discharged. In addition, floating matter that is not deposited is filtered while passing through the second screen 300, and purified sewage that has passed through the second screen 300 is discharged to the discharge tank 40.

According to the present invention, each load applied to the first screen device 20, the screw conveyor 50 and the second screen device 30 can be reduced. In addition, since these configurations are contained in one water tank 10, the size of the grit can be further secured within the same space.

In the present invention, since the grid spacing of the first screen 200 is set relatively wide, it is free from failure or clogging, and has the advantage of preliminarily filtering out large impurities that may be a load on the screw conveyor 50. The sediments that have settled down are sufficiently settled by the water tank 10 providing a wide grit field, and then filtered out through the screw conveyor 50. Impurities that do not sink or are small in size are filtered out through the second screen 300 .

Since the final discharged sewage is discharged through the second screen 300, the overall filtering efficiency of impurities is good, and since the second screen 300 mainly filters out suspended matter, corrosion of the parts of the continuous treatment device 1 It can improve durability by preventing failure.

In the present invention, the first screen device 20 and the second screen device 30 are installed vertically in order to increase the efficiency of removing foreign substances and effectively utilize space. This utilizes the characteristics of the applicant's patented three-way screen device as much as possible, and the cross-sectional area of the screens in contact with water can be widened, and therefore, a lot of sewage treatment is possible.

The second screen device 30 of FIG. 2A shows the function of the three-way screen device well. Water flowing in from three directions of the front, rear and bottom of the second screen device 30 is filtered by the second screen 300 and then discharged to the side 302 when viewed from the second screen device 30 as a standard. do. The side surface 302 is a surface facing the discharge water tank 40 in the water tank 10. The side surface 302 communicates with the discharge guide 80, and the outlet of the discharge guide 80 is connected to the discharge water tank 40.

In this way, since the sewage is discharged to the outside only after passing through the second screen device 30, the effect of improving the filtering efficiency of impurities and improving the durability of the parts of the continuous treatment device 1 can be expected.

Since the first screen device 20 is disposed vertically with the second screen device 30, it directly faces the inlet 70. If the first screen device 20 is a three-way screen device, sewage that has passed through the screen 200 is discharged to the side surface 202 of the first screen device 20 . In the present invention, preferably, the inlet guide 60 is disposed between the inlet 70 and the first screen device 20 so that all of the sewage introduced through the inlet 70 passes through the first screen device 20. are making it Then, like the second screen device 30, the efficiency of filtering impurities can be greatly increased.

The above has exemplified suitable embodiments of the present invention, and various changes are possible. For example, as shown in FIG. 6 , a water overflow part O may be installed in the water tank portion of the first screen device 20 to prevent overflow.

Next, with reference to FIG. 3 , an example of a screen device applied to the first and second screen devices 20 and 30 of the present invention will be described on the premise of the first screen device 20 . The first screen device 20 is basically the same as that disclosed in the prior patent of the applicant.

A drive source 201 is installed on the ceiling of an upwardly inclined upright housing, and a drive shaft 202b and an upper sprocket 202a that rotate with the rotation of the drive source 201 are installed on the top of the housing, and a driven shaft ( 213b) and the lower sprocket 213a are installed, and the first screen 200 is hung between the two sprockets. A detaching mechanism 240 including a brushing roller 241 that rotates with the rotation of a speed reduction motor 242 is installed around the upper sprocket 202a to detach foreign matter attached to the first screen 200 . In the case of the three-way screen device, sewage entering from the front, bottom, and rear of the first screen device 20 is discharged through the side 202.

The description of the first screen device 20 in FIG. 3 is equally applicable to the second screen device 30 . When applied to the second screen device 30, it is preferable that the rear frame 213 is not a rear shield that blocks the rear as in the previous patent, but forms an outer frame of the housing to ensure the inflow of sewage from the rear. Do.

However, the present invention is not limited to the three-way screen device of FIG. 3, and various changes are possible. Furthermore, it is also possible to configure one or more of the screen devices as a general single screen device.

Next, another embodiment of the continuous processing device 1 of the present invention will be described with reference to FIG. 4 . FIG. 4A is an overall side view of the continuous treatment device 1 inside the water tank 10, and FIG. 4B is FIG. 4A to explain the arrangement of the first screen device 20 and the second screen device 30. This is a view from the right side.

The difference between this embodiment and the embodiment of FIG. 2 is that the second screen device 30 is installed in the same direction as the first screen device 20 . That is, the first screen 200 and the second screen 300 do not cross each other vertically and are arranged in parallel to the inlet and outlet sides, respectively.

If the second screen device 30 is a three-way screen device, since sewage is discharged through the side surface 302, it is not necessary to install the discharge water tank 40 and the discharge guide 80 as shown in FIG. can be installed to save space. However, this is not essential and it is also possible to install the discharge waterway 4 on the side surface 104 of the water tank 10 adjacent to the side surface 302.

5 is an internal view showing another embodiment of the continuous treatment device 1 of the present invention. The difference between this embodiment and the embodiment of FIG. 2 is that the second screen device 30 is made long and installed so that its lower part is adjacent to the bottom of the water tank 10. When the water level is low, for example, sewage is temporarily discharged in a short time by using an arm roll box (a box that transports domestic waste, recycling waste, waste, food waste or sludge, etc.) In the case of inflow, there is an advantage that it can be applied even when the water surface is low. In the case of using the device of FIG. 5, the discharge water tank 40 is naturally disposed at the lower portion.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the illustrated range, and various changes are possible at the level of those skilled in the art, and these also belong to the scope of the present invention.

It is obvious that the scope of the present invention extends to the same or equivalent scope as the claims described below.

Claims (11)

It includes a water tank tank, a first screen device, a second screen device, a discharge tank, and a screw conveyor, and is custom-made and supplied as a module to be installed on site,
An inlet is installed on the upper part of the front of the water tank tank, sewage flows into the inside of the water tank through the inlet, a first screen device is disposed adjacent to the inlet, and a second screen device is disposed at the rear downstream of the water tank tank, Adjacent to the second screen device, a discharge tank through which purified sewage is discharged is disposed,
The lattice spacing of the first screen of the first screen device is greater than the lattice spacing of the second screen of the second screen device, and the second screen filters foreign substances floating in the sewage;
The lattice spacing of the first screen is 10 mm to 20 mm, and the lattice spacing of the second screen is 3 mm to 5 mm,
The first screen device is installed along the front and rear direction of the water tank, and the second screen device is installed along the width direction, which is perpendicular to the front and rear direction of the water tank,
The first screen device and the second screen device are three-way screen devices in which sewage introduced from the front, rear, and bottom is discharged to the side,
The sewage that has passed through the first screen device is discharged through its side.
In the second screen device, the rear screen that blocks sewage from entering from the rear is removed.
The side surface of the second screen device is in communication with the discharge guide, so that all the sewage purified in the second screen device passes through the discharge guide through the side surface and is discharged to the discharge tank.
The lower part of the water tank has a convergent shape as it slopes downward, and foreign matter in the sewage flows downward and collects. It is composed of an inclined screw conveyor that extends upward from a predetermined point of the rearward to a position exceeding the height of the water tank tank and further extends to the outside,
The lower part of the installation area of the second screen device is open and communicates with the water tank tank without a shield,
The horizontal screw conveyor extends beyond the lower part of the area where the second screen device is installed to the exit to transport the floating matter in the area where the second screen device is installed.
delete delete delete delete delete delete delete delete delete According to claim 1,
A continuous type sewage treatment device in which a water overflow part is installed in the water tank portion of the first screen device to prevent water overflow.

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