KR100990987B1 - Sludge collector system for hopper-gate - Google Patents

Abstract

The present invention relates to a sludge collection system, and more particularly, to a sludge collection system in which a hopper gate is installed, which is simple in structure and does not need to provide a separate power to the hopper gate, thereby reducing manufacturing and maintenance costs.

According to the present invention, a sludge collection system provided with a hopper gate in a sedimentation basin hopper, comprising: a frame disposed at a predetermined distance from a hopper sidewall; An opening and closing supporter mounted on the frame and rotated by an operation of a sludge collector for collecting sludge settled in the settling basin; And an opening / closing means connected to the opening / closing supporter to open and close the frame, wherein one end thereof is rotated toward the sludge collector side to open and close the frame. It provides a sludge collection system installed hopper gate comprising a.

Sedimentation basin, sludge, hopper, hopper gate, sludge collector, opening and closing supporter, opening and closing means

Description

Sludge Collection System with Hopper Gate {SLUDGE COLLECTOR SYSTEM FOR HOPPER-GATE}

The present invention relates to a sludge collection system, and more particularly, to a sludge collection system in which a hopper gate is installed, which is simple in structure and does not need to provide a separate power to the hopper gate, thereby reducing manufacturing and maintenance costs.

In general, a water purification plant and a sewage treatment plant are provided with a sedimentation basin to precipitate sludge contained in raw water flowing into the water purification plant and the sewage treatment plant.

The sludge settled in the sedimentation basin is collected by the sludge hopper (hereinafter referred to as hopper) by the sludge collector installed to reciprocate in the sedimentation basin and then discharged through the outlet by driving the valve.

However, conventionally, the sludge collected in the hopper is condensed on the bottom of the hopper, but only the sludge around the outlet is discharged, and sludge located far from the rear and the inlet of the outlet is not discharged smoothly and continues to accumulate.

If this phenomenon continues and the surrounding sludge hardens, sludge is discharged from the supernatant or sludge containing concentration through the channel formed in the condensed sludge, resulting in deterioration of sediment water due to waste of sediment and sludge discharge. Resulted.

In order to solve this problem, it is necessary to periodically empty the sludge in the sedimentation basin and to use the manpower to remove the condensed sludge on the side wall of the hopper causing a lot of economic losses.

In order to solve this problem, a technique of injecting high pressure air or high pressure water into the sludge accumulated in the hopper has been used, but this has not only a problem in that the sludge is removed from the high pressure air or high pressure water sprayed portion, but also vortices are generated during the injection. There was a risk of sludge rising and scum.

Thus, the present inventors have received a patent application (patent registration No. 362,123 "precipitated sludge hopper gate") that can remove the sludge accumulated at the side of the hopper and at the same time prevent the sludge from rising.

Such "precipitated sludge hopper gate" was effective in preventing the sludge accumulated on the side of the hopper and the injuries of the sludge, but the structure that can reduce the manufacturing and maintenance costs have been required.

The present invention is to solve and complement the problems caused by the conventional sludge collection system as described above,

It is an object of the present invention to provide a sludge collection system in which a hopper gate is installed, which is simple in structure and does not need to provide a separate power to the hopper gate, thereby reducing manufacturing and maintenance costs.

According to the present invention for achieving the above object, a sludge collection system in which the hopper gate is installed in the clarifier hopper, the frame disposed spaced apart from the hopper side wall; An opening and closing supporter mounted on the frame and rotated by an operation of a sludge collector for collecting sludge settled in the settling basin; And two or more dampers, the opening and closing means being connected to the opening and closing supporter to open and close the frame, wherein the upper part of the damper closest to the sludge collector among the dampers is rotated toward the sludge collector side when the frame is closed. It provides a sludge collection system installed hopper gate comprising a.

The opening and closing means includes: at least two first dampers disposed in the frame and one of which is connected to the opening and closing supporter; A second damper disposed at a position closest to the sludge collector away from the first damper; A connecting member connecting the first damper and the second damper to drive the second damper in a direction opposite to the driving direction of the first damper, and having a long hole formed along a long axis direction; A fastener mounted through a long hole and connecting the connection member and the frame; A shaft for rotatably mounting the first damper and the second damper to the frame; And a connection bar connecting between the first dampers; It may be configured to include.

One or two of the first damper and the second damper may be configured to join the long side of the first plate and the long side of the second plate that is heavier than the first plate.

A first gear having a plurality of threads is formed on a rotation shaft of the open / close supporter, and the open / close means includes: a shaft disposed in the frame by two or more numbers, and a second gear corresponding to the first gear is formed on one of the shafts; A first damper connected to the shaft and rotatably mounted to the frame; A connection bar connecting between the first dampers; It may be configured to include.

The first damper may be configured to form the long side of the first plate and the long side of the second plate that is heavier than the first plate.

The opening and closing means is connected to the driving means provided on the ground, the driving means, the driving unit; And one side is connected to the opening and closing means, the other is connected to the drive unit, the wire for opening or closing the opening and closing means to open and close the frame according to the operation of the drive unit; It may be configured to include.

It may be configured to include a sludge controller connected to the opening and closing supporter or opening and closing means to assist the discharge of the sludge deposited on any one or both of the side wall, the bottom of the hopper according to the operation of the opening and closing supporter or opening and closing means.

The opening and closing supporter may be configured so that one end is bent or bent.

According to the sludge collection system provided with the hopper gate according to the present invention, since the structure is simple and does not need to provide a separate power to the hopper gate, there is an effect that can reduce the production and maintenance costs.

Hereinafter, with reference to the drawings will be described in detail. However, these drawings are for illustrative purposes only and the present invention is not limited thereto.

1 is a view showing the inside of the sedimentation basin is applied sludge collection system according to a first embodiment of the present invention, Figure 2 is a view showing a part of the guide roller of the hopper gate and the sludge collector shown in Figure 1, Figure 3 (A) and (b) are diagrams showing the first or second damper used in the first embodiment of the present invention.

First, referring to FIG. 1, a hopper 110 having a discharge pipe 112 is formed at a lower portion of the sedimentation basin 100, a hopper gate 300 is installed at an upper portion of the hopper 110, and at the bottom of the sedimentation basin 100. The sludge collector 200 for collecting the sludge settled in the sedimentation basin 100 and moves to the hopper 110 is disposed.

At this time, the guide roller 210 for operating the opening and closing supporter 320 of the hopper gate 300 is attached to the front of the sludge collector 200. Guide roller 210 may be configured in a variety of shapes, in the figure is shown by the roller (R) to withstand the load of the guide roller 210 to be able to move by rolling the bottom surface of the sedimentation basin 100 in the distal end Is mounted, the roller (R) is preferably formed of a flexible material to some extent to prevent damage, such as the opening and closing supporter 320.

As such, the hopper gate 300 installed on the upper portion of the hopper 110 includes a frame 310, an open / close supporter 320, and an open / close means 330.

The frame 310 forms the overall frame of the hopper gate 300, and is fixedly installed on the hopper 110 by the fixing member 312. Frame 310 is disposed spaced apart from the side wall of the hopper 110 so that a gap can be formed between the frame 310 and the side wall of the hopper 110 during installation. In this case, the gap may be formed only between any one side wall of the hopper 110 in consideration of the use environment, the use efficiency, etc. of the hopper gate 300, or the gap may be formed between all the side walls. You can also adjust the gap spacing. Meanwhile, although the shape of the frame 310 is illustrated as having a rectangular shape in the drawing, it may be changed to a circle, an elliptical shape, a polygonal shape, or the like, and may be changed according to the shape of the hopper 110.

The pair of opening and closing supporters 320 are disposed so as to correspond to the outside of the frame 310, one end is bent or bent so that the guide roller 210 of the sludge collector 200 does not exceed the opening and closing supporter 320. .

At this time, the opening and closing supporter 320 is mounted on one end and the other end of the shaft 335 of the components of the opening and closing means 330 described below. Thus, when one of the opening and closing supporter 320 is operated, the shaft 335 and the other opening and closing supporter 320 is positioned to be operated at the same time. The opening and closing supporter 320 is an operation of the sludge collector 200, that is, the guide roller 210 attached to the sludge collector 200 approaches the opening and closing supporter 320 and then applies a force in contact with the opening and closing supporter 320. The guide roller 210 is moved away from the opening / closing supporter 320 so as not to apply force.

Here, in the first embodiment, a pair of opening and closing supporters 320 are disposed outside the frame 310, but the opening and closing supporters 320 may be reduced depending on a reduction in the manufacturing cost of the hopper gate 300 or the use environment of the hopper gate 300. 320 may also be used. As such, when using one open / close supporter 320, it is preferable to be disposed near the center of the shaft 335 in consideration of the center of gravity.

The opening and closing means 330 is connected to the opening and closing supporter 320, a part including one or more dampers (331, 332) which is moved to open and close the frame 310 in accordance with the operation of the opening and closing supporter 320. That is, the dampers 331 and 332 operate the sludge collector 200 to close the frame 310 when the guide roller 210 exerts a force on the open / close supporter 320, and the sludge collector 200 opens / closes the supporter ( When no force is applied to 320, the frame 310 moves to open the frame 310.

The opening and closing means 330 is disposed in the frame 310 in the number of two or more, any one of the first damper 331 is connected to the opening and closing supporter 320 and the second damper 331 is disposed away from the first damper 331 The damper 332, the first damper 331, and the second damper 332 are connected to drive the second damper 332 in a direction opposite to the driving direction of the first damper 331, and the long hole along the long axis direction ( 333a is formed through the connection member 333, the fastener 334, the first damper 331 and the second damper 332 is mounted through the long hole 333a to connect the connection member 333 and the frame 310 A shaft 335 for rotatably mounting the frame 310 to the frame 310 by using the bearing 314, and one side of the shaft 335 protruding outward as a pair, such as the opening / closing supporter 320 described above. It is connected to the link member 336 mounted on the end and the other end and each link member 336 to connect between the first damper 331, that is to the opening and closing supporter 320 It is configured to include a pair of connecting bar (337) for transmitting the rotational force of the first damper (331) connected and rotated to the first damper (331) that is not connected to the opening and closing supporter (320). In this case, the link member 336 may be omitted and the connection bar 337 may be configured to directly connect the first damper 331, but the first damper 331 may be smoothly operated inside the frame 310. It is preferable that the connection bar 337 connects the first damper 331 to the outside of the frame 310 through the link member 336.

Here, as illustrated in FIGS. 3A and 3B, one or two of the first damper 331 and the second damper 332 may be formed of a heavier material than the long side of the first plate 331a and the first plate 331a. 2 It is formed by joining the long sides of the board. For example, the first plate 331a may be formed of a synthetic resin material, and the second plate 331b may be formed of an iron material. As such, the first plate 331a and the second plate 331b are bonded to each other, and a separate plate is placed thereon, and the damper is manufactured using a fastening member such as a screw. Accordingly, when a force is applied to the open / close supporter 320 by the sludge collector 200, the first damper 331 and the second damper 332 operate to close the frame 310, and the sludge collector 200 is closed. When the force is not applied to the open / close supporter 320, the first damper 331 and the second damper 332 are operated by the weight of the second plate 331b to open the frame 310.

The shaft 335 is a rotation axis of the first and second dampers 331 and 332, and protrudes outward through the frame 310. The link member 336 is mounted on the protruding shaft 335, and the opening and closing supporter 320 is mounted on any one of the shaft 335 on which the link member 336 is mounted.

Accordingly, any one of the first dampers 331 is mounted to the shaft 335 on which the open / close supporter 320 is mounted, and the other first dampers 331 are connected by the connection bar 337 to open / close the supporter 320. The first damper 331 is operated in accordance with the operation of the), the second damper 332 receives the driving force through the connecting member 333 when the first damper 331 is operated, the first damper 331 It is operated in the direction opposite to the driving direction of. In other words, one end of the second damper 332, that is, the upper side of the second damper 332 disposed substantially perpendicular to the bottom of the hopper 110 in FIG. 1 is rotated toward the sludge collector 200. The frame 310 is opened and closed.

Meanwhile, although the first dampers 331 are described as having two or more, one first damper 331 may be used depending on the usage environment of the hopper gate 300. In this case, the connection bar 337 connecting between the first dampers 331 is omitted in the component.

4 is a view showing the inside of the sedimentation basin is applied sludge collection system according to a second embodiment of the present invention, Figure 5 is a view showing a part of the guide roller of the hopper gate and the sludge collector shown in FIG.

4 and 5, the sludge collection system in which the hopper gate according to the second embodiment of the present invention is installed is configured similarly to the first embodiment but the opening and closing supporter 320 and the opening and closing means 330 ) Is shaped differently.

That is, unlike the first embodiment, the second embodiment uses a gear having a plurality of threads, and uses one open / close supporter 320 positioned near the center of the shaft 335. Such a configuration may allow the pair of open / close supporters 320 to be disposed outside the frame 310 as in the first embodiment, and the first and second open / close supporters 320 as in the second embodiment. It can also be configured to use.

A first gear 322 having a plurality of threads is formed on the rotation shaft of the opening and closing supporter 320 used in the second embodiment, and the opening and closing means 330 is connected to the shaft 335 and the first damper 331. A bar 337.

The shaft 335 is disposed in the frame 310 in two or more numbers, and a second gear 335a corresponding to the first gear 322 is formed in one of the shafts 335.

The first damper 331 is connected to the shaft 335 and rotatably mounted to the frame 310. When the opening and closing supporter 320 is operated by the sludge collector 200, the first damper 331 is smoothly operated. Some are incisions. The first damper 331 used in the second embodiment is fitted with the long side of the first plate 331a and the long side of the second plate 331b that is heavier than the first plate 331a as used in the first embodiment. It is formed by pasting.

The connection bar 337 is connected between the first dampers 331, and this configuration is the same as the configuration of the first embodiment described above, and thus a detailed description thereof will be omitted.

6 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the third embodiment of the present invention is applied.

Referring to FIG. 6, the sludge collection system in which the hopper gate according to the third embodiment of the present invention is installed is configured in almost the same manner as the first embodiment, but the hopper gate when the sludge collector 200 does not operate due to a failure or the like. Configured to use 300.

That is, the first damper 331 is connected to the driving means 400 provided on the ground to operate.

To this end, the driving means 400 includes a driving unit 410 and a wire 420. The driving unit 410 is a component for generating a driving force by operating by applying power, and a driving motor may be used. The wire 420 has one side connected to the first damper 331, and the other side connected to the driving unit 410, which is wound or unwound according to the operation of the driving unit 410, so that the first damper 331 and the second damper ( 332 is operated to open and close the frame 310.

7 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the fourth embodiment of the present invention is applied.

As shown in FIG. 7, the fourth embodiment of the present invention applies a part of the third embodiment to the second embodiment, and like the third embodiment, when the sludge collector 200 does not operate due to failure or the like, the hopper gate It is to use 300. The description thereof may be referred to the description of the second and third embodiments, and thus detailed description thereof will be omitted.

8 is a view showing the inside of the sedimentation basin is applied sludge collection system according to a fifth embodiment of the present invention, Figure 9 is a view showing the sludge controller used in FIG.

In FIG. 8, the fifth embodiment of the present invention is configured in substantially the same manner as the first embodiment described above, but further includes a sludge controller 500.

The sludge controller 500 may be connected to the opening / closing supporter 320 or the opening / closing means 330. In the drawing, the sludge controller 500 is fixedly mounted to the opening / closing means 330, in particular, the first damper 331.

Therefore, according to the operation of the first damper 331, the sludge S deposited on the side wall or the bottom of the hopper 110 or both the side wall and the bottom, especially the hardened and not easily discharged sludge (S) is scratched or raised. By assisting this during the discharge of the sludge (S) is to be able to smoothly discharge the sludge (S).

On the other hand, when using the sludge controller 500 as described above, even if the dampers 331 and 332 are not divided into the first and second plate members 331a and 331b as described above, they are opened and closed by the weight of the sludge controller 500 itself. Opening of the means 330 is possible.

10 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the sixth embodiment of the present invention is applied.

As shown in FIG. 10, in the sixth embodiment of the present invention, a part of the fifth embodiment is applied to the second embodiment, and as in the fifth embodiment, the sludge controller 500 is connected to the first damper 331. It is to assist the discharge of the sludge (S). The description thereof may be referred to the description of the second and fifth embodiments, and thus detailed description thereof will be omitted.

Hereinafter, a sludge collection system in which a hopper gate according to the present invention according to this configuration is installed will be described in detail with reference to the accompanying drawings. Here, in the driving state of the third and fourth embodiments, the operation of the wire 420 which is wound or unwound according to the operation of the driving unit 410 corresponds to the operation of the sludge collector 200, so that the driving states of the first and second embodiments are Since the description is similar to that of driving, a description thereof will be omitted.

11 to 13 are diagrams showing a state of discharging sludge using the sludge collection system according to a first embodiment of the present invention.

First, FIG. 11 illustrates that the sludge collector 200 moves the sludge S deposited in the sedimentation basin 100 to the hopper 110, and the first and second dampers 331 and 332 of the hopper gate 300. ) Are all open. Therefore, the sludge S is precipitated by moving into the hopper 110 through the gap between the open hopper gate 300 and the sidewall of the hopper 110 and the hopper gate 300 (slurry movement step).

And in Figure 12 shows the state to prepare for discharging the sludge (S) through the discharge pipe 112, while the sludge collector 200 moves forward toward the hopper 110 side guide roller 210 opening and closing supporter ( 320 is applied to the force in contact with the opening and closing supporter 320 is operated to some extent. As such, the first and second dampers 331 and 332 may also be operated to some extent according to the operation of the opening and closing supporter 320.

That is, according to the operation of the opening and closing supporter 320, the first damper 331 connected thereto is operated, and the other first damper 331 connected by the connecting bar 337 is also operated. The connecting member 333 connected to the first damper 331 is supported by the fastener 334 and slides along the long hole 333a to move the second damper 332 in the driving direction of the first damper 331. Since it is driven opposite to the one end of the second damper 332, that is, the upper side of the second damper 332 disposed approximately perpendicular to the bottom of the hopper 110 in Figure 8 is the sludge collector 200 side It is rotated toward.

Thereafter, FIG. 13 shows that the guide roller 210 attached to the sludge collector 200 pushes the opening / closing supporter 320 completely so that the first and second dampers 331 and 332 are frame 310, that is, the hopper gate 300. It is closed (hopper gate closing step).

In such a situation, when the discharge pipe 112 is opened through the drawing valve (not shown) to suck the sludge S, the sludge S deposited in the hopper 110 is discharged and settles on the hopper gate 300. The sludge S is moved into the hopper 110.

At this time, since the hopper gate 300 is closed, the space in which the sludge S can move is only a gap between the side wall of the hopper 110 and the hopper gate 300. Therefore, the sludge S and the sedimentation water are introduced along the sidewall of the hopper 110 at a strong water pressure to sweep the sludge S adhered to the sidewall of the hopper 110, thereby smoothly discharging the sludge S. (Sludge drawing stage).

When the sludge S is discharged to some extent after a certain time, the sludge collector 200 backwards and gradually reduces the force applied to the open / close supporter 320 through the guide roller 210 to close the hopper gate 300. Among the components constituting the first and second dampers 331 and 332, the hopper gate 300 is gradually opened by the weight of the second plate 331b, and the guide roller 210 opens and closes. If it is separated from 320, the hopper gate 300 is completely opened as shown in Figure 8 (hopper gate opening step).

When the force applied to the opening / closing supporter 320 from the sludge collector 200 disappears, the first damper 331 and the second damper 332 rotate by the weight of the second plate 331b to reverse the frame 310. Open.

FIG. 14 is a view showing any part of a state in which sludge is discharged using the sludge collection system according to the second embodiment of the present invention, and the sludge is discharged using the sludge collection system according to the first embodiment. A state similar to that of FIG. 12 is shown.

14, in the sludge collection system in which the hopper gate is installed according to the second embodiment of the present invention, the first gear 322 and the second gear 335a are used for the opening and closing supporter 320 and the opening and closing means 330. It is driven similarly to the driving of the first embodiment except that it is driven.

That is, when a force is applied to the open / close supporter 320 according to the operation of the sludge collector 200 and the open / close supporter 320 rotates to operate toward the cut-out portion of the first damper 331, the first gear 322 rotates. And the second gear 335a corresponding thereto rotates so that one side of the first damper 331, that is, the upper side of the first damper 331 disposed approximately perpendicular to the bottom of the hopper 110 in FIG. 4. The sludge collector 200 is rotated toward the side, and the driving force is transmitted to the other first dampers 331 by the connection bar 337 to close the frame 310.

When the force applied to the opening / closing supporter 320 from the sludge collector 200 disappears as in the first embodiment, the first damper 331 is rotated by the weight of the second plate 331b and the frame 310 is opened. do.

15 is a view showing a state in which the sludge is discharged using the sludge collection system according to a fifth embodiment of the present invention. Here, since the sludge collection system according to the sixth embodiment of the present invention can refer to the description of the second and fifth embodiments will be omitted.

The fifth embodiment of the present invention shown in FIG. 15 is almost similar to the state shown in FIG. 13 after the operation of the above-described first embodiment, that is, the state shown in FIGS. 11 and 12, and only the first damper 331. Sludge (S) by the sludge S (500) is connected to the scraper (S) by the sludge (S) deposited on the side wall or the bottom of the hopper 110 or both the side wall and the floor according to the operation of the first damper (331). It is to assist in the discharge of the sludge (S) is to be made smoothly.

Meanwhile, in the present specification, the first and second dampers 331 and 332 that are closing the hopper gate 300 are described as being opened by the weight of the second plate 331b. In addition, the elastic member (not shown) The first and second dampers 331 and 332 may be opened by using the same or the like. That is, one side of the elastic member is connected to the frame 310 and the other side is connected to the first or second dampers 331 and 332 so that the first or second dampers 331 and 332 connect the hopper gate 300. In the case of operating to close, the elastic force is accumulated, and when the guide roller 210 falls from the opening / closing supporter 320, the first and second dampers 331 and 332 are opened by the accumulated elastic force.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof.

Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

1 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the first embodiment of the present invention is applied.

2 is a view showing a part of the guide roller of the hopper gate and the sludge collector shown in FIG.

3 (a) and 3 (b) are diagrams showing a first or second damper used in the first embodiment of the present invention.

4 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the second embodiment of the present invention is applied.

5 is a view showing a part of the guide roller of the hopper gate and the sludge collector shown in FIG.

6 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the third embodiment of the present invention is applied.

7 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the fourth embodiment of the present invention is applied.

8 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the fifth embodiment of the present invention is applied.

9 is a view showing a sludge controller used in FIG.

10 is a view showing the inside of the sedimentation basin to which the sludge collection system according to the sixth embodiment of the present invention is applied.

11 to 13 are diagrams showing a state of discharging sludge using the sludge collection system according to a first embodiment of the present invention.

14 is a view showing any part of the state of discharging the sludge using the sludge collection system according to a second embodiment of the present invention.

15 is a view showing a state in which the sludge is discharged using the sludge collection system according to a fifth embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: settler 110: hopper

112: discharge pipe 200: sludge collector

210: guide roller 300: hopper gate

310: frame 312: fixing member

314: bearing 320: opening and closing supporter

322: first gear 330: opening and closing means

331: First damper 331a: First plate

331b: second plate 332: second damper

333: connecting member 333a: long hole

334: fixture 335: shaft

335a: second gear 336: link member

337: connection bar 400: drive means

410: drive unit 420: wire

500: Sludge Controller R: Roller

S: sludge

Claims (12)

In the sludge collection system in which the hopper gate is installed in the sedimentation basin hopper, A frame disposed spaced apart from the hopper sidewall by a predetermined distance; An opening / closing supporter mounted on the frame and pivoted by an operation of a sludge collector for collecting sludge settled in the settling basin; And It is connected to the opening and closing supporter, and includes two or more dampers, including the opening and closing means for opening and closing the frame by the damper by the operation of the opening and closing supporter, Based on the opening of the frame, the damper is divided into an upper side and a lower side, The opening and closing means, When the frame is closed, the upper side of the damper closest to the sludge collector is rotated toward the sludge collector side, and the lower side is rotated in the opposite direction to the sludge collector side, And the upper side of the damper closest to the sludge collector side is rotated in the opposite direction to the sludge collector side when the frame is opened, and the lower side is rotated toward the sludge collector side. The method of claim 1, The opening and closing means, Two or more first dampers disposed in the frame and one of which is connected to the opening / closing supporter; A second damper disposed at a position closest to the sludge collector away from the first damper; A connection member connecting the first damper and the second damper to drive the second damper in a direction opposite to the driving direction of the first damper, and having a long hole formed along a long axis direction; A fastener mounted through the long hole and connecting the connection member and the frame; A shaft rotatably mounting the first damper and the second damper to the frame; And A connection bar connecting between the first dampers; Sludge collection system installed hopper gate comprising a. The method of claim 2, One or two of the first damper and the second damper, A sludge collection system provided with a hopper gate, characterized in that the long side of the first plate and the long side of the second plate that is heavier than the first plate. The method of claim 1, The first gear having a plurality of threads is formed on the rotation shaft of the opening and closing supporter, The first damper is rotatably mounted to the frame, The opening and closing means, A shaft disposed in the frame in two or more numbers, one of which includes a second gear corresponding to the first gear and to which the first damper is connected; A connection bar connecting between the first dampers; Sludge collection system installed hopper gate comprising a. The method of claim 4, wherein And the first damper is formed by joining a long side of the first plate and a long side of the second plate that is heavier than the first plate. 6. The method according to any one of claims 1 to 5, The opening and closing means is operated in connection with the drive means provided on the ground, The driving means includes: A drive unit; And A wire connected to the opening and closing means on one side and connected to the driving part on the other side, the wire being wound or unrolled according to the operation of the driving unit to open and close the frame; Sludge collection system installed hopper gate comprising a. 6. The method according to any one of claims 1 to 5, And a sludge controller connected to the opening / closing supporter or the opening / closing means to assist the discharge of the sludge deposited on any one or both of the sidewall and the bottom of the hopper according to the operation of the opening / closing supporter or the opening / closing means. Sludge collection system with hopper gate installed. The method of claim 6, And a sludge controller connected to the opening / closing supporter or the opening / closing means to assist the discharge of the sludge deposited on any one or both of the sidewall and the bottom of the hopper according to the operation of the opening / closing supporter or the opening / closing means. Sludge collection system with hopper gate installed. 6. The method according to any one of claims 1 to 5, The opening and closing supporter is a sludge collection system having a hopper gate, characterized in that formed at one end is bent or bent. The method of claim 6, The opening and closing supporter is a sludge collection system having a hopper gate, characterized in that formed at one end is bent or bent. The method of claim 7, wherein The opening and closing supporter is a sludge collection system having a hopper gate, characterized in that formed at one end is bent or bent. The method of claim 8, The opening and closing supporter is a sludge collection system having a hopper gate, characterized in that formed at one end is bent or bent.

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