KR101843553B1 - dehydration and forming apparatus of sludge - Google Patents

Abstract

The sludge dewatering and solidifying apparatus according to the present invention comprises: a housing having upper and lower openings; a centrifugal separator disposed rotatably in the housing for centrifugally separating the organic waste and driven by a driving motor supported by the housing; And a scrapper unit for separating the dewatered solid material selectively in contact with the inner peripheral surface of the dewatering drum when the dewatering drum is driven, wherein the dewatering drum includes an inlet and an outlet formed on the upper and lower sides thereof, A dehydrating unit,
A second dewatering unit for dewatering the solid matter dehydrated by the dewatering unit and having a hopper into which the solid material is introduced, and a dewatering unit for dewatering the solid matter, a compression unit for compressing the dewatered solid matter by the second dewatering unit, And a shaping unit provided with a shaping unit for shaping the solid material compressed by the compressing unit, and a shaping aid supply unit for compressing and supplying the shaping aid to the compression unit after being dewatered.

Description

[0001] The present invention relates to a dehydration and forming apparatus for sludge,

The present invention relates to a sludge dewatering and solidifying device, and more particularly, to a sludge dewatering and solidifying device capable of centrifugally dewatering various wastewater sludge, livestock manure, sewage sludge and the like and solidifying the sludge.

Generally, wastes such as livestock wastewater, sewage sludge generated from domestic wastewater treatment plants, and food wastes contain a large amount of organic substances that can be used by humans. However, they contain moisture and harmful volatile organic compounds (VOC) Substance. In order to recycle such organic waste, it is desirable to lower the water content to such an extent that it becomes a solidified product.

In particular, livestock manure such as cattle manure and livestock manure have been managed mainly in the context of "water and sewage and livestock wastewater laws", mainly on the management of water quality including purification treatment and the reclamation of individual farm units. Efforts are being made to develop various eco-friendly technologies for the purification treatment of components and the complaints caused by odor problems in the surroundings.

For this purpose, Korean Patent Registration No. 10-0551928 (registered on 02.02.2006) discloses a method of solidifying by hot air drying. This method has a problem that energy consumption for generation of hot air is relatively large.

Korean Patent Registration No. 10-0858718 (Registered on Mar. 17, 2008) discloses obtaining a product having a pH of about 7 to 8 by mixing sewage sludge with acidic powder and quicklime. However, the addition of such a process or element not only makes process control more difficult, but also leads to an increase in cost.

A technical structure in which livestock manure such as cow manure or food waste is put into an oven to be dried and then utilized in various methods is disclosed in the patent document 10-2012-0131601 (2012.12.05).

This method is to produce solid fuels with pellet form by drying the livestock manure and to produce solid fuels that can be used as an alternative means of fossil fuels such as conventional coal. Such production is difficult to improve the productivity due to the drying and the production of the pellets.

Korean Patent Registration No. 101396234 discloses a device and method for producing solid fuel using livestock manure, and Korean Patent Publication No. 2012-0046604 discloses a method for treating wastewater and composting organic wastes.

In the method of treating wastewater and composting the organic wastes, the dehydrated cake is injected into a mixer of the composting step in a dehydration process, then a swelling agent and a soil conditioner are added, and the mixture is stirred while injecting air. It has aerobic fermentation technology.

However, since this method is fermented in a non-dried state, it is relatively bulky and the efficiency of conveying is not good and it is difficult to turn it into fuel as necessary.

Korean Patent Laid-Open Publication No. 2006-0128587 discloses a method and apparatus for treating livestock manure, and Patent No. 0912781 discloses a sludge type livestock manure liquid separation and dewatering apparatus. In Utility Model Registration No. 0411352, A sludge separator for separating a slurry which is a solid matter of the sludge is disclosed. Patent Publication No. 2011-0017737 discloses an apparatus for compressing and dehydrating livestock manure.

Conventional livestock manure compression and dewatering apparatuses as described above have a structure for compressing and dewatering by using a screw, so that the dewatering efficiency can not be increased. Especially in the case of an animal manure having a low solid content density, it is difficult to practically dehydrate the above-mentioned apparatus.

Korea Patent No. 101396234 Korean Patent Publication No. 2006-0128587 Korean Patent No. 0912781 Korean Utility Model Registration No. 0411352 Korean Patent Publication No. 2011-0017737

SUMMARY OF THE INVENTION The present invention provides a method and apparatus for dewatering a food waste, sewage sludge, wastewater, livestock manure or the like which have a relatively low density of solid matter, thereby improving the dewatering efficiency and selectively drying (forming pellets) And to provide a sludge dewatering and solidifying device.

Another object of the present invention is to provide a sludge dewatering and solidifying method capable of producing fuel or compost made of pellets by mixing pulverized material obtained by crushing the flour, organic waste such as food waste, sewage sludge and livestock manure, Device.

It is another object of the present invention to provide a sludge dewatering and solidifying device for pelletizing compost using organic wastes, which is easy to store and transport by reducing the volume, is easy to apply to fruit trees, horticulture, .

According to an aspect of the present invention, there is provided an apparatus for dewatering and solidifying sludge, comprising: a housing having an open top and bottom; a centrifugal separator disposed rotatably in the housing to dewater organic waste, A dewatering drum driven by the dewatering drum and having an inlet portion and an outlet portion formed on upper and lower sides thereof so that the organic waste can be dewatered and discharged therefrom and a dewatering solid body selectively contacted with the inner circumferential surface of the dewatering drum when the dewatering drum is driven, A scraper unit for scraping the scraper unit,

A second dewatering unit for dewatering the solid matter dehydrated by the dewatering unit and having a hopper into which the solid material is introduced, and a dewatering unit for dewatering the solid matter, a compression unit for compressing the dewatered solid matter by the second dewatering unit, A molding unit provided on a side of the end of the part and having a molding part for molding the solid material compressed by the compression part;

 And a shaping auxiliary supply unit for compressing and supplying the molding auxiliary to the compression unit after dehydration.

In the present invention, the dehydrating drum is provided with a scattering member supported by a first bracket provided on an inner circumferential surface of the dehydrating drum and scattering the organic waste flowing through the inlet toward the inner circumferential surface of the dehydrating drum, The scattering member includes a scattering body portion having a convex spherical portion at an upper portion and a vertical portion extending vertically from an end portion of the spherical portion, and a scattering body portion provided at an outer peripheral surface of the scattering body portion to scatter the solid material on the outer circumferential surface, .

Wherein the forming unit includes a cylindrical dewatering main body portion provided at a lower portion of the discharge portion of the dewatering drum and provided with a hopper through which solid matter discharged from the discharge portion flows, and a second dewatering portion formed at the lower surface of the dewatering drum, A driving shaft provided on a dewatering main body side end portion of the main body and a bearing water portion provided inside the compression main body portion, and a driving shaft provided on a side of the driving shaft corresponding to the dewatering main body portion A first screw vane provided on a drive shaft corresponding to the compression body portion for compressing a solid material moved by the first screw vane and a second screw vane supplied from the molding auxiliary material supply unit, A transfer screw including a second screw blade for mixing with the auxiliary mold solids, It is installed to be close to the body and a drive section for driving the drive shaft.

The scrapper unit is provided with a support member fixed to the inner circumferential surface of the housing and extending to the inside of the dehydration drum, and a scrapper member for separating solids adhering to the inner circumferential surface of the dehydration drum is provided at an end of the support member ,

The scrapper member is provided with a boss portion on the end side of the supporting member, a pressing portion extending from the boss portion to the central portion side of the boss portion is provided on the one side of the boss portion, and a pressing portion is provided on the other side of the boss portion between the scattering member and the dewatering drum A scrapper portion for adhering to the inner circumferential surface of the dehydrating drum and separating the solids is provided by the main input of the solid material flowing into the inlet portion through the inlet portion during the dewatering operation or by the wind power generated by the blade portion of the scatterer.

The sludge dewatering and solidifying apparatus according to the present invention can dewater and solidify organic wastes, centrifugally and compressively dewater organic wastes, thereby increasing dewatering efficiency and solidifying the solid matter.

Such solids can be used as compost, fuel, etc., depending on the molding aids, and in the case of compost, since the mold is formed, transportation of the fertilizer is easy.

1 is a partially cutaway perspective view of a dewatering and solidifying device for sludge according to the present invention,
FIG. 2 is a cross-sectional view of the dewatering and solidifying device of the sludge shown in FIG. 1,
3 is a cross-sectional view showing another embodiment of the scraper unit,
Fig. 4 is a perspective view illustrating the molding unit shown in Fig. 1,

The apparatus for dewatering and solidifying sludge according to the present invention can centrifugally and pressurize and dewater organic wastes such as food wastes, livestock manure, sewage sludge, and the like, and examples thereof are shown in Figs. 1 and 2. Fig.

The sludge dewatering and solidifying apparatus 10 according to the present invention includes a dewatering unit 20 for dewatering organic wastes by centrifugal force, a dewatering unit 20 for dewatering the dewatered solid matter, A shaping unit 60 for shaping the compacting unit 60 into a predetermined shape and a shaping aid to be described later of the shaping unit 60. That is, And a forming auxiliary material supply unit 100 capable of pressurizing and supplying coal, fossil fuel residue, and the like for storing the heat quantity of the fuel.

The dewatering and solidifying device of the sludge according to the present invention constructed as described above will be described in more detail according to each component.

The dewatering unit 20 is capable of separating organic wastes into sewage or wastewater and solid matter using centrifugal force. As shown in FIGS. 1 and 2, the upper and lower portions are opened, And a housing 23 provided with a waste water discharge portion 22. A drive motor 25 supported by first brackets 24 supported on the inner circumferential surface of the housing 23 is provided in the housing 23 and a flare member 30 is provided on the drive shaft of the drive motor 25. [ Respectively. And a dehydrating drum 40 connected to the lower end of the fogging member 30 by a second bracket 41 and rotated together with the fogging member 30.

The wastewater discharging portion 22 is for discharging the wastewater flowing along the inner circumferential surface of the housing by being dewatered from the dewatering drum 40 on the opened lower side of the housing 23, Are continuously formed in an open channel shape. A discharge pipe 23b for discharging the collected wastewater is installed at one side of the waste discharge unit 22.

The support of the dehydrating drum 40 relative to the scattering member 30 is such that the inner peripheral surface on the lower end side of the dehydrating drum 40 and the outer peripheral surface on the lower end side of the scattering member 30 are connected by the second bracket 41, And the dehydrating drum 40 are coaxially positioned.

The scattering member 30 is provided with a convex spherical portion 31 at an upper portion thereof and a scattering body portion 33 having a vertical portion 32 extending vertically from the spherical portion 41, On the outer circumferential surface of the body portion 33, a wing portion 34 for scattering the solids on the outer circumferential surface and blowing air in the radial direction is formed.

The upper part of the scattering member 30 is not limited to the convex spherical part 31 but may be a conical or concave shape so as to smoothly scatter the organic waste flowing into the dehydrating drum 40 Do. Also, the wing portion 34 may be formed to have directionality so that scattering of organic wastes and generation of wind force in a radial direction can be generated.

The dehydrating drum 40 is installed between the housing 20 and the scattering member 30 as described above and has an inlet 42 communicating with the opening of the housing 20 on the upper side, And a discharge part 43 is formed on the lower side so that the dehydrated organic waste, i.e., solids, can be discharged.

The upper side of the dewatering drum 40 on which the inflow portion 42 is formed has a structure to collect the inflowing organic waste toward the center portion in order to discharge the discharged organic wastes to the outside. On the outer circumferential surface, holes for dehydration are formed.

The dewatering unit 20 further includes a scrapper unit 50 for contacting the inner circumferential surface of the dewatering drum 20 during centrifugal dewatering by the dewatering drum 40 to separate the solids from the inner circumferential surface of the dewatering drum do.

The scrapper unit 50 is fixed to the inner circumferential surface of the housing 20 and is provided with a support member 51 extending into the dehydration drum 40. The dehydration drum 40 A scrapper member 52 for separating solids adhering to the inner circumferential surface of the scrap member 52 is provided.

The scrapper member 52 is provided with a boss portion 53 on the end side of the support member 51 and a pressing portion 54 extending from the boss portion 53 toward the center portion side of the boss portion 53 And the other side of the boss 53 is located between the fog member 30 and the dewatering drum 40 so that the main input or scattering member of the solid material flowing into the inlet portion through the inlet 42 during the dewatering operation, A scrapper portion 55 for closely adhering to the inner circumferential surface of the dewatering drum and separating solids is provided by the wind power generated by the wing portion 34 of the dewatering drum 30. It is preferable that the weight of the pressing portion 54 is made lighter than the weight of the scrap portion 55 in order to prevent the scrap portion 55 from coming into close contact with the inner circumferential surface of the dewatering drum when dewatering is not practically performed.

Another embodiment of the scrapper unit 50 is shown in Fig.

Referring to the drawings, the scrapper unit 50 includes a third bracket 56 mounted on a base of a driving motor supported by a first bracket 24, and a third bracket 56 slidably mounted on the third bracket 56 And an extended scrapper member (57) extending to the side adjacent to the inner circumferential surface of the dehydrating drum (40). The extended scrapper member 57 slidably provided on the third bracket 56 is elastically biased in a direction separating from the dewatering drum 40. [

In this case, the elastic force should be able to be overcome by the wind power generated from the scattering member (30). The second bracket 41 connecting the scattering member 30 and the dehydrating drum 40 is disposed on the upper side of the dehydrating drum 40 so as not to interfere with the extended scrapper member 57. [ .

On the other hand, the forming unit 60 presses the dewatered solid material by the dewatering unit 20 to perform second dewatering and molding. The forming unit 60 includes a main body 66 equipped with a hopper 65 into which solid matter is injected, A conveying screw 70 for conveying and compressing the conveying screw 70 and a driving unit 80 installed on the main body 62 or on the side adjacent thereto to drive the conveying screw 70. A molding portion 90 is provided at the outlet of the main body 62.

More specifically, the forming unit 60 includes a main body 66 and a secondary screwdriver 61 for dewatering the solids by the feed screw 70, a solids dehydrated by the secondary dewatering unit 61, Thereby constituting a compression section 62 for compressing.

The main body 66 is installed on the lower part of the discharge part 43 of the dewatering drum 40 so that the hopper 65 to which the solid discharged from the discharge part 43 flows is provided on the upper side, A cylindrical dewatering main body portion 66a which is composed entirely of perforated webs and constitutes a secondary dewatering portion 61 and a conical compression body portion 66b connected to the dewatering main portion 66a and constituting the compression portion 62, Respectively. A heater heater 120 is installed on the outer peripheral surface of the compression body portion 66b.

The conveying screw 70 installed in the main body 66 is connected to the driving shaft supported by the end of the dewatering main body 66a of the main body 22 and the bearing portion provided inside the end of the compression main body 66b, A first screw vane 72 installed on a drive shaft 71 on the side corresponding to the dewatering main body 66a to move the solids to the compression unit side, A second screw vane 73 for compressing the solid material moved by the first screw vane 72 and for mixing the auxiliary molding supplied from the forming auxiliary material supply unit 100 with the solid material, ).

4 shows a molding part 90 provided on the end side of the compression body part 66b constituting the compression part 62. As shown in FIG.

Referring to the drawings, the forming unit 90 includes a cylindrical molding body 91 provided at an end of the compression unit 62, and an extrusion hole (not shown) provided in the upper mold body 91 for extruding the solid material And a plurality of nozzle units 92 on which the nozzles 92a are formed.

Spiral guide grooves or projections are formed on the inner circumferential surface of the extrusion hole 92a of the nozzle unit 92 so that the solid material can be smoothly discharged. On the other hand, in order to prevent the extrusion hole 92a of the nozzle part 92 from being clogged with the resting period in which the molding part 90 has not been formed, a separating material such as water or a lubricant is formed inside the molded body part 91 And a separation material supplier 95 for supplying the separation material.

The separation material supply unit 95 includes a separation material storage tank 95a and a separation material supply pipe 95b for connecting the molding material unit 91 and the separation material storage tank 95a to the separation material supply pipe 95b. And a pump 95c installed therein.

As shown in FIGS. 1 and 2, the shaping aid supply unit 100 supplies the rice husks, rice straw, crushed wheat flour, etc. for fermentation when used as compost or fuel as described above, Which is a by-product of coal and fossil fuels for the preservation of coal, and can be made of a screw feeder. That is, a screw feeder main body 101 connected to the compression main body 66b, a forming auxiliary hopper 102 installed on the screw feeder main body 101, And a screw 103 driven by a motor for feeding the compressed air into the compression body portion 66b. The shaping aid supply unit is not limited to the above-described embodiments, but may vary depending on the molding auxiliary.

In order to dewater and form organic wastes such as food waste, livestock manure, sewage sludge and the like using the dewatering and solidifying device 10 of the sludge according to the present invention constructed as described above, the driving motor 25 And the driving unit 80 of the forming unit 60 rotate the dewatering drum 40 in the housing 23 and rotate the feeding screw 70.

In this state, the organic waste for molding is continuously introduced through the inflow part 42. The organic wastes 200 are scattered to the inner peripheral surface of the dehydrating drum 40, and the waste water or wastewater and the solid matter are separated. The separated solids are held in close contact with the inner circumferential surface of the dewatering drum 40 by centrifugal force. The solids are separated by the scrapper unit 50 supported by the housing 23, . That is, in the process of flowing the organic waste 200 into the inflow portion 42 of the dewatering drum 40, the organic waste 200 presses the pressurizing portion 54, and the scrapper member (55) is brought into close contact with the inner peripheral surface of the dehydrating drum (40) to separate the solid from the inner peripheral surface of the dehydrating drum.

The separated solids are scattered and separated repeatedly on the inner surface of the dewatering drum 40 by the scattering member 30 and the scrapper unit 50, thereby achieving smooth dewatering. The dewatered solid material flows into the molding unit through the hopper, and the separated wastewater or waste water is discharged through the wastewater discharge portion 23a.

The solid material flowing into the molding unit is dewatered by the secondary dewatering unit and is compressed by the compression unit. Since the molding auxiliary material supply unit 100 is provided in the compression unit 62, Mixed. In this process, the water content of the solid material is relatively decreased, and the material is selectively heated and dried by the heater provided on the outer peripheral surface of the compressed portion.

The solid material in which the molding assistant is mixed is passed through the nozzle portion 92 of the molding portion 90 to be molded. Although not shown in the drawings, when a rotary cutter is provided at the end of the nozzle unit, the solid material extruded from the nozzle unit can be cut to a predetermined size.

As described above, the sludge dewatering and solidifying apparatus 10 according to the present invention can continuously dewater and form organic wastes to make fuel or compost, and the compost thus produced is easy to transport and fertilize.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

The sludge dewatering and solidifying device of the present invention can be widely applied not only to food waste, livestock manure, but also to various industrial wastes.

Claims (6)

The apparatus includes a housing having upper and lower openings, a drive motor rotatably installed inside the housing for centrifugally separating organic wastes, and driven by a driving motor supported by the housing. The organic waste is dewatered and discharged, And a scrapper unit for separating the dewatered solid material selectively in contact with the inner peripheral surface of the dewatering drum when the dewatering drum is driven, wherein the dewatering unit comprises:
A second dewatering unit for dewatering the solid matter dehydrated by the dewatering unit and having a hopper into which the solid material is introduced, and a dewatering unit for dewatering the solid matter, a compression unit for compressing the dewatered solid matter by the second dewatering unit, And a shaping unit provided on the end of the shaping section for shaping the solid material compressed by the compression section and a shaping aid supply unit for compressing and supplying the shaping aid to the compression section after being dewatered,
A fountain member is provided inside the dehydrating drum and is supported by a first bracket provided on an inner circumferential surface of the dehydrating drum and is provided with a scattering member for scattering the organic waste flowing through the inlet toward the inner circumferential surface of the dehydrating drum, A flared body portion having a convex spherical portion and a vertical portion extending vertically from an end of the spherical portion and a blade portion provided on an outer peripheral surface of the flared body portion for scattering the solid material on the outer peripheral surface and for blowing air in a radial direction, ,
The scrapper unit is provided with a support member fixed to the inner circumferential surface of the housing and extending to the inside of the dehydration drum, and a scrapper member for separating the solids adhering to the inner circumferential surface of the dehydration drum,
The scrapper member is provided with a boss portion on the end side of the supporting member, a pressing portion extending from the boss portion to the central portion side of the boss portion is provided on the one side of the boss portion, and a pressing portion is provided on the other side of the boss portion between the scattering member and the dewatering drum A scrapper portion for adhering to the outer circumferential surface of the dewatering drum and separating the solids from the main input of the solid material flowing into the inlet portion through the inlet portion during the dewatering operation or the wind power generated by the wing portion of the scattering member, And a plurality of nozzle portions provided on the upper body portion and formed with an extrusion hole for extruding the solid material, wherein the compression portion forming the inner peripheral surface of the extrusion hole is provided with a helical guide groove Or protrusions are formed,
Further comprising a separating material supply unit for supplying a separating material to the inside of the molding body to prevent the extrusion hole of the nozzle unit from being clogged with the resting unit which is not compressed from the compressing unit. delete delete The method according to claim 1,
Wherein the forming unit includes a cylindrical dewatering main body portion provided at a lower portion of the discharge portion of the dewatering drum and provided with a hopper through which solid matter discharged from the discharge portion flows, and a second dewatering portion formed at the lower surface of the dewatering drum, A body formed of a conical compression body portion connected to form a compression portion,
A drive shaft provided at a dewatering main body side end portion of the main body and at a bearing water portion provided inside the compression main body portion side and a first screw blade provided at a drive shaft at a side corresponding to the dewatering main body portion for moving the solids into the compression main body portion, And a second screw blade installed on the drive shaft corresponding to the compression body part to compress the solid material moved by the first screw blade and to mix the solid material with the auxiliary molding supplied from the molding auxiliary material supply unit A feed screw,
And a driving unit installed adjacent to the main body to drive the driving shaft. delete delete

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