KR101047570B1 - manhole - Google Patents

Abstract

The present invention relates to a manhole, which is provided with a receiving space for accommodating filthy water, a body having an inlet through which filthy water is introduced and an outlet through which filthy water is discharged, and an inflow of filthy water through the inlet through the receiving space. The main body is partitioned into a discharge chamber through which a sewage is discharged through a seal and the discharge port, and prevents the float floating in the inflow chamber from entering the discharge chamber, and the floating material whose inflow into the discharge chamber is blocked by the partition wall. A float discharge portion for discharging to the outside of the discharge chamber, a screen installed under the partition wall to filter sediment flowing into the discharge chamber from the inflow chamber, and installed on the screen to hinder the drainage of sewage while remaining on the surface of the screen. It is provided with a foreign material removal unit for removing the precipitate.

 The manhole according to the present invention can effectively prevent the sewage pipe from being clogged by the floating or sediment introduced into the manhole or the water permeability of the screen for filtering the foreign matter, which can be effectively prevented from being discharged of sewage.

Manhole, Sediment Removal, Float Removal

Description

Manhole {manhole}

The present invention relates to a manhole, and more particularly, to a manhole provided with a screen for filtering foreign matter so as to prevent foreign matter contained in sewage or rainwater from moving through the sewer.

Manholes are buried in the ground and formed to discharge sewage and rainwater.

In general, the place where the manhole is installed is installed in the place where the thickness or direction of the pipe changes, the starting point or the intersection point, and the long straight part, and is also used for the communication of the ventilation and the conduit.

Conventional manholes provide a moving path for rainwater or sewage flowing from the sewage pipe, and the thickness of the pipes is changed from the manhole to prevent the pipes from which foreign substances contained in the sewage are discharged. May also be a problem that can not be made smoothly, foreign matter contained in rainwater flowing directly from the road through the upper part of the manhole may also accumulate in the pipeline may cause a decrease in water permeability.

Therefore, a technology for installing a strainer to filter foreign matter in the manhole has been proposed to prevent such closure, and the Republic of Korea Utility Model Publication No. 20-0348451 discloses a manhole consisting of a strainer.

The above-described conventional manhole is provided with a filtering net to filter foreign substances contained in the incoming water, but the manhole equipped with the filtering net has a filtering function so that foreign substances are not mixed in the discharged water, but the filtered foreign substances pass through the water hole. There was a problem that the water permeability is lowered to prevent the water level inside the manhole increases and, in severe cases, the water back to the ground.

Therefore, a method for securing sufficient water permeability in the manhole was needed by removing foreign matter remaining in the strainer.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a manhole having suspended matter or sediment removing means to prevent the water permeability of the sieve or screen from being lowered by the suspended matter or sediment inside the manhole. .

The manhole according to the present invention for achieving the above object is provided with a receiving space for accommodating filthy water, the main body having an inlet pipe through which filthy water is introduced and a discharge pipe through which filthy water is discharged; Partitions into an inflow chamber through which wastewater flows through and a discharge chamber through which the wastewater is discharged, and a partition for preventing the floating of floating matters in the inflow chamber from entering the discharge chamber, and the inflow into the discharge chamber by the partition wall A float discharge part for discharging the blocked float to the outside of the main body, a screen installed at a lower portion of the partition wall to filter deposits flowing into the discharge chamber from the inflow chamber, and installed on the screen to the surface of the screen. It is provided with a debris removal portion that removes sediment that remains while obstructing drainage of sewage.

The screen has a plurality of vertical bars extending downwards of the partition wall spaced apart from each other at predetermined intervals so as to filter out the sediment, the foreign material removing portion is inserted between each vertical bar is slidably coupled in the vertical direction A plurality of sliding members, a removing part including a horizontal member interconnecting the sliding members, and floating in the sewage of the inflow chamber, and floating to raise and lower the removing part according to the level of the sewage stored in the inflow chamber. And a connecting member connecting the floating member and the removing unit.

The float discharge portion is formed with a plurality of buckets on the outer circumferential surface to collect and discharge the floating suspended in the sewage in the inlet chamber, one side is located inside the inlet chamber, the other side is installed bucket conveyor outside And, it is preferable to have a conveying conveyor which is installed below the other side of the bucket conveyor to transfer the suspended matter transported through the bucket conveyor to the outside of the main body, and the bucket conveyor and the conveying conveyor.

On the other hand, it is provided on the bottom of the inlet chamber, and further comprising a sediment discharge unit for discharging the sediment deposited on the bottom of the inlet chamber to the outside of the main body, the sediment discharge unit is seated on the bottom of the inlet chamber, the sediment is filtered and sewage Is provided with a mesh formed with a plurality of through-holes to be drained, and the lifting portion connected to the mesh to elevate the mesh in the vertical direction.

It is installed on the bottom of the inlet chamber, and further comprising a sediment discharge unit for discharging the precipitate precipitated on the bottom of the inlet chamber to the outside of the main body,

The sediment discharge unit is provided with a transport space for receiving and transporting the sediment, the inlet is formed at one end, the other end is formed in the housing and the discharge port is fixed to the inside of the housing rotatably fixed, A transfer screw for transferring the inlet from the inlet to the outlet, a discharge hopper formed in the housing at the position where the outlet is formed, guides the deposit discharged through the outlet, and discharges to the outside; It is preferable to have a screw drive unit for rotating the transfer screw.

The manhole according to the present invention can effectively prevent the sewage pipe from being clogged by the floating or sediment introduced into the manhole or the water permeability of the screen for filtering the foreign matter, which can be effectively prevented from being discharged of sewage.

Hereinafter, with reference to the accompanying drawings will be described in more detail a manhole according to an embodiment of the present invention.

1 shows a manhole 10 according to the invention.

Referring to the drawings, the manhole 10 according to the present embodiment is divided into a main body 20 having an accommodation space 21 for accommodating wastewater, and a main body 20 into an inflow chamber 31 and an outlet chamber 32. A partition 30 to be installed, a screen 40 installed at a lower portion of the partition 30 to filter deposits, a foreign material removal unit 50 to remove deposits remaining on the screen 40, and a receiving space 21. Float discharge unit 60 for discharging the suspended matter suspended in the outside, the flow rate reduction unit 200 for collecting the sewage discharged from the main body 20 to remove the suspended matter, and the auxiliary sediment installed in the flow rate reduction unit 200 The discharge part 250 is provided.

The main body 20 is embedded in the ground and is formed in a cylindrical shape. Although not shown in the drawings, unlike the present embodiment, the main body 20 may be formed in a polygonal cross section instead of a cylindrical shape.

The main body 20 has an inlet pipe 22 formed on one side of the inner wall to accommodate the sewage into the accommodation space 21, and on the inner wall of the position opposite to the inflow pipe 22 is provided in the accommodation space 21. A discharge pipe 23 for discharging the introduced sewage is formed. The discharge pipe 23 is preferably located below the inlet pipe 22 so that the sewage in the receiving space 21 can be easily discharged. Although not shown in the drawing, unlike the present embodiment, the discharge pipe 23 may be formed on the bottom surface of the main body 20 instead of the inner wall of the main body 20.

In addition, a cover having a size corresponding to an upper portion of the main body 20 is provided at the upper portion of the main body 20 so as to open and close the accommodation space 21. By opening the cover, the manager may enter and exit the main body 20 to perform maintenance and dirt removal of the manhole 10.

On the other hand, the bottom surface of the main body 20 on the inlet pipe 22 side prevents sediment deposited on the bottom of the main body 20 between the vertical bars 41 of the screen 40 to be described later to prevent the flow of sewage. It is preferable to be formed at a lower side than the screen 40 so as to be able to.

The partition wall 30 is formed to protrude on the inner wall of the main body 20 so as to partition the accommodation space 21 of the main body 20 into the inflow chamber 31 and the discharge chamber 32. The partition wall 30 has an inflow chamber 31 formed in the accommodation space 21 at the position where the inflow pipe 22 is formed, and the discharge chamber 32 is formed in the accommodation space 21 at the position where the discharge pipe 23 is formed. It may be formed between the inlet pipe 22 and the discharge pipe 23 so that it can be.

The partition wall 30 may protrude a predetermined height above the sewage water surface to prevent the floating material such as fallen leaves or vinyl floating on the sewage water surface in the inflow chamber 31 from entering the discharge chamber 32. It is formed at a height spaced above the inlet pipe 22 so that the lower end is formed at a depth spaced below the discharge pipe 23 so as to be locked into the surface of the sewage.

Meanwhile, the screen 40 and the foreign material removing unit 50 according to the present invention will be described with reference to FIG. 2.

Referring to the drawings, the screen 40 is to filter foreign matters contained in the sewage introduced into the inlet chamber 31 of the main body 20 so as not to enter the discharge chamber 32, and the lower portion of the partition 30 A plurality of vertical bars 41 installed vertically on the vertical bar 41, and the fixing member 42 for fixing the vertical bar 41 to the bottom of the main body 20.

The vertical bar 41 is formed in an annular bar shape and is formed to be spaced apart from each other along a partition wall 30 at a lower end of the partition wall 30 at a predetermined interval. The separation distance between the vertical bars 41 may be variously formed according to the filtration reference size of the foreign matter.

The fixing member 42 protrudes upward from the bottom surface of the main body 20 at a position corresponding to the bottom of the partition wall 30 by a predetermined height so as to fix the vertical bars 41 to the bottom surface of the main body 20. Formed. Accordingly, both ends of the vertical bar 41 are provided at the lower end of the partition 30 and the upper part of the fixing member 42, and are firmly fixed to the main body 20.

The foreign material removing unit 50 is to prevent the water permeability of the sewage passing through the screen 40 by the foreign matter filtered by the screen 40 is lowered. Since various kinds of foreign matters filtered by the screen 40 vary, foreign matters do not descend or float in a state of being adhered to or stuck to the vertical bar 41, and thus block the water passage space between the vertical bars 41, thereby decreasing water permeability. Can be.

If the discharge of the sewage through the screen 40 is not made smoothly, the water level of the sewage is increased inside the main body 20, and in severe cases, the reverse flow of the sewage may occur through the inlet pipe 22.

Therefore, it is important to secure the water permeability in the screen 40 so that the waste water can be easily discharged to the discharge pipe 23, the foreign matter removing unit 50 by removing the foreign matter remaining on the vertical bar 41 ( Increased water permeability in 40).

The foreign material removing unit 50 includes a removing member 51 for removing foreign substances remaining in the vertical bar 41, a floating member 54 for raising and lowering the removing member 51, a removing member 51 and A connecting member 55 for connecting the floating member 54 and a guide member 56 for guiding the connecting member 55 are provided.

The removing member 51 includes a plurality of sliding members 52 and horizontal members 53 for interconnecting the sliding members 52.

Sliding member 52 is inserted between each vertical bar 41 is coupled to be slidable in the vertical direction. The width of the sliding member 52 is preferably formed to a size corresponding to the interval between each vertical bar 41 so that it can easily slide up and down along the vertical bar (41).

The horizontal member 53 is located on the side of the vertical bar 41 in the discharge chamber 32, the sliding members 52 are connected to the side.

The floating member 54 floats on the sewage of the inflow chamber 31 and raises and lowers the removal member 51 according to the level of the sewage contained in the inflow chamber 31. The floating member 54 has a gas such as air having a smaller density than water is accommodated therein so that buoyancy enough to elevate the removing member 51 can be applied.

 One end of the connection member 55 is connected to the upper surface of the horizontal member 53, and the other end is connected to the floating member 54 which will be described later. The connecting member 55 is bent in a '∩' shape so as to connect the horizontal member 53 installed in the discharge chamber 32 and the floating member 54 installed in the inlet chamber 31 beyond the partition 30. It is formed in a round bar shape. In addition, the connecting member 55 is preferably formed of a synthetic resin having a light weight and a certain strength so that the buoyancy of the floating member 54 can be easily transmitted.

The guide member 56 has a plurality of discharge chamber 32 side partition wall 30 is formed, the insertion groove 57 is formed so that the connection member 55 can be inserted and slide. The guide member 56 can move only in the vertical direction without the influence of the sewage flow of the connecting member 55, the sliding member 52 is prevented from being separated between the vertical bar (41).

Referring to the operation of the foreign material removing unit 50 configured as described above are as follows.

When a large amount of foreign matter is adhered to or stuck to the vertical bar 41, the lowering or floating of the water supply space between the vertical bar 41 without falling or floating is not made smoothly discharged through the screen 40 The sewage water level in the thread 31 becomes high.

At this time, the floating member 54 is raised in accordance with the water level of the sewage, the horizontal member 53 is also raised by the rising floating material (54). The sliding member 52 which is inserted between the vertical bars 41 by the rising horizontal member 53 also rises, and the foreign substance adhered to or stuck to the vertical bars 41 is separated from the vertical bars 41.

The float discharge unit 60 is configured to collect a float floating in the sewage in the inlet chamber 31 to be discharged to the outside. Since the rotary vibration damper is a commonly used technology, detailed description thereof will be omitted.

On the other hand, the manhole 10 according to the present invention further includes a precipitate discharge portion 70.

Sediment discharge portion 70 is seated on the bottom surface of the inlet chamber 31, the sediment is filtered and the sewage can be drained sewage meshes 71 formed with a plurality of through-holes, and is connected to the network 71 71 ) Is provided with an elevating unit 72 for elevating in a vertical direction.

The net body 71 is preferably formed to have a size corresponding to the bottom surface of the inlet chamber 31 so as to remove all precipitates deposited in the inlet chamber 31. The through hole formed in the net body 71 may be variously formed according to the filtration reference size of the precipitate.

The foreign matter contained in the sewage flowing into the inlet chamber 31 through the inlet pipe is settled on the upper portion of the net body 71 seated on the bottom of the inlet chamber 31. When a large amount of precipitate is accumulated on the upper portion of the net body 71, the net body 71 is lifted to discharge the precipitate to the outside.

Lifting unit 72 is provided with a connecting ring installed on the upper edge of the mesh 71 to lift the mesh 71 to the upper side, and a rope connected to the connecting ring to lift the mesh 71.

Meanwhile, in the illustrated example, the structure in which three connection rings are installed on the upper side of the mesh 71 has been described. However, the number of connection rings to be installed is not limited to the illustrated example, and two or more connection rings may be installed. have.

The manager pulls up the rope connected to the net body 71 by the connecting ring, and discharges the sediment accumulated on the net body 71 to the outside. Although not shown in the drawing, unlike the present embodiment, it is also possible to automatically elevate the net body 71 by having a separate motor that can wind the rope.

On the other hand, another embodiment of the sediment discharge portion 80 is shown in FIG.

Elements having the same function as in the above-described drawings are denoted by the same reference numerals.

Referring to the drawings, the sediment discharge unit 80 is a housing 81 provided with a transport space for receiving and transporting the sediment, a transfer screw 82 for transporting the sediment, and discharged to collect and discharge the transported sediment A hopper 83 and a screw driver 84 for driving the transfer screw 82 is provided.

The housing 81 is formed in a cylindrical shape, one end of which is installed at a position adjacent to the bottom of the inflow chamber 31, and the other end of the housing 81 is disposed at an outside of the inflow chamber 31. An inlet 86 is provided at one end of the housing 81, and the precipitate may be introduced into the transport space 85 inside the housing 81. The other end of the housing 81 is provided with a discharge port (not shown) to discharge the precipitate transferred through the transfer space (85).

At this time, the bottom surface of the main body 20 on the side of the inlet chamber 31 and the discharge chamber 32 is inclined in the direction in which the lower end of the housing 81 is installed so that the precipitate can be easily discharged by the sediment discharge unit 80. It is preferably formed. Sediment deposited on the bottom surface of the discharge chamber 32 is also stacked along the inclined surface by moving to the bottom surface of the inlet chamber 31 in which the bottom of the housing 81 is located.

The transfer screw 82 is rotatably installed in the transfer space of the housing 81 and transfers the precipitate from the inlet 86 to the outlet (not shown). Although not shown in the drawings, the transfer screw 82 is preferably installed to be in contact with the sediment deposited on the bottom of the inlet chamber 31 so that the sediment can be introduced into the housing 81 through the inlet 86. Do.

The discharge hopper 83 is formed on the outer circumferential surface of the housing 81 below the discharge port (not shown), and guides the precipitate discharged through the discharge hole (not shown) to discharge to the outside. Discharge hopper 83 is preferably installed so that the other end of the discharge hopper 83 to the conveying conveyor 62 so that the precipitate can be conveyed through the conveying conveyor (89).

The screw drive unit 84 is installed in the transfer screw 82 is composed of a motor to rotate the transfer screw 82. When the screw driving unit 84 provides a driving force to the transfer screw 82, the transfer screw 82 is rotated to transfer the precipitate from the bottom of the inlet chamber 31 to the outside.

On the other hand, the flow rate reduction unit 200 and the auxiliary sediment discharge unit 250 according to the present invention in detail as follows.

In FIG. 4, the flow rate reduction unit 200 and the auxiliary sediment discharge unit 250 are illustrated.

Referring to the drawings, the flow rate reduction unit 200 is installed in the discharge pipe 23 to collect the waste water discharged from the main body 20, the housing 210 for guiding the waste water to reduce the flow rate of the waste water, and Blocking portion 220 for blocking the flow path 211 to filter the suspended matter or sediment is provided.

The housing 210 has a flow path 211 through which sewage flows, and the flow path 211 is zigzag to reduce the flow rate of the sewage when the waste water flows along the flow path 211. It is preferably formed in the form.

The blocking unit 220 is formed perpendicular to the flow direction of the sewage to block the flow of sewage to filter out the suspended matter and sediment contained in the sewage. The blocking unit 220 includes a first blocking plate 221 formed to filter out suspended matter contained in sewage, and a second blocking plate 222 formed to filter sediment contained in the sewage.

The first blocking plate 221 is formed in a plate shape to block the flow path 211 so as to filter out the suspended matter floating in the sewage, the upper side is formed at a position adjacent to the upper surface of the housing 210, the lower side sewage to the bottom Is formed at a position spaced upwardly on the bottom surface of the housing 210 so that the flow. The upper end of the first blocking plate 221 is preferably installed to be spaced apart from the water surface by a predetermined height.

Float suspended in sewage is filtered by the first blocking plate 221 formed to block the surface of the sewage. At this time, the sewage flows to the downstream side through a space spaced apart from the bottom surface of the housing 210 under the first blocking plate 221.

On the other hand, although not shown in the drawings, the above-mentioned floating matter discharge portion 60 to discharge the suspended matter filtered by the first blocking plate 221 to the position adjacent to the upstream side of the first blocking plate 221 to the outside. Rotary dampers may be installed.

The second blocking plate 222 is installed downstream of the first blocking plate 221 and is formed in a plate shape that blocks the flow passage 211 so as to filter out the sediment deposited in the sewage, and the lower side of the housing 210. It is formed on the bottom surface, the upper side is formed in a position spaced downward on the upper surface of the housing 210 so that the sewage flows to the upper side. At this time, the upper side of the second blocking plate 222 is preferably formed in a position immersed in sewage.

The precipitate passing through the first blocking plate 221 is filtered by the second blocking plate 222 installed on the bottom of the housing 210. At this time, the sewage flows downstream through the second blocking plate 222.

The auxiliary precipitate discharge unit 250 will be described with reference to FIG. 5.

The auxiliary sediment discharge unit 250 is installed to be seated on the bottom surface of the housing 210 adjacent to the upstream side of the second blocking plate 222 to discharge the precipitate filtered by the second blocking plate 222 to the outside. do. The auxiliary sediment discharge unit 250 is an auxiliary catching part 251 for collecting the precipitate filtered by the second blocking plate 222, and is connected to the auxiliary catching part 251 to assist in lifting the auxiliary catching part 251. An elevator 254 is provided.

The auxiliary catching part 251 is provided with an auxiliary network 252 provided with an internal space in which the precipitate is settled, and an opening and closing member 253 for opening and closing the internal space of the auxiliary network 252.

The auxiliary network 252 is installed on the bottom surface of the housing 210, the upper side is formed to be open so that the precipitate can be precipitated into the inner space. In addition, the auxiliary network 252 has a plurality of through-holes are formed so that the sediment is filtered and sewage can be drained, one side of the auxiliary network 252 can be easily introduced into the internal space of the auxiliary network 252. It is preferable that it is formed so as to be open.

The opening and closing member 253 is rotatably installed at one side of the auxiliary network 252 to open and close the internal space of the auxiliary network 252. Like the auxiliary network 252, the opening and closing member 253 is also preferably formed with a plurality of through-holes so that the sediment is filtered and the sewage can be drained. The upper side of the opening and closing member 253 is formed with a ring tied to the rope so that the operator can rotate the opening and closing member 253 from the outside.

The auxiliary lifting unit 254 lifts the auxiliary catching part 251 seated on the bottom surface of the housing 210 to discharge the precipitate precipitated in the auxiliary catching part 251 to the outside. The auxiliary lifting unit 254 is connected to the four auxiliary rings 255 formed along the upper edge of the auxiliary network 252 and the auxiliary ring 255 so that the worker can lift the auxiliary catching part 251 from the outside. And an auxiliary rope (256).

Referring to the operation of the flow rate reduction unit 200 and the auxiliary precipitate discharge unit 250 configured as described above are as follows.

Sewage flowing through the inlet pipe 22 flows into the housing 210 of the flow rate reduction part 200. Sewage introduced into the housing 210 flows zigzag along the inner flow passage 211 of the housing 210 and the flow velocity is reduced.

At this time, the sewage is first filtered by the first and second blocking plates (221, 222, 222, 222, differently formed in the flow path 211 before entering the main body 20, the suspended matter or sediment contained in the sewage.

On the other hand, the precipitate filtered by the second blocking plate 222 is discharged to the outside by the auxiliary sediment discharge unit 250 provided on the bottom of the housing 210 adjacent to the upstream side of the second blocking plate 222.

On the other hand, although not shown in the drawings, by connecting a plurality of the manhole 10 configured as described above may reduce the flow rate of sewage passing between the manhole 10 to increase the filtration effect of the manhole (10).

Referring to the operation of the manhole 10 according to the present invention configured as described above are as follows.

Sewage containing a large amount of foreign matter is introduced into the inlet chamber 31 of the main body 20 through the inlet 86. Foreign substances such as vinyl or fallen leaves contained in sewage are suspended in the surface of the sewage. In this case, the foreign matters are prevented from entering the discharge chamber 32 by the partition wall 30 formed in the main body 20.

In addition, the foreign matter suspended in the sewage in the inlet chamber 31 is collected and discharged to the outside by the rotary type vibration damper of the float discharge unit 60.

On the other hand, the sewage introduced into the inlet chamber 31 flows into the discharge chamber 32 through the screen 40 installed at the bottom of the partition wall 30. As the sewage passes through the screen 40, foreign matter contained in the sewage is filtered by the screen 40.

At this time, if a large amount of foreign matter is adhered to the screen 40 or not stuck or lowered or suspended to block the water passage space of the screen 40, the discharge of sewage through the screen 40 is not made smoothly and the inflow chamber ( In 31) the level of sewage is increased.

Floating member 54 is raised in accordance with the level of sewage, the removal member 51 is also raised by the rising floating member 54, the foreign matter adhered to the screen 40 or stuck in the screen 40 Departure.

On the other hand, foreign matter precipitated in the inlet chamber 31 is laminated to the net body 71 seated on the bottom surface of the inlet chamber 31, when a large amount of deposit is stacked, the net body 71 through the lifting unit 72 Lifting and discharging the precipitate to the outside of the main body 20.

At this time, the sewage discharged through the discharge pipe 23 of the main body 20 is collected by the flow rate reduction unit 200, the sediment and suspended matter is removed again by the flow rate reduction unit 200 and the auxiliary sediment discharge unit 250. do.

The manhole 10 configured as described above filters the sewage discharged to the discharge pipe 23 through the partition 30 and the screen 40, and removes the foreign substance 50, the precipitate discharge unit 70, and the suspended matter discharge unit ( By removing the foreign matter through 60), it is possible to effectively prevent the sewage pipe from being blocked by the floating matter or sediment introduced into the manhole 10, or the water permeability of the screen 40 for filtering the foreign matter is lowered, thereby facilitating the discharge of sewage. There is an advantage that can be made.

In addition, the manhole 10 configured as described above may be installed in the sewer, to prevent the contaminants on the road during rain rainfall to contaminate the stream.

Meanwhile, another embodiment of the manhole 11 is shown in FIG. 6.

Referring to the drawings, the manhole 11 is formed of a structure in which the sediment discharge unit 80 is installed in the discharge chamber 32 and the float discharge unit 60 is installed in the inlet chamber 31. The composition of the sediment discharge unit 80 is the same as above, the sediment deposited in the discharge chamber 32 is collected and discharged to the outside.

In addition, the float discharge unit 60 is configured of a rotary type vibration damper to discharge the float floating in the inlet chamber 31 to the outside. Since the rotary vibration damper is a commonly used technology, detailed description thereof will be omitted.

In addition, the suspended matter discharge unit 60 is installed inside the inlet chamber 31 to collect not only the suspended substances introduced into the inlet chamber 31 but also the precipitates filtered by the screen 40 to be discharged to the outside of the inlet chamber 31. An end portion of the floating discharge portion 60 is formed to extend downward by a predetermined length so as to be positioned at a position adjacent to the screen 30.

At this time, the bottom surface of the main body 20 on the side of the inlet chamber 31 and the discharge chamber 32 is the discharge chamber in which the precipitate discharge unit 80 is installed so that the precipitate can be easily discharged by the precipitate discharge unit 80 ( It is preferably formed to be inclined in the 32) direction. Sediment precipitated on the bottom surface of the inlet chamber 31 is also accumulated by moving to the bottom surface of the discharge chamber 32 along the slope.

On the other hand, the manhole 11 further includes a suction discharge unit 300 to discharge the precipitate precipitated in the discharge chamber 32 to the outside.

Suction discharge unit 300 is one end is installed on the bottom surface of the discharge chamber 32, the other end is installed on the outside of the manhole 10, the suction discharge pipe is transported sediment precipitated on the bottom surface of the discharge chamber (32) And a vacuum pump 320 installed at the suction discharge pipe 310 to suck and discharge the precipitate.

The deposit accumulated on the bottom surface of the discharge chamber 32 is sucked by the vacuum pump 320, and is discharged to the outside of the discharge chamber (32).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a cross-sectional view of a manhole according to the present invention,

Figure 2 is a perspective view of the foreign material removal portion of the manhole of Figure 1,

Figure 3 is a partial cross-sectional view of another embodiment of the sediment discharge portion of the manhole according to the present invention,

Figure 4 is a perspective view of the flow rate reduction portion of the manhole of Figure 1,

5 is a perspective view of the auxiliary precipitate discharge portion of the manhole of Figure 1,

6 is a perspective view of another embodiment of a manhole according to the present invention.

[ Description of Code for Major Parts of Drawing ]

10: manhole

20: main body

30: bulkhead

31: Inflow chamber

32: discharge chamber

40: screen

50: foreign material removal unit

60: float discharge part

70: sediment discharge unit

Claims (7)

A main body having an accommodating space for accommodating filthy water, having an inflow pipe for introducing filthy water and a discharge pipe for discharging filthy water; A partition wall partitioning the accommodation space into an inflow chamber through which the sewage is introduced through the inflow pipe and a discharge chamber through which the wastewater is discharged, and preventing the floating material floating in the inflow chamber from entering the discharge chamber; A float discharge portion for discharging the floats whose inflow into the discharge chamber is blocked by the partition wall to the outside of the main body; A screen installed at a lower portion of the partition wall to filter deposits introduced from the inflow chamber into the discharge chamber;  And a foreign material removal unit installed on the screen to remove deposits that remain on the surface of the screen and obstruct drainage of sewage. The method of claim 1, The screen has a plurality of vertical bars extending downward of the partition wall to be separated from each other at predetermined intervals to filter the precipitate, The foreign material removing unit includes a plurality of sliding members inserted between the vertical bars and slidably coupled upward and downward, and a horizontal member interconnecting the sliding members; A floating member floating in the sewage of the inflow chamber, and elevating the removal unit according to the level of the sewage stored in the inflow chamber; And a connecting member connecting the floating member and the removing unit. The method of claim 1, The float discharge part And a rotary type vibration damper installed at one side of the inlet chamber and the other side of the inlet chamber so as to collect and discharge suspended matter suspended in sewage in the inlet chamber. The method of claim 1, It is installed on the bottom of the inlet chamber, the sediment discharge unit for discharging the precipitate precipitated on the bottom of the inlet chamber to the outside of the main body; The precipitate discharge unit A net body seated on a bottom surface of the inflow chamber, and having a plurality of through holes formed so that the sediment is filtered and the sewage is drained; And a lifting unit connected to the mesh to lift the mesh. The method of claim 1, It is installed on the bottom of the inlet chamber, the sediment discharge unit for discharging the precipitate precipitated on the bottom of the inlet chamber to the outside of the main body; The precipitate discharge unit A housing having a transport space for accommodating and transporting the precipitate, an inlet formed at one end thereof, and a discharge hole formed at the other end thereof; A conveying screw rotatably fixed within the housing to convey the precipitate from the inlet to the outlet; A discharge hopper formed in the housing at a position at which the discharge port is formed, and configured to guide the deposit discharged through the discharge port to discharge to the outside; A manhole connected to the transfer screw and having a screw driving unit to rotate the transfer screw. The method of claim 1, It is installed in the inlet pipe or the discharge pipe, guides the sewage to reduce the flow rate of the sewage introduced through the inlet pipe or discharged through the discharge pipe, and filters the suspended matter and sediment contained in the sewage It further comprises a flow rate reduction unit; The flow rate reduction unit A housing having a flow path formed in a zigzag to guide the wastewater introduced therein so as to reduce the flow rate of the wastewater; The upper side is formed in a position adjacent to the upper surface of the housing so as to filter out the suspended matter contained in the sewage, the lower side is formed in a position spaced upwardly on the bottom surface of the housing so that the sewage flows to the lower side The plate and the lower side is formed on the bottom of the housing so as to filter out the sediment contained in the sewage, the upper side is formed in the position spaced apart downward on the upper surface of the housing so that the sewage flows to the upper side A manhole comprising: a blocking unit provided. The method of claim 6, And an auxiliary sediment discharge part seated on a bottom surface of the housing adjacent to an upstream side of the second barrier plate to discharge the precipitate filtered by the second barrier plate to the outside. Auxiliary sediment discharge section An internal space for accommodating the sewage is provided therein, wherein the sediment is filtered and the sewage is provided with an auxiliary network having a plurality of through holes formed therein, and is rotatably installed on one side of the auxiliary network. An auxiliary catching part having an opening and closing member for opening and closing an inner space of the mesh; And an auxiliary elevating unit connected to the auxiliary engaging unit to elevate the auxiliary engaging unit.

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