KR20120018968A - Brush type waterway fine impurities disposal system - Google Patents

Abstract

PURPOSE: A brush type fine debris disposal system for a water channel is provided to maximize the efficiency of debris disposal by completely processing fine debris included in sewage flowing into a water channel. CONSTITUTION: A brush type fine debris disposal system for a water channel comprises a first debris processing device(10), a base(20), a second debris processing device(30), a debris separating device, and a debris discharge hopper(50). The first debris processing device processes debris with a relatively large volume, such as pieces of wood or vinyl. The base supports debris that are caught and transferred by the first debris processing device. The second debris processing device processes fine debris, such as hair or paper, not processed by the first debris processing device. The debris separating device splits fine debris caught on the second minute debris processing device. The debris discharge hopper discharges debris transferred by the first and second debris processing devices.

Description

Brush type waterway fine impurities disposal system

The present invention relates to a brush-type waterway fine contaminant treatment system, and more particularly, to a brush-type waterway to completely process the fine contaminants introduced into the waterway by providing a brush-type contaminant processing device in the waterway. It relates to a fine contaminant treatment system.

In general, the removal of contaminants contained in manure, livestock waste water, sewage, and waste water is introduced into the screw press after input of the contaminants into the inlet, and various types of screens are applied to remove the coarse contaminants, and the filtrate containing fine solids. Stay in the storage tank for a while.

In addition, while the filtrate retained in the storage tank is introduced into the cyclone by using a pump, the solid content of less than 10% of the filtrate falling below the cone by hitting the inner wall of the cylinder by the input pressure of the pump has a high water content. The liquid is added to the horizontal centrifuge and dehydrated, and the remaining 90% of the filtrate does not sink to the center of the cyclone as a fine solid, so it rises and flows into the collecting reservoir.

In addition, the bottom surface of a certain size is installed to be inclined under the coarse dust remover, and a screw conveyor is inserted and mounted therein to remove only sand having a large particle size.

However, such a conventional contaminant remover does not respond to the sudden load of wastewater contaminants that are instantaneously input, and a large amount of sediment and suspended solids are accumulated in the treatment tank, occupies a lot of facility space, and consumes excessive power. Due to the increase in maintenance costs, there are many problems, such as a lot of restrictions on automatic operation.

In order to solve the above problems, Korean Patent No. 343113, "Compound removal method of wastewater contaminants," has been published.

The Patent No. 343113 relates to a complex removal apparatus and method for treating wastewater contaminants for treating wastewater contaminants, and more particularly, to configure a device for complete encapsulation and collective interlocking action. After the addition, the coarse contaminants contained in the wastewater contaminants are removed with a ring screen rotor, inlet and dewatered by a screw press, and discharged to an incinerator, and the fine solid filtrate passed through the screen of the ring screen rotor is collected from the filtrate collection chute. It is introduced into the feed pipe of the interlocking cone centrifuge to cause specific gravity separation using centrifugal force to remove and dehydrate fine contaminants continuously, transfer them to the hopper tank, collect them, and transfer the separation liquid to the underground storage tank or the next treatment process by chute. Clean treatment plant, reduce initial facility cost and maintain operation effectively. It is to provide an automatic driving system that can achieve this.

In the Patent No. 343113, the fine solid filtrate passing through the screen of the ring screen rotor flows into the feed pipe of the conical centrifuge, and the fine grains are continuously removed and dehydrated by the difference in specific gravity using centrifugal force, and transferred to the hopper tank. The separation liquid is transported to an underground storage tank or the next treatment step by chute.

However, a large amount of fine solid filtrate flows directly into the conical centrifuge in the treatment process, and the phase of the material is separated according to the specific gravity by centrifugal force, thereby increasing the load of the conical centrifuge, thereby using a large centrifuge. The consumption of power increases, there is a problem that the processing apparatus is large in size.

In addition, since the suspended solids mixed in the fine solid filtrate during the centrifugation process are included in the separation solution and transferred to the next treatment process, there is a problem that the separation solution must be purified through more processes.

In addition, another conventional contaminant treatment device is to install a membrane-type contaminant processing device in the waterway, and when processing the contaminants by the membrane, it is also possible to process fine contaminants, but the fine particles such as hair or paper on the membrane As it grows, it accumulates, so that the fine contaminants attached to the membrane cannot be easily pulled out, and there is a problem that an overload occurs in the device due to excessive attachment.

Accordingly, the present invention has been made to solve the above problems, the object of which is to maximize the processing efficiency of the fines by allowing the fine contaminants contained in the waste water flowing into the first channel to be completely processed through a plurality of contaminant treatment apparatus You can do it.

Second, the fine contaminants such as hair or paper contained in the waste water can be separated and filtered by a brush-type contaminant treatment device, thereby improving the performance of the product.

Third, the present invention provides a finely finely treated material with a brush-type number to improve the performance and operation efficiency of the product by quickly removing the finely caught material on the brush when the fine particles are caught on the brush.

The present invention for achieving the above object is formed on the back of the first and the first contaminant treatment apparatus for processing a large kind of contaminants, such as branches or vinyl, which is introduced with the waste water in the waterway; A pedestal for smoothly conveying the contaminants conveyed by the first contaminant handling apparatus, and filtering the fine contaminants such as hairs and papers that are not filtered by the first contaminant treatment apparatus at the rear of the first contaminant treatment apparatus; A second fine contaminant treatment apparatus of a brush type to give a line, a contaminant discharge hopper for discharging contaminants caught by the first and second fine contaminant treatment apparatuses, and the second fine contaminant treatment apparatus Miscellaneous to separate the fine dust caught on the brush on the upper side of the device from the brush The present invention provides a finely finely treated material processing system with a brush type water, characterized in that it comprises a water separator.

As described above, the present invention is formed by linking the first fines processing device and the brush type second fine fines processing device to sequentially process the contaminants introduced with the wastewater into the water channel according to the size, and the second fine fines processing device. By forming a debris separating device to separate the fine contaminants, such as hair or paper attached to the brush from the brush, to process the bulky contaminants with the first contaminant treatment device, and subsequently to the second fine contaminant treatment device It is possible to maximize the processing efficiency and work efficiency of the contaminants by processing the contaminants at a time by completely processing, and the fine contaminants in the contaminant processing unit by the contaminant separation device even if the contaminant treatment unit is used for a long time. The convenience of work is prevented by being attached There are effects that you can maximize the performance of loans products.

1 is a perspective view showing a fine contaminant processing system according to the present invention.
Figure 2 is an exploded perspective view showing a fine contaminant processing system according to the present invention.
3 is an enlarged view of a portion “A” of FIG. 2.
Figure 4 is an internal configuration showing a fine contaminant processing system according to the present invention.
5 is an operating state of the contaminant separating apparatus according to the present invention.
Figure 6 is an exemplary state of processing the contaminants of the fine contaminant treatment system according to the present invention.
7 is an exemplary view showing another example of a fine contaminant treatment system according to the present invention.

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

Figure 1 is a perspective view showing a fine contaminant processing system according to the present invention, Figure 2 is an exploded perspective view showing a fine contaminant processing system according to the present invention, Figure 3 is an enlarged view "A" portion of FIG. Figure 4 is an internal configuration showing a fine contaminant processing system according to the present invention, Figure 5 is a view showing the operating state of the apparatus for separating a contaminant according to the present invention, Figure 6 is a contaminant of the fine contaminant processing system according to the present invention 7 is an exemplary view showing another example of a fine contaminant processing system according to the present invention.

As shown in Figures 1 to 6, the present invention is a fine contaminant treatment system to treat the contaminants contained in the sewage, waste water, etc. flowing into the water channel, the fine contaminant treatment system is a large volume of wood chips and vinyls, etc. A first contaminant processing apparatus 10 to process a contaminant, a pedestal 20 to support a contaminant to be transported by being caught by the first contaminant processing apparatus 10, and the first contaminant processing apparatus 10 The second fine contaminant processing apparatus 30 for processing fine contaminants such as hair or papers that have not been processed in the air, and the fine matter separation device for separating the fine contaminants caught in the second fine contaminant processing apparatus 30. 40, and a fine matter discharge hopper 50 for discharging the fines conveyed by the first fine matter treatment device 10 and the second fine particle treatment device 30. It is configured to include.

The first contaminant processing apparatus 10 is formed with a contaminant conveying processor 11 so as to filter the bulky contaminants introduced into the waterway 100 and rotate the upper contaminant. A plurality of guide bars 12 are formed to catch and transport the contaminants.

In addition, the guide bar 12 is sandwiched between the pedestal 20 so that the impurities can be smoothly transported.

On the other hand, the first contaminant processing apparatus 10 is preferably formed in the form of a rotary conveyor to be transported to raise the contaminant up.

The pedestal 20 is formed in close proximity to the rear portion of the first contaminant processing apparatus 10, and is formed in plurality at regular intervals on both sides of the channel 100.

At this time, each of the pedestal 20 is preferably formed at intervals such that bulky contaminants such as wood chips or vinyls do not fall out.

On the bottom surface of the waterway 100 at the rear of the pedestal 20, bulky contaminants are blocked so that the contaminants can be processed in the first contaminant treatment apparatus 10 without passing to the second fine contaminant treatment apparatus 30. The blocking film 60 is formed.

The second fine contaminant processing apparatus 30 is formed at the rear of the pedestal 20, the brush-type fine contaminant processing unit 31 is formed so as to process fine contaminants such as hair or paper.

In addition, the outer portion of the brush-type fine contaminant processing unit 31 is provided with a tapping piece 32 so as to press the contaminant separating apparatus 40 downward.

On the other hand, the brush-type fine contaminant processor 31 is to be formed by the rotational drive of the conveyor or to be formed fixed.

The contaminant separating device 40 is in close contact with the upper one side of the brush-type fine contaminant processing unit 31 to scrape out the fine contaminants attached to the brush-type fine contaminant processing unit 31, and the scraper 41 The elastic spring 43 is formed in the lower portion of the) to elastically support the scraper 41, and the fine particles such as hair or paper that is coupled to the scraper 41 and caught on the scraper 41 from the scraper 41 A contaminant separator 42 to be separated is formed.

In addition, an injection nozzle 44 through which air or water is injected is formed on the upper portion of the scraper 41 to completely drop the fine particles attached to the scraper 41 and the contaminant separating port 42. .

The contaminant discharge hopper 50 is formed at the lower end of the first contaminant treatment device 10 and the second fine contaminant treatment device 30, that is, the upper portion of the water channel 100, and is transferred from the first contaminant treatment device 10. The bulky contaminants to be collected and the fine contaminants conveyed by being attached to the second fine contaminant treatment device 30 are collected.

On the other hand, the fine contaminant processing system according to the present invention, as shown in Fig. 7 also in the first fine particle processing device 10 and the second fine contaminant processing device 30 at the rear of the second fine contaminant processing device 30 The third complex processing apparatus 70 in the form of a mesh is formed to process the unprocessed impurities.

Looking at the operating state of the fine contaminant treatment system according to the present invention made of the above configuration as follows.

First, when a contaminant is introduced into the waterway 100 together with wastewater, a large contaminant such as wood chips is caught in the contaminant transport processor 11 of the first contaminant treatment device 10, and the contaminant transport processor ( As 11) rotates, bulky contaminants are caught on the guide bar 12 and are transported upwards.

At this time, the miscellaneous material being caught by the guide bar 12 is supported by the pedestal 20 to be conveyed without falling down.

Along with the pedestal 20 and the contaminants to be transported across the guide bar 12 are pulled upwards according to the rotation of the contaminant conveying processor 11 and then the first contaminant processing apparatus 10. And from the end of the pedestal 20 is dropped to the trash discharge hopper (50).

On the other hand, when the bulky contaminants introduced into the waterway 100 are not processed by the first contaminant treatment device 10, the jammed membrane 60 is caught and the bulky contaminant is the second fine contaminant treatment device ( 30) will not flow into.

As a result, the untreated matters not processed by the first fine material treating apparatus 10 are not caught by the second fine particle handling apparatus 30 by the locking membrane 60 so that the second fine particle handling apparatus 30 stops. It is not possible to cause a failure such as

In addition, the fine particles such as hair or paper that are not processed in the first fine material processing device 10 pass through the first fine material processing device 10, and the brush type fines of the second fine material processing device 30. It is attached to the contaminant processing unit (31).

In addition, as the brush-type fine contaminant processing unit 31 is rotated, the fine contaminants attached to the brush-type fine contaminant processing unit 31 are transported and fall into the contaminant discharge hopper 50.

At this time, the fine contaminants attached to the brush-type fine contaminant processing unit 31 do not fall off by being caught by the scraper 41 in close contact with the brush-type fine contaminant processing unit 31.

On the other hand, when the fine contaminants are separated from the brush-type fine contaminant processing unit 31 by the scraper 41 and caught by the scraper 41, the protruding pieces 32 formed on the brush-type fine contaminant processing unit 31 are formed. The scraper 41 passes by the brush-type micro-catch processing device 31.

Accordingly, the protruding piece 32 presses the scraper 41 downward, and as the descending scraper 41 descends, the fine matter separation hole 42 removes the fine contaminants caught in the scraper 41. Air or water is injected through the injection nozzle 44 to drop the fine contaminants attached to the contaminant separator 42 into the contaminant discharge hopper 50.

In addition, the scraper 41 lowered by the two-strength piece 32 is raised by the elastic force of the elastic spring 43 as the protruding piece 32 passes, and the brush-type micro-collision processor 31 is raised. The attached fine contaminants can be removed.

In addition, according to the present invention, as the third fine material processing apparatus 70 is formed on the rear side of the second fine contaminant processing apparatus 30 as shown in FIG. In the second fine contaminant processing device 30 is also able to completely process the untreated fine contaminants.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

10: first waste matter treatment apparatus 11: the miscellaneous material conveying processor
12: guide bar 20: pedestal
30: second fine contaminant treatment device 31: brush type fine contaminant treatment device
32: protruding piece 40: debris separating device
41: scraper 42: contaminant separator
43: elastic spring 44: injection nozzle
50: trash discharge hopper 60: blocking film
70: third contaminant treatment device 100: water channel

Claims (8)

In the fine contaminant treatment system that treats the contaminants contained in the sewage or waste water flowing into the waterway 100,
A first contaminant treatment device 10 for treating large kinds of contaminants such as twigs or vinyls introduced into the waterway 100 with waste water;
A pedestal (20) formed at a rear surface of the first contaminant processing apparatus (10), so that the contaminants conveyed by the first contaminant processing apparatus (10) can be smoothly transferred without falling;
It is formed on the rear of the pedestal 20, the second fine contaminants 30 of the brush type to filter out the fine contaminants such as hair or paper that is not filtered in the first contaminant processing apparatus 10 (30) Wow;
The bulky contaminants formed on the lower end of the first and second fine contaminant treatment device 10 and the upper portion of the water channel 100 and transferred from the first contaminant treatment device 10 and the first 2, a fine matter discharge hopper 50 which is attached to the fine fine particle processing apparatus 30 and collects and discharges fine fine matters;
It is formed on the upper side of the second fine contaminant treatment device 30, characterized in that it comprises a fine matter separation device 40 for separating the fine contaminants attached to the second fine contaminant processing device 30 Brush type water channel fine contaminant processing system. The method of claim 1,
The first contaminant processing apparatus 10 is formed with a contaminant conveying processor 11 so as to filter the bulky contaminants introduced into the waterway 100 and rotate the upper contaminant. A plurality of guide bars 12 are formed to catch and transport the contaminants to the upper part, but the guide bars 12 are inserted between the pedestals 20 so that the contaminants can be smoothly transported without falling out. Fine contaminant treatment system. The method of claim 1,
The pedestal 20 is formed to be in close contact with the rear portion of the first contaminant treatment device 10, a plurality of spaced spaces such that the bulky contaminants, such as wood chips or vinyl, do not fall to both sides in the waterway (100). Brush type channel fine contaminant processing system, characterized in that formed by. The method of claim 1,
On the bottom surface of the waterway 100 at the rear of the pedestal 20, bulky contaminants are blocked so that the contaminants can be processed in the first contaminant treatment apparatus 10 without passing to the second fine contaminant treatment apparatus 30. Brush type channel fine contaminant processing system, characterized in that the blocking film (60) is formed. The method of claim 1,
The second fine contaminant processing apparatus 30 is formed with a brush-type fine contaminant processing unit 31 so as to process fine contaminants such as hair or paper, and separates the contaminants on the outer side of the brush-type micro-narrow processing unit 31. Brush type water, fine contaminant processing system, characterized in that the two pieces (32) is formed so as to press the device 40 downward. The method of claim 5, wherein
The brush type fine contaminant processing unit (31) is a brush type channel fine contaminant processing system, characterized in that formed by the rotational drive of the conveyor or is formed fixedly. The method of claim 1,
The contaminant separating device 40,
The scraper 41 is in close contact with the upper one side of the second fine contaminant processing device 30 to remove the fine contaminants attached to the second fine contaminant processing device 30,
An elastic spring 43 formed below the scraper 41 to elastically support the scraper 41;
A fines separating part 42 coupled to the scraper 41 to separate fine particles such as hair or paper caught on the scraper 41 from the scraper 41;
The upper portion of the scraper 41 is characterized in that the injection nozzle 44 is formed is sprayed with air or water so that the fine particles attached to the scraper 41 and the contaminant separating hole 42 can be dropped completely Brush type waterway fine contaminant treatment system. The method of claim 1,
On the rear side of the second fine contaminant processing apparatus 30, the third fine contaminant processing apparatus in the form of a mesh so as to process unprocessed contaminants even in the first and second fine contaminant processing apparatus 30. Brush type channel fine contaminant processing system, characterized in that 70 is formed.

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