KR20150136242A - Dehydrator of organic sludge - Google Patents

Abstract

The present invention relates to a dehydrating apparatus for treating an organic sludge and, more specifically, to a dehydrating apparatus for treating an organic sludge which can reduce the amount of leachate which is produced in a process of transferring the organic sludge. The dehydrating apparatus of the present invention comprises: a hopper having a supply screw inside, and supplying the sludge, inputted through an upper portion, to a lower portion; a perforation slit screen of a taper shape installed in a lower portion of the hopper, having a transfer screw, which is connected to a first motor and rotated to make the sludge be compressed inside, and firstly dehydrating the sludge as being composed of holes of a slit shape; a wedge wire screen connected to an end portion of the perforation slit screen, composed of a plurality of wire members, which are sequentially installed close to each other at regular intervals to form a cylindrical shape, and coupling members, which are formed to be combined as each wire member is inserted into grooves of a concavo-convex surface side formed on one side, and secondly dehydrating the firstly dehydrated sludge; and a sludge outlet installed in an end portion of the wedge wire screen, and discharging the secondly dehydrated sludge.

Description

[0001] The present invention relates to a dehydrator of organic sludge,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a dewatering apparatus for treating organic sludge, and more particularly, to a dewatering apparatus for treating organic sludge capable of reducing the amount of leachate generated in the transfer of organic sludge.

Generally, there are methods such as landfill, incineration, and recycling in the final disposal of organic sludge. However, methods for minimizing the environmental pollution in the final treatment process as well as a method for reducing the disposal cost should be sought.

In particular, when the organic sludge with a high water content is buried, the sludge weight can be reduced by about 20% by lowering the moisture content of the sludge due to the odor generated in the sludge transportation process and environmental pollution caused by the leakage of the waste water. And leakage of leachate can be solved.

As the sludge is incinerated, the incineration efficiency is low as well as the organic sludge with a high water content is incinerated. The problem of air pollution due to it is spreading to serious social problems. The economic burden and technical difficulty This is the situation that follows. Here, if the water content can be lowered, the amount of sludge can be significantly reduced to reduce the incineration cost and achieve high efficiency.

Thus, dehydration and drying of the organic sludge is a very important key to reduce environmental pollution as well as reduce the processing cost in the process of sludge landfill, incineration and recycling.

In the case of organic wastes (livestock manure, food, sewage sludge, organic vegetable residues, wastewater / manure sludge, etc.), it occurs in various fields, but the pre-treatment equipment that can treat it is insufficient. Which is a cause of lowering the profitability. In addition, there is a problem of leachate generated during the transportation of the sludge, and the leachate flows into the groundwater and is in a condition to cause secondary pollution.

In the prior art 'sludge dewatering apparatus for livestock sludge dewatering apparatus according to the related art, the sludge dewatering material is controlled to adjust the squeezing force to increase the dewatering effect. However, since the hole of the screen is large, the solid concentration of the treated water increases, There is a problem that frequent washing control is required or the dehydration power is low, and the cost of using auxiliary materials (sawdust, rice husk, etc.) is increased during composting.

Korean Patent Registration No. 10-1174603, Aug., 2012 Registered in person.

Disclosure of the Invention The present invention has been made in order to solve the above-described problems, and it is an object of the present invention to provide a dewatering apparatus for treating organic sludge capable of lowering the moisture content of organic sludge and reducing the amount of leachate generated during transporting sludge, The purpose is to provide.

According to an aspect of the present invention, there is provided a dewatering apparatus for treating organic sludge, comprising: a hopper having a supply screw installed therein for supplying sludge to an upper portion; A tapered perforated slit screen provided at a lower portion of the hopper and having a transfer screw connected to the first motor for sludge squeezed therein so as to be squeezed therein and having a slit-shaped hole for primarily dewatering the sludge; A wire member provided so as to communicate with the end portion of the perforated slit screen and having a plurality of portions successively adjacently arranged at regular intervals so as to form a cylindrical shape and a coupling member formed to be inserted into the groove of the uneven surface formed on one side, A wedge wire screen comprising a first dehydrated sludge and a second dehydrated sludge; And a sludge discharge port provided at an end of the wedge wire screen and discharging the secondary sludge discharged therefrom.

The sludge discharge port is further provided with an elastic plate for blocking the discharged second dehydrated sludge with an elastic force, wherein the elastic plate has a hole through which the transfer screw penetrates at the center, And a plurality of vanes formed so as to be smoothly moved and restored.

The elastic plate is characterized by being made of any one of rubber, urethane, silicone and soft plastic.

A pressure blocking plate that presses the elastic plate by an elastic return force of the elastic member and a pressing force of the pressure blocking plate by regulating a compression amount of the elastic member to the end of the conveying screw penetrating the elastic plate, And a screw for controlling the screw is further provided.

And a plurality of blades fixed radially around the rotation axis of the transport screw are further formed outside the pressure blocking plate.

The dewatering apparatus for treating organic sludge according to the present invention solves the malodor of the sludge by reducing the water content of the organic sludge discharged through the perforated slit screen and the wedge wire screen through the elastic plate But the sludge weight can be reduced to reduce the sludge treatment cost.

1 is an overall schematic diagram according to a preferred embodiment of the present invention;
2 is a perspective view of a perforated slit screen according to a preferred embodiment of the present invention.
3 is a front view and partial cross-sectional view of a wedge wire screen in accordance with a preferred embodiment of the present invention.
4 is a view showing an example of the shape of an elastic plate according to a preferred embodiment of the present invention.
5 is a detailed view of a pressing means according to a preferred embodiment of the present invention;

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

1 is an overall schematic view according to a preferred embodiment of the present invention.

1, the hopper 100, the perforated slit screen 200, the wedge wire screen 300, and the sludge discharge port 400 are basically provided in a basic .

First, the hopper 100 will be described.

The hopper 100 has a conical structure having a large upper diameter and a small lower diameter. The hopper 100 is provided with a supply screw 102 to supply the sludge injected into the upper part to the lower part. The sludge is introduced into the slit screen (200) and the wedge wire screen (300).

In addition, the feed screw 102 has a function of moving the sludge put on the upper part of the hopper 100 to the perforated slit screen 200 located at the lower part as the second screw 104 rotates, The clogging of the inside of the hopper 100 due to the sludge can be prevented.

Next, the perforated slit screen 200 will be described.

2 is a perspective view of a perforated slit screen 200 according to a preferred embodiment of the present invention.

2, the perforated slit screen 200 has a tapered shape formed horizontally at a lower portion of the hopper 100 to form a slit hole 204, which is a slit-shaped hole, The sludge supplied from the bottom of the perforated slit screen 200 through the inlet port 208 is connected to the first motor 206 to be squeezed so as to be rotated, It plays a role.

That is, as the transport screw 202 rotates, the sludge is transported in a direction having a small diameter from a large diameter to increase the squeezing force, thereby enhancing the dewatering effect of the sludge.

When the pressure of the sludge in the perforated slit screen 200 is applied to the slit hole 204 at the start of dewatering according to the rotation of the feed screw 202, And is discharged through the treated water outlet 210. [0050] As shown in FIG. Thus, the dehydrated process water drainage of the viscous organic sludge through the innumerable slit holes 204 can be smooth. In addition, the water content of the sludge discharged through the sludge outlet (400) can be lowered to minimize the pollution of the water quality environment. In addition, the innumerable slit holes 204 are formed, so that drainage of the dehydrated filtrate of the viscous organic sludge can be smoothly performed.

The feed screw 202 is provided with a screw blade 202b formed on a rotary shaft 202a formed so as to penetrate through the inside of the perforated slit screen 200 and is fixed to one end of the rotary shaft 202a 1 motor according to the power of the motor 206, the sludge is compressed by rotating in the perforated slit screen 200 to separate the treated water from the solid portion of the sludge.

The first motor 206 operates in accordance with a control signal from a control unit (not shown). The first motor 206 operates according to the kind of the sludge to be separated, Can be applied to various types of organic sludge such as food waste, livestock manure, and slaughtered sludge (sludge generated by immersion in the inside of manure and hair in water during slaughter).

It is preferable that the rotation axis 202a is formed to have an excess length sufficient to penetrate the inside of the perforated slit screen 200 and the wedge wire screen 300. The first motor 206 And a pressing means 500 is installed at the other end of the rotating shaft 202a. The wedge wire screen 300 and the pressing means 500 will be described later.

On the other hand, the perforated slit screen 200 in which a large number of slit holes 204 are formed can be manufactured by injection molding with a rustproof metal material or a synthetic resin material having excellent durability, and can be manufactured by any material capable of withstanding pressure It is possible to produce.

Next, the wedge wire screen 300 will be described.

3 is a front view and a partial cross-sectional view of a wedge wire screen 300 in accordance with a preferred embodiment of the present invention.

3- (a) shows a front view of a wedge wire screen 300 according to a preferred embodiment of the present invention, and Fig. 3- (b) shows a front view of a wedge wire screen 300 according to a preferred embodiment of the present invention. Sectional view. The wedge wire screen 300 includes a wedge wire screen 300 and a wedge wire screen 300. The wedge wire screen 300 includes a plurality of wire-shaped wire members 302 disposed adjacent to each other at regular intervals so as to form a cylindrical shape, The sludge of the first dehydrated sludge is connected to the end of the perforated slit screen 200 in a manner that the plurality of wire members 302 are inserted into the groove of the wire member 304a, 302) and the wire member (302) through a hole, which is a space between the wire member (302) and the wire member (302).

More specifically, the grooves of the wire member 302 and the uneven surface 304a have a triangular cross section, and both side surfaces of the wire member 302 and both side surfaces of the grooves of the uneven surface 304a are joined and bonded, . In addition, the distance between the wire members 302 can be uniformly maintained at a minimum of 0.01 mm, thereby improving the dehydration force and maintaining the uniformity of the treated water.

In addition, since the end of the perforated slit screen 200 and the wedge wire screen 300 are provided so as to communicate with each other, the dehydrated water of the sludge is progressed in the perforated slit screen 200, The water content of the sludge discharged through the sludge outlet (400) can be lowered to 10 to 20% by passing the sludge through the wedge wire screen (300).

At this time, it is preferable that the end of the perforated slit screen 200 and the wedge wire screen 300 are welded together or combined with bolts and nuts.

Next, the sludge discharge port 400 will be described.

The sludge outlet 400 is installed at an end of the wedge wire screen 300 so that the sludge discharged from the sludge outlet 400 is finally discharged. And the elastic plate 402 is further provided to press the dewatered sludge with an elastic force to increase the dewatering force.

4 is a view showing an example of the shape of the elastic plate 402 according to the preferred embodiment of the present invention.

Referring to FIG. 4- (a), the elastic plate 402 has a hole 402a through which the conveying screw 202 passes, a hole 402a formed radially on the outer periphery of the hole 402a, The wings 402b are formed in a circular shape to include a plurality of blades 402b that are formed so as to move smoothly. The wings 402b have a shape that becomes wider toward the outer periphery of the elastic plate 402 from the holes.

Referring to FIG. 4- (b), when the pressure of the sludge discharged through the elastic plate 402 including the hole 402a and the plurality of vanes 402b is low, the respective vanes 402b are separated from the sludge outlet The force to be restored by being projected to the outside of the housing 400 is reduced.

Referring to FIG. 4- (c), when the pressure of the sludge discharged through the elastic plate 402 is high and the pressure of the sludge is high, the force that the respective vanes 402b are unfolded and restored to protrude to the outside of the sludge outlet 400 It grows. Therefore, depending on the pressure applied to the elastic plate 402 by the discharged sludge, the blade 402b can control the pressure finely organically and finely.

However, the elastic plate may be made of rubber, urethane, silicone, flexible plastic or the like, which can be flexibly moved according to the pressure. The number of the blades 402b of the elastic plate 402 is not limited, and can be optionally increased or decreased as needed. In addition, each wing 402b can be used in a mutually superimposed form.

5 is a detailed view of the pressing means 500 according to a preferred embodiment of the present invention.

5- (a), an end portion of the conveying screw 202 passing through the elastic plate 402, that is, more specifically, the other end of the rotating shaft 202a, which is a component of the conveying screw 202, The pressing amount of the pressure blocking plate 504 by adjusting the amount of compression of the pressure blocking plate 504 and the elastic member 502 that presses the elastic plate 402 by the elastic returning force of the member 502 and the elastic member 502, A pressing means 500 having a screw 506 as a constituent element may be installed. However, it is preferable to use a spring having a good elastic force.

The restoring force of the blade 402b of the elastic plate 402 may be influenced by the pressing degree of the pressing means 500. [ The elastic member 502 located between the screw 506 and the pressure blocking plate 504 is disposed on the side of the sludge outlet 400 or the elastic plate 402 from which the sludge transferred through the transfer screw 202 is discharged. The pressure-blocking plate 504 is pressed against the elastic plate 402.

In addition, since the screw 506 is fixed by adjusting the position of the rotary shaft 202a in one end or the other end direction, the space through which the sludge is discharged from the elastic plate 402 is widened or reduced. As a result, Can be increased or decreased.

Accordingly, it is possible to maximize the dewatering effect of the sludge by moving and fixing the screw 506 according to the water content of the discharged sludge.

5B, a plurality of blades 504a fixed radially around the rotation axis 202a, which is a component of the feed screw 202, may be additionally provided on the outside of the pressure blocking plate 504, And the sludge discharge port 400 is viewed from the side. The reason why the blade 504a is formed on the outside of the pressure blocking plate 504 is to scrub the accumulated solid portion of the sludge discharged to the outside of the sludge discharge port 400 and facilitate the discharge.

At this time, the number of blades 504a formed outside the pressure blocking plate 504 is not limited.

As described above, the dewatering apparatus for organic sludge treatment according to the present invention is characterized in that the sludge is passed through a perforated slit screen (200) having a slit-shaped hole to primarily remove the treated water of the sludge, The sludge is passed through the wedge wire screen 300 to enable the residual water of the sludge and the fine sludge to be filtered and the moisture content of the sludge solid discharged due to the elastic plate 402 discharged from the sludge according to the pressure, Can be adjusted to 10 to 20%.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention may be embodied otherwise without departing from the spirit and scope of the invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but are for the purpose of explanation, and the scope of technical spirit of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

100: hopper 102: feed screw 104: second motor
200: perforated slit screen
202: conveying screw 202a: rotating shaft 202b: screw blade
204: Slit hole 206: First motor 208: Inlet port 210: Processed water outlet
300: Wedge wire screen 302: Wire member 304: Coupling member 304a: Uneven surface
400: sludge outlet 402: elastic plate 402a: hole 402b: wing
500: pressing means 502: elastic member 504: pressure blocking plate 504a: blade 506: screw

Claims (5)

A hopper 100 installed inside the supply screw 102 to supply the sludge injected into the upper part to the lower part;
And a conveying screw 202 installed at a lower portion of the hopper 100 and connected to the first motor 206 so that the sludge can be squeezed inside the hopper 100. The conveying screw 202 is slit- A perforated slit screen 200 of a tapered shape;
A wire member 302 provided to be in communication with an end of the perforated slit screen 200 and having a plurality of portions successively adjacent to each other at regular intervals to form a cylindrical shape, A wedge wire screen 300 composed of an engaging member 304 formed to be inserted and joined to the first dehydrated sludge 302, and second dehydrating the first dehydrated sludge;
And a sludge discharge port (400) installed at an end of the wedge wire screen (300) and discharging the secondary sludge discharged therefrom. The method according to claim 1,
In the sludge outlet (400)
And an elastic plate (402) for closing the discharged second dehydrated sludge by an elastic force,
The elastic plate (402)
A hole 402a through which the conveying screw 202 passes, and a plurality of blades 402b that are radially cut on the outer circumference of the hole 402a and are formed so as to move smoothly by self-elasticity Characterized in that it is a dehydrator for organic sludge treatment. 3. The method of claim 2,
The elastic plate (402)
Wherein the dewatering material is one of rubber, urethane, silicone, and soft plastic. The method according to claim 1,
At an end portion of the conveying screw 202 passing through the elastic plate 402,
A pressure blocking plate 504 for pressing the elastic plate 402 by an elastic return force of the elastic member 502 and a compression amount of the elastic member 502, Further comprising a screw (506) for controlling the pressing force of the sludge tank (504). 5. The method of claim 4,
On the outside of the pressure-blocking plate 504,
Wherein a plurality of blades (504a) radially fixed around a rotating shaft (202a) of the conveying screw (202) are additionally formed.

Images