KR102355589B1 - Synthetic waste processing machine with improved structure of fine drum screen - Google Patents

Abstract

The present invention relates to an integrated impurity treatment apparatus with an improved structure of a fine drum screen part, which can effectively perform floating and stirring so that fine impurities such as small seeds are not adsorbed to a screen member while a filtrate contained in impurities is dehydrated by centrifugal force. The present invention comprises: an input part (10) provided to supply impurities; a fine drum screen part (20) connected to the input part (10) in the transverse direction for rotational movement, having a plurality of first permeable passages (22) formed to separate the filtrate contained in impurities, and having an outlet (21) at one end thereof; a screen bar (30) protruding from the inner circumferential surface of the fine drum screen part (20) and having a plurality of second permeable passages (32) formed so as to collide with impurities during rotation to separate the filtrate by the surface load; and a chamber (50) installed to surround the fine drum screen part (20), and provided to collect the filtrate separated through the first and second permeable passages (22, 32). When the integrated impurity treatment apparatus is used, the dehydration ability is prevented from deteriorating even during long-time operation, and the impurities collide with a screen bar while moving along the inner circumferential surface of the fine drum screen part. Thus, the filtrate dehydration efficiency can be maximized by the surface load.

Description

Synthetic waste processing machine with improved structure of fine drum screen

The present invention is a contaminant comprehensive treatment machine with an improved structure of the fine drum screen part. To explain this in more detail, it is possible to effectively float and stir so that fine contaminants such as small seeds are not adsorbed to the screen member while the filtrate contained in contaminants is dehydrated by centrifugal force. It relates to a contaminant comprehensive treatment machine with an improved structure of the fine drum screen that can be used.

In recent years, with the increase of urban population and the expansion of the scale from livestock farms to factory types, the amount of wastewater such as manure, livestock wastewater, and domestic sewage is increasing every year. is a situation in which a lot of time and money is wasted in the treatment of wastewater contaminants.

Accordingly, in Patent Registration No. 10-1244211 disclosed in the prior art, it relates to a contaminant treatment device that separates contaminants contained in various types of wastewater such as manure, livestock wastewater or domestic sewage from the filtrate and treats them, and more specifically, a collection tank lorry or sewage pipe, etc. Contaminants in sewage or wastewater fed into the treatment machine through the influent of In this process, micro-contaminants (seeds, animal hair, sand, etc.) of less than 2 mm introduced into the filtrate storage tank along with the filtrate are pumped together with the filtrate by a low-speed centrifugal dehydrator to finally separate the filtrate and micro-contaminants. However, due to the structural nature of the filtrate passing through the dehydration screen as contaminants are moved by the rotational motion of the dehydration screw in the low-speed dehydrator, the contaminants form a film on the inner wall of the dewatering screen to close the dewatering oil. problems followed.

In addition, in Patent Registration No. 10-0904283, which is another prior art, it relates to a high-level contaminant treatment device that filters and separates various contaminants contained in manure, sewage, livestock wastewater, etc. Filter contaminants, separate 15mm sand and 25mm contaminants in the next low-speed cyclone, and separate and filter the filtered sand into sand and liquid with a size of 1 mm or less in the high-speed cyclone, and use the filter sand with a screw decanter The filtrate of the high-speed cyclone is introduced into the wedge bar drum screen to filter contaminants up to 05 mm in size, and the filtrate is discharged to the outside as treated water, and the desorbed liquid of the screw decanter is removed from the A screw press using a wedge bar that transports and reprocesses to a wedge bar drum filter and combines dewatering contaminants such as rotary screens, low-speed cyclones and wedge bar drum filters, and transfers and reprocesses the desorbed liquid from this to a rotary screen Although the technology to do this has been previously suggested, the filter body of the drum is easily clogged by large contaminants and the filtration efficiency is lowered. This resulted in an increase in the amount of wastewater.

KR 10-1244211 B1 (2013.03.08.) KR 10-0904283 B1 (2009.06.16.)

In the present invention, a new technology was invented to solve the problems of the prior art. In order to make the dehydration of the filtrate contained in contaminants more effectively by centrifugal force, a screen bar with perforations is formed on the inner circumferential surface of the fine drum screen part. It aims to provide a contaminant comprehensive treatment machine.

In addition, it is an object of the present invention to provide a contaminant comprehensive treatment machine configured to form a drainage duct therein while a pair of inclined plates constituting the screen bar form an obtuse angle with the inner circumferential surface of the fine drum screen unit.

In addition, it is another solution to the present invention to provide a contaminant comprehensive treatment machine that further increases the dehydration efficiency of fine contaminants by reprocessing the filtered water treated by the contaminant comprehensive treatment machine once more.

As a specific means for solving the problems of the present invention, the present invention constitutes a contaminant comprehensive processor with an improved structure of the fine drum screen, an input unit 10 provided to supply contaminants; It is connected to the input unit 10 in the transverse direction for rotational movement, a plurality of first permeable passages 22 are formed to separate the filtrate contained in contaminants, and a fine drum screen unit having an outlet 21 at one end. (20); a screen bar (30) protruding from the inner circumferential surface of the fine drum screen unit (20) and having a plurality of second permeable passages (32) formed so as to collide with contaminants during rotation to separate the filtrate by surface load; and a chamber 50 installed to surround the fine drum screen unit 20 and provided to collect the filtrate separated through the first and second permeable passages 22 and 32 .

At this time, the fine drum screen unit 20 is installed to close the drum housing 24 in which a plurality of openings 24a are formed, and the openings 24a of the drum housing 24, a mesh network, a perforated plate , It is characterized in that it comprises a screen member (26) formed of any one of wedge bar screens (Wedge Bar Screens), the plurality of first permeable passages (22) are formed.

In addition, the screen bar 30 includes a pair of swash plates 34 and 34' protruding from the inner circumferential surface of the fine drum screen unit 20 in the central direction, and drains formed inside the swash plates 34 and 34'. The swash plate 34 including a duct 36 and disposed on the rotation direction side of the fine drum screen unit 20 has a plurality of second permeable passages 32 formed therein to form an obtuse angle with the inner circumferential surface of the fine drum screen unit 20 . The swash plate 34 ′ disposed on the opposite side of the rotation direction of the fine drum screen unit 20 is characterized in that it is formed as a plate without perforations.

In addition, the screen bar 30 is formed in a straight line parallel to the axial direction of the fine drum screen unit 20 or inclined toward the inclined drum unit 40 to form an inclination angle in the opposite direction to the rotation of the fine drum screen unit 20 . It is characterized in that it is formed in a shape.

In addition, the input unit 10 is connected to the fixed tube body 12 to which contaminants are supplied, and the fixed tube body 12 in an insertion structure, and rotates while having one end connected to the fine drum screen unit 20 . A plurality of distribution holes 16b are formed on the outer circumferential surface with the tube body 14 and the rotating tube body 14 extended inside the fine drum screen unit 20 in a state in which it is connected, and the end is closed by the closing plate 16a. It is characterized in that it comprises a distribution pipe body (16) is formed.

In addition, the filter water tank 70 for collecting and storing the treated water from which impurities are separated through the contaminant treatment unit, one end is connected to the filtered water tank, and the other end is connected to the sewage inlet or the input unit 10 of the comprehensive treatment machine. It is characterized in that it further includes a circulation pipe 74 for reprocessing the treated water and a pump 72 connected to the circulation pipe 74 to supply the treated water in the filtered water tank 70 .

According to the specific means for solving the above-mentioned problems, the present invention continuously performs the buoyancy and agitation action to prevent the fine contaminants such as small seeds from being adsorbed to the screen member while the filtrate contained in the contaminants is dehydrated by centrifugal force, so even in long-time operation In addition to preventing the deterioration of the dewatering ability, contaminants collide with the screen bar while moving along the inner circumferential surface of the fine drum screen, thereby maximizing the dewatering efficiency of the filtrate by the surface load.

And, since a pair of inclined plates constituting the screen bar form a drainage duct inside while forming an obtuse angle with the inner circumferential surface of the fine drum screen unit, the filtrate discharge ability is improved in the outside direction of the fine drum screen unit, and the filtrate is discharged to the inside of the fine drum screen unit It has the effect of preventing the phenomenon of backflow.

1 is a front view showing a preferred embodiment of the contaminants comprehensive treatment provided by the present invention.
Figure 2 is a block diagram showing in a plan view the state in which the contaminant comprehensive processing device according to an embodiment of the present invention is applied.
Figure 3 is an enlarged configuration diagram showing the micro-drum screen part of the contaminant comprehensive treatment machine according to the present invention.
Figure 4 is a block diagram showing the state of dehydration of the filtrate according to the rotational movement of the fine drum screen part of the present invention comprehensive treatment machine.
5 to 6 is a block diagram showing a screen bar in the fine drum screen unit of the present invention comprehensive treatment of contaminants.
7 is a block diagram showing the contaminant comprehensive processing machine according to an embodiment of the present invention from the front.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. And in the description of the present invention, if it is determined that the subject matter of the present invention may be unnecessarily obscured as it is obvious to those skilled in the art with respect to related known functions, the detailed description thereof will be omitted.

1 is a front view showing a preferred embodiment of the comprehensive foreign matter processor provided by the present invention, and FIG. 2 is a configuration diagram showing a state in which the foreign matter comprehensive processor according to an embodiment of the present invention is applied in a plan view.

The present invention relates to a contaminant treatment machine with an improved structure of the fine drum screen unit, which collides with the swash plate of the screen bar while the contaminants are moving along the inner circumferential surface of the fine drum screen unit. A pair of inclined plates constituting the screen bar form a drainage duct inside while forming an obtuse angle with the inner circumferential surface of the fine drum screen unit. It consists of a main configuration including the input unit 10, the fine drum screen unit 20, the screen bar 30, the inclined drum unit 40, and the chamber 50 to prevent the phenomenon.

The input unit 10 according to the present invention is a place to which contaminants are supplied, and is provided to supply the filtrate separated through the wastewater dehydration process in the pretreatment unit 60 .

As shown in the enlarged view of FIG. 3 , the input unit 10 is connected to the fixed tube body 12 to which contaminants are supplied, the fixed tube body 12 and the insertion structure, and one end is connected to the fine drum screen unit 20 . A plurality of distribution holes on the outer circumferential surface with the rotating tube body 14 that is rotated and extending inside the fine drum screen unit 20 in a state of being connected to the rotating tube body 14, the end of which is closed by the closing plate 16a. It consists of a structure including the distribution pipe body 16 in which (16b) is formed.

Accordingly, while the fixed tube body 12 to which the contaminants are supplied is stopped and the rotating tube body 14 is rotated together with the fine drum screen unit 20, the contaminants are supplied into the fine drum screen unit 20, and the fine Contaminants moving into the drum screen unit 20 are dispersed in all directions through the distribution hole 16b formed on the outer peripheral surface of the distribution tube body 16, and as the contaminants are evenly spread without agglomeration in the fine drum screen unit 20, fine The dewatering efficiency in the drum screen unit 20 is improved.

On the other hand, the pre-treatment unit 60 is formed to include a rotary screen dehydrator (A1) that is formed in the sewage inlet of the contaminant comprehensive treatment machine to primarily separate sewage and solids, and is separated from the pre-treatment unit 60 for treatment The filtrate collected in the tank 62 is pumped through the cyclone separation unit A2 and separated into a filtrate containing fine contaminants and a filtrate containing coarse contaminants by the specific gravity difference, and the filtrate containing fine contaminants is subjected to a fine drum screen The unit 20 is transferred to the input unit 10, and the filtrate containing coarse contaminants is supplied to the screw press (A3) and dehydrated by compression.

That is, the filtrate dehydrated through the rotary screen dehydrator (A1) is configured to be collected in the treatment tank 62 of the pretreatment unit 60 formed at the lower portion thereof, and the contaminants dehydrated in the screw press (A3) are screw conveyor It is configured to be exported to the outside through

The pre-processing unit 60 can also be configured to apply the 'screen dehydration device of the comprehensive wastewater contaminant treatment unit' of the applicant's Patent Registration No. 10-2004507.

Figure 3 is an enlarged configuration view showing the main part of the contaminant comprehensive processing machine according to an embodiment of the present invention, the fine drum screen unit 20 according to the present invention is connected in the transverse direction so that the input unit 10 is located in the center. A plurality of first permeable passages 22 are formed to separate the filtrate contained in contaminants, and a discharge port 21 is provided at one end. The fine drum screen unit 20 is formed in a cylindrical shape and is rotated at 20-100 rpm by an external power such as a motor, and contaminants are supplied through the input unit 10 at one end, and through the outlet 21 on the opposite side. The contaminants from which the filtrate is separated are discharged and treated.

The fine drum screen unit 20 is installed to close the drum housing 24 in which a plurality of openings 24a are formed, and the openings 24a of the drum housing 24, a mesh network, a perforated plate, and a wedge. It is formed of any one of bar screens (Wedge Bar Screens) and may be configured to include a screen member 26 having a plurality of first permeable passages 22 formed therein. In this case, the screen member 26 is arcuate. It is formed as a removable and replaceable installation in the opening (24a) of the drum housing (24).

In the case of the above configuration, when partial damage or contamination of the screen member 26 during use is severe, the screen member 26 can be individually separated and replaced or installed after washing to provide convenience for maintenance. have.

4 is a block diagram showing the state of dehydration of the filtrate according to the rotational movement of the fine drum screen part of the contaminant treatment machine of the present invention.

The screen bar 30 according to the present invention is formed to protrude from the inner circumferential surface of the fine drum screen unit 20 and collides with foreign matter during rotational movement, so that the surface load (eg, foreign matter and the screen bar 30 collide with each other at an angle close to a right angle). A plurality of second permeable passages 32 are formed to separate the filtrate by the load generated while doing so).

The screen bar 30 is arranged at equal intervals on the inner circumferential surface of the fine drum screen unit 20, and rotates together with the fine drum screen unit 20 while the filtrate contained in the contaminants is dehydrated by centrifugal force while small seeds and The flotation and agitation action is continuously performed to prevent the same fine contaminants from being adsorbed to the screen member 26, thereby preventing a decrease in dehydration ability even during long-term operation and while the contaminants are moved along the inner peripheral surface of the fine drum screen unit 20, the screen bar As it collides with (30), the filtrate dewatering efficiency is maximized by the surface load.

Referring to the drawings, the screen bar 30 is formed inside a pair of swash plates 34 and 34' protruding from the inner peripheral surface of the fine drum screen unit 20 in the central direction, and the swash plates 34 and 34'. It consists of a configuration including a drain duct (36).

Therefore, when the fine drum screen unit 20 rotates, contaminants collide with the swash plate 34 of the screen bar 30 while moving along the inner circumferential surface of the fine drum screen unit 20. Through (32), the filtrate dewatering efficiency is improved.

The swash plate 34 disposed on the rotation direction side of the fine drum screen unit 20 is formed such that a plurality of second permeable passages 32 are formed to form an obtuse angle with the inner circumferential surface of the fine drum screen unit 20 . As the slanted plate 34 of one side of the screen bar 30 is formed at an obtuse angle with the inner circumferential surface of the fine drum screen unit 20, a phenomenon in which contaminants are caught while moving along the inner circumferential surface of the fine drum screen unit 20 is prevented.

In addition, the swash plate 34 ′ disposed on the opposite side of the rotation direction of the fine drum screen 20 is formed as a non-perforated plate, and the filtrate discharged to the drainage duct 36 through the second permeable flow path 32 . Guided by the swash plate 34', the fine drum screen unit 20 is provided to guide the transfer in the outward direction.

At this time, as the other swash plate 34' of the screen bar 30 is formed at an obtuse angle with the inner circumferential surface of the fine drum screen unit 20, the filtrate discharged to the drain duct 36 through the second permeable passage 32 is the swash plate. By the obtuse angle of (34'), a reverse flow in the inside direction of the fine drum screen unit 20 is prevented.

On the other hand, the screen bar 30 is formed in a straight line parallel to the axial direction of the fine drum screen unit 20, or is inclined toward the outlet 21, forming an inclination angle in the opposite direction to the rotation of the fine drum screen unit 20. can be formed. 5 shows a state in which the screen bar 30 is formed in a straight shape, and FIG. 6 shows a state in which the screen bar 30 is formed in an inclined shape.

When the screen bar 30 is formed in an inclined shape, contaminants are moved along the inner circumferential surface of the fine drum screen unit 20 while being moved on the screen bar 30 and inclined toward the outlet 21, so that more efficient discharge is possible.

The inclined drum unit 40 according to the present invention is connected to the outlet 21 of the fine drum screen unit 20, and is formed as an inclined tube (conical tube) so that the discharge movement of contaminants from which the filtrate is separated is delayed.

As such, as the inner diameter of the end of the inclined drum unit 40 is gradually reduced, the fine drum screen unit 20 is formed in a reduced size compared to the inner diameter, and the fine drum screen unit 20 rides the fine drum screen unit 20 and moves toward the outlet 21 side. As the movement speed in the discharge direction is delayed, the filtrate is discharged in a sufficiently dehydrated state.

The chamber 50 according to the present invention is installed to surround the fine drum screen unit 20 and is provided to collect the filtrate separated through the first and second permeable passages 22 and 32 .

That is, as the fine drum screen unit 20 rotates and the filtrate that passes through the screen member 26 and is scattered in all directions is collected and processed in the chamber 50, high-speed operation of the fine drum screen unit 20 is possible. In addition, contamination of the surroundings due to leakage of the filtrate is prevented.

7 is a front view showing another embodiment of the comprehensive contaminant treatment machine provided in the present invention, in which a filtered water tank 70 for storing the treated water that has passed through the contaminant comprehensive treatment machine is separately provided, and the treated water in the filtered water tank 70 It shows the configuration of re-supplying to the contaminant comprehensive treatment unit again.

To this end, the filtration water tank 70 for collecting and storing the treated water from which contaminants are separated through the chamber 50 or the screw press (A3), and a circulation pipe 74 for reprocessing the treated water connected to the filtered water tank And connected to the circulation pipe 74 may further include a pump 72 for supplying the treated water in the filtered water tank (70).

As shown, the circulation pipe 74 is connected to the sewage inlet of the comprehensive treatment machine to reprocess the treated water from the beginning, or is connected to the input unit 10 and re-supplied to the fine drum screen for dehydration treatment again. As a result, the concentration of contaminants contained in the filtrate is lowered and the dehydration efficiency of fine contaminants can be improved.

As described above, in the detailed description of the present invention, the most preferred embodiment of the present invention has been described, but various modifications are possible within the scope not departing from the technical scope of the present invention. Therefore, the protection scope of the present invention is not limited to the above embodiments, but the protection scope should be recognized from the techniques of the claims to be described later and equivalent technical means from these techniques.

10: input unit 12: fixed tube body 14: rotating tube body
16: distribution pipe body 16a: closing plate 16b: distribution hole
20: fine drum screen unit
21: outlet 22: first pitching passage 24: drum housing
24a: opening 26: screen member
30: screen bar 32: second pitcher passage 34, 34': inclined plate
36: drain duct
40: inclined drum unit
50: chamber
60: pre-processing unit 62: treatment tank
70: filtration tank 72: pump 74: circulation pipe
A1: Rotary dehydrator
A2: Cyclone Separator
A3: screw press

Claims (6)

The input unit 10 to which contaminants are supplied;
The input unit 10 is connected to be positioned at the center and rotated, and a plurality of first permeable passages 22 are formed to separate the filtrate contained in contaminants, and a fine drum screen having an outlet 21 at one end. part 20;
a screen bar (30) protruding from the inner peripheral surface of the fine drum screen unit (20) and having a plurality of second permeable passages (32) formed so as to collide with contaminants during rotation to separate the filtrate by surface load; and
A chamber 50 installed to surround the fine drum screen unit 20 and provided to collect the filtrate separated through the first and second permeable passages 22 and 32;
The screen bar 30 includes a pair of swash plates 34 and 34 ′ protruding from the inner circumferential surface of the fine drum screen unit 20 in the central direction, and a drain duct formed inside the swash plates 34 and 34 ′ ( 36),
The swash plate 34 disposed on the rotational side of the fine drum screen unit 20 is formed such that a plurality of second permeable passages 32 are formed to form an obtuse angle with the inner circumferential surface of the fine drum screen unit 20, and the fine drum The swash plate 34' disposed on the opposite side of the rotational direction of the screen unit 20 is an improved contaminant treatment machine with an improved structure of the fine drum screen unit, characterized in that it is formed of a plate without perforations.
The method of claim 1,
The fine drum screen unit 20 is installed to close the drum housing 24 in which a plurality of openings 24a are formed, and the openings 24a of the drum housing 24, and include a mesh network, a perforated plate, and a wedge. The structure of the micro-drum screen part is improved, characterized in that it comprises a screen member (26) formed of any one of bar screens and having a plurality of first permeable passages (22) formed therein.
delete The method of claim 1,
The screen bar 30 is formed in a straight line parallel to the axial direction of the fine drum screen unit 20, or is formed in an inclined shape that forms an inclination angle in the direction opposite to the rotation of the fine drum screen unit 20 toward the outlet 21. An integrated contaminant treatment machine with an improved structure of the fine drum screen, characterized in that.
The method of claim 1,
The input unit 10 is connected to the fixed tube body 12 to which contaminants are supplied, and the fixed tube body 12 in an insertion structure, and is rotated with one end connected to the fine drum screen unit 20 ( 14), and a plurality of distribution holes 16b are formed on the outer peripheral surface of the fine drum screen unit 20 in a state of being connected to the rotating tube body 14 and extending inside the end of which is closed by the closing plate 16a. Consists of a distribution pipe body (16),
The structure of the fine drum screen part, characterized in that the inclined drum part 40 formed of an inclined tube is further formed at the outlet 21 of the fine drum screen part 20 to delay the discharge movement of impurities from which the filtrate is separated. An improved waste disposal system.
delete

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