KR20160023123A - Sludge exhaust with elasticity plate for dehydrator - Google Patents

Abstract

The present invention relates to a sludge outlet having an elastic plate for a dehydrator. More particularly, the sludge outlet for a dehydrator in the present invention has an elastic plate which can organizationally adjust the amount of contained water in sludge discharged by enabling fine adjustment of the pressure. According to the present invention, the sludge outlet for dehydrator, which can easily discharge sludge, comprises an elastic plate at the end of the sludge outlet. The elastic plate comprises: a main body having linkage holes arranged at regular intervals along the outer circumference; a central groove formed with a certain radius at the center of the axis of the main body; and a plurality of wings which are cut in a radial form along the outer circumference of the central groove and can flexibly move and be restored by elasticity.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sludge exhaust with elastic plate,

The present invention relates to a sludge outlet for a dewatering device having an elastic plate, and more particularly, to a sludge outlet for a dewatering device having an elastic plate capable of organically controlling the water content of discharged sludge by enabling fine adjustment of pressure will be.

In recent years, there are methods such as landfill, incineration, and recycling for final disposal of organic sludge, but there is a real need to find ways to minimize the environmental pollution and reduce the processing cost in the final treatment process .

In particular, when the organic sludge having a high water content is buried, the odor generated in the sludge transportation process and the environmental pollution problem due to the leakage of the wastewater may occur. By lowering the sludge water content by about 20% and halving the sludge weight, Not only can rain be saved, but leachate leakage can also be solved.

Also, when incinerating organic sludge, the incineration efficiency is low as well as the problem of air pollution caused by it is becoming a serious social problem as well as economic burden and technical difficulties in improving the best incineration method . Therefore, if the water content can be lowered, the amount of sludge can be significantly reduced to reduce the incineration cost and achieve high efficiency.

As described above, it can be inferred that the dehydration and drying of the organic sludge is a crucial factor in not only reducing the processing cost but also reducing environmental pollution in the process of sludge landfill, incineration and recycling.

That is, the purpose of dewatering the organic sludge is to remove moisture contained in the sludge to reduce the transportation cost to the final disposal site, to prevent the burial process, and to increase the value of the sludge as fuel by incineration.

Currently, mechanical dewatering is the most commonly used. Filtration and dewatering methods for separating sludge solids and moisture from porous media (follicles or sand) and machine dewatering methods that do not use filter media can be broadly categorized. In case of no problem, natural drying method is also used.

In particular, vacuum sieving, pressure filtration, centrifugal dehydration and belt pressing are also available for dewatering and discharging organic sludge.

However, with such a mechanical method, it is difficult to cope with minute pressure changes, and the structure is complicated, so that inconvenience is required in order to cope with passive pressure change, and not only the production cost due to a lot of processing work is increased, There is a problem that a skidding phenomenon occurs in the front end portion.

Meanwhile, in the prior art 'sludge dewatering device for livestock slaughterhouse', the sludge dewatering material is controlled to control the squeezing force to increase the dewatering effect. However, since the pressure distribution during the sludge drainage is uneven, .

Accordingly, it is a time to actively compensate for the disadvantages of the conventional method by applying the elasticity of the synthetic resin rather than the conventional mechanical method to the screw press method widely used for the organic sludge dewatering.

Korean Registered Patent No. 10-1174603, Aug., 2012 Registered Person.

It is an object of the present invention to provide a sludge outlet for a dewatering device having an elastic plate capable of organically controlling the amount of discharged sludge by regulating the pressure of the sludge outlet.

In order to achieve the above object, there is provided a sludge outlet for a dewatering device having an elastic plate according to the present invention, the sludge outlet having an elastic plate at an end of the sludge outlet, A formed body; A central groove formed at a center of the body shaft at a predetermined radius; And a plurality of blades radially cut along an outer periphery of the central groove and flexibly moved by elasticity to be restored.

And the wings are formed to be narrower than the width formed on the circumferential side of the main body at the center groove circumferential side.

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

The sludge outlet for the dewatering device having the elastic plate according to the present invention by means of the above-described means is not only easy to install but also can prevent the sludge that is dewatered from being accumulated in the sludge outlet, thereby achieving low cost and high efficiency There is an effect.

1 is a sectional view showing a sludge discharge port using a gravity weight.
2 is a sectional view showing a sludge discharge port using an elastic spring.
3 is a front view of an elastic plate according to 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.

Prior to describing the present invention, a mechanical method using a gravity weight or using an elastic spring is generally used to adjust the pressure of the sludge discharge port.

1 is a sectional view showing a sludge discharge port using a gravity weight.

Referring to FIG. 1, the gravity weighting method has a relatively simple shape, and the pressure is controlled by making the weight of the weight heavier or lighter.

However, when the pressure change is uneven due to the solidification phenomenon occurring near the hinge 20 and sudden pressure change occurs as the dehydrated solids are discharged in the open direction, the pressure is increased only to the open portion, Which is not dehydrated, is discharged as it is, resulting in environmental pollution.

In order to prevent this, when the weight of the weight is further increased, the pressure is increased so much that the undesirable amount of the fine solids increases in the liquid material desorbed from the solid material during the dehydration, which may adversely affect the subsequent process after the dehydration.

2 is a sectional view showing a sludge discharge port using an elastic spring.

Referring to FIG. 2, the elastic spring system has a relatively complicated structure than the gravity weight system. That is, since the elastic adjusting screw 30 for artificially adjusting the elasticity of the spring is provided, it can be seen that the elasticity adjustment is easier than the gravity weight method.

However, it has a complicated structure as compared with the gravity weighting method, which requires a large cost, and there is a problem that the life span of the elastic spring 40 is limited and a fatigue breakage occurs. In this case, in order to replace the elastic spring, a lot of labor is required, and the dehydrated solid may be trapped in the spring, which may result in failure to fulfill its original role.

In this case, a load is generated in the power unit or the power transmission unit to cause a secondary accident. In addition, in the former stage of the sludge discharge port 10, the solidification of the solid material frequently occurs, It is troublesome to install a separate scraper for assisting the discharge of dehydrated solids.

Accordingly, in order to improve the existing mechanical pressure control method, by utilizing the shape characteristic applying the biomimetic method by using the synthetic resin elastic body which does not use the method of using the steel material (steel, stainless) The present invention aims at developing a sludge discharge technology for a dewatering device having an elastic plate.

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

3 is a front view of an elastic plate according to a preferred embodiment of the present invention.

As shown in FIG. 3, a main body 100 having a coupling hole 102 formed at an end of a sludge outlet for a dewatering device according to a preferred embodiment of the present invention, A central groove 200 formed at a predetermined radius in the center, and an elastic plate composed of a plurality of vanes 300 radially cut along the outer periphery of the central groove 200, to be.

The main body 100 is formed in a circular shape to maintain the shape of the elastic plate, and the coupling holes 102 may be formed at regular intervals on the outer periphery.

At this time, the coupling hole 102 is a part which can be additionally formed so as to be conveniently installed outside or inside the sludge discharge hole 10. That is, the coupling hole 102 may be coupled through a coupling protrusion (for example, a screw connection) formed corresponding to the sludge outlet 10.

The central groove 200 is formed in a circular shape at the center of the main body 100 and may be formed to prevent a deterioration of the life of the blade 300 due to the sludge solids. That is, if the central groove 200 is not formed, the sludge solid matter is discharged, which may cause a deterioration in life of the central wing 300 of the main body 100.

That is, the width of the blade 300 located at the center of the main body 100 is narrow and the blade 300 may be damaged due to the pressure of the discharged sludge solid.

However, it is not necessary to form the central groove 200 according to the manufacturing condition, and the size of the central groove 200 is not necessarily limited to any size.

The wing 300 has a shape that becomes wider as it goes from the center to the outer periphery of the main body 100 and can move in accordance with the amount and pressure of the sludge solid discharged from the sludge outlet 10 .

More precisely, the wings 300 are formed to have a narrower width formed around the central groove 200 than the width formed on the periphery of the main body 100.

This is because the sludge solids to be discharged to the outside are designed to move in a self-moving manner so that they can be discharged more easily. When the pressure of the discharged sludge applied to the vanes 300 decreases, the original shape of the vanes 300 As shown in Fig.

Accordingly, it is possible to prevent the solidification of the sludge from clogging the discharge port by the function of the vane 300 capable of fluid movement.

The width of the wings 300 is narrowly formed on the side of the central groove 200, and the width of the wings 300 is narrower than the wings 300 ) Is widened.

When a relatively low pressure is applied, only the vanes 300 close to the central groove 200 are opened. When a relatively high pressure is applied, the peripheral edge of the central groove 200 is brought close to the outer peripheral side of the main body 100, The width of the vane 300 is wider than the width of the vane 300, so that it is possible to control the pressure of the elastic plate in an organic manner according to the pressure.

Compared with the gravity load method using the conventional gravity weight or the elastic load method using the elastic spring, it is possible to control the pressure more precisely, and it shows not only excellent workability but also excellent appearance design aspect.

In addition, it can be seen that the possibility of secondary contamination is remarkably low because there is no rubbing phenomenon of dewatered sludge solid compared with the conventional method.

In addition, it has a semi-permanent life span, and it is easy to attach and detach even when replacing after a lapse of life, and the manufacturing method and installation method are simple, so that high efficiency can be achieved at low cost and at the same time, And the possibility of a secondary accident is reduced.

On the other hand, the shape of the camera diaphragm of the elastic plate is not limited to a typical model, but various types of designs can be incorporated. That is, the wings 300 on the side of the central groove 200 may have a smaller width and may have a larger width toward the outer periphery of the main body 100, and the wings may be formed in the form of a camera diaphragm or a bud There is also a form available.

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

4- (a), when the solid content of the sludge discharged through the elastic plate composed of the central groove 200 and the plurality of vanes 300 is small, the pressure is lowered so that the respective vanes 300 are separated from the sludge outlet 10), and then the restoring force is required to be reduced.

Referring to FIG. 4- (b), when the solid content of the sludge discharged through the elastic plate is large, the pressure is increased, and each blade 300 is unfolded to protrude outside the sludge discharge port 10, . Accordingly, the blade 300 can control the pressure of the sludge according to the self pressure applied to the sludge to be discharged to the outside of the elastic plate.

However, the elastic plate may be made of any material which can move flexibly according to the pressure of rubber, urethane, silicone and soft plastic. The number of the wings 300 of the elastic plate is not limited, and may be selectively increased or decreased according to need. Further, each of the vanes 300 may be formed in a mutually overlapping form.

As described above, the sludge outlet for the dewatering device having the elastic plate according to the present invention was invented in order to drastically improve the existing mechanical pressure control method such as the steel material (steel material, stainless steel), and the sludge solid material It is possible to prevent the phenomenon of being trapped in the discharge port and also to control the organic pressure according to the amount of the discharged sludge solids, thereby enabling the fluid treatment of the sludge.

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 intended to be illustrative, and the scope of the technical idea 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.

10: sludge discharge port 20: hinge
30: elastic adjustment screw 40: elastic spring
50: Pressure plate 100: Body
102: coupling ball 200: central groove
300: wing

Claims (3)

A sludge discharge port for a dewatering device,
A sludge discharge port having an elastic plate at an end thereof,
Wherein the elastic plate comprises:
A main body 100 having engagement holes 102 formed at regular intervals along the periphery of the outer periphery;
A central groove 200 formed at a center of the axis of the main body 100 and having a predetermined radius; And
And a plurality of vanes (300) radially cut along an outer periphery of the central groove (200) and formed to be elastically and flexibly moved and restored. The method according to claim 1,
The wings (300)
Wherein a width formed on the periphery of the central groove (200) is narrower than a width formed on the periphery of the main body (100). The method according to claim 1,
Wherein the elastic plate comprises:
Wherein the elastic plate is made of a material selected from the group consisting of rubber, urethane, silicone and soft plastic.

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