KR101977930B1 - Cohesion disposal apparatus for animal excretion - Google Patents

Abstract

The present invention relates to a coagulating treatment apparatus for livestock excretion, which highly efficiently performs a solid-liquid separation process of livestock excretion, comprising: a coagulating treatment tank; a raw water supply pipe; a vortex pump; a livestock excretion discharge pipe; and an underwater discharge pump.

Description

Technical Field [0001] The present invention relates to a COHESION DISPOSAL APPARATUS FOR ANIMAL EXCRETION,

The present invention relates to a livestock manure flocculation treatment apparatus, and more particularly, to a livestock manure flocculation treatment apparatus structured so that solid sludge in a flocculation treatment tank is collected at the center through rotation of water and then separated and discharged through a pump will be.

Recently, the livestock industry has become a large-scale enterprise, resulting in deteriorated water quality and eutrophication due to livestock manure due to livestock manure. Especially, most of the discharged amount is reduced to farmland, and in case of narrow farmland in Korea, And it is absolutely necessary to reduce the pollutant emission by the purification treatment of livestock manure.

Livestock wastewater is generated in a small amount, but it contains a high concentration of organic matter and nitrogen components, which makes it difficult to treat. Particularly, in the case of pig piglet wastewater, most of the pigments in the slurry state, which has a high water content and difficulty in solid-liquid separation, are in need of establishing an appropriate treatment method.

Livestock wastewater is a highly concentrated organic slurry which is mixed with urine and washing water. It can be used for physical, chemical treatment and biological treatment. (TS, 36,000 ~ 100,000 ppm, slurry pesticide), and high-density (1.01 ~ 1.02, based on slurry pellets) and high viscosity (4-8 cp, based on slurry pellets) Standard) is characterized in that the solid-liquid separation is essential in the pretreatment process.

In general, livestock wastewater is converted into compost and livestock resources. In some farms, self-purification treatment, introduction of public treatment facilities installed by local governments, and consignment to recyclers are treated, but the handling of manure And thus has a direct effect on the amount and concentration. Particularly, the characteristics of occurrence vary greatly depending on the type of the house, the structure, the separation of the urine and the urine, the method of house cleaning, the amount of washing water, and disinfection.

The collection form of livestock wastewater is divided into separated type and non-separated type depending on the separation method of urine and urine, and the separated type is called scrapper type and the separated type is called slurry type. Most of the livestock wastewater is discharged as waste water in the form of slurry because of convenience in breeding management.

The solid-liquid separation technique of livestock wastewater can be classified as follows: 1) Sedimentation, 2) Mechanical separation (including separation of specific gravity), 3) Evaporation ponds, Lagoons, 4) Dehydration, And 5) coagulation flocculation.

2) Composting treatment (Recycling: anaerobic fermentation / gaseous fuel and liquid fertilizer, liquid fertilizer, fertilizer, etc.) can be classified as follows: 1) Aerobic fermentation / composting), 3) liquid phase compost method (manure mixing / aerobic fermentation / composting), and 4) purification treatment method (physical, chemical and biological treatment / discharge).

In addition, the digestion method of livestock wastewater treatment uses livestock wastewater as energy by combining anaerobic digestion with aerobic digestion, anaerobic digestion through biogas generation and gas purification, and aerobic digestion (aeration) , To produce compost, or to link sewage treatment through public treatment plants.

As described above, the conventional livestock wastewater solid-liquid separation process is a general wastewater treatment method in which a biological reaction is treated with a chemical reaction with a physical reaction and a chemical, followed by a composting, liquefaction, or discharge to an advanced treatment. In the case of a livestock wastewater, Urine and washing water are mixed and discharged. Most of them are contained in a large amount of solid sludge, so that it is difficult for general microorganisms to exist and it takes much time to purify the solid sludge and it is difficult to purify the sludge.

Therefore, it is required to develop a technology capable of performing a solid-liquid separation process of livestock wastewater with high efficiency, and more effectively solid-liquid separating solid sludge to make resources by compost and fuel.

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a method and apparatus for collecting solid sludge in a coagulation treatment tank, The present invention relates to a livestock manure agglomeration apparatus and a livestock manure agglomeration apparatus.

An object of the present invention is to provide a flocculation treatment tank having a side surface closed by a side wall and an upper surface opened and formed in a cylindrical shape, and a livestock manure supply unit for supplying livestock manure from the raw water tank formed above the flocculation treatment tank, A raw water supply pipe, and a livestock manure provided on the inner wall side of the coagulation treatment tank to suck livestock manure supplied into the coagulation treatment tank to mix the coagulant and then discharge it in a circumferential direction inside the coagulation treatment tank through a nozzle, A swirling pump for collecting the solid sludge of the livestock manure agglomerated by the flocculating agent while the livestock manure is swirling while causing vortices to be collected in the central part of the flocculation treatment tank and a vortex pump connected to the wall surface of the flocculation treatment tank, A urine drainage pipe for discharging the urine of livestock manure to the aeration tank, And an underwater drain pump installed vertically movably along the elevating means for separating the solid sludge collected in the center of the inside of the flocculation treatment tank while being collected and separated by a solid-liquid separator. ≪ / RTI >

The angle between the inner wall of the flocculation treatment tank and the nozzle of the vortex pump is controlled by the angle adjusting means so that the discharge angle of the livestock manure discharged from the nozzle of the vortex pump is adjusted, A support plate formed of a semicircular plate material, one end of which is provided on a wall surface of the flocculation treatment tank, and the other end of which is formed with a plurality of angle adjusting holes at regular intervals along the circumferential direction; And an upper end of which is provided with a handle so as to be exposed to the upper side of the flocculation treatment tank and the lower end of which penetrates through the through hole, And a fixing nut which is configured to be selectively inserted and fixed to the angle adjusting hole and which is hooked on the upper side of the angle adjusting hole Is fitted to the coupling angle adjusting rod, wherein the angle is determined jojeongbong is interposed between the angle regulating stand and the fixing nut preferably comprises a spring for operating the angle jojeongbong elastic.

The urine drainage pipe includes an inflow tube having an inlet formed at a lower surface thereof and having a drainage port for the livestock manure located on the inner wall surface of the flocculation treatment tank, an upper end bent toward the flocculation treatment tank and discharged to the outside of the flocculation treatment tank, A drain pipe connected to the end of the inflow pipe and connected to the aeration tank for discharging the urine of the animal manure introduced into the inflow pipe to the aeration tank and the lower end connected to the inflow pipe at an upper side in communication with the inflow pipe, And a cleaning pipe extending upward from the flocculation treatment tank to provide a passage which can be cleaned outside the flocculation treatment tank when the inflow pipe is clogged.

The elevating means includes a guide rod installed vertically at the center of the flocculation treatment tank, a guide ring coupled to one side of the underwater discharge pump and guided by the guide rod to support up and down movement of the water discharge pump, A take-up bobbin which is installed on the upper side of the guide rod and is rotatably installed to the rotation of the motor; a take-up bobbin which is wound around the take-up bobbin at one end and coupled to the upper side of the underwater discharge pump, And a wire rope for moving the wire rope.

And a vacuum discharging means for sucking and discharging the solid sludge of the livestock manure collected in the upper portion of the central portion of the flocculation treatment tank to a vacuum, wherein the vacuum discharging means comprises, at one end, The other end of which is connected to the other end of the suction pipe to suck the solid sludge through the suction pipe and discharge the solid sludge sucked into the lower part of the suction pipe And a vacuum pump connected to the vacuum tank through a pipeline so as to suck solid sludge through a suction pipe by forming the inside of the vacuum tank in a vacuum state or a pressure state Do.

In the livestock manure flocculation treatment apparatus according to the present invention, the livestock feed is rotated through a vortex pump in the coagulation treatment tank so that only the solid sludge among the livestock feedstock is collected at the center of the flocculation treatment tank and then the solid sludge is separated So that the solid-liquid separation process of the livestock wastewater can be performed with high efficiency.

1 is a side sectional view showing a livestock manure flocculation apparatus according to the present invention,
2 is a plan view of a livestock manure flocculation apparatus according to the present invention,
3 is a schematic diagram of a livestock manure flocculation apparatus according to the present invention,
4 and 5 are views for explaining angle adjusting means in the present invention,
6 and 7 are views for explaining the operation of the livestock manure flocculation apparatus according to the present invention,
8 is a view for explaining a preferred embodiment of the urine drainage tube in the present invention,
FIG. 9 and FIG. 10 are views for explaining the operation for discharging solid sludge to a livestock manure flocculation apparatus according to the present invention;
11 is a view for explaining another preferred embodiment of a livestock manure flocculation treatment apparatus according to the present invention.

Hereinafter, a livestock manure flocculation apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a side sectional view showing a livestock manure agglomeration apparatus according to the present invention, and FIG. 2 is a plan view of a livestock manure agglomeration apparatus according to the present invention.

The livestock manure flocculation apparatus according to the present invention includes an aggregation treatment tank 100, a raw water supply pipe 200, a vortex pump 300, a drainage pipe 400, and an underwater drain pump 500.

The flocculation treatment tank 100 is a part provided with a livestock manure 10 to provide space for separating livestock manure into urine and solid sludge (feces) Is closed by the side wall, and the upper surface is opened, and is configured as a cylindrical shape.

Here, the flocculation treatment tank 100 is preferably a reinforced concrete structure so as to sustain internal and external pressures, and is preferably constructed to have a waterproof structure to prevent leakage of the livestock manure 10. The inner wall is constructed of waterproof FRP It is preferable that the outer wall is made of a waterproof sheet and is originally made of a waterproof structure.

The raw water supply pipe 200 is formed on the upper side of the coagulation treatment tank 100 to supply livestock manure 10 from the raw water tank 20 storing livestock manure into the coagulation treatment tank 100. The raw water supply pipe 200 is an inlet pipe for injecting the milk powder into the flocculation treatment tank, and is installed at the upper portion of the flocculation treatment tank 100. In addition, the raw water supply pipe 200 is preferably made of stainless steel and is configured to be selectively opened and closed by a shutoff valve (not shown) so as to selectively supply livestock manure.

The vortex pump 300 is installed on the inner wall side of the flocculation treatment tank 100 and sucks the livestock manure 10 supplied into the flocculation treatment tank 100 to mix the flocculant, And is discharged in the circumferential direction inside the treatment tank 100. That is, the vortex pump 300 is installed so as to be submerged in the livestock manure 10 filled in the coagulation treatment tank 100, sucking the livestock manure downward and discharging the livestock manure through the nozzle 310 formed on the side. It is preferable that a plurality of vortex pumps 300 are installed at equal angles within the flocculation treatment tank 100. As shown in the figure, the flocculation pump 300 is installed in the flocculation treatment tank 100 at an angle of 180 degrees, And most preferably is configured to form a vortex in the bath 100. It is preferable that the flocculant is supplied into the flocculation treatment tank through a metering pump (not shown) so that a constant amount is always supplied.

The swirling pump 300 installed in the flocculation treatment tank 100 sucks the livestock manure 10 filled in the flocculation treatment tank 100 and discharges the livestock waste 10 in the circumferential direction inside the flocculation treatment tank through the nozzle 310 And the solid sludge 11 of the livestock manure agglomerated by the flocculant is discharged into the flocculation treatment tank 100 through the rotation of the livestock manure 10, So that it can be assembled into the central part of the body. That is, as the livestock manure 10 rotates within the flocculation treatment tank 100, the solid sludge 11 having a relatively large specific gravity is collected at the center of the flocculation treatment tank 100, Only the urine 12 as a component is present. Therefore, in the coagulation treatment tank 100, the livestock manure 10 is separated into the solid sludge 11 and the storage 12.

According to the present invention, the angle between the inner wall of the coagulation treatment tank 100 and the nozzle 310 of the vortex pump is adjusted by the angle adjusting means 350 and the nozzle 310 of the vortex pump And the outlet angle of the livestock manure discharged from the outlet is controlled.

Specifically, the angle adjusting means 350 is formed of a semicircular plate, one end of which is provided on the wall surface of the flocculation treatment tank, and the other end of which is provided with a plurality of angle adjusting holes 351a at regular intervals along the circumferential direction A support plate 351 disposed on the support plate 351 and having one end rotatably coupled to the support plate through a rotation shaft 352a, a vortex pump 300 coupled to the bottom of the center portion, a through hole 352b And the upper end of the angle adjusting bar 352 is exposed to the upper side of the flocculation treatment tank 100 and the lower end of the angle adjusting bar 352 passes through the through hole 352b, And an angle adjusting rod 353 which is fitted to the angle adjusting rod 353 and is fixed to the angle adjusting rod 351. The angle adjusting rod 353 is fixed to the angle adjusting rod 353 by a fixing nut 353b, ) And the fixing nut 353b A control angle jojeongbong 353 is configured to include an elastic operating spring 354, which.

The angle adjusting means 350 configured as described above grasps the handle 353a from the outside of the coagulation treatment tank 100 to pull the angle adjusting rod 353 upward and then rotates the angle adjusting rod 352 to rotate the coagulation treatment tank When the angle between the inner wall of the vortex pump and the nozzle 310 of the vortex pump is adjusted and the lower end of the angle adjusting rod 353 is fitted and fixed to the angle adjusting hole 351a, The discharge angle of the livestock manure is controlled.

6, the angle (A) between the inner wall of the flocculation treatment tank 100 and the nozzle 310 of the vortex pump is narrowed so that the concentration of livestock manure discharged from the nozzles 310 of the vortex pump When the discharge angle (interior angle) is made small, the solid sludge 11 in the livestock manure gradually collects at the center of the flocculation treatment tank 100 while the livestock manure in the flocculation treatment tank 100 slowly rotates and the centripetal force of the livestock manure becomes small Loses. 7, the angle B between the inner wall of the coagulation treatment tank 100 and the nozzle 310 of the vortex pump is adjusted to be wide so that the concentration of livestock manure discharged from the nozzles 310 of the vortex pump When the discharge angle (interior angle) is increased, the livestock manure 10 in the coagulation treatment tank rotates more quickly toward the center side and the centrifugal force of the livestock manure becomes greater, so that the solid sludge 11 in the livestock manure is further concentrated .

In the process of separating the solid sludge 11 by rotating the livestock manure 10 in the coagulation treatment tank 100 as described above, the amount of livestock manure discharged from the nozzles 310 of the vortex pump through the angle adjusting means 350 When the angle (internal angle) is gradually increased, the livestock manure 10 in the coagulation treatment tank 100 rapidly rotates toward the center and the centrifugal force of the livestock manure 10 gradually increases and the solid sludge 11 And gradually gathered closer to the center of the flocculation treatment tank. Therefore, the solid sludge 11 gathered at the center in the coagulation treatment tank 100 can be easily separated and discharged to the outside.

The urine drainage pipe 400 is a discharge pipe for discharging only the urine 12 out of the urine collected from the flocculation treatment tank 100 and the solid sludge and is connected to the wall surface of the flocculation treatment tank 100, To the aeration basin 30. The aeration tank 30 is provided with a drainage tank 12, Herein, the cleansing water 12 discharged from the flocculation treatment tank 100 through the drainage pipe 400 to the aeration tank 30 is fermented by the fermentation of microorganisms in the aeration tank, and then stored in a liquid storage tank Shipped

More specifically, as shown in FIG. 8, the drainage pipe 400 has an inlet 411 formed on the lower surface thereof, and the drainage 12 of the animal manure located on the inner wall surface of the flocculation treatment tank 100 An inflow pipe 410 which is inflow and bent toward the flocculation treatment tank 100 and discharged to the outside of the flocculation treatment tank, one end is connected to the end of the inflow pipe 410 and the other end is connected to the aeration tank 30, A discharge pipe 420 for discharging the disposal of livestock manure introduced into the pipe 410 to the aeration tank and a lower end connected to the inflow pipe 411 above the inflow pipe 411 in such a manner as to communicate with the inflow pipe, And a cleaning pipe 430 extending upward from the flocculation tank 100 to provide a passage which can be cleaned outside the flocculation treatment tank when the inflow pipe 410 is clogged. With this configuration, the urine drainage pipe 400 according to the present invention can easily discharge the urine drainage 12 to the drainage pipe 420 through the inflow pipe 410, and when the inflow pipe 410 is blocked There is an advantage that the inflow pipe 410 clogged through the cleaning pipe 430 can be easily pierced from the outside of the flocculation treatment tank 100.

The underwater drain pump 500 is disposed at the center of the flocculation treatment tank 100 and is movable up and down along the elevation means 550 so as to be collected in the center of the interior of the flocculation treatment tank 100, (12) is separated and discharged to the solid-liquid separator (40). Here, the underwater drain pump 500 is connected to the solid-liquid separator 40 through the discharge pipe 510, and the solid sludge 11 collected at the center of the flocculation treatment tank 100 is discharged through the discharge pipe to the solid-liquid separator 40 Respectively. 9 and 10, the underwater drain pump 500 is connected to the elevating means 550 through the vortex pump 300 and the solid sludge 11, which is rotated in the flocculation treatment tank and collected at the center, Liquid separator 40 through the discharge pipe 510 while being moved up and down in the center of the coagulation treatment tank.

More specifically, the elevating means 550 includes a guide rod 551 vertically installed at the center of the flocculation treatment tank 100, and a guide rod 552 coupled to one side of the water discharge pump 500, A guide ring 552 which is fitted in the guide groove 551 and guides and supports the up and down movement of the underwater discharge pump 500 and a guide ring 552 which is installed above the guide rod 551, And the other end is coupled to the upper side of the water discharge pump 500 so that the water discharge pump 500 is moved up and down by the rotation of the winding bobbin 553. [ And a wire rope 554. Here, it is needless to say that although the elevating means 550 has been shown and described as being constituted by a wire, it is of course possible to employ a chain in which the underwater discharge pump is elevated.

Further, it is preferable that a vacuum discharging means 600 for sucking and discharging the solid sludge 11 of the livestock manure collected in the upper portion of the central portion of the flocculation treatment tank 100 by vacuum is further constructed.

More specifically, the vacuum discharging means 600 has a suction port 611 formed at one end thereof for sucking the solid sludge 11 of livestock manure collected at the upper portion of the central portion of the flocculation treatment tank 100, The other end of the suction pipe 610 is connected to an upper part of the suction pipe 610 extending to the outside of the flocculation treatment tank 100 and sucks the solid sludge 11 through a suction pipe and discharges the solid sludge sucked into the lower part A vacuum tank 620 in which a discharge port 621 for discharging the solid sludge through the suction pipe is formed and a vacuum tank 620 in which the inside of the vacuum tank 620 is formed in a vacuum state or a pressure state, And a vacuum pump 630 connected to the line 631. Since the solid sludge 11 having a large specific gravity and formed on the central portion of the flocculation treatment tank 100 can be easily separated and discharged to the outside through the vacuum discharging means 600 configured as described above, . ≪ / RTI >

In the livestock manure agglomeration apparatus according to the present invention constructed as described above, the livestock feed is rotated through a vortex pump in the coagulation treatment tank so that only the solid sludge among the livestock dumplings collects at the center of the agglomeration treatment tank, and then the solid sludge It is advantageous in that the solid-liquid separation process of livestock wastewater can be performed efficiently.

100: coagulation treatment tank 200: raw water supply pipe
300: vortex pump 400: urine drainage pipe
500: Underwater discharge pump

Claims (5)

A raw water supply pipe for supplying livestock manure into the coagulation treatment tank from the raw water tank formed above the coagulation treatment tank and storing the livestock manure, The livestock manure supplied to the inside of the treatment tank is sucked and mixed with the coagulant, and then discharged in the circumferential direction inside the coagulation treatment tank through the nozzle, so that the livestock manure is vortexed in the coagulation treatment tank A vortex pump for collecting the solid sludge of the livestock manure agitated by the flocculating agent while rotating to a central portion of the flocculation treatment tank; A flocculation pipe disposed at the center of the flocculation treatment tank, It is possible to install vertical movement comprising: a water discharge pump of the solid sludge is collected as agglomerated on the inner central separating the coagulation treatment tank discharged to the solid-liquid separator,
The angle between the inner wall of the flocculation treatment tank and the nozzle of the vortex pump is adjusted by the angle adjusting means so that the discharge angle of the livestock manure discharged from the nozzle of the vortex pump is adjusted, A support plate having one end formed on the wall surface of the flocculation treatment tank and the other end formed with a plurality of angle adjusting holes at regular intervals along the circumferential direction; And an upper end of the angle adjusting bar is exposed to the upper side of the flocculation treatment tank and the lower end of the angle adjusting bar is passed through the through hole to adjust the angle And a fixing nut, which is configured to be selectively inserted and fixed to the upper side of the angle adjusting hole, An angle adjusting rod, and a spring fitted to the angle adjusting rod and interposed between the angle adjusting rod and the fixing nut to elastically operate the angle adjusting rod.
delete The method according to claim 1,
The urine drainage pipe,
An inflow tube having an inlet port formed at the bottom of the flocculation treatment tank, a drainage of the livestock manure disposed at the inner wall of the flocculation treatment tank, an upper end bent toward the flocculation treatment tank and discharged to the outside of the flocculation treatment tank,
A discharge pipe connected to the end of the inflow pipe at one end and connected to the aeration tank for discharging the urine discharged from the animal manure introduced into the inflow pipe to the aeration tank,
And a cleaning pipe connected to the inflow pipe so as to communicate with the inflow pipe above the inflow pipe and extending to the upper side of the flocculation treatment tank to provide a passage which can be cleaned outside the flocculation treatment tank when the inflow pipe is clogged, Wherein the liquefied manure agglomeration apparatus is a liquefied manure agglomeration apparatus.
The method according to claim 1,
The elevating means includes:
A guide rod installed vertically in the center of the flocculation treatment tank,
A guide ring that is coupled to one side of the underwater discharge pump and is inserted in the guide rod to guide the up and down movement of the underwater discharge pump,
A winding bobbin provided above the guide rod and rotatably installed to rotate the motor;
And a wire rope wound around the winding bobbin at one end and coupled to the upper side of the water discharge pump at the other end to move the water discharge pump up and down by rotation of the winding bobbin.
The method according to claim 1,
And a vacuum discharging means for sucking and discharging the solid sludge of livestock manure collected in the upper portion of the central portion of the coagulation treating tank by vacuum,
Wherein the vacuum exhaust means comprises:
A suction pipe for suctioning the solid sludge of the livestock manure collected at the upper portion of the central portion of the flocculation treatment tank and the other end extending to the outside of the flocculation treatment tank;
A vacuum tank in which the other end of the suction pipe is connected to an upper portion to suck solid sludge through a suction pipe and an outlet for discharging the solid sludge sucked into the lower portion,
And a vacuum pump connected to the vacuum tank through a pipeline so that the inside of the vacuum tank is formed in a vacuum state or a pressure state and the solid sludge can be sucked through the suction pipe.

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