KR200439029Y1 - Apparatus for separating sedimented sand - Google Patents

Abstract

The present invention is to separate the sediment contained in the sewage, including waste water from the sewage and discharged separately, the purpose of providing a sedimentation device of the sedimentation bottom separation type and fluid swirl flow type to improve the separation performance of sedimentation from sewage. ,

The sedimentation bottom separation type and fluid swirl flow type sedimentation separator according to the present invention for achieving the above object is provided with an inlet for inflow of sewage into the side wall and an outlet for discharge of sewage from which the sediment is removed, A settling recess formed in the center of the recess, and an inner surface of the bottom portion is settled downwardly inclined to move the settling to the settling recess; It is disposed in the settling tank fixedly installed, the upper end is located higher than the inlet and the lower end is located at a predetermined height from the inner surface of the bottom portion, the sewage flows from the inlet is separated from the inner surface of the side wall portion downward A sedimentation inducing member which forms a sewage movement passage to be moved and has a tubular shape having at least a lower end opened; A sediment backflow prevention plate penetratingly formed at a center thereof and integrally formed at a lower end opening of the sedimentation inducing member to prevent sedimentation in the sewage flowing along the sewer flow passage back to the sewer backflow hole; It is characterized in that it comprises a settling and sewage discharge means for discharging the sedimentation to the outside of the settling tank in the sedimentation pool of the sedimentation tank and discharge the sewage from which the sedimentation is removed to the outlet through the sewage backflow hole.

Sedimentation, sewage, separation, swirling flow

Description

Apparatus for separating sedimented sand}

1 is a cross-sectional view showing the configuration of the sedimentation separator according to the present invention.

2 is a cross-sectional view of the leader line "A-A" shown in FIG.

Figure 3 is an external perspective view of the sedimentation induction member applied to the present invention.

<Description of the symbols for the main parts of the drawings>

100: sedimentation tank

110: side wall portion

111: inlet

112: outlet

113: sewage passage

120: bottom

121: inner side

125: pregnant women

200: sedimentation induction member

210: sediment backflow prevention plate

211: sewage backflow hole

300: sedimentation and sewage discharge means

The present invention relates to a sedimentation device of sedimentary bottom separation type and fluid swirl type, and separates and discharges sediment contained in sewage including wastewater from sewage, but improves sedimentation performance of sedimentation from sewage. A sedimentation device of a separate and fluid swirl type.

As the industry grows with the increase of the population, the amount of wastewater discharged after use from homes and factories is increasing.

These sewage and waste waters are called sewage along with rainwater, and these sewage contain a large amount of pollutants, and when discharged as it is, the water quality is greatly deteriorated. do.

On the other hand, various contaminants are introduced into the water treatment facility along with the wastewater in various pumping stations such as intake pumping stations and relay pumping stations.If the contaminants contained in the wastewater are not properly removed, the pumps and machinery installed in the pumping station may fail. In addition, the transition to the next process is not carried out, which causes the entire facility to become useless.

For this reason, in most water treatment facilities, a sedimentation device or a settlement is installed between a conduit and a sedimentation basin, and the sand and plastic bottles or wood sink in water, such as small gravel or sand contained in the waste water. Research is being carried out to remove the debris floating in the water like a branch by a physical method.

The present invention was devised in order to meet the above requirements, the sediment contained in the sewage containing the waste water is discharged separately from the sewage discharge, but the sedimentation bottom separation type to improve the separation performance from sewage and An object of the present invention is to provide a fluid swirl flow type sediment separator.

The sedimentation bottom separation type and fluid swirl flow type sedimentation separator according to the present invention for achieving the above object is provided with an inlet for inflow of sewage into the side wall and an outlet for discharge of sewage from which the sediment is removed, A settling recess formed in the center of the recess, and an inner surface of the bottom portion is settled downwardly inclined to move the settling to the settling recess; It is disposed in the settling tank fixedly installed, the upper end is located higher than the inlet and the lower end is located at a predetermined height from the inner surface of the bottom portion, the sewage flows from the inlet is separated from the inner surface of the side wall portion downward A sedimentation inducing member which forms a sewage movement passage to be moved and has a tubular shape having at least a lower end opened; A sediment backflow prevention plate penetratingly formed at a center thereof and integrally formed at a lower end opening of the sedimentation inducing member to prevent sedimentation in the sewage flowing along the sewer flow passage back to the sewer backflow hole; It is characterized in that it comprises a settling and sewage discharge means for discharging the sedimentation to the outside of the settling tank in the sedimentation pool of the sedimentation tank and discharge the sewage from which the sedimentation is removed to the outlet through the sewage backflow hole.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the sedimentation separation apparatus of the sedimentation bottom separation type and fluid swirl flow type according to the present invention will be described in detail.

1 is a cross-sectional view showing the configuration of the sedimentation separator according to the present invention, Figure 2 is a cross-sectional view of the leader line "A-A" shown in Figure 1, Figure 3 is an external perspective view of the sedimentation induction member applied to the present invention.

The sedimentation separator according to the present invention includes a sedimentation tank 100, a sedimentation induction member 200, a sedimentation backflow prevention plate 210, and a sedimentation and sewage discharge means 300.

The sedimentation tank 100 has an inlet 111 through which the sewage flows into the side wall part 110 and an outlet 112 through which the sewage from which the sediment is removed is discharged, and the sedimentary pool 125 is formed at the center of the bottom part 120. ) Is formed in the indentation, the inner surface 121 of the bottom portion 120 is formed to be inclined downward so that the immersion moves to the tack pool 125.

Here, one side of the settling tank 100 is formed with a supply tank 500 for supplying sewage, and the sewage of the supply tank 500 is introduced into the settling tank 100 through the inlet 111.

Next, the sedimentation induction member 200 is disposed in the sedimentation tank 100 and fixedly installed, and the upper end portion is positioned higher than the inlet 111, and the lower end portion is the inner side surface 121 of the bottom portion 120. Located in a position raised from a predetermined height from, and formed from the inner surface of the side wall portion 110, the sewage flow passage 113 to allow the sewage flowing from the inlet 111 to move downward, at least the lower end is opened It is made of a cylindrical shape.

The sewage movement passage 113 means a space formed between the vertical inner surface 101 of the sedimentation tank 100 and the vertical outer surface 201 of the sedimentation guide member 200.

And, because the upper end of the sedimentation induction member 200 is located higher than the inlet 111, the sewage passing through the inlet 111 does not flow into the inside of the sedimentation induction member 200, the sewage movement It moves downward to the passage 113.

On the other hand, the sedimentation backflow prevention plate 210 is formed through the sewage backflow hole 211 in the center, integrally formed in the lower opening of the sedimentation guide member 200 is moved along the sewage movement passage 211 Sedimentation in the sewage serves to prevent backflow into the sewage backflow hole (211).

Here, the lower part of the sedimentation induction member 200 passes through which the sewage moved downward through the sewage movement passage 113 is opened to move to the sedimentary pool 125 or the lower side of the sedimentation backflow prevention plate 210. Balls 114 and 115 are formed.

Finally, the sedimentation and sewage discharge means 300 of the structure of the present invention, the sedimentation in the sedimentation chamber 125 of the sedimentation tank 100 to the outside of the sedimentation tank 100 and the sewage from which sedimentation was removed It serves to discharge to the outlet 112 through the sewage backflow hole (211).

In addition, the present invention is further provided with a float filtering means 400 for filtering the suspended matter contained in the load in the inlet 111 of the settling tank 100, by providing the suspended matter filtering means 400, other than settling It is also possible to segregate floats or floats, such as plastic bottles or twigs.

That is, as the contaminants or suspended matters are separated from the filtering means 400, they are stagnated in the supply tank 500 so as not to pass to the settling tank 100 through the inlet 111.

In more detail, it is as follows.

One side of the settling tank 100, the supply tank 500 for supplying sewage into the settling tank 100 through the inlet 111, and the suspended solids for filtering the suspended substances contained in the sewage in the supply tank (500) Filtration means 400 is further provided.

As shown in FIG. 1, the suspended matter filtering means 400 is installed at the side wall part 110 such that a lower portion of the inlet 111 is opened in the supply tank 500, and the supply tank 500 is provided. And an outer support frame 410 having a hexahedron shape formed to open only the upper region of the one side wall 411 corresponding to the sewage flow direction, and open the remaining five surfaces. A floating filter net 420 installed to cover all the open portions of the five open surfaces of the outer support frame 410; The upper end 431 has a fixed length fixed below the opening 412 of the one side wall 411, the lower end of the bent portion 432 bent toward the sewage flow direction in the supply tank 500 It is formed to be inclined at a predetermined angle with the one side wall 411 is made of a floating guide plate 430 to guide the lifting up and down to flow into the opening 412 of the one side wall 411.

Here, the open portion 412 of the one side wall 411 is positioned so that the float passes through the open portion 412 when the sewage flowing in the supply tank 500 is the maximum inflow amount, and the float guide plate 430 The position of the bent portion 432 of the) is when the sewage flowing in the supply tank 500 is the minimum flow rate.

In addition, the outer appearance by the combination of the outer support frame 410 and the float filter network 420 is made of a box or box shape.

And, instead of one side wall 411 of the outer support frame 410 may be provided with a floating filter 420.

Referring to the operation of the suspended solids filtering means 400 configured as described above are as follows.

First, in the case where the sewage flowing in the supply tank 500 flows at the minimum inflow amount, the suspended matter is caught by the bent portion 432 of the floating guide plate 430 and is not introduced into the inlet 111.

In addition, when the sewage flowing in the supply tank 500 flows through the average inflow amount, the suspended matter is caught in the middle portion of the float guide plate 430 so as not to flow into the inlet 111.

In addition, when the sewage flowing in the supply tank 500 flows at the maximum inflow rate, the float supports the outer support frame through the upper opening part 412 formed on one side wall 411 of the outer support frame 410. 410 is introduced into the interior, and then, it is not possible to go out of the outer support frame 410 by the float filter net 420, and eventually the float is not introduced to the inlet 111 side.

Here, reference numeral 450 is a ring member for supporting the outer support frame 410, the upper end of the ring member 450 is caught by the protrusion 510 protruding on the inner wall of the supply tank 500.

On the other hand, the above-mentioned sedimentation and sewage discharge means 300 is the drive motor 310, the output means 312, the hollow rotating shaft 320, the swirl flow generating blade 330, the sedimentation feed pump 350 It is made, including.

The drive motor 310 is installed on the upper portion of the mounting plate 105 installed on the settling tank 100.

And, the output means 312 is to output the power on the other axis parallel to the motor shaft 311 of the drive motor 310, the configuration of the drive gear (installed on the motor shaft 311 ( 312a) and a driven gear 312b coupled to the driving gear 312a and installed at an upper end of the hollow rotating shaft 320.

The hollow rotating shaft 320, the lower end is located in the sedimentary pool 125, the upper end is connected to the output means 312 can be rotated in the sewage backflow hole 211 of the sedimentation backflow prevention plate 210 It is installed through, so that the upper and lower ends are formed in a hollow shape.

The swirl flow generating blade 330 is adjacent to the upper surface of the sedimentation backflow prevention plate 210 and a plurality of radially installed on the outer surface of the hollow rotary shaft 320 and inclined with respect to the axial direction of the hollow rotary shaft 320 It is installed serves to rotate by increasing the sewage in a spiral shape through the sewage backflow hole (211).

The immersion feed pump 350 is installed on the immersion discharge pipe 340 installed through the bearing 341 at the upper end of the hollow rotating shaft 320.

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

First, when the immersion feed pump 350 and the driving motor 310 are driven, when the motor shaft 311 is rotated due to the driving force of the driving motor 310, the driving gear 312a rotates the driven gear 312b. Let's go.

As the driven gear 312b is rotated as described above, the hollow rotating shaft 320 is rotated together, and the swirling flow generating blade 330 installed on the outer surface of the hollow rotating shaft 320 also has a hollow rotating shaft in the settling inducing member 200. And rotate with 320.

In the above state, after the sewage is supplied from the supply tank 500 and passes through the inlet 111, it is dropped along the sewage movement passage 113.

Here, since the suspended matter filtration member 400 is installed on the inlet 111, the contaminants or suspended matter floating in the water, such as plastic bottles or twigs other than acupuncture, do not pass and remain stagnant in the supply tank 500. .

As described above, the sedimentation that falls along the sewage movement path 113 through the through holes 114 and 115 formed at the lower end of the sedimentation induction member 200, the bottom portion of the sedimentation backflow prevention plate 210 and the sedimentation tank 100. Flow between 120.

At this time, the sediment contained in the load is accumulated in the sedimentary pool 125 along the inclined inner surface 121 of the bottom 120 by the load, and the sewage from which the sediment is removed is the sewage backflow hole 211. It flows back into the immersion inducing member 200 through.

Here, the reason why the sewage from which the sediment is removed is flowed back through the sewage backflow hole 211 is possible because the suction force is generated by the rotation of the swirl flow generating blade 330 in the sedimentation inducing member 200.

As set forth above, the sedimentation flowing back into the sedimentation guide member 200 rises while causing the spiral flow in the spiral shape by the rotation of the swirl flow generating blade 330, thereby discharging the discharge part 116 formed in the needle tip guide member 200. Is discharged through it is to be discharged through the outlet 112 of the settling tank (100).

Here, the height of the discharge portion 116 is formed to be a position lower than the height of the immersion induction member 200.

On the other hand, the sedimentation formed in the sedimentation chamber 125 is forcibly pumped by the pumping force of the sedimentation transfer pump 350, that is, is forced through the lower opening of the hollow rotating shaft 320, along the hollow rotating shaft 320 After being raised, it is discharged along the immersion discharge pipe 340, and then discharged to the outside via the immersion transfer pump 350.

Thus, according to the present invention, it is possible to completely separate the sedimentation from the supplied sewage.

As described above, according to the sedimentation device of the sedimentation bottom separation type and the fluid swirl flow type according to the present invention, the sediment contained in the sewage containing wastewater is discharged separately from the sewage, and the sedimentation performance of sedimentation from sewage is improved. In addition to this, there is also the advantage of separating sewage from water, such as plastic bottles or twigs, other than acupuncture.

Claims (5)

An inlet 111 through which the sewage flows into the side wall part 110 and an outlet 112 through which sewage from which sediment is removed are provided, and a sedimentary stagnation part 125 is formed at the center of the bottom part 120. The inner surface 121 of the bottom portion 120 is settling tank 100 is formed to be inclined downward so that the sedimentation moves to the sedimentary pool portion 125; It is disposed in the settling tank 100 is fixedly installed, the upper end is located higher than the inlet 111 and the lower end is located at a position raised from the inner surface 121 of the bottom portion 120 by a certain height, the side wall A sedimentation induction member 200 formed in a tubular shape having a sewage flow passage 113 spaced apart from an inner surface of the part 110 to allow the sewage introduced from the inlet 111 to move downward, and at least a lower end thereof being opened; Sewage backflow hole 211 is formed in the center, the sedimentation in the sewage is formed integrally in the bottom opening of the sedimentation guide member 200 and moved along the sewage flow passage 211, the sewage backflow hole 211 A settling backflow prevention plate 210 for preventing backflow into the backplate; Acupuncture for discharging sedimentation to the sedimentation chamber 125 of the sedimentation tank 100 to the outside of the sedimentation tank 100 and discharging sewage from which sedimentation was removed to the outlet 112 through the sewage backflow hole 211. A sedimentation subdivision type and fluid swirl flow type sedimentation apparatus comprising a sewage discharge means 300. The method of claim 1, One side of the settling tank 100, the supply tank 500 for supplying sewage into the settling tank 100 through the inlet 111, and the suspended solids for filtering the suspended substances contained in the sewage in the supply tank (500) Sedimentation apparatus of sedimentation bottom separation type and fluid swirl flow type, characterized in that the filter means 400 is further provided. The method of claim 2, The suspended matter filtering means 400, Is installed in the side wall portion 110 to open a portion of the lower side of the inlet 111 in the supply tank 500, only the upper region of the one side wall 411 corresponding to the sewage flow direction in the supply tank 500 In addition to being formed to be open and the remaining five surfaces are the outer support frame 410 of the hexahedral shape formed to be open; A floating filter net 420 installed to cover all the open portions of the five open surfaces of the outer support frame 410; The upper end 431 has a fixed length fixed below the opening 412 of the one side wall 411, the lower end of the bent portion 432 bent toward the sewage flow direction in the supply tank 500 It is formed to be inclined at a predetermined angle with the one side wall 411, the lower part of the sedimentation, characterized in that consisting of a floating guide plate 430 for guiding the lifting to flow into the opening 412 of the one side wall 411 Separation device of the type and fluid swirl type. The method of claim 3, wherein The opening portion 412 of the one side wall 411 is positioned so that the float passes through the opening portion 412 when the sewage flowing in the supply tank 500 is the maximum amount of inflow. The position of the bent portion 432 of the float guide plate 430 is a sedimentation bottom separation type and fluid swirl flow type sedimentation apparatus of the sedimentation type, characterized in that when the sewage flowing in the supply tank 500 is the minimum flow rate. The method according to any one of claims 1 to 4, The sedimentation and sewage discharge means 300, A drive motor 310 installed on an upper portion of the settling tank 100; Output means 312 for outputting power on another axis parallel to the motor shaft 311 of the drive motor 310; A lower end is located in the sedimentary pool 125, and an upper end is connected to the output means 312 so that the lower part is rotatably installed in the sewage backflow hole 211 of the sedimentation backflow prevention plate 210, and the upper and lower ends penetrate. Hollow rotating shaft 320; It is installed radially from the outer surface of the hollow rotary shaft 320 adjacent to the upper surface of the sedimentation backflow prevention plate 210 and inclined with respect to the axial direction of the hollow rotary shaft 320 through the sewage backflow hole (211) A plurality of swirl flow generating blades 330 for raising and rotating the sewage in a spiral shape; Sedimentation bottom sedimentation and fluid swirl flow type sedimentation, characterized in that consisting of the sedimentation transfer pump 350 is installed on the sedimentation discharge pipe 340 is installed on the upper end of the hollow rotating shaft 320 via the bearing 341 Separator.

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