KR200394610Y1 - The sludge distributor - Google Patents

Abstract

The present invention relates to a device for uniformly distributing sludge generated during the treatment of sewage or waste water.

The sludge dispenser of the present invention includes a cylindrical body (11) having both ends of the rotary shaft (X) penetrating portion closed and a charging opening (I) provided at one side thereof; A feed screw (12) rotatably coupled to the inside of the body (11); It consists of a plurality of discharge pipe 13 is coupled to the lower outer peripheral surface at regular intervals along the axial direction of the body (11).

Since the sludge distributor of the present invention can improve the dewatering efficiency while using the conventional sludge concentrator and the belt type dehydrator as it is, the sludge treatment capacity can be increased, and the installation cost is low.

Description

Sludge distributor {The sludge distributor}

The present invention relates to a device for uniformly distributing sludge generated during the treatment of sewage or wastewater, and more particularly, a sludge injector for supplying sludge to a sludge concentrator and a belt type dehydrator installed in a sewage or wastewater treatment plant. When the sludge discharged from the condenser is supplied to the sludge feeder, the sludge is distributed and charged in the width direction of the dehydrator so that the sludge can be easily dispersed in the width direction of the dehydrator in the feeder, so that sludge dewatering in the dehydrator is efficiently carried out. It relates to a sludge dispenser to be made.

As interest in environmental pollution has increased due to the development of industrial technology and improved living standards, regulations on the emission of various pollutants are becoming more strict, and accordingly, it is necessary to purify and discharge various pollutants before discharge. to be.

In particular, among the various pollutants, water-related contaminants are insufficient, no matter how much attention is concerned. Water is essential for the life phenomena of all living things and is a basic substance as Korea is classified as a water shortage country.

In the case of water, which is an important resource as described above, the pollution can be largely divided into two aspects, one of which is wastewater and sewage generated at each industrial site, and the other is living sewage. What happens at the site is to be purified and discharged at each factory, and domestic sewage is installed and managed by the national or local government.

As mentioned above, Korea, which is a water-deficient country in the future, must actively prevent pollution of river water, which is a source of drinking water and living water, for the efficient management of water resources. Therefore, the treatment efficiency of sewage or wastewater treatment plants is very important.

One of the important matters in the above sewage or wastewater treatment plant is the treatment of sludge generated during the treatment of sewage or wastewater, and the sludge treatment efficiency is determined so that the treatment efficiency is determined depending on how efficiently the sludge is treated. It is a very important factor.

As described above, the sludge generated by the reaction and sedimentation with various chemicals in the sewage or wastewater treatment process is caked through the concentration process, and the general sewage treatment process is as follows.

The sewage is discharged after passing through the sedimentation site → the first sedimentation basin → the aeration tank → the final sedimentation basin → the disinfection facility, and the sludge generated at the initial sedimentation basin during the above process is processed into a condensate, digestion, etc. The sludge that has not been treated in the process is returned to the settling basin and undergoes a reprocessing process, and the sludge's improper treatment increases the load in the sewage treatment process.

Processes that have the most important influence on the sludge treatment capacity in the above processes include sludge thickening facilities and dehydrators. These two facilities are quite expensive, and if they want to increase existing sewage treatment capacity, The cost of investment to increase capacity is an obstacle.

Therefore, it is important to maximize the design capacity of each facility rather than increasing the design capacity of the thickening facility or the dehydrator itself, and to do so, the content of the total sludge solids contained in the sludge to be treated should be increased. .

In other words, the total solid content of sludge from the initial and final sedimentation basin in general sewage or wastewater treatment process varies depending on the season and other treatment conditions, but is approximately 2-4% by weight and 0.5-1% by weight. Various types of enrichment facilities have been developed to increase this.

The above-described various thickening equipment is a pre-processing device of the dehydrator, and when the belt type dehydrator is used in the dehydrating process, which is a post-processing equipment of the thickening equipment, the conventional thickening equipment has the following problems.

The belt-type dehydrator is rotated together in a state in which the dehydrator, which can pass only moisture except a solid content, such as a nonwoven fabric, is disposed up and down facing each other, and is moved between a plurality of pressing rolls arranged up and down. The sludge is supplied between the two dehydrating cloths, so that the sludge interposed between the two dehydrating cloths is passed along with the dehydrating cloths between the pressing rolls and dehydrated.

Therefore, in order to achieve efficient dewatering of the sludge in the belt-type dehydrator, the sludge should be supplied to the lower dewatering cloth in a state in which the sludge is uniformly dispersed in the width direction of the dehydrating cloth, that is, the axial direction of the sticking roll. Since sludge cannot be uniformly distributed and supplied, a sludge injector having rotary blades in which a plurality of plate blades are radially coupled along the axial direction on the outer circumferential surface of the rotating shaft may be installed between the concentrator and the dehydrator.

That is, the sludge discharged from the concentrator is distributed in the width direction of the dewatering bubble in the injector and then supplied to the dehydrator, but since the first supply form of the sludge discharged from the concentrator is concentrated in one place, Nevertheless, there is a limit to improving the dispersion of sludge, and accordingly, the degree of improvement of the dewatering efficiency is insignificant.

The present invention was devised to solve the problems of sludge dewatering in the conventional thickener and dehydrator for improving the sludge treatment efficiency while maintaining the facilities of sewage or wastewater treatment plants. The purpose of the present invention is to provide a sludge distributor which improves the efficiency of the condenser while increasing the dewatering efficiency of the sludge by dispersing the sludge discharged from the concentrator to the sludge injector as uniformly as possible in the width direction of the dehydrator. .

The object of the present invention is achieved by a conveying screw for moving the sludge and a plurality of discharge pipes arranged in a row along the axial direction at the bottom of the tank.

The sludge distributor of the present invention is installed between the sludge concentrator and the sludge injector of the sewage or wastewater treatment plant, and the sludge discharged from the concentrator is first dispersed in the width direction of the dewatering bubble and supplied to the sludge injector. The secondary dispersed sludge is charged to the upper and lower compression dehydrator in a more evenly dispersed state.

That is, the sludge distributor of the present invention is a top and bottom pressurized dehydrator having two dehydrators which rotate in a closed loop and face up and down, respectively, in the width direction of the dehydrator, which is orthogonal to the advancing direction of the dehydrater. The sludge is uniformly distributed in the axial direction of the pressing roll, so that the sludge is uniformly compressed when the sludge is pressed and dehydrated by the pressing roll, thereby improving the dewatering efficiency.

The sludge distributor of the present invention, which serves as described above, has a cylindrical body, a feed screw that rotates inside the body by a drive motor outside the body, and a plurality of discharge pipes arranged at regular intervals below the body along the axial direction. It is composed as follows.

The body is sealed in both ends except the rotating shaft penetrating portion, and has a cylindrical shape having a charging port into which the sludge discharged from the concentrator is injected into the outer peripheral surface of one side end, and the sludge discharged from the concentrator is in the width direction of the dehydration cloth. It provides a space to move to.

In addition, the feed screw is rotated by a drive motor outside the body in the state coupled to the inside of the body in the axial direction, and serves to move the sludge introduced into the inside of the body through the insertion hole of one end to the other end of the inside of the body. Perform.

The discharge pipe is a structure in which a plurality of alleles are coupled to each other at a predetermined interval along the axial direction in the lower portion of the body, and the on / off valves are coupled to each other. It will provide a passage to be discharged along the width direction of the dehydration cloth.

At this time, the amount of sludge discharged while moving from one end of the body to the other end may not be uniform in each discharge pipe. In this case, the rotational speed of the feed screw driving motor so that the discharge of sludge through each discharge pipe is close to each other. In addition, the water supply for adjusting the sludge moisture content and the degree of opening and closing of the valve can be adjusted.

In addition, by combining a feed screw drive motor, a water supply, a valve, and the like, which determines the discharge state of the sludge as described above, to an automated device such as a PLC, the discharge of the sludge may be centrally controlled. It is also preferable to mount a cylinder or the like on one side end of the provided body so as to control the inclination of the body so as to control the moving speed of the sludge together with the rotation of the feed screw.

As the charging port of the sludge distributor of the present invention configured as described above, the sludge discharged from the sludge concentrator is injected, the sludge supplied to one end of the inside of the body through the charging port is moved to the other end according to the rotation of the feed screw shaft The discharge of the sludge discharged from each discharge pipe by adjusting the inclination of the body, the rotational speed of the feed screw, the water content of the sludge, the opening and closing degree of the valve coupled to the discharge pipe, etc. The amounts are adjusted to be similar to each other.

The sludge discharged through the discharge pipes arranged in a row as described above is supplied to a sludge injector having a rotary blade coupled radially to the outer circumferential surface of the rotating shaft, and the sludge supplied into the injector is It is more uniformly distributed in the width direction of the dehydrator by the rotary blades, and then discharged between two dehydrators of the dehydrator traveling in one direction, and the sludge supplied between the upper and lower dehydrators is respectively upper and lower dewatering blisters. It is dehydrated by a plurality of pairs of pressing rolls rotating in pairs one by one.

The details of the purpose and technical constitution according to the present invention, including the effect thereof, will be clearly understood by the following description with reference to the drawings showing preferred embodiments of the present invention.

1 is a partial cutaway perspective view of an embodiment sludge dispenser of the present invention, a cross-sectional view of an embodiment sludge dispenser of the present invention is shown in FIG. 2, and an installation layout view of the embodiment sludge distributor of the present invention is shown in FIG.

As shown, the sludge distributor of the present invention, the both ends except for the rotating shaft (X) penetrating portion is sealed, the sludge (S) charging opening (I) is discharged from the concentrator 21 on the outer peripheral surface of one side end is provided with A cylindrical body 11;

A feed screw 12 rotated by a drive motor M outside the body 11 in an axially coupled state inside the body 11;

A plurality of rows are coupled in a row at regular intervals along the lower outer circumferential surface of the body 11 along an axial direction, and each of the discharge pipes 13 is provided with an opening / closing valve (V).

At this time, when the water content of the sludge S discharged from the sludge concentrator 21 is low, the sludge may be partially aggregated inside the body 11, and thus, in terms of quantity, the transport state of the sludge may not be uniform. As the agglomerated sludge is discharged to a specific discharge pipe 13, a large difference may be caused between the discharge amounts of the sludge through each discharge pipe 13, and when the size of the agglomerated sludge is large, the discharge pipe is large. Bar (13) may be prevented, it is also possible to provide a water supply equipment (not shown) to supply water through the body charging portion (I) as necessary to adjust the water content of the sludge.

As shown in FIG. 3, the sludge distributor of the present invention configured as described above is installed between the sludge thickener 21 and the sludge injector 22, and the sludge S discharged from one side of the sludge thickener 21. Received to be charged to the feeder 22 through a manner in which it is distributed to a plurality of places along the width direction of the dehydration cloth (23A) provided in the dehydrator (23), the width direction (23) of the dehydration cloth (23A) Along the axial direction of 23B), the sludge firstly dispensed into a plurality of places can be more uniformly distributed along the width direction of the dehydrating cloth by the rotary blade 22A of the feeder, and then supplied to the dehydrator.

And, as a means for controlling the sludge feed rate in the sludge distributor of the present invention, as shown in Figure 4, for adjusting the inclination, such as a cylinder or screw at one end of the body (11) with the charging hole (I) It is also preferable to be able to adjust the inclination of the body 11 as necessary by fabricating a member rotatable at the other end of the body 11 and the rotatable structure by a hinge structure, a rotating shaft structure, or the like.

As described above, the sludge distributor of the present invention is not large in size and is easy to operate and manage, so that it can be easily installed in sewage or wastewater treatment plants, and the dewatering efficiency of the sludge concentrator and belt type dehydrator in use is used as it is. As a result, the sludge treatment capacity can be increased, and the process capacity can be doubled at a low cost without replacing an expensive sludge treatment facility or changing a design.

1 is a partial cutaway perspective view of an embodiment of the present invention sludge dispenser.

Figure 2 is a cross-sectional view of an embodiment sludge dispenser of the present invention.

Figure 3 is an installation layout of the sludge dispenser one embodiment of the present invention.

Figure 4 is a perspective view of another embodiment of the present invention sludge dispenser coupled to the tilt adjustment member.

         ((Explanation of symbols for main part of drawing))

           11.Body 12. Feed Screw

           13. Discharge piping 14. Slope adjustment member

           21. Sludge Thickener 22. Sludge Filler

           22A. Rotary wing 23. Dehydrator

           23A. Dehydration 23B. Pressing roll

           I. Charge M. Drive Motor

           S. Sludge V. Valve

           X. axis of rotation

Claims (3)

In the apparatus for supplying the sludge discharged from the sludge condenser of the sewage or wastewater treatment plant to the belt type dehydrator, the whole of both ends except the through shaft X rotation part is sealed, and the sludge (S) charging hole (I) on the outer peripheral surface of one end part (I) A cylindrical body (11) provided with; A feed screw (12) coupled coaxially over the length of the body (11) and rotatable by a drive motor (M) outside the body (11); Sludge distributor, characterized in that it comprises a discharge pipe 13, which is coupled in a row at a predetermined interval along the longitudinal direction of the body 11 at regular intervals, each of which is provided with an opening and closing valve (V). The sludge distributor according to claim 1, wherein an inclination adjusting member is additionally coupled to one side end of the body. The sludge distributor according to claim 1, wherein a water supply is inclinedly coupled to one side of the body (11).