KR101099423B1 - Apparatus for treating adulteration - Google Patents

Abstract

The present invention is a filter cylinder constituting the final contaminant dehydration treatment unit, by the configuration to be provided with a dehydration hole formed by placing and fixing the wedge wires at intervals of several hundred μm, fine seeds, hair, livestock hair and fine sand at the same time removed It is possible to separate the treated water, simplify the processing of the contaminants, shorten the time required for processing, and minimize the processing equipment required for each process, thus minimizing the processing of the complex. For the purpose of providing

In accordance with one aspect of the present invention, there is provided an apparatus for comprehensive treatment of a contaminant according to the present invention, comprising: an initial contaminant dewatering treatment unit for separating a dehydration liquid from an initial contaminant introduced from the outside; It is installed in the lower part of the initial debris dehydration processing unit, the debris of the dehydration liquid is first handed over by the initial debris dehydration processing unit to separate the dehydration liquid again and the intermediate debris to discharge the dehydrated debris to the outside again A dehydration treatment unit; A dehydration liquid storage tank installed at a lower side of the intermediate contaminant dewatering treatment unit and storing dehydration liquid separated and discharged by the initial contaminant dewatering treatment unit and the intermediate contaminant dewatering treatment unit; The filter cylinder is rotated at a constant speed with a dehydration hole formed by arranging and fixing the wedge wire at intervals of several hundreds of micrometers, and the contaminants attached to the inner wall of the filter cylinder by the relative rotational movement with the filter cylinder are scraped forward. It consists of a scraper for conveying, the dewatered liquid pumped in the dehydration liquid storage tank to receive the treated water to be stored from the dehydration liquid to the treated water storage tank dewatered through the dehydration hole of the filter cylinder, the fine contaminants to be stored in the confinement storage tank is It is characterized in that it comprises a final contaminant dehydration treatment unit is carried by the scraper to be discharged from the filter cylinder.

Contaminants, synthesis, treatment, dehydration, fine

Description

Apparatus for treating adulteration

The present invention relates to a comprehensive contaminant treatment device, and more particularly, to a filter cylinder constituting the final contaminant dewatering treatment unit, by configuring the wedge wires are arranged to be fixed by the interval of several hundred μm, the dehydration hole is formed, Seeds, hair, livestock hair, and fine sand can be separated from the treated water at the same time, and the process of processing contaminants can be simplified to shorten the processing time. The present invention relates to a comprehensive contaminant processing device that minimizes the overall processor size.

As is well known, the comprehensive contaminant treatment device is a complex treatment of sewage, sand, seeds and fine contaminants of sewage and wastewater treatment plant and manure and livestock manure treatment plant, and performs the treatment of the contaminants and the treated water with little moisture content. It is a device that separates and supplies treated water to a final purification facility.

1 is a side cross-sectional view showing a composite material processing processor of the Republic of Korea Patent No. 10-0518805 as an example of the prior art.

In the conventional composite contaminant processor, the filtrate storage tank 4 and the filtrate discharge tank 8 are formed in different spaces on the lower side of the housing 10A constituting the main body of the apparatus, and the filtrate storage tank 4 On the upper side, a rotary screen (2) for separating the contaminants from the manure or livestock wastewater introduced into the device is rotatably installed, the rotary screen (2) is the filtrate discharge port 24 and the residue discharge section (25) It is connected to the filtrate storage tank (4) and the screw type dehydrator (3), respectively, and the filtrate storage tank (4) is connected to the cyclone (5) by the transfer pipe 43 extending from the transfer pump 41 The cyclone (5) is connected to the seed removal screen (6) in which the water drain hole (61) is formed by the upper seed discharge pipe (52), and the centrifuge (7) by the lower filtrate discharge port (51). ) Is installed in connection with, the seed removal screen (6) At the side, a filtrate discharge tube 64 connected to the seed discharge portion 63 and the filtrate discharge tank 8 communicating with the dehydrator 3 is installed, and the centrifuge 7 has a screw type fine discharge pipe 71 at one side. The filtrate discharge pipe 72 is provided at the lower end and connected to the filtrate discharge tank 8 at the other end thereof, and the inner space of the filtrate storage tank 4 is the filtrate discharge port of the rotary screen 2 and the dehydrator 3 ( 24 and 32, the first storage space 46 in the form of an upper and lower strait narrowing toward the lower side from the upper space including the upper space, and the lower outer periphery of the first storage space 46; The second storage space 47 is formed separately to form the remaining space of the filtrate storage tank 4, respectively, on the upper side of one side of the partition wall 45 for partitioning the first, second storage space 46, 47 Overflow passage (45A) for communicating the storage space 46, 47 of the installation is installed, the transfer pump 41 is the first storage hole The main suction pipe 48 extends to the bottom of the 46 and the secondary suction pipe 49 extends from the main suction pipe 48 to the bottom of the second storage space 47 through the partition 45. It is connected to the storage space 46, 47 is installed.

The above-mentioned general-purpose contaminant processor has the following problems.

First, since the water drain hole 61 of the seed removal screen 6 according to the prior art is formed by a method of perforation, even if the inner diameter of the water drain hole 61 is minimized, it can only be reduced to 2 mm to 3 mm. It is no longer possible to reduce the inner diameter of the water drain hole (61). This conventional screen (6) to some extent can separate the contaminants and the filtrate, there is still a problem that the animal hair, fine sand is introduced into the filtrate discharge tank (8) through the water draining through (61).

Second, in order to separate and remove the contaminants contained in the filtrate stored in the filtrate storage tank 4 according to the prior art, the cyclone (5), seed removal screen (6) and centrifuge (7) by installing and using the contaminant treatment In addition to the complex process, there was a problem in that it took a long time to process the contaminants, and there was a problem in that the overall contaminant comprehensive processor could not be compactly implemented.

Thus, the present invention was created to solve the above problems, the filter cylinder constituting the final contaminant dehydration treatment unit, by configuring the wedge wires are arranged to secure the dehydration holes formed by placing at intervals of several hundred μm, fine seeds, By separating the treated water while removing hair, livestock hair, and fine sand at the same time, it also reduces the processing time by simplifying the processing of contaminants and minimizes the processing equipment required for each process. It is an object of the present invention to provide a comprehensive processing device for a contaminant capable of compactly implementing the whole processor.

In accordance with one aspect of the present invention, there is provided an apparatus for comprehensive treatment of a contaminant according to the present invention, comprising: an initial contaminant dewatering treatment unit for separating a dehydration liquid from an initial contaminant introduced from the outside; It is installed in the lower part of the initial debris dehydration processing unit, the debris of the dehydration liquid is first handed over by the initial debris dehydration processing unit to separate the dehydration liquid again and the intermediate debris to discharge the dehydrated debris to the outside again A dehydration treatment unit; A dehydration liquid storage tank installed at a lower side of the intermediate contaminant dewatering treatment unit and storing dehydration liquid separated and discharged by the initial contaminant dewatering treatment unit and the intermediate contaminant dewatering treatment unit; The filter cylinder is rotated at a constant speed with a dehydration hole formed by arranging and fixing the wedge wire at intervals of several hundreds of micrometers, and the contaminants attached to the inner wall of the filter cylinder by the relative rotational movement with the filter cylinder are scraped forward. It consists of a scraper for conveying, the dewatered liquid pumped in the dehydration liquid storage tank to receive the treated water to be stored from the dehydration liquid to the treated water storage tank dewatered through the dehydration hole of the filter cylinder, the fine contaminants to be stored in the confinement storage tank is It is characterized in that it comprises a final contaminant dehydration treatment unit is carried by the scraper to be discharged from the filter cylinder.

According to the present invention, the composite material for treating the contaminants of the present invention comprises: a filter cylinder constituting the final contaminant dewatering treatment unit, and configured to be provided with dewatering holes formed by arranging and fixing wedge wires at intervals of several hundred μm, so that fine seeds, hair, livestock hair, and The treated water can be separated while the fine sand is removed at the same time.

In addition, according to the present invention, a comprehensive contaminant treatment apparatus can simplify the contaminant treatment process, shorten the time required for treatment, and also minimize the treatment equipment required for each process to implement the overall processor compactly.

In addition, the present invention may further improve the dewatering efficiency of the contaminants in which the dehydrating liquid is separated from the initial condensate by adopting a new method that is not conventionally used in the intermediate contaminant dewatering treatment unit.

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

FIG. 2 is a view showing the overall configuration of a comprehensive contaminant processing apparatus according to the present invention in the order of processing steps, and FIG. It is a figure which shows the structure in the state which looked at the contaminant synthesis processing apparatus by the upper side from the upper side, FIG. 5 is a figure which shows the structure in the state which looked at the contaminant synthesis processing apparatus according to this invention from the opposite direction of a contaminant inlet, 6 and 7 are views showing an embodiment and a detailed internal configuration of the intermediate contaminant dewatering treatment unit constituting the comprehensive contaminant treatment apparatus according to the present invention.

As shown in FIG. 2, the apparatus for processing a composite of the complex according to the present invention includes an initial contaminant dehydration processing unit 100, an intermediate contaminant dehydration processing unit 200, a dehydration liquid storage tank 300, and a final contaminant dewatering processing unit 400. )

The initial contaminant dewatering treatment unit 100, as shown in Figure 3, serves to primarily separate the dehydration liquid from the initial contaminants introduced from the outside, the configuration of the drive motor (M) cylindrical filter cylinder 110 Rotation), and when the initial contaminant is supplied to the outer surface of the rotating filter cylinder 110 by a predetermined amount through the inlet 130, the initial contaminant is moved to the outer surface of the filter cylinder 110 and moves together with the filter cylinder 110. It is passed to the intermediate contaminant dewatering treatment unit 200 in the direction of the arrow "A".

At this time, a predetermined amount of water contained in the initial contaminant falls naturally by gravity while being placed on the filter cylinder 110, and is stored in the dehydration reservoir 300 in the direction of arrow "B" through the outlet 120.

Next, the intermediate contaminant dehydration processing unit 200 is installed at the lower part of the initial contaminant dehydration processing unit 100, and receives the debris in the state in which the dehydration liquid is first separated by the initial contaminant dehydration processing unit 100 to obtain dehydration liquid again. In addition to the separation, it also serves to discharge dehydrated debris to the outside.

The intermediate contaminant dewatering treatment unit 200, which is an important configuration of the present invention, has a filtration cylinder 210, a conveying screw 220, a rotating shaft 230, and opening means 240, as shown in FIGS. 6 and 7. )

The filter cylinder 210 has a predetermined length through which both ends penetrate, and a contaminant inlet 211 is formed at one end side, and a contaminant outlet 212 is formed at the other end side, and the contaminant inlet 211 and the contaminant outlet are formed. Dehydration liquid discharge holes 213 are arranged in a section between the 212.

The feed screw 220 is composed of a screw shaft 221 rotatably installed in the interior of the filter cylinder 210, and a feed blade 222 formed on the screw shaft 221, to form the contaminant inlet 211 The contaminants introduced through it are transferred to the contaminant outlet 212 side.

The rotary shaft 230 is installed on the screw shaft 221 to extend to the outside through the contaminant discharge port 212 serves to rotate the feed screw 220 receives the driving force of the drive motor (M).

In addition, the opening means 240 is installed to be slidably elastically movable in the axial direction on the rotary shaft 230, and when the contaminant filling pressure in the contaminant discharge port 212 of the filter cylinder 210 is a predetermined or more, the contaminant discharge port 212 ) Will open.

The opening means 240 constituting the intermediate contaminant dewatering treatment unit 200 according to the present invention is installed to be slidably movable in the axial direction with respect to the rotary shaft 230, and the contaminant discharge port 212 of the filtration cylinder 210 is provided. And opening and closing member 241 to open and close the; A support 242 installed around the rotating shaft 230 at a rear of the rear end side of the opening and closing member 241 by a predetermined distance; It is installed to be elastically supported between the support 242 and the opening and closing member 241, and when the internal pressure of the contaminant discharge port 212 is a predetermined value or more is compressed so that the opening and closing member 241 to retreat to the contaminant discharge port 212 When the opening and the internal pressure of the contaminant discharge port 212 is less than a predetermined value, it is composed of an elastic member 243 that elastically pushes the opening and closing member 241 so that the contaminant discharge port 212 is closed.

Here, the elastic member 243 preferably uses a compression spring.

Referring to the operation of the opening means 240 according to the invention as follows. The contaminants introduced into the filtration cylinder 210 by the feed screw 220 rotated together with the rotary shaft 230 are moved toward the contaminant discharge port 212. At this time, since the contaminant discharge port 212 is blocked by the opening and closing member 241, the filling amount of the contaminant gradually increases in this portion. Therefore, the pressure in the contaminant discharge port 212 is increased, and when the internal pressure of the contaminant discharge port 212 is greater than or equal to a predetermined value, the elastic member 243 is compressed, so that the opening and closing member 241 is the contaminant discharge port 212. Will open.

Here, while the opening and closing member 241 closes the contaminant discharge port 212, since the contaminant is not discharged, a phenomenon occurs in which the contaminant is squeezed in the filter cylinder 210. After being discharged to the outside through the dehydration liquid discharge hole 213 of the cylinder 210 is stored in the dehydration liquid storage tank (300). Of course, the present invention can be discharged to the outside through the dehydrating liquid discharge hole 213 of the filter cylinder 210 even during the initial conveyance of the contaminants by the transfer screw 220.

That is, in the present invention, the elastic member 243 is elastically supported between the support 242 and the opening / closing member 241, and the opening / closing member 241 is provided when the internal pressure of the contaminant outlet 212 is greater than or equal to a predetermined value. It is compressed to retreat to open the contaminant outlet 212, and when the internal pressure of the contaminant outlet 212 is less than a predetermined value, the opening / closing member 241 is burned so that the contaminant outlet 212 is closed by the elastic member 243. By sexually boosting, there is an advantage that can dehydrate the maximum amount of water from the contaminants.

On the other hand, the outer surface 241a of the opening and closing member 241 according to the present invention is in contact with the inner surface 212a of the contaminant discharge port 212, the mutual contact surface between them is formed to be inclined with respect to the axial direction of the rotary shaft 230. .

And, as shown in FIG. 6, the pitch of the conveying blade 222 is formed to be gradually reduced from the contaminant inlet 211 to the contaminant outlet 212, and the outer diameter of the screw shaft 221 is formed By forming a constant from the inlet 211 toward the contaminant discharge port 212, the contaminant to be transported toward the contaminant discharge port 212 is compressed, it is possible to separate as much moisture.

In addition, the present invention, as shown in Figure 7, the pitch of the conveying blade 222 is formed to be constant from the contaminant inlet 211 toward the contaminant outlet 212, the outer diameter of the screw shaft 221 By implementing so as to gradually increase from the contaminant inlet 211 toward the contaminant discharge port 212, so that the contaminants conveyed toward the contaminant discharge port 212 is compressed, it is possible to separate as much moisture.

On the other hand, in the configuration of the treatment apparatus of the present invention, the dehydration liquid storage tank 300 is installed on the lower side of the intermediate contaminant dewatering treatment unit 200, the initial contaminant dewatering treatment unit 100 and the intermediate contaminant dewatering treatment unit 200 It serves to store each dewatered liquid separated and discharged by.

Finally, the final contaminant dewatering treatment unit 400 according to the present invention is provided with a dehydration hole 412 formed by placing and fixing the wedge wires 411 at intervals of several hundred μm level (preferably 800 μm) at a constant speed. It consists of a rotating filter cylinder 410, and a scraper 420 to scrape and transport the contaminants attached to the inner wall of the filter cylinder 410 to the front by a relative rotational movement of the filter cylinder 410, the dehydration reservoir The treated water to be stored in the treated water storage tank 600 from the dewatered liquid supplied with the dewatered liquid pumped from the 300 is dehydrated through the dewatering hole 412 of the filtration cylinder 420, and into a contaminant storage tank (not shown). The fine contaminants to be stored are conveyed by the scraper 420 to be discharged from the filter cylinder 410.

Here, reference numeral 415 serves to allow the treated water to flow into the treated water storage tank 600 as the treated water outlet. And the member number 416 is discharged from the filter cylinder 410 is a fine contaminant discharge port from which moisture is removed by the scraper 420.

In addition, the scraper 420 is installed in the filter cylinder 410 so as to be relatively rotatable with the filter cylinder 410, and the filter cylinder 410 is rotated at a constant speed by receiving a driving force of a separate drive motor.

Here, the dehydration liquid pumped by the pumping action of the transfer pump 700 in the dehydration liquid storage tank 300 is introduced into the filter cylinder 410, the treated water dewatered by the filter cylinder 410 rotated by centrifugal force After it is discharged through the treated water outlet 415.

On the other hand, by the filter cylinder 410 constituting the final contaminant dewatering treatment unit 400, the dewatering hole 412 formed by arranging and fixing the wedge wires 411 at intervals of several hundred micrometers, by the conventional perforation Compared to the seed removal screen 6 having the water drain hole 61 formed, fine seeds, hair, livestock hair, and fine sand are not discharged through the dehydration hole 412, and are moved by the scraper 420 and filtered. It is discharged through the fine contaminant discharge port of the cylinder 410.

Therefore, the present invention can separate the treated water in a state in which fine seeds, hair, livestock hair, and fine sand are removed at the same time, and as a conventional method, it is not necessary to further include a cyclone, a centrifuge, or the like as processing equipment. Production cost can be reduced.

In addition, the present invention simplifies the process for treating the contaminants to the initial contaminant treatment process-> intermediate contaminant treatment process-> final contaminant treatment process to reduce the time required for treatment and minimize the processing equipment required for each process Overall, it can be implemented compactly.

On the other hand, the present invention is a common type of conveyances of the conveyor type to be transported in common to the contaminants and fine contaminants discharged from the intermediate contaminant dewatering treatment unit 200 and the final contaminant dewatering treatment unit 400 to be stored in the contaminant storage tank ( By further comprising 500, it is possible to implement the processing equipment as a whole compact.

In addition, reference numeral 800 shown in FIG. 2 is a transfer pump for feeding back the treated water in the treated water storage tank 600 to be injected onto the outer surface of the filtration cylinder 400 constituting the final contaminant dewatering treatment unit 400. That is, when the treated water is injected to the outer surface of the filter cylinder 400 at a high pressure, the dehydration hole 412 formed in the filter cylinder 400 is to prevent clogging by the contaminants. More specifically, the treatment water injection pipe 810 is disposed in the longitudinal direction of the cylinder outside the filtration cylinder 400 so that the treated water pumped by the transfer pump 800 is treated at a high pressure through the treatment water injection pipe 810. When the water is ejected into the filter cylinder 400, the clogging phenomenon of the dehydration hole 412 of the filter cylinder 400 is eliminated, and the treated water is dehydrated from the contaminant in the filter cylinder 400 to the dewatering hole 412.

BRIEF DESCRIPTION OF THE DRAWINGS Sectional drawing which shows the structure of the contaminant comprehensive processing apparatus by a prior art.

2 is a view showing the overall configuration of a contaminant processing apparatus according to the present invention in the order of processing steps;

3 is a view showing a configuration in a state where the contaminant processing apparatus according to the present invention is viewed from one side;

It is a figure which shows the structure in the state which looked at the contaminant comprehensive processing apparatus by this invention from the upper side.

5 is a view showing the configuration of a contaminant processing system according to the present invention as viewed from the opposite direction of the input of the contaminant.

6 and 7 are views showing an embodiment and a detailed internal configuration of the intermediate contaminant dewatering treatment unit constituting the comprehensive contaminant treatment apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: initial contaminant dewatering treatment unit

200: intermediate contaminant dewatering treatment unit

300: dehydration reservoir

400: final debris dehydration treatment unit

Claims (8)

delete delete An initial contaminant dewatering treatment unit 100 for separating the dehydration liquid from the initial contaminants introduced from the outside; It is installed at the lower part of the initial contaminant dehydration processing unit 100, both ends penetrate and one side is formed with a contaminant inlet 211, the other end side is formed with a contaminant outlet 212 and the contaminant inlet 211 and the contaminant outlet 212 Dehydration liquid discharge holes 213 are arranged in the interval between the filtration cylinder 210, the screw shaft 221 is rotatably installed in the interior of the filtration cylinder 210, the transfer blade formed on the screw shaft 221 ( 222) is formed on the screw shaft 221 so as to extend to the outside through the conveying screw 220, the contaminant discharge port 212 to transfer the contaminants introduced through the contaminant inlet 211 to the contaminant discharge port 212 side The rotary shaft 230, which rotates the feed screw 220 to receive the driving force thereof, is installed to be elastically slidably movable in the axial direction, and fills the contaminants in the contaminant outlet 212 of the filter cylinder 210. Intermediate contaminants dehydration processor 200 power having the opening means 240, so that the contaminants outlet (212) open to a certain or more and; It is installed on the lower side of the intermediate contaminant dewatering treatment unit 200, and the dehydration liquid storage tank 300 for storing each dewatering liquid separated and discharged by the initial contaminant dewatering treatment unit 100 and the intermediate contaminant dehydration treatment unit 200 and ; The filter cylinder 410 is rotated at a constant speed with a dehydration hole 412 formed by arranging and fixing the wedge wires 411 at 800 μm intervals, and the filter cylinder 410 is rotated relative to the filter cylinder 410. It consists of a scraper 420 to scrape and transport the contaminants attached to the inner wall to the front to receive the pumped dehydration liquid from the dehydration reservoir 300 to be stored in the treated water storage tank 600 from the dehydration liquid is filtered filter ( Dehydration through the dehydration hole 412 of the 410, the fine contaminants to be stored in the contaminant storage tank is transported by the scraper 420, the contaminants including the final contaminant dewatering treatment unit 400 is discharged from the filter cylinder 410 In the processing apparatus; The opening means 240, An opening / closing member (241) installed to be slidably movable in the axial direction with respect to the rotary shaft (230) and for opening and closing the contaminant discharge port (212) of the filtration cylinder (210); A support 242 installed around the rotation shaft 230 at a rear of the rear end side of the opening and closing member 241 by a predetermined distance; It is installed to be elastically supported between the support 242 and the opening and closing member 241, when the internal pressure of the contaminant discharge port 212 is a predetermined value or more is compressed so that the opening and closing member 241 to retreat the contaminant discharge port ( 212 is opened, and when the internal pressure of the contaminant discharge port 212 is less than a predetermined value, including a resilient member 243 that elastically pushes the opening and closing member 241 to close the contaminant discharge port 212 Integrated processing unit. The method of claim 3, wherein The outer side surface 241a of the opening / closing member 241 is in contact with the inner side surface 212a of the contaminant discharge port 212, and the mutual contact surfaces thereof are inclined with respect to the axial direction of the rotation shaft 230. Aggregates processing device. The method of claim 3, wherein The pitch of the conveying blade 222 is gradually reduced from the contaminant inlet 211 toward the contaminant outlet 212, The outer diameter of the screw shaft (221) is a comprehensive composite processing apparatus, characterized in that the constant formed from the contaminant inlet 211 toward the contaminant discharge port (212). The method of claim 3, wherein The pitch of the conveying blade 222 is formed to be constant toward the contaminant discharge port 212 from the contaminant inlet 211, The outer diameter of the screw shaft (221) is a comprehensive composite processing apparatus, characterized in that formed to gradually increase from the contaminant inlet (211) toward the contaminant discharge port (212). delete delete

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