KR102572310B1 - Device for partial opening wasted water hole of centrifugal dehydrator - Google Patents

Abstract

The present invention provides a filtrate discharge hole opening adjusting device for a centrifugal dehydrator installed in the cover to adjust the degree of opening of the filtrate discharge holes provided in the cover of the outer cylinder of the centrifugal dehydrator. The device for adjusting the opening of the filtrate discharge hole for the centrifugal dehydrator includes a dam plate that opens and closes each filtrate discharge hole while moving in an inner direction toward the rotation center of the outer cylinder and an outer direction opposite to the inner direction; A pair of guiders fixed to the outer surface of the cover to be located on both sides of each filtrate discharge hole and slidably engaged with both side surfaces of the dam plate to guide the movement of the dam plate in the inward and outward directions; a fixing nut fixed to an outer surface of the cover so as to be located farther from the rotation center of the outer cylinder than each of the filtrate discharge holes; and an inner end rotatably coupled to the outer surface of the dam plate and passing through the fixing nut while being screwed together with the fixing nut, and rotating forward and backward around a rotation axis extending along the inward and outward direction. and a bolt moving in the inward and outward direction while leading the dam plate.

Description

Filtrate discharge hole opening control device for centrifugal dehydrator {DEVICE FOR PARTIAL OPENING WASTED WATER HOLE OF CENTRIFUGAL DEHYDRATOR}

The present invention relates to a device for controlling the opening of a filtrate discharge hole for a centrifugal dehydrator installed in a centrifugal dehydrator to conveniently and precisely control the degree of opening of a filtrate discharge hole provided in the centrifugal dehydrator.

Sewage discarded from homes or factories is treated after being sent to a sewage treatment plant, and sludge generated in this treatment process is treated through reduction processes such as concentration and dehydration. In addition, a dehydrator, which is one of the devices used in the sludge reduction process, separates the filtrate from the sludge and is classified into a belt press, a filter press, a screw press, a centrifugal dehydrator, and an electroosmosis dehydrator according to the operating principle.

The centrifugal dehydrator is a device that injects sludge into a rotating outer cylinder and then separates the filtrate from the sludge by using centrifugal force. In the centrifugal dehydrator, a screw conveyor that rotates separately from the outer cylinder is installed inside the outer cylinder, and the sludge to be dehydrated is injected into the outer cylinder through the central axis of the screw conveyor. The sludge injected into the outer cylinder adheres to the inner surface of the outer cylinder by centrifugal force, and at this time, the filtrate having a relatively low density is separated from the sludge adhered to the inner surface of the outer cylinder. The sludge in close contact with the inner surface of the outer cylinder is guided to one side by the screw wings of the screw conveyor and then discharged to the outside of the outer cylinder through the sludge discharge hole provided in the outer cylinder. The filtrate is discharged to the outside of the outer cylinder through the discharge holes.

In the centrifugal dehydrator, the degree of cleanliness of the filtrate changes according to the degree of opening of the filtrate discharge holes. For example, if the degree of opening of the filtrate discharge holes is relatively large, the amount of sludge discharged mixed with the filtrate is relatively large, resulting in low cleanliness of the filtrate. Relatively small, the purity of the filtrate is high. The filtrate discharged from the centrifugal dehydrator is sometimes used in other processes. If the purity of the filtrate is low, the filtrate cannot be utilized in other processes, or the purity of the filtrate is increased so that the filtrate can be used in other processes. There is another problem that needs to be done. Therefore, in the centrifugal dehydrator, the degree of opening of the filtrate discharge holes is appropriately adjusted as needed.

The prior art for adjusting the degree of opening of the filtrate discharge hole in the centrifugal dehydrator is Registered Patent Publication No. 10-1513665 (reducer-integrated centrifugal dehydrator with improved noise and vibration prevention performance), Patent Registration No. 10-0916032 (livestock wastewater sediment sludge Centrifugal dehydrator for dehydration), Registered Patent Publication No. 10-1068577 (centrifuge equipped with a multi-stage adjustable slot dam plate and method for controlling the recovery rate of separated liquid in a centrifugal separator using a multi-stage adjustable slot dam plate) and Registered Patent Publication No. 10 -1599328 (centrifugal separator for dewatering sewage or wastewater sludge).

In Patent Registration No. 10-1513665 above, a dam plate blocking a portion of each filtrate discharge hole is fastened to a centrifugal dehydrator with bolts, but the dam plate is fastened so that the position of the dam plate cannot be changed. In Patent Registration No. 10-0916032, Patent Registration No. 10-1068577, and Patent Registration No. 10-1599328, a dam plate blocking a part of each filtrate discharge hole is bolted to the centrifugal dehydrator, but the dam plate It is fastened so that the position can be changed.

Registered Patent Publication No. 10-1513665 (Reducer integrated centrifugal dewatering device with improved noise and vibration prevention performance) Registered Patent Publication No. 10-0916032 (centrifugal dehydrator for dewatering livestock wastewater sediment sludge) Registered Patent Publication No. 10-1068577 (centrifugal separator equipped with a multi-level control slot dam plate and a method for controlling the separation solution recovery rate of a centrifugal separator using a multi-level control slot dam plate) Registered Patent Publication No. 10-1599328 (centrifugal separator for dewatering sewage or wastewater sludge)

In Patent Registration No. 10-1513665, since the fastening position of the dam plate cannot be changed, the degree of opening of the filtrate discharge hole cannot be adjusted in various ways.

On the other hand, in Patent Registration No. 10-0916032, Patent Registration No. 10-1068577, and Patent Registration No. 10-1599328, the fastening position of the dam plate can be changed, so that the degree of opening of the filtrate discharge hole can be adjusted in various ways. Although there is, in order to change the fastening position of the dam plate, you need to loosen the bolt, move the dam plate to the desired position, and then fasten the bolt again, so it is cumbersome to adjust the opening degree of the filtrate discharge hole, and the degree of opening of the filtrate discharge hole A problem occurs that cannot be precisely controlled.

Accordingly, an object of the present invention is to provide a technology capable of conveniently and precisely adjusting the degree of opening of a filtrate discharge hole provided in a centrifugal dehydrator.

The present invention provides a filtrate discharge hole opening adjusting device for a centrifugal dehydrator installed in the cover to adjust the degree of opening of the filtrate discharge holes provided in the cover of the outer cylinder of the centrifugal dehydrator. The device for adjusting the opening of the filtrate discharge hole for the centrifugal dehydrator includes a dam plate that opens and closes each filtrate discharge hole while moving in an inner direction toward the rotation center of the outer cylinder and an outer direction opposite to the inner direction; A pair of guiders fixed to the outer surface of the cover to be located on both sides of each filtrate discharge hole and slidably engaged with both side surfaces of the dam plate to guide the movement of the dam plate in the inward and outward directions; a fixing nut fixed to an outer surface of the cover so as to be located farther from the rotation center of the outer cylinder than each of the filtrate discharge holes; and an inner end rotatably coupled to the outer surface of the dam plate and passing through the fixing nut while being screwed together with the fixing nut, and rotating forward and backward around a rotation axis extending along the inward and outward direction. and a bolt moving in the inward and outward direction while leading the dam plate.

The outer surface of the dam plate may include a mount, wherein the mount includes a pair of side walls protruding in the outward direction from the outer surface of the dam plate and a connecting wall connecting the outer ends of the pair of side walls can include The inner end of the bolt may rotatably pass through the connecting wall, and a ring that cannot pass through the connecting wall may be detachably fitted to the inner end of the bolt between the pair of side walls. Alternatively, a bearing block may be detachably coupled to the outer surface of the dam plate. In this case, the inner end of the bolt is rotatably engaged with the bearing block.

Each of the filtrate discharge holes is provided in a rectangular shape, and at this time, the inner surface of the dam plate may be provided parallel to the inner surface of the filtrate discharge hole, or may be provided in a concave curved shape toward the outer surface opposite to the inner surface of the filtrate discharge hole. Alternatively, each of the filtrate discharge holes may be provided in a circular shape, and the inner surface of the dam plate may be provided in a concave curved shape toward an outer surface opposite to the inner surface of the dam plate. In addition, each of the filtrate discharge holes is provided in a trapezoidal shape having an inner surface as a long side and an outer surface as a short side, and at this time, the inner surface of the dam plate is provided parallel to the inner surface of the filtrate discharge hole, or the opposite surface It may be provided in the form of a concave curved surface toward the outer surface of the phosphorus.

On the other hand, each of the filtrate discharge holes is located in a retreat groove formed on an outer surface of the cover, the retreat groove has the same width and extends in the inward and outward directions, and the dam plate is partially inserted into the retreat groove. A pair of guiders may be located on both sides of the retraction groove.

According to the present invention, the degree of opening of the filtrate discharge hole can be easily adjusted through normal and reverse rotation of the bolt, and the degree of opening of the filtrate discharge hole can be precisely adjusted according to the amount of rotation of the bolt.

In addition, according to the present invention, coupling and separation between the bolt and the dam plate are easy.

In addition, according to the present invention, various combinations of shapes of the filtrate discharge hole and the dam plate are provided that allow the filtrate discharge and filtrate cleanliness to be easily adjusted to a desired level.

In addition, according to the present invention, the fixed position of the pair of guiders can be easily grasped.

1 is a cross-sectional view showing an installation state of a device for adjusting the opening of a filtrate discharge hole for a centrifugal dehydrator according to the present invention.
FIG. 2 is a view of the device for adjusting the opening of the filtrate discharge hole for the centrifugal dehydrator shown in FIG. 1 viewed from the rear.
3 is a cross-sectional view taken along A-A' in FIG. 2;
4 is a modified example of a coupling relationship between a bolt and a dam plate shown in FIGS. 1 and 2 .
5 is a modified example of the shape of the filtrate discharge hole and the dam plate shown in FIGS. 1 and 2 .

Hereinafter, preferred embodiments of the device for adjusting the opening of the filtrate discharge hole for a centrifugal dehydrator according to the present invention will be described in detail with reference to the drawings. The terms or words used below should not be construed as being limited to ordinary or dictionary meanings, and based on the principle that the inventor can appropriately define the concept of terms in order to best explain his or her invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention.

In the centrifugal dehydrator 100, as shown in FIG. 1, the outer cylinder 110 located inside the housing 120 is provided to rotate by the motor 116 for the outer cylinder, and the screw located inside the outer cylinder 110 The conveyor 130 is provided to rotate separately from the outer cylinder 110 by a conveyor motor 136 .

At the front end of the outer cylinder 110, cake discharge holes 112a for discharging dehydrated sludge, that is, sludge cake, are arranged at regular intervals along the rotation direction of the outer cylinder 110, and the rear surface of the outer cylinder 110 In the cover 114, filtrate discharge holes 114a for discharging the filtrate separated from the sludge are arranged at regular intervals along the rotational direction of the outer cylinder 110. The screw conveyor 130 includes a rotating shaft 134 and a screw wing 132 fixed to an outer surface of the rotating shaft 134, and the rotating shaft 134 has a sludge guide for guiding the sludge supplied to the inside of the outer cylinder 110. A furnace 140 is provided.

When the sludge is supplied to the sludge guideway 140 while the outer cylinder 110 and the screw conveyor 130 are rotating, the sludge is dehydrated. 110), the sludge filtrate having a relatively low density forms a layer different from the solids inside the solids and is physically separated from the solids. And the solids in close contact with the inner surface of the outer cylinder 110 are guided forward by the screw wings 132 and then discharged to the outside of the outer cylinder 110 through the cake discharge holes 112a, and the filtrate is passed through the screw wings 132. While moving backward along the surface of the filtrate is discharged to the outside of the outer cylinder 110 through the discharge holes (114a).

The filtrate discharge hole opening control device 200 for a centrifugal dehydrator according to the present invention is installed on the cover 114 of the outer cylinder 110 in the centrifugal dehydrator 100 as described above to control the opening degree of each filtrate discharge hole 114a. As shown in the enlarged view of FIG. 1 and FIG. 2, it includes a dam plate 210, a pair of guiders 220, a fixing nut 230, and a bolt 240. Although the enlarged view of FIG. 1 and FIG. 2 show that the filtrate discharge hole opening adjusting device 200 for the centrifugal dehydrator is applied to one filtrate discharge hole 114a, the filtrate discharge hole opening adjusting device for the centrifugal dehydrator is shown. It should be noted in advance that 200 is applied to all filtrate discharge holes 114a.

The dam plate 210 is provided to open and close the filtrate discharge hole 114a while moving in an inward direction, which is a direction toward the rotation center C of the outer cylinder, and an outward direction, which is an opposite direction. The dam plate 210 has an outer surface 210a and an inner surface 210b spaced apart in an inward and outward direction, and two remaining side surfaces 210c and 210d spaced apart in a direction perpendicular to the inward and outward directions (FIG. 3). It can be formed in a rectangular shape with. The inner surface 210b is located closer to the upper rotation center C than the outer surface 210a, and the two remaining side surfaces 210c and 210d connect both ends of the inner and outer surfaces 210a and 210b, respectively. In addition, the front surface of the dam plate 210 is in contact with the rear surface of the cover 114, and the distance between the two remaining side surfaces 210c and 210d, that is, the width of the dam plate 210 is The distance between the inner and outer surfaces 210a and 201b, that is, the length of the dam plate 210 is equal to or slightly longer than the length of the filtrate discharge hole 114a.

The pair of guiders 220 extend inward and outward in parallel with each other, are located on both sides of the filtrate discharge hole 114a, and are fixed to the rear surface of the cover 114 by welding or the like. In addition, the two remaining side surfaces 210c and 210d of the dam plate 210 are slidably coupled to the pair of guiders 220, and as a result, the movement of the dam plate 210 in the inward and outward direction is a pair Guided by the guider 220 of the. As shown in FIG. 3 , the guider 220 may extend inward and outward while having a “c” shaped cross section. Although not shown, the upper guider 220 may extend inward and outward while having a "b" shaped cross section.

The fixing nut 230 is located farther from the upper rotation center (C) than the filtrate discharge hole (114a), is located farther from the upper rotation center (C) than the dam plate 210, and is located on the back side of the cover 114 It is fixed by welding, etc. The fixing nut 230 is provided with a screw hole (not shown) drilled in an inward and outward direction, and a screw thread (not shown) is formed on the inner surface of the screw hole.

The bolt 240 penetrates the screw hole of the fixing nut 230 and has a screw thread on its outer surface that is screwed with the screw thread of the screw hole. In a state where the bolt 240 is coupled to the fixing nut 230 in this way, when the operator turns the bolt 240 in the forward direction around the rotating shaft extending in and out, the bolt 240 moves outward, and vice versa. Turn it to move inward. In addition, the inner end of the bolt 240 is rotatably engaged with the outer surface 210a of the dam plate 210 to support the dam plate 210 . Therefore, the dam plate 210 moves inward and outward while being guided by the bolt 240 in a state supported by the inner end of the bolt 240 when the bolt 240 rotates forward and backward. Also, when the dam plate 210 moves inward, the open area of the filtrate discharge hole 114a is narrowed.

For rotatable support of the dam plate 210 with respect to the inner end of the bolt 240, the outer surface 210a of the dam plate 210 may be provided with a mount 250. In this case, as shown in FIGS. 1 and 2 , the mount 250 has a pair of side walls 252 protruding outward from the outer surface 210a of the dam plate 210 and the pair of side walls ( 252, and an inner end of the bolt 240 rotatably passes through the connecting wall 254 without a thread on the outer surface. In addition, between the pair of side walls 252, a ring 260 having a size that cannot pass through the connecting wall 254 is inserted into the inner end of the bolt 240, and the inner end of the bolt 240 and the ring 260 A fastening member 262 such as a pin or a bolt penetrates to form a detachable coupling between the inner end of the bolt 240 and the ring 260.

The rotatable support of the dam plate 210 relative to the inner end of the bolt 240 may be achieved by the bearing block 250a. In this case, as shown in FIG. 4, the bearing block 250a is detachably coupled to the outer surface 210a of the dam plate 210 with bolts, etc., and the inner end of the bolt 240 is the bearing block 250a. ) is rotatably coupled to, but is coupled so that it does not fall outward.

In the above-described device for adjusting the opening of the filtrate discharge hole for a centrifugal dehydrator 200, the degree of opening of the filtrate discharge hole 114a can be easily adjusted through forward and reverse rotation of the bolt 240, and also according to the amount of rotation of the bolt 240. The degree of opening of the filtrate discharge hole 114a can be precisely controlled.

On the other hand, as described above, the pair of guiders 220 are located on both sides of the filtrate discharge hole 114a to slidably engage with the two remaining side surfaces 210c and 210d of the dam plate 210. It is fixed on the back side. At this time, in the present invention, a retreat groove 114b may be formed on the back side of the cover 114 so that the fixing position of the pair of guiders 220 can be easily identified.

In this case, as shown in FIGS. 1 to 3, the retreat groove 114b is provided in the form of retreating forward from the rear surface of the cover 114, and has a slightly larger width than the width of the filtrate discharge hole 114a. It is provided to have, and is provided to extend to the edge of the cover 114 while having the same width. Further, the filtrate discharge hole 114a and the fixing nut 230 are located in the retreat groove 114b, and a portion of the dam plate 210 is inserted into the retreat groove 114b to block the filtrate discharge hole 114a. In addition, a pair of guiders 220 are fixed to be positioned on both sides of the retreat groove 114b.

When such a retreat groove 114b is provided, the operator can recognize both sides of the boundary of the retreat groove 114b as the installation position of the pair of guiders 220, so that the fixed position of the pair of guiders 220 can be easily can be figured out The reason why the retreat groove 114b is extended to the edge of the cover 114 is to facilitate the work of coupling the dam plate 210 to the pair of guiders 220 while the pair of guiders 220 are fixed am.

The above-described filtrate discharge hole opening control device 200 for a centrifugal dehydrator can be applied to various types of filtrate discharge holes 114a, and the shape of the dam plate 210 is also set in various ways according to the shape of the filtrate discharge hole 114a It can be a bar, which will be described with reference to FIG. 5 below.

First, the filtrate discharge hole 114a is provided in a rectangular shape, and at this time, the inner surface 210b of the dam plate 210 has a flat surface parallel to the inner surface of the filtrate discharge hole 114a, as shown in FIG. Alternatively, as shown in (a) of FIG. 5, it may be provided in a concave curved shape toward the outer surface 210a. In this case, since the open area of the filtrate discharge hole 114a constantly decreases no matter where the dam plate 210 moves inward from any position, it is easy to adjust the filtrate discharge and filtrate cleanliness to a desired level.

In addition, as shown in (b) of FIG. 5, the filtrate discharge hole 114a is provided in a circular shape, and the inner surface 210b of the dam plate 210 is provided in a concave curved shape toward the outer surface 210a It can be. In this case, compared to when the inner surface 210b of the dam plate 210 is flat, the open area of the filtrate discharge hole 114a decreases less rapidly when the dam plate 210 moves in the inward direction, thereby reducing filtrate discharge and It is easier to adjust the filtrate cleanliness to the desired level.

In addition, as shown in (c) and (d) of FIG. 5, the filtrate discharge hole 114a is provided in a trapezoidal shape having an inner surface as a long side and an outer surface as a short side, and at this time, of the dam plate 210 The inner surface 210b may be provided in a flat shape parallel to the inner surface (long side) or may be provided in a curved shape concave toward the outer surface 210a. In this case, since the open area of the filtrate discharge hole 114a gently decreases when the dam plate 210 moves inward, it is easy to adjust the filtrate discharge and filtrate cleanliness to a desired level.

As described above, although the present invention has been described by the limited embodiments and drawings, the present invention is not limited thereto, and the technical spirit of the present invention and the following by those skilled in the art to which the present invention belongs It goes without saying that various modifications and variations can be made within the equivalent scope of the claims to be described, and the above-described embodiments can be combined in various ways.

100: centrifugal dehydrator 110: outer cylinder
114: cover 114a: filtrate discharge hole
114b: retreat groove
200: Filtrate discharge hole opening control device for centrifugal dehydrator
210: dam plate 220: guider
230: fixing nut 240: bolt
250: mounting table 252: side wall
254: connecting wall 252a: bearing block
260: ring 262: fastening member

Claims (9)

A filtrate discharge hole opening control device for a centrifugal dehydrator installed on the rear side of the cover to control the opening degree of the filtrate discharge holes provided in the cover of the outer cylinder of the centrifugal dehydrator,
The degree of opening of each filtrate discharge hole is changed by sliding and moving in an inward direction, which is toward the rotation center of the outer cylinder, and an outward direction, which is the opposite direction. A dam plate allowing the filtrate to be discharged to each filtrate discharge hole;
A pair of guiders fixed to the rear surface of the cover to be located on both sides of each filtrate discharge hole and slidably engaged with both sides of the dam plate to guide the movement of the dam plate in the inward and outward directions;
a fixing nut fixed to the rear surface of the cover so as to be located farther from the rotation center of the outer cylinder than each of the filtrate discharge holes; and
Passing through the fixing nut while being screwed with the fixing nut, having an inner end rotatably coupled to the outer surface of the dam plate, Manual forward and reverse rotation around a rotation axis extending along the inward and outward direction A bolt that moves in the inward and outward direction while leading the dam plate when doing
Each of the filtrate discharge hole and the fixing nut is located in a recess formed on the rear surface of the cover in a forward-retracted shape having the same width, and the recess has a larger width than the width of the filtrate discharge hole and has the cover. Extends in the inward and outward direction to the rim of the dam plate, the dam plate is partially inserted into the retreat groove, and the pair of guiders are located at both sides of the boundary of the retreat groove while leaving the retreat groove Discharge of filtrate for a centrifugal dehydrator Hole opening adjustment device. According to claim 1,
The outer surface of the dam plate is provided with a mount, the mount includes a pair of side walls protruding in the outward direction from the outer surface of the dam plate and a connecting wall connecting the outer ends of the pair of side walls, The inner end of the bolt rotatably passes through the connecting wall, and between the pair of side walls, a ring that cannot pass through the connecting wall is detachably inserted into the inner end of the bolt. regulator. According to claim 1,
A bearing block is detachably coupled to the outer surface of the dam plate, and the inner end of the bolt is rotatably coupled to the bearing block. According to claim 1,
Each of the filtrate discharge holes is provided in a rectangular shape, and the inner surface of the dam plate is provided parallel to the inner surface of the filtrate discharge hole. According to claim 1,
Each of the filtrate discharge holes is provided in a rectangular shape, and the inner surface of the dam plate is provided in a concave curved shape toward the outer surface opposite to the dam plate. According to claim 1,
Each of the filtrate discharge holes is provided in a circular shape, and the inner surface of the dam plate is provided in a concave curved shape toward the outer surface opposite to the dam plate. According to claim 1,
Each of the filtrate discharge holes is provided in a trapezoidal shape having an inner surface as a long side and an outer surface as a short side, and the inner surface of the dam plate is provided parallel to the inner surface of the filtrate discharge hole. Filtrate discharge hole opening control device for a centrifugal dehydrator . According to claim 1,
Each of the filtrate discharge holes is provided in a trapezoidal shape having an inner surface as a long side and an outer surface as a short side, and the inner surface of the dam plate has a concave curved surface toward the opposite surface, the outer surface. Opening of the filtrate discharge hole for a centrifugal dehydrator regulator. delete

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