KR102071788B1 - Apparatus for sludge treatment - Google Patents

Abstract

In the present invention, by continuously heating the sludge produced in the sewage or wastewater treatment process to remove the water and oil contained in the sludge, the sludge is removed from the clay and ash ( Disclosed is a sludge treatment apparatus which is dried, mixed with powder, and then powdered to be recycled into materials such as tiles and sidewalk blocks.
The present invention and the central shaft is installed across the two vertical support stand on the left and right sides of the installation surface; It is coupled to the central shaft, and the outer peripheral surface is formed in a plurality of gear portion is rotated in place by the rotational force transmitted from the outside while drying the sludge flowing into the inside to remove water (moisture) and oil (油 分) A rotary drying tank; A sludge feed hopper fitted inwardly from the front end of the rotary drying tank and supplying the sludge into the rotary drying tank; A bead supply hopper fitted inwardly from an upper end of the rotary drying tank and supplying hotly heated beads into the rotary drying tank; A first motor driven by application of electric current in a state in which it is installed on an installation surface corresponding to a lower side of the rotary drying tank; An electric gear coupled to the shaft of the first motor and installed in engagement with the gear part of the rotary drying tank to transmit a driving force of the first motor to the gear part; A sludge discharge hole formed to have a width smaller than an outer diameter of the bead at the rear lower surface of the rotary drying tank to discharge the sludge dried in the rotary drying tank; A bead outlet formed at the rear end of the rotary drying tank corresponding to the rear of the sludge discharge hole to discharge beads; A sludge discharge duct installed outside the sludge discharge hole and guiding the dried sludge discharged through the sludge discharge hole to the outside; A bead discharge duct installed at a lower outside of the bead discharge port and coupled to communicate with the sludge discharge duct at a lower end thereof; Installed in the lower portion of the sludge discharge duct, the dried sludge supplied from the sludge discharge duct and the clay and ash supplied from the outside are uniformly mixed and at the same time in a powder state by the air introduced from the outside A mixer for drying; A bead heating member configured to be circulated and supplied to the bead supply hopper through a bead supply line after the bead discharged from the bead discharge duct is heated again to be hot; It is installed on the upper portion of the rear of the rotary drying tank, it is configured to include an exhaust fan for discharging the smell and smoke generated when the sludge is dried with the heated beads in the rotary drying tank to the outside.

Description

Apparatus for sludge treatment

The present invention relates to a sludge treatment apparatus, and more particularly, to continuously remove the sludge generated in the sewage or waste water treatment process to effectively remove the water (moisture) and oil contained in the sludge, The present invention relates to a sludge processing apparatus which is dried and mixed with clay and ash to remove sludge and oil, and then powdered and recycled into materials such as tiles or sidewalk blocks.

In general, sludge produced after the treatment of various wastewater is a thin porcelain with a high water content, and this sludge is first dehydrated to lower the water content and then landfilled or incinerated.

However, since the sludge particles have a strong affinity with water, it is difficult to lower the water content to a predetermined level even if the sludge is dewatered separately as described above. As a result, when the sludge is treated by landfill, the sludge contains a large amount of contaminants. Since the sludge itself not only contaminates the soil, but also landfill after sludge dewatering, there is a serious problem that the effluent is generated from the sludge to contaminate the surrounding soil or water quality of the landfill.

In addition, even if the sludge is dehydrated after incineration, the water content of the sludge is not relatively low, so it consumes a lot of energy during incineration, and the nitrogen compound pollutes the atmosphere as the sludge is incompletely burned because heat is not evenly transferred to the inside of the sludge. There is a problem that causes a serious air pollution due to the generation of pollutants such as.

In order to improve such a conventional problem, various types of sludge treatment apparatuses have been proposed, and as an example, recently, Korean Patent Publication No. 10-0399344 (name: sludge treatment apparatus, hereinafter referred to as "prior art"). Has been proposed.

The prior art includes a heating chamber, a heat storage plate provided in the heating chamber and heated by a burner, and a spray nozzle for high-pressure injection of sludge generated after treatment of various wastewaters toward the heat storage plate. Moisture in the sludge due to the heat storage plate is separated from the sludge particles and evaporated, and the sludge particles are heated or incinerated, and the sludge particles are heated or incinerated at the rear end of the heating chamber to capture dust and gaseous substances generated. It is provided that the post-treatment means for removal by means of the technical configuration.

In the above prior art, since the sludge is sprayed on the heat storage plate at high pressure to evaporate the water of the sludge, the energy consumption is reduced and efficient compared to the heat treatment apparatus such as a conventional incinerator. There is a problem that is not big.

1: Republic of Korea Patent Publication No. 10-0399344, "Sludge treatment apparatus".

The present invention is to solve such a conventional problem, the object is to continuously heat the sludge generated in the sewage or waste water treatment process can remove the water (moisture) and oil contained in the sludge very effectively. One new sludge treatment unit is to be provided.

Another object of the present invention is to provide a new sludge treatment apparatus which allows the sludge from which moisture and oil have been removed is mixed with clay and ash, dried and then powdered and recycled into a material such as a tile or a sidewalk block. will be.

In order to achieve the above object, the present invention and the center axis which is installed across the two vertical support stand on both sides of the installation surface; It is coupled to the central shaft, and the outer peripheral surface is formed in a plurality of gear portion is rotated in place by the rotational force transmitted from the outside while drying the sludge flowing into the inside to remove water (moisture) and oil (油 分) A rotary drying tank; A sludge feed hopper fitted inwardly from the front end of the rotary drying tank and supplying the sludge into the rotary drying tank; A bead supply hopper fitted inwardly from an upper end of the rotary drying tank and supplying hotly heated beads into the rotary drying tank; A first motor driven by application of electric current in a state in which it is installed on an installation surface corresponding to a lower side of the rotary drying tank; An electric gear coupled to the shaft of the first motor and installed in engagement with the gear part of the rotary drying tank to transmit a driving force of the first motor to the gear part; A sludge discharge hole formed to have a width smaller than an outer diameter of the bead at the rear lower surface of the rotary drying tank to discharge the sludge dried in the rotary drying tank; A bead outlet formed at the rear end of the rotary drying tank corresponding to the rear of the sludge discharge hole to discharge beads; A sludge discharge duct installed outside the sludge discharge hole and guiding the dried sludge discharged through the sludge discharge hole to the outside; A bead discharge duct installed at a lower outside of the bead discharge port and coupled to communicate with the sludge discharge duct at a lower end thereof; Installed in the lower portion of the sludge discharge duct, the dried sludge supplied from the sludge discharge duct and the clay and ash supplied from the outside are uniformly mixed and at the same time in a powder state by the air introduced from the outside A mixer for drying; A bead heating member configured to be circulated and supplied to the bead supply hopper through a bead supply line after the bead discharged from the bead discharge duct is heated again to be hot; It is installed on the upper portion of the rear of the rotary drying tank, it is configured to include an exhaust fan for discharging the smell and smoke generated when the sludge is dried with the heated beads in the rotary drying tank to the outside.

In the present invention, the mixer is formed in a cylindrical shape with an open lower portion, the interior of the mixer is divided into a multi-stage mixing chamber by a strainer, each of the mixing chamber in a state installed through the center of each strainer While stirring blades coupled to a single rotary shaft rotated by a driving force of the second motor are installed, each mixing chamber has a feature configured to form an air inlet hole for allowing air to enter from the outside.

According to the present invention, since the sludge generated in the sewage or wastewater treatment process is heated while being mixed with hot heated beads in a rotary drying tank, the water and oil contained in the sludge can be effectively removed. There is an effect.

In addition, the dry sludge from which moisture and oil are removed is mixed with clay and ash in a mixer to be powdered and recycled into a material such as a tile or a sidewalk block, which is economically advantageous. .

1 is an overall configuration diagram showing a sludge processing apparatus according to the present invention.
Figure 2 is a partially enlarged view showing the configuration of the sludge discharge duct, the mixer, the bead heating member in the sludge treatment apparatus according to the present invention.
Figure 3 is a partially enlarged view showing the configuration of the sludge discharge hole and the beads discharge port and the sludge discharge duct and the beads discharge duct formed in the rear portion of the rotary drying tank in the sludge treatment apparatus according to the present invention.
Figure 4 is a partially enlarged view showing the configuration of the mixer in the sludge processing apparatus according to the present invention.
Figure 5 is a partially enlarged view showing a bead heating member in the sludge treatment apparatus according to the present invention.

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

1 to 5, in the sludge processing apparatus 10 according to the present invention, two supports 12 are vertically installed on both left and right sides of the installation surface 11, and a center is formed between the two supports 12. The shaft 13 is installed across.

 Rotating drying to remove the water (moisture and oil) contained in the sludge by drying the sludge (S) introduced into the inside while rotating in place by the rotational force transmitted from the outside in the central axis (13) in the present invention The tank 20 is configured to be fitted.

On the outer circumferential surface of the rotary drying tank 20 is formed a plurality of gears 21 for receiving the rotational force transmitted from the outside, the rotary drying tank 20 is a sludge (S) at the front end of the rotary drying tank The sludge supply hopper 14 for supplying the inside of the 20 is fitted to be installed.

In addition, the bead supply hopper 15 for supplying the ball (B) hot heated to the inside of the rotary drying tank 20 from the top end of the rotary drying tank 20 is fitted to be installed.

In addition, on the installation surface 11 corresponding to the lower side of the rotary drying tank 20 is installed a first motor (M1) driven in accordance with the application of the current, the rotary motor on the shaft of the first motor (M1). It is configured to install an electric gear 22 is engaged with the gear 21 formed on the outer peripheral surface of the tank 20 to transmit the driving force of the first motor (M1).

In the present invention, the rear lower surface of the rotary drying tank 20 has a plurality of sludge discharge holes 23 are formed in the longitudinal direction to discharge the dried sludge, beads (B) together when the dried sludge is discharged In order not to discharge, the width of the sludge discharge hole 23 is to be formed smaller than the outer diameter of the beads (B).

On the other hand, the rear end of the rotary drying tank 20 corresponding to the rear of the sludge discharge hole 23 is formed with a beads discharge port 24 to discharge the beads (B), the lower portion of the sludge discharge hole 23 A sludge discharge duct 25 for guiding the dried sludge discharged through the sludge discharge hole 23 to the outside is formed, and is discharged through the bead discharge port 24 at the lower outside of the bead discharge port 24. Bead discharge duct 26 for guiding the beads B to the outside is provided.

The lower end of the bead discharge duct 26 is configured to communicate with the lower inner side of the sludge discharge duct (25).

In the present invention, the lower portion of the sludge discharge duct 25 is dried sludge supplied from the sludge discharge duct 25 and clay and ash supplied from the outside are uniformly mixed and introduced from the outside. A mixer (Mixer) 30 is installed to dry the powder by air.

A separate clay / ash feed hopper 40 for supplying the clay and ash is installed above the outside of the mixer 30, and the clay / ash feed hopper 40 is communicated with the upper inside of the mixer 30. It is composed.

The mixer 30 is formed in a cylindrical shape with an open lower portion, the interior of the mixer 30 is divided into a multi-stage mixing chamber 32 by a strainer 31, the respective mixing chamber 32 The stirring blade 33 is configured to be installed.

The stirring blade 33 is configured to be coupled to a single rotary shaft 34 that is rotated by the driving force of the second motor (M2) in a state installed through the center of each strainer (31).

In addition, each mixing chamber 32 formed by partitioning the inside of the mixer 30 is configured to be formed with an air inlet hole 35 through which air is introduced from the outside.

In the present invention, the bead (B) is discharged from the bead discharge duct 26 at a position spaced a predetermined distance apart from the outside of the mixer 30 is installed bead heating member 50 to be heated again hot, The bead heating member 50 is connected in communication with the bead supply hopper 15 via a separate bead supply line (51), the bead (B) is heated again through the bead supply line (51) And circulated to 15.

In the present invention, the upper part of the rear part of the rotary drying tank 20 is provided with an exhaust fan 60 for discharging the smell and smoke generated when the sludge S is dried together with the heated beads B to the outside. .

The operation of the present invention thus achieved is as follows.

When the sludge S is to be processed using the sludge treatment apparatus 10 according to the present invention, as shown in FIGS. 1 to 5, the sludge S transferred from the outside is first supplied to the sludge supply hopper 14. While supplying the inside of the rotary drying tank 20 through the bead is heated by the bead heating member 50 and then transferred through the dictation supply line 51 is filled beads (B) filled in the bead supply hopper 15 Supply to the interior of the drying tank (20).

In this state, when the first motor M1 is driven, the driving force is transmitted to the gear part 21 formed on the outer circumferential surface of the rotary drying tank 20 through the electric gear 22, so that the rotary drying tank 20 is centered. It is rotated in place about the axis.

In this process, the sludge S introduced into the rotary drying tank 20 is mixed with the hotly heated beads B and rotated to remove moisture and oil contained in the sludge S.

 The dry sludge, which has been operated for a predetermined time as described above, is removed through the sludge discharge hole 23 formed in the rear lower surface of the rotary drying tank 20 and then discharged through the sludge discharge duct 25. It flows into the upper inside of the mixer 30.

At the same time, the beads are discharged through the bead outlet 24 formed at the bottom of the rear end of the rotary drying tank 20, and then reach the upper portion of the mixer 30 through the bead discharge duct 26 of the bead heating member 50 It flows inward.

At the same time as the sludge dried into the mixer 30 is introduced, clay and ash are introduced into the mixer 30 from the separate clay / ash feed hopper 40 and then divided by the strainer 31. Passes through the mixing chamber (32) and falls sequentially down.

In this process, air is introduced into the respective mixing chambers 32 through the air inlet hole 35, and at the same time, the second motor M2 is driven, and the rotation shaft according to the driving of the second motor M2 ( 34, the sludge, clay and ash dried while the stirring blade 33 is rotated as it is rotated evenly dried and then discharged in a powdered state.

As such, the mixture of the powdered dry sludge, clay, and ash that is passed through each mixing chamber 32 inside the mixer 30 is molded and recycled in a form of a tile or a sidewalk block by a separate molding mold. .

On the other hand, the bead (B) introduced into the bead heating member 50 is heated again and then circulated and supplied to the bead supply hopper 15 through the bead supply line 51, the inside of the rotary drying tank (20) The generated odor and smoke are discharged to the outside by the exhaust fan 60.

10: sludge treatment device
12: support 13: central axis
14: sludge feed hopper 15: bead feed hopper
20: rotary drying tank 21: gear unit
22: electric gear 23: slot discharge hole
24: Bead outlet 25: Sludge discharge duct
26: bead discharge duct 30: mixer
31: strainer 32: mixing room
33: stirring blade 34: rotating shaft
40: clay ash feed hopper 50: bead heating member
51: bead supply line 60: exhaust fan
B: Bead M1: First Motor
M2: 2nd motor S: Sludge.

Claims (2)

A central shaft 13 which is installed across two support members 12 which are vertically erected on both left and right sides of the installation surface 11; It is fitted to the central shaft 13, coupled to the outer circumferential surface on the outer circumference in the state formed by a rotational force transmitted from the outside in a state formed with a plurality of gears 21 to dry the sludge (S) flowing into the water ( A rotary drying tank 20 for removing water and oil; A sludge supply hopper 14 fitted inwardly from the tip of the rotary drying tank 20 and supplying the sludge S into the rotary drying tank 20; A bead supply hopper 15 fitted inwardly from an upper end of the rotary drying tank 20 to supply hotly heated beads B into the rotary drying tank 20; A first motor M1 driven according to the application of a current in a state in which it is installed on an installation surface corresponding to a lower side of the rotary drying tank 20; An electric gear coupled to the shaft of the first motor M1 and installed to engage with the gear unit 21 on the rotary drying tank 20 to transmit the driving force of the first motor M1 to the gear unit 21. 22); A sludge discharge hole 23 formed at a lower width of the rear side of the rotary drying tank 20 to have a width smaller than the outer diameter of the bead B so that the sludge dried in the rotary drying tank 20 is discharged; A bead outlet 24 formed at the rear end of the rotary drying tank 20 corresponding to the rear of the sludge discharge hole 23 to discharge the beads B; A sludge discharge duct 25 installed outside the sludge discharge hole 23 to guide the dried sludge discharged through the sludge discharge hole 23 to the outside; A bead discharge duct 26 which is installed at a lower outer side of the bead discharge port 24 and coupled to communicate with the sludge discharge duct 25 at a lower end thereof; It is installed on the rear part of the rotary drying tank 20, and discharges the smell and smoke generated when the sludge S is dried together with the heated beads B inside the rotary drying tank 20 to the outside. In the sludge treatment apparatus comprising an exhaust fan (60),
Installed in the lower portion of the sludge discharge duct 25, the dried sludge supplied from the sludge discharge duct 25 and the clay and ash supplied from the outside are uniformly mixed while being introduced from the outside A mixer (Mixer 30) for drying the powder by air;
The bead (B) discharged from the bead discharge duct 26 is heated again to be heated again after the bead heating member 50 to be circulated to the bead supply hopper 15 through a separate bead supply line (51) Sludge treatment apparatus further comprises a. delete

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