KR101428762B1 - Centrifugal hydroextractor for sludge - Google Patents

Abstract

The present invention relates to a centrifugal dehydrator for sludge, and more particularly, to a centrifugal dehydrator for a sludge, more specifically, to provide a plurality of crushing blades in a rotating blade provided in a screw conveyor to effectively break foreign substances contained in the sludge, To a centrifugal dehydrator for sludge.

Description

[0001] CENTRIFUGAL HYDROEXTRACTOR FOR SLUDGE [0002]

The present invention relates to a centrifugal dehydrator for sludge, and more particularly, to a centrifugal dehydrator for a sludge, more specifically, to provide a plurality of crushing blades in a rotating blade provided in a screw conveyor to effectively break foreign substances contained in the sludge, To a centrifugal dehydrator for sludge.

Generally, the sludge extraction method is mainly used to inject sludge generated in the process of treating the sewage treatment process, livestock wastewater, etc. into a centrifuge so that the sludge can be concentrated and dehydrated by physical centrifugal force.

Korean Patent Registration No. 407896 discloses such a centrifugal separator.

Such a conventional centrifugal separator is configured to inject sludge into a rotating outer solenoid to separate water and solids from the sludge.

 However, in the conventional centrifugal separator, there is a problem that a drug such as a coagulant needs to be added due to the problem of the cohesion force of the sludge.

In addition, there is a problem that a dehydration effect is deteriorated as well as an overload occurs due to the sticking of solids or the like between the bezel and the outer ball.

Korean Registered Patent No. 407896 (November 20, 2003)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a screw conveyor in which a plurality of shredding blades are provided on a rotary blade, To a centrifugal dehydrator for sludge for improving the dewatering effect of the sludge.

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, A bowl which is open at both ends and in which a space part is formed inward, and which is located inside the casing and in which an extraction hole is formed; A screw conveyor which is located in the space and is provided with a rotating blade having a helical shape along a longitudinal direction on an outer circumferential surface thereof and in which a plurality of hollows are formed; A first driving unit positioned at one side of the casing and connected to one end of the bowl to transmit rotational force to the bowl; A second driving unit located on the other side of the casing and connected to the other end of the screw conveyor to transmit rotational force to the screw conveyor; And a centrifugal rod for supplying un-dried sludge to the inside of the screw conveyor, wherein a plurality of hollows are formed in the screw conveyor to discharge the dried sludge from the non-dried sludge into the space, A centrifugal dehydrator in which a ball is formed and collects the dried sludge, wherein a plurality of crushing blades are provided on a surface of the rotating blades.

The rotary vane according to the present invention is characterized in that a plurality of rotary vane units are integrally connected along the longitudinal direction of the screw conveyor, and a separation distance between adjacent rotary vane units is 20 to 65 mm.

The ball according to the present invention is characterized in that four to eight pulverizing jaws are radially formed on the inner circumferential surface of the ball about the center of the ball.

In the screw conveyor according to the present invention, a plurality of chambers are formed along the longitudinal direction inward, each of the plurality of chambers has a draw-in hole formed on one side thereof, and the last chamber has a hemispherical projection on the other side thereof, At least one of which is formed around each of the plurality of chambers and communicates with the chamber, and the other end of the centrifugal bar passes through the plurality of chambers through the inlet and is adjacent to the protrusions.

The first drive unit according to the present invention includes: a first rotor shaft having both ends thereof opened and connected to one end of the ball; A first screw shaft connecting the first rotor shaft and the bowl so as to communicate with each other; And a first drive motor connected to the first rotor shaft for transmitting a rotational force, the second drive unit including: a second rotor shaft connected to the other end of the screw conveyor; A second screw shaft connecting the screw conveyor and the second rotor shaft; And a second drive motor connected to the second rotor shaft and transmitting a rotational force in a direction different from the first drive motor, wherein the other end of the centrifugal rod is connected to the first rotor shaft and the first screw shaft sequentially And flows into the screw conveyor. The number of revolutions of the bowl and the number of revolutions of the screw conveyor are in a ratio of 1.2: 1 to 2: 1.

The discharge hole according to the present invention is formed on one side of the one end of the bowl and a tapered portion having a larger inner diameter from one end to the other end of the discharge hole is formed between both ends, Is characterized in that it has an angle of 5 to 30 degrees from the other end toward the one end.

The present invention also provides a centrifugal dehydrator for a sludge to which a bowl and a screw conveyor having a rotary blade are coupled to the inside of the casing, wherein the rotary blade is provided with a plurality of crushing blades on the surface thereof, Provide a dehydrator.

According to the present invention, since a plurality of crushing blades are provided on the rotary vane provided in the screw conveyor, foreign matter is effectively crushed and dehydration effect is improved.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 and 2 are a front view and an exploded view showing a centrifugal dehydrator for a sludge according to the present invention.
3 is a vertical sectional view showing a bowl in a centrifugal dehydrator for sludge according to the present invention.
4 is a longitudinal sectional view showing a screw conveyor in the centrifugal dehydrator for sludge according to the present invention.
5 is a perspective view showing a first rotor shaft in the centrifugal dehydrator for sludge according to the present invention.
6 is a perspective view showing a second rotor shaft in the centrifugal dehydrator for sludge according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are a front view and an exploded view showing a centrifugal dehydrator for sludge according to the present invention, FIG. 3 is a longitudinal sectional view showing a bowl in the present invention, FIG. 4 is a longitudinal sectional view showing a screw conveyor in the present invention, 5 is a perspective view showing a first rotor shaft in the present invention, and Fig. 6 is a perspective view showing a second rotor shaft in the present invention.

1 to 6, a centrifugal dehydrator for sludge (hereinafter referred to as "centrifugal dehydrator") 1 according to the present invention comprises a casing 10, both ends open to form a space 21 inwardly A screw conveyor 30 positioned in the space 21 and having a rotating blade 31 spirally extending along the longitudinal direction at an outer circumferential surface of the bowl 10; A first driving part 40 which is located at one side of the bowl 10 and is connected to one end of the bowl 20 to transmit rotational force to the bowl 20, A second driving unit 50 connected to the other end of the screw conveyor 30 to transmit a rotational force opposite to the first driving unit 40 to the screw conveyor 30, And a centrifugal rods 60 that are connected to the rotor.

A plurality of hollows 32 are formed in the screw conveyor 30 so that dried sludge is discharged to the space 21 and a discharge hole 22 is formed in the bowl 20 to collect dried sludge .

The casing 10 may be formed in various shapes, but it is most preferable that the casing 10 is formed in a square shape having a space formed inward when viewed from the front, and the bowl 20 and the screw conveyor 30, .

The bowl 20 has a cylindrical shape extending in the direction of both ends and the discharge hole 22 is formed outside the one end of the bowl 20 to communicate with the space 21.

The ball 20 may have a plurality of crushing jaws 23 on the inner circumferential surface thereof along the longitudinal direction of the ball 20. The plurality of crushing jaws 23 are disposed radially around the central portion of the bowl 20 and can be used in different numbers depending on the amount of un-dried sludge. For example, if the number of the crushing jaws 23 is increased, the dewatering efficiency of the non-dried sludge is improved while the amount of dewatered sludge is reduced. On the contrary, when the number of the crushing jaws 23 is reduced, the dewatering efficiency of the non-dried sludge is relatively lower than that when the number of the crushing jaws 23 is increased, while the amount of dewatered sludge is increased.

The screw conveyor 30 has a cylindrical shape extending in the direction of both ends and the outer peripheral surface of the screw conveyor 30 is formed in a spiral shape along the longitudinal direction of the screw conveyor 30.

The rotary vane 31 may be understood to have a spiral shape in which a plurality of rotary vane units 33 that surround the outer circumferential surface of the screw conveyor 30 in a spiral shape are connected in the longitudinal direction of the screw conveyor 30, And the distance A between the rotary vane units 33 is most preferably 20 mm to 65 mm.

The distance A may be adjusted depending on the amount of non-dried sludge supplied to the screw conveyor 30, the amount of dried sludge discharged from the screw conveyor 30, and the like. For example, reducing the separation distance A improves the dewatering efficiency of the non-dried sludge while reducing the amount of dewatered sludge. On the other hand, when the separation distance A is increased, the dewatering efficiency of the non-dried sludge is relatively lower than that when the separation distance A is reduced, while the amount of dewatered sludge is increased.

It is preferable that the rotary vane 31 is adjacent to the plurality of crushing jaws 23 and the distance therebetween is approximately 1 mm or less and is formed to be 1 mm to 3 mm from the inner circumferential surface of the bowl 20 desirable.

At this time, a plurality of shredding blades 34 may be provided on the surface of the rotary blades 31. The plurality of crushing blades 34 may be formed by overloading of the first and second driving parts 45 and 50 which may be generated between the rotating blades 31 and the plurality of crushing jaws 23, .

Therefore, the centrifugal dehydrator 1 can improve the dewatering efficiency by crushing the large, hard foreign substances contained in the sludge by the plurality of crushing blades 34, and it is also easy to sludge containing a large amount of foreign matter .

Meanwhile, the screw conveyor 30 is inserted into the space 21 through the other end of the bowl 20 having one end opened, and a plurality of chambers 35 are formed along the longitudinal direction inside. The plurality of chambers 35a, 35b and 35c are formed in the direction from the one end to the other end of the screw conveyor 30, and inlet holes 36 are formed at one side of the chamber so that the centrifugal rods 60 can be drawn in. , And the plurality of hollows (32) are formed to communicate with the plurality of chambers (35a, 35b, 35c), respectively.

A hemispherical protrusion 37 is formed on the other side of the chamber 35c that is the last chamber 35c of the plurality of chambers 35a, 35b and 35c. The protrusion 37 is adjacent to the other end of the centrifugal bar 60 do.

The centrifugal rod 60 has both ends and extends in both ends. The other end of the centrifugal rod 60 is sequentially passed through the one end of the bowl 20 and the plurality of chambers 35a, 35b and 35c to be positioned in the last chamber 35c, Un-dried sludge is introduced.

Non-dried sludge from the outside is introduced into the centrifugal rods 60, and the non-dried sludge flowing into the centrifugal rods 60 spreads in four directions while being in contact with the projections 37.

The first driving unit 40 includes a first rotor shaft 41 having both ends opened and connected to one end of the bowl 20 and a second rotor shaft 41 connecting the first rotor shaft 41 and the bowl 20 And a first drive motor 43 connected to the first rotor shaft 41. The first drive shaft 43 is connected to the first rotor shaft 41, The first drive motor 43 may be connected to the first rotor shaft 41 in various known ways.

For example, a first pulley 44 is installed in the first rotor shaft 41, a second pulley 45 is installed in the first drive motor 43, and the first and second pulleys 44 , 45) can be connected by a first belt (46).

The second driving unit 50 includes a second rotor shaft 51 connected to the other end of the screw conveyor 30, a second screw shaft 51 connecting the screw conveyor 30 and the second rotor shaft 51, (52) and a second drive motor (53) connected to the second rotor shaft (51). The second drive motor 53 may be connected to the second rotor shaft 51 in various known ways.

For example, a third pulley 54 is installed in the second rotor shaft 51, a fourth pulley 55 is installed in the second driving motor 53, and the third and fourth pulleys 54 , 55 may be connected by a second belt 56.

Therefore, the bowl 20 and the screw conveyor 30 can be rotated in opposite directions according to the driving of the first and second driving units 40 and 50.

At this time, the number of revolutions of the bowl 20 is 2000 rpm to 12000 rpm, and the number of revolutions of the screw conveyor 30 is preferably 1000 rpm to 10,000 rpm.

That is, it is most preferable that the number of revolutions of the bowl 20 and the number of revolutions of the screw conveyor 30 are 1.2: 1 to 2: 1. At this time, water and dried sludge Can be understood to be best performed.

The first and second driving units 40 and 50 rotate the ball 20 and the screw conveyor 30 in directions opposite to each other and rotate the centrifugal rod 60 from the screw conveyor 30 Dried sludge is discharged into the space 21 through the plurality of hollows 32 and separated into dried sludge and water. The non-dried sludge supplied to the screw conveyor 30 passes through the plurality of chambers 5a, 35b and 35c through the plurality of hollows 32 through the inlet holes 36, And is discharged into the space portion 21 and separated into dried sludge and water.

The dried sludge is conveyed to the discharge hole 22 formed at one end of the bowl 20 and collected, and the water is conveyed to the other end of the bowl 20 and collected.

At this time, the tapered portion 24 is formed between the both ends of the ball 20 so that the inner diameter of the tapered portion 24 is increased from one end to the other end where the discharge hole 22 is located. It is preferable to form the angle (B) between 5 and 30 degrees from the end toward the one end. The angle B is adjusted according to the amount and shape of the non-dried sludge supplied to the screw conveyor 30, the amount of the dried sludge discharged from the screw conveyor 30 to the space 21, Can be used.

For example, when the amount of sludge to be dried is large, the angle B is small. On the contrary, when the amount of sludge to be dried is small, the angle B is increased.

This is to allow the proceeding direction of the dried sludge discharged from the plurality of hollows (32) to be naturally induced in the direction of the discharge hole (22).

The centrifugal dehydrator 1 adjusts the angle B formed in the tapered portion 24 to naturally dry the dried sludge discharged from the plurality of hollows 32 into the discharge hole 22, Can be induced and collected.

1 to 6, the centrifugal dehydrator 1 according to the present invention will be described in detail. In the centrifugal dehydrator 1, non-dried sludge from the outside through the centrifugal rod 60 is introduced into the screw conveyor 30, And the supplied non-dried sludge is discharged to the projections 37 and spreads in all directions.

The ball 20 and the screw conveyor 30 are rotated in different directions according to the driving of the first and second driving units 40 and 50 so that a centrifugal action is generated. The sludge is guided to the chambers 35a, 35b and 35c and the dried sludge is extracted while passing through the hollow 32. [

The dried sludge is finely pulverized by the plurality of pulverizing jaws 23 and the rotary blades 31. The foreign matter and the like contained in the dried sludge are crushed by the crushing blade 34. [ The finely pulverized sludge is led to the discharge hole 22 and collected according to the rotation of the rotary blade 31.

Accordingly, the centrifugal dehydrator 1 is provided with a plurality of crushing blades in the rotary vane provided in the screw conveyor 30, thereby effectively destroying foreign matter and improving the dewatering effect.

The present invention is not limited to the above-described embodiment, but may be applied to other types of centrifugal dehydrators for sludge according to the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Description of the Related Art [0002]
1: Centrifugal dehydrator 10: Casing
20: Bowl 21: Space section
22: Exhaust hole 23: Crushing jaw
24:
30: screw conveyor 31: rotary blade
32: hollow 33: rotating blade unit
34: shredding blades 35a, 35b, 35c: chambers
36: inlet hole 37: projection
40: first drive section 41: first rotor shaft
42: first screw shaft 43: first drive motor
44: first pulley 45: second pulley
46: first belt
50: second driving part 51: second rotor shaft
52: second screw shaft 53: second drive motor
54: third pulley 55: fourth pulley
56: second belt
60: Centrifugal rod
A: separation distance B:

Claims (7)

Casing;
A bowl which is open at both ends and in which a space part is formed inward, and which is located inside the casing and in which an extraction hole is formed;
A screw conveyor which is located in the space and has a helical rotary blade integrally connected to a plurality of rotary blade units along the longitudinal direction on an outer circumferential surface thereof and in which a plurality of hollows are formed;
A first driving unit positioned at one side of the casing and connected to one end of the bowl to transmit rotational force to the bowl;
A second driving unit located on the other side of the casing and connected to the other end of the screw conveyor to transmit rotational force to the screw conveyor; And
And a centrifugal rod for supplying non-dried sludge to the inside of the screw conveyor,
Wherein the screw conveyor has a plurality of hollows formed therein, the sludge dried from the non-dried sludge is discharged to the space, the discharge hole is formed in the bowl, and the dried sludge is collected,
The above-
4 to 18 crushing jaws are radially formed on the inner circumferential surface along the longitudinal direction about the central portion of the ball,
A plurality of shredding blades are provided on a surface of the rotary blade,
Wherein the plurality of shredding blades
And crushing foreign matter existing between the rotary blade and the plurality of crushing jaws,
The number of revolutions of the bowl is 2000 rpm to 12000 rpm, the number of revolutions of the screw conveyor is 1000 rpm to 10000 rpm,
The number of revolutions of the bowl and the number of revolutions of the screw conveyor,
1.2 to 1 to 2: 1. ≪ RTI ID = 0.0 > 11. < / RTI > The method according to claim 1,
And a separation distance between the adjacent rotary vane units is 20 to 65 mm. delete The method according to claim 1,
The screw conveyor includes:
A plurality of chambers are formed along the longitudinal direction inside,
Each of the plurality of chambers has an inlet hole on one side thereof and a hemispheric protrusion on the other side thereof.
The hollow,
Wherein at least one of the plurality of chambers is formed around each of the plurality of chambers,
The centrifugal rod
And the other end passes through the plurality of chambers through the inlet hole to be adjacent to the projections. The method according to claim 1,
Wherein the first driving unit includes:
A first rotor shaft having both ends open and connected to one end of the bowl;
A first screw shaft connecting the first rotor shaft and the bowl so as to communicate with each other;
And a first drive motor connected to the first rotor shaft for transmitting a rotational force,
Wherein the second driver comprises:
A second rotor shaft connected to the other end of the screw conveyor;
A second screw shaft connecting the screw conveyor and the second rotor shaft; And
And a second drive motor connected to the second rotor shaft and transmitting a rotational force in a direction different from the first drive motor,
The centrifugal rod
And the other end is sequentially passed through the first rotor shaft and the first screw shaft and flows into the inside of the screw conveyor. The method according to claim 1,
The discharge hole is formed outside one end of the bowl,
The above-
A tapered portion having a larger inner diameter from one end to the other end in which the discharge hole is located is formed between both ends,
The tapered portion,
And an angle between 5 and 30 degrees from the other end toward the one end. delete

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