KR101207292B1 - Hopper for discharge of sludge - Google Patents

Abstract

The present invention relates to a hopper for sludge discharge, specifically, a water collecting body in the opening and closing process of the first and second opening doors as the water collecting body is combined with only the opening and closing doors of the first opening door and the second opening door. It relates to a technology that can eliminate the hassle of moving the position of separately.
In addition, the guide portion is installed on the upper portion of the collecting portion so that the sludge is introduced into the collecting portion during the sludge discharge process.

Description

Sludge Discharge Hopper {HOPPER FOR DISCHARGE OF SLUDGE}

The present invention relates to a discharge hopper used for the discharge of sludge generated through water treatment.

In general, sludge separated from water during the purification process of sewage or wastewater is dewatered through a dehydration process and then collected outside to undergo post-treatment such as landfill.

In this process, the sludge is discharged to the outside in a state accommodated in a separate receiving hopper, the sludge undergoes a dehydration process before being accommodated in the receiving hopper, but is not completely dehydrated and is contained in a state containing a certain amount of water.

In the state in which the sludge is accommodated in the receiving hopper, the water contained in the sludge is leaked to the outside through the opening and closing gap of the receiving hopper has a problem that the surrounding hopper is contaminated.

And when the sludge is discharged from the receiving hopper by opening the opening and closing, there was a problem that the sludge is introduced into the movement path of water.

Republic of Korea Utility Model Publication No. 20-0289100 (Cake Hopper for Sludge Cake Storage with Integrated Drip Tray) 2002.09.13. Republic of Korea Patent Application Publication No. 10-2004-0102486 (Opening door shutoff device of coal storage tank) 2004.12.08. Republic of Korea Patent No. 10-0762491 (Ow Wastewater and Sludge Purification System) 2003.06.02. Republic of Korea Utility Model Registration No. 20-0331357 (Sewage treatment structure) 2003.10.23. Korean Laid-Open Patent Publication No. 10-2003-0076009 (Wastewater / sludge collection vehicle equipped with a wastewater purification facility and its operation method) 2003.09.26. Republic of Korea Utility Model Publication No. 20-1998-063213 (Sludge collection device of sedimentation chamber for sewage septic tank) 1998.11.16.

The present invention is to provide a sludge discharge hopper that can prevent the decay due to moisture in the process of receiving the sludge and to prevent unwanted external outflow of moisture.

The sludge discharge hopper of the present invention is a sludge hopper having a receiving space therein is formed in the sludge and a sludge discharge port is formed in the lower, opening and closing portion which is installed in the sludge hopper so that the sludge discharge opening is opened, the It is connected to the opening and closing portion, there is a water collecting part is formed therein the collecting space for accommodating the liquid flowing out of the sludge discharge port, and is connected to the opening and closing portion toward the receiving space, the sludge discharge opening when the sludge It includes a guide portion for preventing falling into the water portion.

And a sealing part connected to the guide part to prevent the liquid contained in the sludge from flowing out through the sludge discharge port.

In this case, the sealing part is formed in parallel with the guide part to form a first sealing member connected to the upper part of the guide part, and a second sealing member connected to one end of the first sealing member inclined downward toward the sludge discharge port. It may include.

And the opening and closing portion includes a first opening and closing door and the second opening and closing door which is joined to be separated in a state facing each other on the sludge discharge port, wherein the water collecting portion is connected to any one of the first and second opening and closing doors A space may be located below the junction surface of the first opening and closing door and the second opening and closing door.

In addition, one end of the collecting part may be in contact with the opening and closing part, and the other end may be spaced apart from the opening and closing part.

In addition, the water collecting unit may further include a drain installed at a lower side of the collecting unit and forming a flow path so that the liquid introduced into the collecting unit moves to the wastewater treatment unit.

In this case, the bottom surface of the water collecting part may be inclined downward toward the drainage part.

And a washing unit connected to the collecting unit and supplying a washing solution to the collecting space.

In addition, the filter may further include a filter provided on the bottom surface of the water collecting unit.

In addition, the water collecting space may further include a heating unit for heating the water collecting space.

According to an embodiment of the present invention, even though the water contained in the sludge is stored outside the sludge outlet through the sludge outlet opening, the water is collected through the water collecting part after being collected through the drainage part. No it has the advantage of solving the hygiene problems.

In addition, as the catchment unit is connected to only one of the first and second accommodating bodies, it has the advantage of eliminating the need to separate the collecting unit from the accommodating body in the process of separating the first and second accommodating bodies.

And by installing the guide portion and the sealing portion in the upper portion of the collecting portion there is an effect that the phenomenon that the sludge is introduced into the collecting portion in the sludge discharge process.

1 is a perspective view of a sludge discharge hopper according to an embodiment of the present invention.
2 is a view schematically showing a state in which the sludge discharge port of FIG. 1 is closed.
3 is a view schematically showing a state in which the sludge discharge port of Figure 1 is open.
Figure 4 is a front sectional view showing a state in which a filter is installed on the water outlet of the water collecting unit.
5 is a front sectional view showing a state in which a washing unit is installed in the water collecting unit.
6 is a front sectional view showing a state in which a heating unit is installed on a water outlet of the water collecting unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. Like parts are designated by like reference numerals throughout the specification.

1 is a perspective view of a sludge discharge hopper according to an embodiment of the present invention, Figure 2 is a view schematically showing a state in which the sludge discharge port of Figure 1 is closed, Figure 3 is a schematic view of a state in which the sludge discharge opening of Figure 1 is open. It is a figure shown.

1 to 3, the sludge discharge hopper according to an embodiment of the present invention includes a sludge hopper 100, an opening and closing part 200, a water collecting part 300, and a guide part 800.

The sludge hopper 100 is a portion that is finally received before the sludge generated through the pre-treatment process is collected outside, the box is formed as a whole and the receiving space 110 is formed therein to accommodate the sludge. , The sludge discharge port 120 is formed in the lower portion.

The sludge hopper 100 has a structure in which the receiving space 110 is connected to the pretreatment process so that the sludge that has undergone the pretreatment process is supplied to the receiving space 110 to be accommodated.

The sludge hopper 100 has an opening and closing part 200 is installed.

Opening and closing part 200 serves to control the reception and discharge of the sludge by opening and closing the sludge outlet 120, the first opening and closing door 210, the second opening and closing door 220, the first gear 230, the second Gear 240 and drive motor 250 is included.

Among them, the first opening and closing door 210 serves as a substantially opening and closing function of the sludge discharge port 120 together with the second opening and closing door 220, and is installed in a form surrounding the front and rear surfaces of the sludge hopper 100 and the sludge discharge port 120. . In this case, the first opening and closing door 210 is installed to cover an area corresponding to one half of the left and right widths of the sludge discharge port 120, and the second opening and closing door 220 is installed to cover an area corresponding to the other half. do.

And the first opening and closing door 210 is connected to the front and rear surfaces of the sludge hopper 100 through the first hinge portion (H1), it is installed to be rotatable with the first hinge portion (H1).

The second opening and closing door 220 has the same function as the first opening and closing door 210, and is installed in a form that surrounds the front and rear surfaces of the sludge hopper 100 and the sludge discharge port 120 with the first opening and closing door 210. do.

The second opening and closing door 220 is connected to the front and rear surfaces of the sludge hopper 100 through the second hinge portion H2 and is installed to be rotatable with the second hinge portion H2.

Therefore, the sludge discharge port 120 of the sludge hopper 100 is the first bonding surface (212) and the first bonding surface (2) of the end that surrounds the sludge discharge port 120 of the first opening door (210) ( In the state where the second joining surface 222 of the point facing 212 is mutually bonded to each other, the state is closed and the first opening and closing door 210 and the second opening and closing door 220 are the first and second hinge portions H1 as shown in FIG. 3. When the first and second bonding surfaces 212 and 222 are separated by rotating in the opposite directions through H2, they become an open state.

In addition, the first gear 230 of the elements constituting the opening and closing part 200 together with the first and second opening doors 210 and 220 is in the form of a general vandal gear, and the center is coupled to the first hinge part H1 to rotate. The first hinge portion H1 is installed to rotate together.

In addition, the second gear 240 has a symmetrical structure with the first gear 230 and the center is coupled to the second hinge portion H2 so that the second hinge portion H2 rotates together when rotated.

The first gear 230 and the second gear 240 are meshed with each other to rotate in opposite directions when rotated by the drive motor 250.

For reference, in FIGS. 1 to 3, the first and second gears 230 and 240 are shown in the form of a half moon gear, but the shapes of the first and second gears 230 and 240 are not limited thereto, and various structures such as general spur gears are shown. It is possible to apply deformation.

The drive motor 250 serves as a substantial driving source of the opening and closing part 200, and is connected to any one of the first and second gears 230 and 240 to rotate the gear.

In this case, two driving motors 250 may be provided and connected to the first and second gears 230 and 240 separately.

By this structure, when the driving motor 250 rotates the first gear 230 counterclockwise, the second gear 240 meshed with the first gear 230 rotates counterclockwise, and thus, the first and second hinge portions ( Sludge outlet of the sludge hopper 100 as the H1) (H2) and the first and second closing doors 210 and 220 rotate in opposite directions to separate the first and second joining surfaces 212 and 222. 120 is opened.

When the first gear 230 is rotated in the open state, the sludge discharge port 120 is blocked as the first and second joining surfaces 212 and 222 are joined to each other through the opposite action.

However, unlike the above, the opening and closing part 200 may include only one opening and closing door that rotates by the driving motor 250 and covers the sludge discharge port 120.

The collecting part 300 is connected to the opening / closing part 200 and has a collecting space in which the liquid flowing out of the sludge discharge port is accommodated.

The water collecting unit 300 serves to process water when the water contained in the sludge in the sludge hopper 100 is leaked to the outside, and includes the water collecting body 310 and the discharge pipe 320 again.

The water collecting body 310 is a portion in which water discharged from the sludge hopper 100 is initially received, and has a duct shape having a length of the first and second opening doors 210 and 220 as a whole. A water collecting space 312 is formed, and the side portion has a structure in which a drain hole 314 is connected to the water collecting space 312.

The water collecting body 310 is installed in the first opening and closing door 210, wherein an upper edge of one side of the water collecting body 310 is immediately adjacent to the first bonding surface 212 of the lower surface of the first opening and closing door 210. As it is connected to the point, it is as if the collecting body 310 is projected from the first opening and closing door 210 to cover the boundary between the first bonding surface 212 and the second bonding surface 222.

At this time, the boundary between the first bonding surface 212 and the second bonding surface 222 is located at the middle point of the left and right width of the collecting space 312.

And the water collecting body 310 is one end is in contact with the first opening and closing door 210, the other end is installed in the opening and closing portion 200 in the form of being spaced apart from the first opening and closing door 210 and the second opening and closing door (220). Accordingly, the other end of the water collecting body 310 is installed in a state of being spaced apart without contacting the lower surfaces of the first and second opening doors 210 and 220.

The reason for installing the water collecting body 310 in such a state as to be inclined downward is that the water collecting body 310 including the first and second opening doors 210 and 220 is rotated and the sludge is collected in the process of sludge collecting body 310. This is to prevent the phenomenon that flows into the inside.

At this time, the inclination of the water collecting body 310 may be about 10 ° to 30 ° downward as shown in [FIG. 2] and [FIG. 3].

If the inclination of the water collecting body 310 is less than 10 °, sludge may be introduced into the water collecting body 310 during sludge discharge process. If the inclination exceeds 30 °, sludge may be stored in the sludge storage process. Water contained in the water collecting body 310 overflows through the gap between the first and second bonding surfaces 212 and 222 and is collected in the water collecting body 310.

In addition, the drainage pipe 320 constituting the water collecting unit 300 together with the water collecting body 310 serves as an external discharge path of water in the water collecting body 310, and has a simple hollow tube shape and one end of the water collecting body 310. In the state connected to the drain 314 of the protruding to the outside is installed.

In addition, the water collecting unit 300 may be further added to the functional structure of various forms in addition to this basic structure.

For example, as shown in FIG. 4, a separate washing unit 700 may be further connected to the water collecting body 310.

The water collected in the water collecting body 310 is discharged from the sludge, so there is no choice but to include a lot of foreign matter. Therefore, when the water collection and discharge are repeated, the drainage port 314 along with the inner wall of the water collecting body 310 may be dirty or blocked by foreign matter.

The washing unit 700 serves to remove the foreign matter attached to the inner wall surface of the water collecting body 310 and the drain 314, and thus includes the washing liquid supply unit 710 and the washing liquid discharge pipe 720.

Among them, the cleaning solution supply unit 710 may be in the form of a separate water tank or a general water supply as shown in the drawing.

In addition, one end of the washing liquid discharge pipe 720 is connected to the washing liquid supplying part 710 and the other end is installed in the form of passing through the water collecting body 310 or penetrating the water collecting body 310 so that the discharge port through which the washing liquid is discharged is the water collecting body 310. ) Is disposed to face the inner wall surface.

When the collection body 310 needs to be washed through the structure, the cleaning solution supplied from the cleaning solution supply unit 710 is moved along the cleaning solution discharge pipe 720 and then sprayed toward the interior of the collecting body 310 to collect the collecting body 310. The interior is cleaned.

In addition, as shown in Figure 5, the filter 500 is further added to the upper end of the drain 314 of the water collecting body 310 to filter foreign matter contained in the water during the discharge process.

In this case, the filter 500 used may have various structures such as a mesh structure or a nonwoven fabric.

Further, as illustrated in FIG. 6, the heating unit 600 may be further included in the water collecting body 310 to heat the water collecting space 312. In this case, by connecting a separate heating wire 610 to the collecting space 312 it is possible to prevent the phenomenon that the drain pipe is clogged because the moisture is frozen during the winter.

The heating wire 610 is applied in the form of a simple heating wire is embedded in the collecting body 310 wall surface or is disposed on the inner wall surface of the collecting body 310 in a state of waterproofing itself or disposed on the inner wall surface of the collecting body 310. It is installed in a state in which the heating line 610 is covered with a separate taping member 620 in the state.

In addition, the heating line 610 may be connected to a separate external power source to selectively operate at a desired time through a switch (not shown).

For reference, when the freezing phenomenon of water in the water collecting body 310 and the possibility of clogging due to foreign substances are less likely to occur, each of the above-described filter 500, the washing unit 700, and the heating line 610 may be omitted. .

The guide part 800 is connected to the opening / closing part 200 toward the accommodation space 110 to prevent the sludge from falling into the water collecting part 300 when the sludge discharge port 120 is opened. To this end, the guide part 800 is installed in the opening and closing door to which the water collecting part 300 is connected among the first and second opening and closing doors 210 and 220.

Hereinafter, a case in which the guide part 800 is connected to the first opening / closing door 210 will be described. However, the guide part 800 may be connected to the second opening and closing door 220 according to the connection position of the water collecting part 300, and in this case, the guide part 800 is connected to the first opening and closing door 210. The structure and action are the same.

The guide part 800 is connected to the first opening / closing door 210 in a direction opposite to the water collecting part 300 and is located inside the accommodation space 110.

The guide part 800 is a plate-shaped member that is formed to extend in the longitudinal direction of the first opening / closing door 210. The guide part 800 is installed to protrude from one end of the first opening / closing door 210. In other words, the guide part 800 is connected to the first opening and closing door 210 toward the accommodation space 110 along the longitudinal direction of the first opening and closing door 210, as shown in FIGS. 2 and 3. One end of the 800 is connected to one end of the first opening and closing door 210, and the other end of the guide part 800 protrudes from the first opening and closing door 210 toward the second opening and closing door 220.

Therefore, since the guide portion 800 covers the boundary between the first bonding surface 212 and the second bonding surface 222 in the opposite direction to the water collecting portion 300, the moisture contained in the sludge is the first bonding surface 212. It is prevented to flow to the water collecting part 300 along the gap of the boundary portion of the second bonding surface 222 and.

In addition, when the sludge discharge port 120 is opened to rotate the opening and closing part 200 and the sludge falls downward, the guide part 800 rotates like the first opening / closing door 210 so as to be positioned above the water collecting part 300. , The sludge does not fall into the collecting part 300.

At this time, the length of the width of the guide portion 800 is preferably formed longer than the length of the width of the collecting portion 300 in order to prevent the sludge falls into the collecting portion 300.

The sealing part 810 is further connected to the guide part 800.

Sealing portion 810 is made of a rubber or the like is connected to the upper portion of the guide portion 800 is a member that prevents the liquid contained in the sludge to flow through the sludge discharge port 120.

The sealing part 810 may be formed to extend in one direction along the longitudinal direction of the guide part 800 to cover all of the upper surface of the guide part 800. In addition, the width of the sealing portion 810 may be formed longer than the width of the guide portion 800 may protrude from the guide portion 800. In this case, as compared with the case where the width of the sealing part 810 is short, the efficiency of preventing moisture from being discharged through the sludge discharge port 120 is improved.

Although not necessarily, the sealing portion 810 is formed in parallel with the guide portion 800, as shown in Figures 2 and 3, the first sealing member 811 connected to the upper portion of the guide portion 800 And a second sealing member 812 which is inclined downward toward the sludge discharge port 120 and is connected to one end of the first sealing member 811.

The second sealing member 812 protrudes downward from the first sealing member 811 toward the second opening / closing door 220.

Therefore, as shown in Figure 3, when the first opening and closing door 210 and the second opening and closing door 220 is rotated and the sludge discharge port 120 is opened and the sludge falls to the bottom, it makes the sludge fall angle of the sludge.

In other words, when the sludge in the upper portion of the first opening and closing door 210 falls to the bottom, the sludge does not fall vertically but falls along the second sealing member 812 which is inclined downward, so that the sludge is a catchment part ( It does not fall to 300 and moves to the collection site.

In addition, the sealing portion 810 is connected to the guide portion 800 may reduce the amount of moisture contained in the sludge. In the sealing part 810 made of a rubber material, a first sealing member 811 is connected to the guide part 800 at an upper portion of the first opening / closing door 210 and is connected to the first sealing member 811. The sealing member 812 is inclined downward from the upper portion of the first opening / closing door 210 through the upper portion of the first bonding surface 212 and the second bonding surface 222 and is in contact with the second opening door 220.

Therefore, when the sludge discharge port 120 is closed, since the sealing part 810 blocks the gap between the first joint surface 212 and the second joint surface 222, the first and second opening surfaces 212 and 222. ), The discharge of moisture discharged to the water collecting part 300 is reduced.

Meanwhile, a drain 400 is further installed below the water collecting part 300.

The drain 400 serves to form a flow path through which the water can move in the process of collecting the water collected by the water collecting unit 300 to an external wastewater treatment unit, and the collection pipe 420 and the inlet pipe 410. It includes.

Among them, the collection pipe 420 is in the form of a simple pipe as its name, and the lower end is erected so as to be positioned below the water collecting body 310 in a state connected to a separate wastewater treatment unit (not shown).

In addition, the inlet pipe 410 is a portion into which the water discharged through the drain pipe 320 of the water collecting unit 300 is initially introduced, and is also in the form of a simple pipe and is installed with the lower end connected to the upper end of the collection pipe 420. .

At this time, the top surface of the inlet pipe 410 is formed inclined surface inclined downward toward one side as shown in Fig. 2 and 3, the inclined surface is the process of the water collecting part 300 rotates with the first opening and closing door 210 In the drain pipe 320 is formed in a form inclined downward toward the direction of rotation.

Therefore, the phenomenon that the drain pipe 320 is in contact with the inlet pipe 410 during the rotation process is prevented and at the same time the lower end of the drain pipe 320 is smoothly located in the inlet pipe 410 when connected to the inlet pipe 410 Water discharged through the drain pipe 320 may be smoothly introduced into the inlet pipe 410.

For reference, the drainage pipe 320 may be omitted from the water collecting part 300, and the drainage port 314 of the water collecting body 310 may be directly connected to the inflow pipe 410. In this case, the inclined surface may be omitted. Do.

At this time, the bottom surface of the water collecting part 300 is inclined downward toward the drain 400. In this case, the liquid collected in the collecting part 300 is easily moved to the draining part 400 so that moisture does not remain in the collecting part 300.

Hereinafter will be described the operation of the present invention by this configuration and the unique effects generated in the process.

First, the first and second mating surfaces 212 and 222 of the first and second opening doors 210 and 220 are bonded to each other so that the sludge discharge port 120 of the sludge hopper 100 is blocked in a pretreatment process such as dehydration. The sludge passed through is accommodated in the accommodation space 110 of the sludge hopper 100.

At this time, the water contained in the sludge is not leaked to the outside of the sludge hopper 100 by the guide part 800 and the sealing part 810 connected to the first opening and closing door 210.

However, when the guide part 800 and the sealing part 810 do not completely block the discharge of water, the water contained in the sludge is moved downward by gravity in the state in which the sludge is stored so that the first and second closed doors ( The first and second bonding surfaces 212 and 222 of the 210 and 220 flow out to the outside.

At this time, the leaked water immediately flows into the water collecting space 312 of the water collecting body 310 and then is discharged to the inlet pipe 410 of the drain 400 through the drain 314 and the water drain pipe 320. And the water introduced into the inlet pipe 410 is moved through the collection pipe 420 is collected after the external collection box and processed.

In this process, when the sludge is discharged to the outside, the first and second gears 230 and 240 are operated by the driving motor 250 so that the first and second opening doors 210 and 220 rotate. The sludge discharge port 120 of 100 is opened so that sludge in the sludge hopper 100 is discharged to the outside through the sludge discharge port 120.

At this time, since the water collecting body 310 is also rotated in the process of the first opening and closing door 210, the hassle of having to move the water collecting body 310 separately before opening the first opening and closing door is eliminated.

As described above, as the collecting body 310 is installed at a predetermined angle inclined downward, the sludge is not discharged into the collecting body 310 and smoothly discharged to the outside as the sludge is discharged.

In addition, since the guide part 800 and the sealing part 810 are connected to the first opening / closing door 210 to which the collecting part 300 is connected to correspond to the collecting part 300, the sludge is collected into the collecting part 300. Do not fall.

In particular, since the sealing part 810 includes the second sealing member 812 which is inclined downward, the sludge is prevented from entering the water collecting part 300 by adjusting the falling angle of the sludge.

In addition, according to the present invention, as the collecting body 310 is combined with only one of the opening and closing doors of the first and second opening doors and rotates together with the corresponding opening and closing doors, the position of the collecting body must be moved separately in the opening and closing process of the first and second opening doors. There is a feature that can eliminate the hassle.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, And falls within the scope of the invention.

100: accommodation duct 110: accommodation space
120: sludge outlet 200: opening and closing part
210: first opening and closing door H1: first hinge portion
220: second opening and closing door H2: second hinge portion
212: first bonding surface 222: second bonding surface
230: first gear 240: second gear
250: drive motor 300: collecting part
310: collecting body 312: collecting space
314: drain port 320: drain pipe
400: drain 410: inlet pipe
420: collection pipe 500: filter
610: heating wire 620: taping member
700: washing unit 710: washing liquid supply unit
720: washing liquid discharge pipe 800: guide portion
810: sealing portion 811: first sealing member
812: second sealing member

Claims (10)

Sludge hopper is formed in the receiving space for the sludge can be accommodated and the sludge discharge port is formed at the bottom,
An opening / closing part which opens and closes the sludge discharge port and is installed in the sludge hopper,
A collecting part connected to one surface of the opening and closing part, and having a collecting space formed therein for accommodating liquid flowing out of the sludge outlet;
A guide part positioned above the water collecting part and connected to the other surface of the opening and closing part;
Sludge discharge hopper comprising a. In claim 1,
Sludge discharge hopper further comprises a sealing portion connected to the guide portion. In claim 2,
The sealing part
A first sealing member formed in parallel with the guide part and connected to an upper part of the guide part, and
A second sealing member which is inclined downward toward the sludge discharge port and is connected to one end of the first sealing member;
Sludge discharge hopper comprising a. In claim 1,
The opening and closing part includes a first opening and closing door and the second opening and closing door which is joined to be detachable in a state facing each other on the sludge discharge port,
The sludge discharge hopper is connected to any one of the first opening and closing door and the second opening and closing the water collecting space is located below the junction surface of the first opening and closing door. In claim 1,
One end of the collecting portion is in contact with the opening and closing portion, the other end is the sludge discharge hopper spaced apart from the opening and closing portion. In claim 1,
Sludge discharge hopper further installed in the lower portion of the water collecting portion to form a flow path for the liquid flowing into the water collection portion to move to the waste water treatment unit. The method of claim 6,
The bottom surface of the water collecting portion is a sludge discharge hopper is inclined downward toward the drain portion. In claim 1,
Sludge discharge hopper further comprises a washing unit connected to the collecting unit for supplying a washing liquid to the collecting space. In claim 1,
Sludge discharge hopper further comprising a filter installed on the bottom surface of the water collecting unit. In claim 1,
Sludge discharge hopper further comprises a heating unit formed in the collecting space for heating the collecting space.

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