KR20020038426A - Screw type dehydration apparatus - Google Patents

Abstract

PURPOSE: A screw type dehydrating device is provided to enhance automatic cleaning and lengthen life span of a driving device and a moving plate. CONSTITUTION: A screw type dehydrating device includes a casing(10), a separating device(20), a screw(30) and a moving plate driving device(40). The casing(10) is formed at one side thereof with a supplying section(11) and the other side thereof with a discharging section(12). Supporting plates(13,13') are installed at an inner portion of the casing(10). A water collecting section(14) is formed at a lower center portion of the casing(10). The separating device(20) has a plurality of fixing plates(21) and moving plates(22). A perforation hole is formed in the fixing plate(21), and a perforation hole larger than the perforation hole is formed in the moving plate(22). A gap is formed between the fixing plate(21) and the moving plate(22) so as to discharge water to the exterior.

Description

Screw Type Dehydrator {SCREW TYPE DEHYDRATION APPARATUS}

The present invention relates to a screw type dewatering device, and more particularly, to an apparatus for dewatering sewage or wastewater contained in sludge generated in a sewage treatment plant or a wastewater treatment plant.

The dewatering device for separating sewage or wastewater from sludge generated in a conventional sewage treatment plant or wastewater treatment plant is a mainstream method using a filter cloth such as a filter press or a belt press, the dewatering device using the filter cloth is the sludge from the filter cloth Press to remove moisture and recover solids.

However, the dewatering device using the filter cloth is a clogging phenomenon of the filter cloth during dehydration to recover the solids, and then by spraying a high-pressure washing water to the filter cloth to clean the filter cloth to prevent the clogging of the filter cloth, so a large amount of washing water In addition, since the operator must be located at the site during the operation of the dehydration device, excessive operating costs are required. In addition, in order to increase the treatment capacity of the sludge, a large-capacity filter press or the like must be used, and a nozzle for dividing the high-pressure washing water is required, thereby increasing the size of the apparatus and increasing its manufacturing cost.

A screw filtration device for solving the above problems is disclosed in Japanese Patent Application Laid-Open No. 66-19011. The screw filtration device includes a suspension (sludge) supply port on one side and suspended fine particles on the other side. Solids) A plurality of filtration plates are provided inside the filtration tank in which the outlet port is provided, and a filter body in which a movable plate is formed between the filtration plates so as to form a fine gap. It is fixed with a bolt, and a flow hole is formed at both left and right ends of the movable plate to be opposed to a supporting rod and a rotating shaft installed through the filtration plate, and a key is installed on the rotating shaft. Screws for transferring suspended particulates deposited in the central hole toward the suspended particulate outlet are provided. .

The screw filtration device supplies a suspension to the suspension feed port and simultaneously rotates the screw, whereby water is discharged to the outside through a microgap formed between the filter plate and the movable plate, and the suspension is concentrated to the suspended particulate outlet by the screw. It is discharged. And when the suspension is concentrated, the fine particles attached to the inner circumferential surface of the filtration plate and the movable plate and the microgap are removed as the movable plate swings due to the rotation of the keyed rotational axis rotated in conjunction with the screw, thereby automatically cleaning the microgap. By regenerating, the blockage of the microgap is prevented to enable continuous operation.

However, the screw type filtration device is compact, the manufacturing cost is low, and there is an advantage to reduce the operating cost, but the movable plate supports only two points opposite the left and right ends of the support rod and the key axis of rotation axis of the screw The support rod support position of the movable plate is also moved in the same direction as the high pressure portion by the pressure of the high pressure portion generated in the circumferential direction of the blade during rotation, and the rotation shaft rotates while the support rod support position of the movable plate is moved as described above. Even if the position of the high pressure part generated in the circumferential direction of the blade is changed, the swinging of the support rod support position of the movable plate is incomplete due to the resistance of suspended fine particles attached between the fixed plate and the movable plate. Automatic cleaning of fine gap is not good Filtration (dehydration) efficiency is lowered.

In addition, the movable plate is arranged so as to be able to swing with one rotation shaft between the filter plates, so that the torque is concentrated in the flow hole supported by the rotation shaft, so that the flow hole and the key are easily worn, and the life of the movable plate is shortened. Since it is concealed as a fixing plate, it is not only difficult to check the wear state of the flow hole and the key, but also there is a problem in that repair is inconvenient during wear.

SUMMARY OF THE INVENTION An object of the present invention is to provide a screw-type dewatering device capable of correcting the above-described problems, to improve automatic cleaning, and to extend the life of the movable plate and its driving means.

Another object of the present invention is to provide a screw type dewatering device which can simplify the repair when the movable plate driving means is worn.

In order to achieve the above object, the present invention has a fixing plate and a micro gap in the gap between the casing having the supply and discharge portions formed on both sides, and the plurality of fixing plates fixed in the axial direction at regular intervals on the casing. A separating means composed of a plurality of movable plates arranged so as to be able to swing, a screw provided in a space portion formed in the separating means, and movable plate driving means driven in conjunction with the screw. It is formed by a connecting tube formed by forming at least two support holes in the movable plate so that the movable plates are connected to each other, and a rotating shaft having a cam inserted into each of the connecting tubes and supported on both sides of the casing and inscribed in the connecting tube. It is characterized in that the plate is configured to swing evenly.

1 is a cross-sectional 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 an exploded perspective view of main parts of the first embodiment of the present invention;

4 a, b, c, d are operational state diagrams of the first embodiment of the present invention;

5 is a cross-sectional view of a second embodiment of the present invention.

<Description of Signs of Major Parts of Drawings>

10 casing 20 separation means 21 fixed plate

22: movable plate 23: support hole 30: screw

40: movable plate drive means 41, 41 ': connector

42: rotation shaft 43, 43 ': cam 44: gear

1 is a cross-sectional view of a first embodiment of the present invention, Figure 2 is a cross-sectional view taken along the line AA of Figure 1, Figure 3 is an exploded perspective view of the main portion of the first embodiment of the present invention, the first embodiment of the present invention is a casing (10) ), The separating means 20, the screw 30 and the movable plate driving means 40 as the main configuration.

The casing 10 forms a supply part 11 on one side and a discharge part 12 on the other side, and at the same time, supports plates 13 and 13 ′ are installed on the inner side thereof, and a water collecting part 14 is provided on the center lower part. It is formed.

The separating means 20 is composed of a plurality of fixing plate 21 and the movable plate 22, the fixing plate 21 has a through-hole 21 of the diameter does not interfere during the rotation of the screw 30 to be described later '), And the movable 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, and the through hole 21' and 22 '. ) Is the space (S) into which the screw 30 is inserted is formed.

The fixing plate 21 is formed in a triangular shape to sandwich the spacer 24 is maintained between the fixing plate 21 and the three bolts 25 to the support plate 13, 13 'in the axial direction. ) Is fixed.

The movable plate 22 is also formed in a triangular shape and inserted and disposed so that a vertex of the movable plate 22 may flow in a position opposite to a vertex of the fixing plate 21 at intervals formed between the fixing plates 21. When the movable plate 22 is inserted as described above, the thickness of the movable plate 22 is smaller than the gap to form a micro gap between the fixed plate 21 and the movable plate 22 so that water is discharged through the micro gap. . In addition, the movable plate 22 is provided with at least two support holes 23 exposed to the outside of the fixed plate 21 when the movable plate 22 is inserted into the gap between the fixed plates 21 to form the movable plate ( 22) is easy to install. In addition, if the uneven portion 21 "is formed in the through hole 21 'of the fixing plate 21 in the axial direction, and the micro clearance is made smaller toward the discharge portion 12 side, the dewatering efficiency can be increased.

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 casing 10, and the sludge supplied to the supply part 11. The sludge is dehydrated while being transported to the discharge part 12 side, and the solids are discharged to the discharge part 12, and the movable plate driving means which is later described on the discharge part 12 side of the shaft 31 of the screw 30 ( At the same time as installing the gear 32 for driving the drive 40 in conjunction with the screw 30, a driving source (not shown) is installed at the tip.

The pitch of the blades 33 of the screw 30 is smaller than the supply part 11 side, and the discharge part 12 side is formed smaller, and the partition plate 15 is provided at the boundary part, and the enrichment zone is provided on the supply part 11 side. Dehydration zone (B) is formed on the discharge part (12) side and the separation means (20) are divided into two to increase the dewatering efficiency. In this case, the water collecting part (14) The first water collecting part 140 and the second water collecting part 141 are formed separately.

The movable plate driving means 40 connects the plurality of movable plates 22 to each other by connecting the connection pipes 41 and 41 'to at least two support holes 23 formed in the movable plate 22, The rotary shaft 42 is inserted into the connecting pipes 41 and 41 'to support both sides of the casing 10 and at least two cams 43 and 43' are installed to connect the connecting pipes 41 ( 41 '), and the gear 44 is installed at one end of the rotating shaft 42 to engage with the gear 32 installed on the screw shaft 31 so as to interlock with the screw 30 by a driving source. The gears 32 and 44 may also be belts, chains, or the like.

The connecting pipes 41 and 41 ′ are fixed to both ends thereof so that the colors 411 and 412 exposed to the outside of the support plates 13 and 13 ′ can be disassembled. When the cams 43 and 43 'are inscribed, the wear state of the connecting pipes 41 and 41' and the cams 43 and 43 'can be visually confirmed.

In the first embodiment of the present invention, the cylinder 50 surrounding the blade 33 is installed on the support plate 13 on the discharge part 12 side, and the pressure regulating plate 51 is slid to the screw shaft 31. It is installed so that the water content can be adjusted by adjusting the discharge pressure of the solid by the adjustment bolt 52 supported on the casing 10, the connecting pipe 41, 41 'may be one. .

5 is a cross-sectional view of a second embodiment of the present invention, in which the same technical means as in the first embodiment are given the same reference numerals, and a detailed description thereof will be omitted, and the difference is the diameter of the blade 33 on the enrichment zone A side. Is formed larger than the dehydration zone (B) side, and the diameters of the through holes 21 'and 22' of the fixed plate 21 and the movable plate 22 are also proportional as the diameter of the blade 33 is formed as described above. By increasing the concentration to increase the concentration in the concentration zone (A) to increase the treatment capacity.

The following operation is described.

A flocculant and the like are mixed in advance in the supply part 11 formed on one side of the casing 10 to supply a sludge in a floc state, and the sludge is discharged when the screw 30 is rotated by a driving source. 12 is conveyed to the side and at the same time when the pressure passes through the gap between the blade 33 of the screw 30 and the through-hole 21 (22 ') formed in the fixed plate 21 and the movable plate 22, the moisture is concentrated Dropping to the water collecting unit 14 through the micro-gaps formed between the fixed plate 21 and the movable plate 22 to be transferred to the treatment plant, the solid content is the cake state between the cylinder 50 and the pressure control plate 51 After being discharged to the furnace discharge unit 12 is to be treated by landfill, recycling and the like.

As described above, the water content of the dehydrated solids is in the range of 97 parts by weight to 75% by weight, and the water content of the solids is controlled by the rotation speed of the screw 30 and the pitch of the blades 33 on the supply part 11 side and the discharge part 12. Adjusting the sides the same or differently, adjusting the micro gap, integrating or separating the concentration zone (A) and dehydration zone (B), diameter control of the blade 33 of the concentration zone (A) and dehydration zone (B), pressure control plate The pressure control method of 51 and the like are arbitrarily selected and adjusted.

As described above, when the water content of the solid content is dehydrated to about 97 to 95% by weight, the solid content retains a relatively large amount of water. In this case, the solid content discharged to the discharge part 12 is used as a vacuum pump. It is convenient to aspirate and move to a transport vehicle.

In addition, when the separation means 20 is divided into a concentration zone (A) and a dehydration zone (B) to increase the dehydration efficiency, the water collected in the first catchment unit 140 is transferred to the treatment plant, and the second catchment unit 141 is provided. ), The moisture collected in the circulate is recirculated to the supply part 11 because the fine solid content is contained.

In addition, the method of adjusting the water content is to incline the discharge part 12 side downward rather than the supply part 11 side to increase the water content in addition to the above, and to reduce the internal pressure of the separating means 20 and to reduce the water content to the supply part ( It is also possible to adjust the discharge unit 12 side upward to increase the internal pressure of the separating means 20 rather than the 11) side, and in order to increase the processing capacity, the separating means 20 may be overlapped up and down, and between the gears 32. By installing an intermediate gear to the screw 30 can be rotated at the same time by one drive source.

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 movable plate 22, and the solids entered into the microgap are installed in the screw 30 (32). The rotating shaft 42 is rotated by the gear 44 engaged with the shaft, and as the rotating shaft 42 rotates, the cams 43 and 43 'provided at both sides thereof are connected to the connecting pipes 41 and 41'. In the internal rotation of the movable plate 22 rocking motion (see Fig. 4), the solid content entered into the microgap is automatically cleaned and regenerated.

When the movable plate 22 swings as described above, at least two support holes 23 are formed in the movable plate 22 to interconnect the movable plates 22 to the connecting pipes 41 and 41 '. The cams 43 and 43 'are internally rotated to the connecting pipes 41 and 41' so that the connecting pipes 41 and 41 'have an even rocking motion along the trajectory of the cam. Since the opposite position of the installation of the connecting pipes 41 and 41 'is the same as that of the connecting pipes 41 and 41', the automatic cleaning is better in the power supply line of the through hole 22 'of the movable plate 22. As a result, the dewatering efficiency is good, and the torque of the rotating shaft 42 is distributed to extend the service life.

In addition, the support hole 23 is formed so as to be exposed to the outside of the fixing plate 21, the movable plate 22 and its driving means 40 with the fixing plate 21 fixed between the supporting plates 13 and 13 '. ) Is easy and convenient to install.

And both ends of the connecting pipe 23 is fixed so that the color (411, 412) exposed to the outside of the support plate (13, 13 ') can be disassembled, the cam 43 to the color (411, 412) By positioning the 43 ', the wear state of the connecting pipes 41, 41' and the cams 43 and 43 'can be easily visually checked, and the collars 411, 412 and the cams 43 are worn at the time of wear. By replacing only 43 'with a new one, the repair of the movable plate driving means 40 is simple and convenient, and the maintenance cost can be reduced.

As described above, the present invention comprises a plurality of fixing plates and a movable plate arranged such that a small gap is formed in the fixing plate, and inserting a screw into the separating means and at least two supporting holes in the movable plate. Forming the interconnection with the connecting pipe, and inserting the rotary shaft into the connecting pipe to install the cam in the internal rotation so that the swinging motion of the movable plate is uniform and accurate, the automatic cleaning is good and extend the life It can be.

In addition, by fixing the color on both ends of the connection pipe and positioning the cam on the color, the wear condition of the color and cam can be easily visually checked, and the movable plate driving means by replacing only the color and the cam with new ones when worn. Repair is simple and convenient, and can reduce maintenance costs.

Claims (6)

Casings having supply and discharge portions on both sides, and a plurality of movable plates arranged so as to swing with a fixed gap and a small gap in the gap between the plurality of fixed plates fixed in the axial direction at a predetermined distance to the casing. A separating means configured, a screw inserted into the space formed in the separating means, and movable plate driving means driven in conjunction with the screw, wherein the movable plate driving means forms at least two support holes in the movable plate, And a connecting tube inserted to connect the movable plates to each other, and a rotating shaft provided in each of the connecting tubes and having a cam supported on both sides of the casing and inscribed in the connecting tube to be configured to swing the movable plate evenly. Screw type dehydrator. The screw type dewatering device according to claim 1, wherein the color exposed to the outside of the support plate is detachably fixed at both ends of the connection pipe, and the cam is placed on the color. The screw type dewatering device according to claim 1, wherein an uneven portion is formed in the through hole of the fixing plate in the axial direction. The screw type dewatering apparatus according to claim 1, wherein the pitch of the screw is smaller than that of the concentration zone. 2. The screw-type dehydration apparatus according to claim 1, wherein the separating means is divided into a concentration zone and a dewatering zone, and a first catching portion and a second catching portion are formed below the enrichment zone and the dewatering zone of the casing. The screw type dewatering device according to claim 1, wherein the diameters of the through holes of the enrichment zone side fixing plate and the movable plate of the separating means are larger than the diameters of the through holes in the dehydration zone side, and the blades of the screw are formed to match the diameters of the through holes. .