KR20030000984A - Screw type solid liquid separating apparatus - Google Patents

Abstract

PURPOSE: A screw type solid/liquid separation equipment which can separate liquid from sludge and can be repaired easily is provided. CONSTITUTION: The equipment comprises a separator(10) at both ends of which a sludge supply part(11) and a solid discharge part(12) are formed respectively; a separation means(20) inside of which a plural fixed plates(21) is installed at a fixed interval parallel to each other, and a plural movable plates(22) are placed between fixed plates; a screw(30) which is installed inside of the separation part (S); a cam(41) equipped with a means(40) for driving the movable plates that are driven being engaged with a screw shaft(31). The mobile plate driving means is composed of cam(41) which is fixed at the axis of screw(31) and driving plate(42) which is fixed at the upper part of the cam and connecting bar which is connected with the mobile plate.

Description

SCREW TYPE SOLID LIQUID SEPARATING APPARATUS}

The present invention relates to a screw-type solid-liquid separation device, and more particularly, to an apparatus for separating water contained in sludge generated in a sewage treatment plant, a wastewater treatment plant, a manure treatment plant, a paper mill, and the like.

Conventionally, a device for separating water from sludge generated in a sewage treatment plant, a wastewater treatment plant, a paper mill, etc. is mainly formed using a filter cloth such as a filter press or a belt press, and the separation device using the filter cloth is compressed in the sludge from the filter cloth. To remove moisture and recover solids.

However, the separation apparatus using the filter cloth requires a large amount of washing water because the clogging phenomenon of the innula occurs during the separation of the water, so that the filter cloth is cleaned by spraying high-pressure washing water onto the filter cloth after collecting the solids. In addition, since the operator must be located at the site during the operation of the separation device, excessive operating costs are required. In addition, a large-capacity filter press or the like should be used to increase the treatment capacity of the sludge, and a nozzle for injecting high-pressure washing water, etc. is required, thereby increasing the size of the apparatus and increasing its manufacturing and operating costs.

Applicant of the present invention, in order to correct the above problems, the fixing plate and the micro gap in the gap between the casing having the supply portion and the discharge portion formed on both sides, and the plurality of fixing plates fixed in the axial direction at a predetermined interval to the casing A separating means composed of a plurality of movable plates (flow plates) arranged so as to be able to oscillate with each other, a screw installed in a space formed in the separating means, and a flow plate driving means driven in conjunction with the screw, The flow plate driving means includes a connecting tube inserted to interconnect the flow plates by forming at least two support holes in the flow plate, and a cam inserted into each of the connecting tubes supported on both sides of the casing and inscribed in the connecting tube. Screw type formed by installing rotating shaft and configured to swing the flow plate evenly The dehydration device was proposed in 2000 as Patent Application No. 68654.

However, the above-described application has the advantage that the automatic cleaning of the microgap formed between the fixed plate and the flow plate is good, extending the life of the flow plate driving means and at the same time simplifying the repair when worn, but the flow plate Each drive means consists of two gears, a connecting pipe and a rotating shaft attached to a cam, which is complicated in construction and requires a lot of manufacturing cost. There is a problem.

SUMMARY OF THE INVENTION The present invention aims to provide a screw-type solid-liquid separation device that corrects the above problems, simplifies the configuration while maintaining the advantages of the prior application, and is simple and convenient to repair.

Another object of the present invention is to provide a screw-type solid-liquid separation device that can easily adjust the concentration of sludge.

In order to achieve the above object, the present invention provides a fixed plate and a separation plate formed between the sludge supply unit and the solids discharge unit on both sides, and a plurality of fixing plates fixed in the axial direction with a predetermined interval therein. A separating means composed of a plurality of flow plates arranged with a small gap, a screw provided in a space formed in the separating means, and a flow plate driving means driven in conjunction with the screw, wherein the flow plate driving means Is composed of a cam fixed to a screw shaft, a drive plate supporting the upper center on the cam, and a connecting bar supported on both sides of the lower part of the drive plate and supported on the support pieces formed on the flow plate. Therefore, the flow plate is caused to swing.

1 is a partial end side view of an 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.

4 is an exploded perspective view of main parts of an embodiment of the present invention;

5 is a partial cross-sectional view of the concentration control means of the embodiment of the present invention

Figure 6a, b is a working state of the embodiment of the present invention

<Description of Signs of Major Parts of Drawings>

10 separation tank 20 separation means 21 fixed plate

22 flow plate 24 support piece 30 screw

40: flow plate drive means 41, 41 ': cam

42, 42 ': drive plate 47, 47': connecting bar 50: concentration control means

1 is a partial end side view of an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, FIG. 3 is a cross-sectional view taken along line BB of FIG. 1, and FIG. 4 is an exploded perspective view of main parts of an embodiment of the present invention. The separation tank 10, the separation means 20, the screw 30 and the flow plate drive means 40 is composed of.

The separation tank 10 forms a sludge supply part 11 on one side and a solids discharge part 12 on the other side, and at the same time, supports plates 13 and 13 ′ are installed on the inside thereof, and a collecting part 14 is formed to be fixed to the bed (15) formed legs (16).

The separating means 20 is composed of a plurality of circular fixing plate 21 and the flow plate 22, the fixing plate 21 has a through hole 21 of a diameter that does not interfere during the rotation of the screw 30 to be described later '), And the flow plate 22 is provided with a through hole 22' having a diameter slightly larger than the through hole 21 'formed in the fixing plate 21. The through hole 21' and 22 ') Is a space (S) into which the screw 30 is inserted is formed.

The fixing plate 21 is provided with a fixing piece 23 on the outer circumferential surface to insert a spacer 25 to maintain a constant interval between the fixing plate 21 and 4 to the support plate 13, 13 'in the axial direction. It is fixed with two bolts (26).

The flow plate 22 is inserted and disposed to flow at a predetermined interval formed between the fixed plate 21, and the flow plate 22 is inserted to flow between the fixed plate 21 as described above. When the thickness is smaller than the gap is formed to form a small gap between the fixed plate 21 and the flow plate 22 to allow the water to be discharged to the outside through the small gap. In addition, the support plate 24 has two support pieces 24 formed with support holes 24 ′ around the outside of the fixed plate 21 when inserted into the gap between the fixed plates 21. The connecting bars 47 and 47 'which are later described in the ball 24' are inserted and supported.

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 to be supplied to the sludge supply unit 11 The sludge is pressed to transfer water to the solids discharged portion 12 to separate water, and the solids are discharged to the solids discharged part 12, and one end of the screw shaft 31 is provided with a driving source 32.

The flow plate driving means 40 has cams 41 and 41 'at both ends of the screw shaft 31, i.e., outside the sludge supply portion 11 of the screw shaft 31 and the solids discharge portion 12. The cam housing 43 formed at the upper center of the driving plates 42 and 42 'to the cams 41 and 41' is inserted and supported together with the bush 44, and the driving plate 42 is supported. 2, which is formed on the flow plate 22, on which housings 45 and 45 'are formed on both sides of the lower portion 42', i. Connecting bars 47 and 47 'to support holes 24' formed in the two support pieces 24, and then connecting both ends of the connecting bars 47 and 47 'to the housings 45 and 45'. It is preferably inserted into and supported with the bush 46, the bush 44, 46 is preferably formed of an oilless bearing.

In addition, springs 48 and 48 'are installed between both sides of the driving plate 42 and the separation tank 10 to suppress rotation of the driving plate 42.

In addition, according to the present invention, the concentration control means 50 is installed in the lower part of the separation tank 10, and the concentration control means 50 has a sludge supply part 11 side of the bed 15 on one leg 16. Coupled with the support pin 51, the screw 52 is installed on the solid discharge portion 12 side of the bed 15 and the length of the leg 15 of the corresponding position of the screw 52 is formed shorter than the other side The screw 52 is inserted by forming a hole 53 at the upper end, and the adjusting nut 54 provided with the handle 54 'is screwed to the upper surface of the leg 15 to be supported. .

Reference numeral 17 is an intermediate support plate.

The following operation is described.

The sludge supply unit 11 formed on one side of the separation tank 10 is pre-mixed with a flocculant or the like to supply sludge in a floc state, and the screw 30 is rotated by the driving source 32. When the sludge is transferred to the solids discharge part 12 side, the sludge is compressed and concentrated while passing through the gap between the screw 30, the fixing plate 21, and the through holes 21 and 22 'formed in the flow plate 22, so that the moisture By dropping to the water collecting part 14 through the micro-gaps formed between the fixed plate 21 and the flow plate 22 by gravity, it is transferred 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.

Conventional method of adjusting the rotational speed of the screw 30, the gap of the micro gap between the fixed plate 21 and the flow plate 22, or the inclination angle of the separation means when the water is separated as described above It is convenient to transfer the solids discharged to the solids discharge part 12 when the concentration of the solids is adjusted to 97 to 92% by weight, so that the concentration of the solids is adjusted to about 97 to 92% by weight.

As described above, when the sludge is separated into water and solids, a part of solids enters the microgap between the fixed plate 21 and the flow plate 22, and the solids entered into the microgap are fixed to the screw shaft 31. 41 'rotates in conjunction with the screw shaft 31, and as the cams 41 and 41' rotate, the drive plates 42 and 42 'contour the cams 41 and 41'. Then, the connecting bars 47 and 47 'supported on both sides of the lower side of the driving plates 42 and 42' by the oscillating motion of the flow plate 22 oscillate (see FIG. 6) so that the solid content entering the microgap is automatically moved. It is cleaned and microgap is regenerated.

As described above, when the flow plate 22 oscillates, the flow plate 22 is provided with two connecting bars 47 and 47 ′, so that the oscillation motion of the flow plate 22 becomes good, thereby providing a small gap. Automatic cleaning is good in the power supply of the will be good separation efficiency of moisture.

And the present invention can further control the concentration of the sludge by the concentration control means 50 attached to the lower portion of the separation tank 10, that is, when reducing the concentration of the solid content by rotating the handle 54 ' When the screw 52 is lowered, the solids discharge part 12 side lowers the support pin 51 to the point and is formed lower than the sludge supply part 11 side, so that the internal pressure is small in the space S of the separating means 20. In order to increase the concentration, the concentration of the sludge supply part 11 is increased by rotating the handle 54 'to raise the screw 52 so that the solids discharge part 12 increases the support pin 51 to the point. Since the internal pressure is increased in the space S of the separating means 20, the concentration can be largely adjusted.

In addition, when the bushes 44 and 46 made of oilless bearings are inserted at both ends of the cams 41 and 41 'and the connecting bars 47 and 47', the service life is long because the friction is small and the bushes are worn out. Since the bushes 44 and 46 are exposed, repair is simplified.

As described above, the present invention comprises a plurality of fixing plates and a flow plate arranged so that a small gap is formed in the fixing plate, and the screw is inserted into the separating means and swinged by a cam fixed to the screw shaft. A moving drive plate is installed, and both ends of the two connecting bars supporting the flow plate are inserted and supported on both sides of the lower side of the drive plate, so that the swinging motion of the flow plate is uniform and accurate, so that the automatic cleaning is good. It is simple to make the manufacturing cost low.

And by installing the concentration control means in the lower part of the separation tank, further control of the concentration is simple and convenient.

In addition, since the bush is inserted at both ends of the cam and the connecting bar, the friction is small, so the service life is long, and when the bush is worn, the bush is exposed, thereby simplifying the repair.

Claims (4)

Separation means consisting of a separation tank formed on both sides of the sludge supply portion and the solids discharge portion, and a plurality of flow plates arranged with a fixed gap and a micro gap in the gap between the plurality of fixed plates fixed at regular intervals in the separation tank. And a screw installed in the space formed in the separating means, a flow plate driving means driven in conjunction with the screw, wherein the flow plate driving means includes a cam installed on a screw shaft, and an upper center of the cam. A screw-type solid body configured to support the support plate on both sides of the lower part of the drive plate, and a connecting bar supported on the support piece formed on the flow plate to oscillate the flow plate along the cam contour. Liquid separator. The screw-type solid-liquid separation device according to claim 1, wherein a concentration control means is provided below the separation tank. 2. A screw-type solid and liquid separation device according to claim 1, wherein a bush is inserted into both ends of the cam and the connecting bar. According to claim 2, The concentration control means is coupled to the sludge supply side of the bed with a support pin, the screw is installed on the sludge discharge side of the bed to adjust the height with the adjustment screw installed on the other leg Supported screw solid and liquid separator.