KR20010054617A - dehydrator with three-bar screen - Google Patents

Abstract

The present invention relates to a dehydration device that can be easily handled by removing the waste water or sludge to reduce the volume of waste, dehydration groove that is extended to the outside a plurality of triangular bar (23) to maintain a fine interval from each other ( 23a) having a cylindrical shape, the dewatering part 20 and the dewatering part 20, which are composed of a plurality of flanges 22 fixed to the outside of the triangular bar 23 to hold and fix the triangular bar. Inlet 10 for inputting the dehydration formed on one side of the), the outlet 50 for discharging the dehydrated liquid formed on the outside of the dewatering unit 20, and the shaft of the cylindrical dewatering unit 20 Located in the drive shaft 30 is formed with a plurality of transfer screw 31, the drive means connected to the drive shaft 30, and formed on one side of the drive shaft 30 is discharged when the solid sludge is pressed above a certain pressure Consists of a solid discharge portion 40 to , And can be easily separated from the waste water or sludge into water and solid phase, there is a difference in the number rule out clogging phenomenon dewatering grooves of the dehydration process by the right triangle consisting of dehydration unit.

Description

Dehydrator with three-bar screen

The present invention relates to a dehydration apparatus, and in particular, to separate the waste water containing water or various sludges into liquid and solid phase, to prevent the phenomenon of the dehydration to block the dehydration groove of the dehydration part during dehydration, It relates to a dewatering device that can reduce the volume of various sludges.

In general, in the treatment of waste water to separate the water and the solid phase, the dehydration device is complicated in configuration and frequent failure occurs. In addition, in the conventional dewatering device, the dewatering container separating the water and the solid phase forms a circular dewatering groove on the wall surface of the dewatering container so that only water passes therethrough to separate the water and the solid phase. However, if the dehydration device is operated for a long time, the dehydration material is blocked in the dehydration groove of the dehydration container separating the water and the solid phase, thereby inhibiting the dehydration effect or stopping the operation.

The present invention is to solve the above-described drawbacks, by removing the water of the waste water or sludge can easily reduce the volume for disposal, to facilitate the handling, to eliminate the phenomenon that the dehydration clogging the dehydration groove of the dehydration container. To provide a dehydration device that can be.

The present invention is composed of a cylindrical having a plurality of triangular bars to maintain a fine spacing from each other having a dewatering groove extending outwardly, dehydration having a plurality of flanges that are fixed to the outside of the triangular bar for holding and fixing the triangular bar Wealth; An inlet for injecting the dehydrated material formed on one side of the dewatering part; A discharge port formed outside the dewatering part and discharging the dehydrated liquid; A drive shaft positioned on the shaft of the cylindrical dewatering unit and having a plurality of transfer screws; Drive means connected to the drive shaft; It is formed on one side of the drive shaft is configured as a solid discharge portion for discharging when the solid sludge is pressed above a certain pressure.

1 is a cross-sectional view of the overall configuration of the present invention,

2 is a front view of the dehydration unit in the present invention,

3A is a cross-sectional view along the line AA ′ of FIG. 2;

3B is a cross-sectional view taken along line B-B 'of FIG. 3A;

4 is a side view of the present invention;

5 is a side view of another embodiment of the present invention.

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

10: inlet 20: dewatering part

21: Compression wing 22: Flange

23: triangle bar 23a: dewatering groove

30: drive shaft 31: feed screw

40: solid state discharge part 41: pressure plate

42: elastic means 50: outlet

1 to 4 are related to the dehydration apparatus of the present invention, Figure 1 is a cross-sectional view of the overall configuration of the present invention, Figure 2 shows a front view of the dewatering portion. FIG. 3A is a cross-sectional view of AA ′ of FIG. 2, FIG. 3B is a cross-sectional view of B-B ′ of FIG. 3A, and FIG. 4 shows a side view of the present invention.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 and Figure 3b, a plurality of triangular bar 23 to maintain a fine spacing from each other is formed in a cylindrical shape having a dehydration groove 23a extending outwards, to maintain and fix the triangular bar Dewatering unit 20 consisting of a plurality of flanges 22 to be fixed to the outside of the triangular bar; An inlet 10 for injecting the dehydrated material formed on one side of the dewatering unit 20; A discharge port 50 formed outside the dewatering part 20 to discharge the dehydrated liquid; A drive shaft 30 positioned on the shaft of the cylindrical dewatering portion 20 and having a plurality of transfer screws 31; Drive means connected to the drive shaft 30; It is formed on one side of the drive shaft 30 is composed of a solid discharge portion 40 for discharging when the solid sludge is pressed above a certain pressure. In addition, the pitch of the transfer screw 31 is characterized in that it becomes shorter toward the solid discharge portion (40). Although the driving means is not shown in the drawings, a motor or the like that can be used conventionally may be used.

The solid discharge portion 40, the pressure plate 41 is formed at the end of the dehydration portion 20 and flowable; It is composed of an elastic means 42 or a cylinder device which has a predetermined elastic force and pressurizes the pressure plate so that the solid sludge is discharged to the solid sludge upon pressurizing the pressure plate at a predetermined pressure or more.

Inside the dewatering portion, the compression blade 21 is located between the wings of the transfer screw 31 and fixed to the inner surface of the dewatering portion 20 is further configured to increase the compression effect of the dehydrated object There is a number.

Fig. 5 shows a side view of another embodiment of the present invention, in which a plurality of drive shafts can be used. For example, a dewatering part provided with two driving shafts, the first driving shaft 30 and the second driving shaft 30 ', may be configured similarly to the first embodiment. That is, the plurality of triangular bars 23 maintaining minute spacing with each other are configured to have a dehydration groove 23a extending outward and have two cylindrical portions formed to be bonded to each other. The triangular bars 23 are held and fixed. A dewatering part 20 having a plurality of flanges 22 fixed to an outer side of the triangular bar so as to be fitted; An inlet 10 for injecting the dehydrated material formed on one side of the dewatering unit 20; An outlet 50 formed at an outer side of the dewatering unit 20 to discharge the dehydrated liquid; A first driving shaft 30 and a second driving shaft 30 'positioned on each shaft in the dewatering unit 20 and formed by crossing a plurality of transfer screws; Drive means connected to the first drive shaft 30 and the second drive shaft 30 '; It is formed on one side of each of the drive shafts 30, 30 'may be composed of a solid discharge portion for discharging when the solid sludge is pressed above a certain pressure.

Actions and effects of the present invention configured as described above are as follows.

Waste water or sludge introduced into the discharge port 10 is formed on the drive shaft 30 and moved toward the solid discharge port 40 by the rotational movement of the transfer screws 31 having a gradually shorter pitch. The elastic means 42 formed on the drive shaft 30 support the pressure plate 41 so as not to be discharged to the solid discharge port 40 unless pressure 40 is applied to a predetermined pressure or more. In this process, only pressurized waste water or sludge water is discharged through the fine discharge groove 23a formed by the triangular bar. At this time, since the dewatering groove 23a formed in the triangular bar has an opening shape extended outward, it is possible to prevent the phenomenon of clogging during the dehydration process. In addition, the dewatering operation can increase the pressure effect by the transfer screw 31 by the compression blade 21 is fixed to the inside of the dewatering unit 20.

According to another embodiment of the present invention as shown in Figure 5, by configuring the transfer screw of the plurality of drive shafts to cross each other, it is possible to increase the pressurization effect of the waste water or sludge of the dewatering process to increase the faster working speed You can get it.

According to the dewatering device of the present invention as described above, it is possible to easily separate the waste water and sludge into water and solid phase, unlike the conventional dewatering device can simplify the configuration to eliminate frequent failures due to the complexity of the configuration. . In addition, by forming a dehydration groove of the dehydration portion of the triangular bar is a invention that can prevent the phenomenon that the dehydration groove is frequently blocked in the dehydration process to inhibit the dehydration effect.

Claims (6)

A dewatering part consisting of a plurality of flanges having a plurality of triangular bars that maintain a minute distance from each other and having a dewatering groove extending outwardly, and adapted to be fixed to the outside of the triangular bar to hold and fix the triangular bar; An inlet for injecting the dehydrated material formed on one side of the dewatering part; A discharge port formed outside the dewatering part and discharging the dehydrated liquid; A drive shaft positioned on the shaft of the cylindrical dewatering unit and having a plurality of transfer screws; Drive means connected to the drive shaft; The dehydration apparatus is formed on one side of the drive shaft and configured to discharge the solid sludge is discharged when the pressure is above a certain pressure. A plurality of triangular bars to maintain a minute spacing from each other is configured to have a dehydration groove extending outwardly has two cylindrical formed to be bonded to a certain portion, a plurality of fixed to the outside of the triangular bar to maintain and secure the triangular bar A dewatering part having a flange; An inlet for injecting the dehydrated material formed on one side of the dewatering part; A discharge port formed outside the dewatering part and discharging the dehydrated liquid; A first drive shaft and a second drive shaft positioned on each axis in the dewatering portion and formed by crossing a plurality of transfer screws with each other; Drive means connected to the first drive shaft and the second drive shaft; Dehydration apparatus, characterized in that formed on one side of the drive shaft is composed of a solid discharge portion for discharging when the solid sludge is pressed above a certain pressure. 3. The dewatering apparatus according to claim 1 or 2, wherein the pitch of the transfer screw is narrowed toward the solid discharge portion. 3. The pressure discharging unit of claim 1 or 2, wherein the solid discharge unit comprises: a pressure plate formed at an end of the dewatering unit and movable; Is composed of elastic means for pressing the pressure plate having a predetermined elastic force, Dewatering apparatus characterized in that the solid sludge is discharged when pressing the pressure plate at a predetermined pressure or more. 3. The pressure discharging unit of claim 1 or 2, wherein the solid discharge unit comprises: a pressure plate formed at an end of the dewatering unit and movable; Consists of a cylinder device for pressing the pressure plate to a predetermined pressure, Dewatering apparatus characterized in that the solid sludge is discharged when pressing the pressure plate at a predetermined pressure or more. The dewatering device according to claim 1 or 2, further comprising a compression wing positioned between the wings of the transfer screw and fixed to an inner side of the dewatering part to increase the compressive effect of the dehydrated object.