KR200325971Y1 - Screw type dehydration apparatus - Google Patents

Abstract

The present invention relates to a screw type dewatering device, and more particularly, to a swinging screw type dewatering device for separating solids by concentrating sludge generated in a sewage treatment plant, a wastewater treatment plant, a powder treatment plant, a paper mill, and the like. By improving the dehydration efficiency to improve, and to eliminate the wear parts to extend the life significantly.

The present invention has a separation tank 10 formed on both sides of the sludge supply unit 11 and the solid content discharge unit 12; A plurality of fixing rings 21 are fixed to each other at a predetermined interval perpendicular to the inside of the separation tank 10, and the fixing rings 21 and the minute gaps are disposed at predetermined intervals formed between the fixing rings 21. Separating means 20 having a plurality of circular swing rings 22 disposed therein; A screw 30 installed in the space S formed in the separating means 20; And a swing ring driving means 40 driven in conjunction with the screw 30, the swing ring driving means 40 having cams 41 and 41 'fixed to both ends of the screw shaft 31, and Drive plates 44 and 44 'which support their centers so as to be able to swing along the contours of the cams 41 and 41' outside the cams 41 and 41 ', and the drive plates 44 The swing ring 22 is formed along the contour of the cams 41 and 41 'by forming at least three support bars 45 fixed at both ends so that the outer circumferential surface of the swing ring 22 is restrained to 44'. It was made to swing.

Description

Screw Type Dehydrator {SCREW TYPE DEHYDRATION APPARATUS}

The present invention relates to a screw type dewatering device, and more particularly, to a swinging screw type dewatering device for separating solids by concentrating sludge or a solid / liquid mixture generated in a sewage treatment plant, a wastewater treatment plant, a powder treatment plant, and a paper mill. .

Solid content by dehydration or filtration (hereinafter referred to as dehydration) of water or liquid (hereinafter referred to as dehydration) by concentrating sludge or a solid / liquid mixture (hereinafter referred to as sludge) generated in a conventional sewage treatment plant, wastewater treatment plant, powder treatment plant, and paper mill. The separation device is a mainstream method using a filter cloth, such as a filter press or a belt press, the separation device using the filter cloth is configured to separate the water by pressing the sledge in the filter cloth to recover the solid content.

However, the separation apparatus using the filter cloth requires a large amount of washing water because the clogging phenomenon of the filter cloth occurs when water is separated, so that the filter cloth is cleaned by spraying high-pressure washing water on the filter cloth after collecting the solid content. The operation cost is excessive because the operator must stay on site during the operation of the separator. In addition, a large-capacity filter press or the like must be used to increase the treatment capacity of the sludge, and a nozzle for spraying high-pressure washing water must be provided, thereby increasing the separation device and increasing its manufacturing and operating costs.

Screw type solid and liquid separation device for solving the above problems is disclosed in 2003 Patent Application Publication No. 984 (January 6, 2003), the screw type solid and liquid separation device is a sludge supply unit A separation tank formed on both sides of the solid discharge portion; A separation means configured to fix the plurality of fixed plates at a predetermined interval within the separation tank, and a plurality of flow plates disposed with a fixed gap and a small gap in the gap formed between the fixed plates; A screw installed in the space formed in the separating means; And a flow plate driving means driven in conjunction with the screw, wherein the flow plate driving means supports a cam installed on a screw shaft, a driving plate supporting an upper center on the cam, and a lower side of the driving plate. At the same time, it is composed of a connecting bar supported on the support piece formed on the flow plate to rock the flow plate along the contour of the cam to clean the micro gap between the fixed plate and the flow plate.

However, the above-mentioned screw-type solid-liquid separation device has a driving plate formed in a triangular shape to support the upper vertex on the cam and the connecting bar on the vertex on both lower sides, that is, the driving plate only supports the screw shaft in the radial direction. In the case where a large amount of solids enters the microgap or the sludge compressive force is large, an overload is applied to the flow plate, so that the driving plate and the connecting bar supported at the bottom thereof are difficult to swing along the contour of the cam. The automatic cleaning of the microgap between the flow plates is not good and the dehydration efficiency is low.

The lower side of the driving plate is rotatably supported at both ends of the connecting bar, and the connecting bar is supported by the supporting hole of the supporting piece formed on the flow plate, so that the mutual support parts wear out when the driving plate and the flow plate are rocking. In particular, when the support hole of the support piece formed in the flow plate is worn out, the entire flow plate must be replaced. To replace the flow plate, it is necessary to stop the operation and separate the separation means, which requires a lot of repair cost and time, and decreases productivity. This is what happens.

The present invention corrects the problems of the above screw type solid and liquid separation device, improves the dewatering efficiency by improving swinging swing, and provides a screw type dewatering device which can greatly extend the life by eliminating wear parts. It aims to do it.

In order to achieve the above object, the present invention and the separation tank formed in the sludge supply and solids discharge portion on both sides; A separating means for fixing a plurality of fixing rings at regular intervals perpendicular to the inside of the separating tank, and arranging a plurality of circular swing rings at fixed intervals formed between the fixing rings with a fixing ring and a minute gap; A screw installed in the space formed in the separating means; And a swing ring driving means driven in conjunction with the screw, wherein the swing ring driving means includes a cam fixed to both ends of the screw shaft, and a driving plate supporting the center thereof so as to swing along the contour of the cam on the outside of the cam. And at least three support bars having both ends fixed to the driving plate such that the outer circumferential surface of the swing ring is restrained to swing the swing ring along the contour of the cam.

1 is a longitudinal side view of a first embodiment of the present invention;

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view taken along the line B-B of FIG.

Figure 4 is an exploded perspective view of the main part of the first embodiment of the present invention.

5a to 5d is a working state diagram of the first embodiment of the present invention.

Figure 6 is a longitudinal side view of a second embodiment of the present invention.

7 is a cross-sectional view taken along line A-A of FIG. 1 of a third embodiment of the present invention;

8 is an exploded perspective view of main parts of a third embodiment of the present invention;

<Description of Signs of Major Parts of Drawings>

DESCRIPTION OF SYMBOLS 10 Separation tank 11 Sludge supply part 12 Solid content discharge part

20: separating means 21: fixing ring 22: swing ring

25: fixing bar 30: screw 40: swing ring driving means

41, 41 ': Cam 44, 44': Drive plate 45: Support bar

1 is a longitudinal side view of the first embodiment of the present invention, Figure 2 is a cross-sectional view taken along line AA of Figure 1, Figure 3 is a cross-sectional view taken along line BB of Figure 1, Figure 4 is an exploded perspective view of the main portion of the embodiment of the present invention, The design consists of a separation tank 10, separation means 20, screw 30 and the swing ring driving means (40).

The separation tank 10 is formed of a sludge supply part 11 on one side and a solids discharge part 12 on the other side of stainless steel, and at the same time, support plates 13 and 13 ′ are installed therein, and the support plate A water collecting portion 14 is formed at the lower portion of the 13 and 13 'to be fixed to the bed 15.

The separating means 20 is composed of a plurality of circular retaining ring 21 and a circular swing ring 22 made of stainless steel or hard synthetic resin so that the fixing ring 21 is rotated when the screw 30 later A through hole 21 'having an uninterrupted diameter is provided, and the swing ring 22 is provided with a through hole 22' having a diameter slightly larger than the through hole 21 'formed in the fixing ring 21. The through holes 21 and 22 'are formed with a space S into which the screw 30 is inserted.

The fixing ring 21 is provided on the outer circumferential surface with a fixed piece 23 at equal intervals to sandwich the spacer 24 is maintained between the fixing ring 21, the support plate (13) (13) in the vertical direction ') Is fixed to the fixing bar (25).

The swing ring 22 is inserted and arranged to flow (swing) at a predetermined interval formed between the fixed ring 21, and the swing ring 22 to flow between the fixed ring 21 as described above. When inserted so that the thickness is smaller than the gap between the fixing ring 21 to form a small gap between the fixing ring 21 and the swing ring 22 so that moisture is discharged to the outside through the small gap. It is.

The screw 30 is inserted into the space S formed in the separating means 20 to support both ends of the shaft 31 on both sides of the separation tank 10, and is supplied to the sludge supply unit 11. Pressing the sludge while transporting the sludge to the solids discharge part 12 side to separate the water, and the solids are to be discharged to the solids discharge part 12, the pressure control plate on the solids discharge part 12 side of the screw shaft (31). (33) is slidably fixed to adjust the discharge pressure of the solids to adjust the water content (dehydration rate) of the solids, and the sludge supply portion 11 toward the outer peripheral surface at the end of the solids discharge portion 12 side of the blade 32 The inclined portion 32 ', which is inclined to the side), is formed so that the dehydrated solids are smoothly discharged to the opening side of the pressure regulating plate 33, so that the discharge of solids is maintained even when the water content of the solids is controlled to 60% by weight or less. It will increase to smoothly without. One end of the screw shaft 31 is provided with a drive source 34.

The swing ring driving means 40 has cams 41 and 41 ′ at both ends of the screw shaft 31, that is, outside the sludge supply portion 11 of the screw shaft 31 and the solid discharge portion 12. The rollers 43 are inserted into and supported by the housings 42 and 42 'to the cams 41 and 41', and the driving plates 44 and 44 'to the housings 42 and 42'. ), And the driving plates 44 and 44 'are fixed to both ends of the at least three support bars 45 at equal intervals to restrain the outer circumferential surface of the swing ring 22.

The following operation is described.

A flocculant or the like is mixed with the sludge supply unit 11 formed at one side of the separation tank 10 to supply sludge in a floc state, and the screw 30 is rotated by the driving source 34. When the sludge is transported to the solids discharge part 12 side, the sludge is compressed and concentrated while passing through the gap between the screw 30, the fixing ring 21 and the through holes 21 and 22 'formed in the swing ring 22, so that the moisture is By dropping to the water collecting part 14 through the micro-gaps formed between the fixed ring 21 and the swing ring 22 by gravity, it is transported to the treatment plant and the like, and the solids are discharged to the solids discharge part 12 in a concentrated state. Dehydration, digestion, etc.

As described above, when the solid is separated by dehydrating water from the sludge, the number of rotations of the screw 30 is adjusted, the minute gap between the fixing ring 21 and the swing ring 22 is adjusted, or the inclination angle of the separating means is adjusted. By arbitrarily selecting a conventional method such as to adjust the concentration of the solid content, by adjusting the water content of the solid content of about 97 to 92% by weight is convenient to transfer the solids discharged to the solids discharge portion 12 to the next process.

When the solids are separated from the sludge as described above, a part of the solids enters the microgap between the fixing ring 21 and the swing ring 22, and the solids entered into the microgap are fixed to the screw shaft 31 (41) ( 41 'rotates in conjunction with the screw shaft 31, and as the cams 41 and 41' rotate, the drive plates 44 and 44 'swing along the contours of the cams 41 and 41'. (Swing) and the support bars 45, which are fixed at both ends at equal intervals concentrically with the drive plates 44 and 44 'as the drive plates 44 and 44' are rocked, cause the support bars 45 to swing. The swing ring 22 whose outer circumferential surface is restrained is rocked (see FIG. 5) in the same manner as the outlines of the cams 41 and 41 ′, so that the solids entered into the micro gaps are automatically cleaned to reproduce the micro gaps.

When the swing ring 22 swings as described above, the swing ring 22 is restrained and supported at equal intervals on the support bar 45, so that the swinging action of the swing ring 22 becomes good, so that the swing ring 22 is automatically rotated in a power gap of a small gap. The cleaning becomes good and the dehydration efficiency of the solid content becomes good.

In addition, when swinging the swing ring 22 as described above, only the cams 41 and 41 'and the driving plates 44 and 44' are supported, and the support bars 45 to the driving plates 44 and 44 '. Since both ends are fixed and the swing ring 22 is restrained and supported by the support bar 45, there is almost no wear part, so that the life can be maintained semi-permanently.

6 is a cross-sectional view of a second embodiment of the present invention, in which the same components as in the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

The difference from the first embodiment in the second embodiment is that the center of the space (S) of the separating means 20 is partitioned by the separating plate 50 to the concentration zone (A) on the sludge supply part 11 side. The dehydration zone (B) is formed on the solid discharge portion (12) side, and the collecting portions (51, 51 ') are formed on the lower portion thereof, respectively, and the pitch of the blade (32) on the dehydration zone (B) side is It is formed smaller than the concentration zone (A) side.

In the second embodiment of the present invention, the sludge is compressed by the screw 30 in the concentration zone A, and the water falls to the water collecting part 51 by gravity, and the water is recycled for other purposes. Sludge is compressed in the dewatering zone (B) by the dehydration by the compressive force will be able to control the water content of the solid content up to 75% by weight.

The water dehydrated in the dehydration zone (B) includes a solid content, and the water is supplied to the sludge supply unit 11 again to be de-concentrated and dehydrated or treated by other treatment means.

7 is a cross-sectional view taken along line AA of FIG. 1 of a third embodiment of the present invention, and FIG. 8 is an exploded perspective view of main parts of a third embodiment of the present invention, in which the same components as those in the first embodiment have the same reference numerals, Description is omitted.

The difference from the first embodiment in the third embodiment is that the support bar (45) in the case of having a long length of the separation means 20 by installing the reinforcing ring 60 on the outside of the swing ring 22 of the support bar 45 By preventing the deformation of the support 45, the support bar 45 is to facilitate the restrained support of the swing ring (22).

The reinforcing ring 60 is formed to be equal to or smaller than the width of the swing ring 22, and also has several arcuate reinforcing members 61, 61 ', 61 "connecting pieces 62, 62' and 62". It is easy to install by forming a ring to be).

As described above, the present invention consists of a plurality of fixing rings and a circular swing ring arranged with a small gap formed in the fixing ring, and by inserting a screw into the separating means and by a cam fixed to the screw shaft. The swing plate is installed, and both ends of the support bar for restraining the outer circumferential surface of the swing ring are fixed to the drive plate, so swinging of the swing ring is uniform and accurate. It can be.

In addition, the swing ring drive means can be maintained semi-permanently because there is almost no wear portion, it is possible to significantly increase the productivity compared to stopping the conventional wear to repair the wear portion.

Claims (5)

A separation tank having a sludge supply part and a solid content discharge part formed on both sides; A separating means for fixing a plurality of fixing rings at regular intervals perpendicular to the inside of the separating tank, and arranging a plurality of circular swing rings at fixed intervals formed between the fixing rings with a fixing ring and a minute gap; A screw installed in the space formed in the separating means; And a swing ring driving means driven in conjunction with the screw, wherein the swing ring driving means includes a cam fixed to both ends of the screw shaft, and a driving plate supporting the center thereof so as to swing along the contour of the cam on the outside of the cam. And at least three support bars having both ends fixed to the driving plate such that the outer circumferential surface of the swing ring is restrained to swing the swing ring along the contour of the cam. 2. The screw type dewatering apparatus according to claim 1, wherein the separating means is divided into a separating plate to form a concentrated zone on the sludge supply side of the space portion and a dehydration zone on the solid discharge side. The screw type dewatering device according to claim 1, wherein a reinforcing ring is provided outside the swing ring of the support bar. The screw-type dehydration apparatus according to any one of claims 1 to 3, wherein an inclined portion inclined toward the sludge supply portion is formed toward the outer circumferential surface of the solid discharge portion side end of the blade of the screw. 4. The screw type dewatering device according to claim 3, wherein the reinforcing ring is connected to several arc-shaped reinforcing members by connecting pieces.