KR19990083889A - The method for process and stock raising of aparatus - Google Patents

Abstract

The present invention relates to a conventional livestock waste treatment method and apparatus using microorganisms and fresh water.

After collecting the manure discharged from pigs (1), the wastewater treated with pigs is reused by passing through the collection tank filled with water, and then treated by the manure solids separation and degassing high-speed fermentation dehydration device, or passed through the collection tank. The present invention relates to a device for treating wastewater treated in the degassing high-efficiency dehydration device with manure and passing it through a water level control tank, a maturing tank, and an aeration tank, and then storing the wastewater in a storage tank and collecting and reusing it as a pig house. (2), and the secondary collection tank and the third collection tank (3, 4), which is connected to the primary collection tank (2) automatically flows into the manure flow, and through the collection tank to separate the manure solids, gas Treatment by passing through the removal high-speed fermentation dehydration apparatus 100, or with the treated wastewater passed through the manure solids separation, degassing high-speed fermentation dehydration apparatus 100 and the water level control tank and aging introduced through the collection tank , Aeration tanks (5, 6, 7, and 8), the submersible pump (15) and the transfer pipe (33) for transferring the manure that is built in the aging tank (6) to the secondary aeration tank (8), and 1 Aeration devices (13, 13 ') provided in the aeration aeration tank (7) and the secondary aeration tank (8), a foam treatment tank (34) formed on the upper part of the primary aeration tank (7) and the secondary aeration tank (8), Bubble crushers 14, 14` built into the foam treatment tank 34 to break bubbles, reservoirs 9, 10, 11 and 12 for sufficiently fermenting a stirred solution sufficiently mixed with microorganisms, and the storage tank ( 9, 10, 11, 12, and the pump 15` and the transfer pipe 33` for transferring the fermented liquid sufficiently to the pig house for reuse for pig processing, etc.,

The manure solids separation, gas removal high-speed fermentation dehydration device 100 is a manure injection secondary pipe 10 and the raw water pipe (9) and the vibrator 101 and diaphragm screen 102 is installed at the bottom of the liquid fermentation dehydration A hydraulic spraying unit 103 connected to a pipe formed of a storage tank 112 and a 2 mm susceptor net 127 is formed, and a gas generating screw is formed at a lower portion thereof, and a gas removing storage tank 113 and a discharge water pipe 107 are formed at a lower portion thereof. ) Is formed, the high speed fermentation dehydrator 8 and the gas generating motor is formed on the side of the device, the gas discharge pipe and the fan 105 is formed on the other side, the high speed fermentation dehydrator 108 As the manure inlet 121 and the gas generating screw motor 115 and the mechanical sealing 122 and eight blades 124 installed in the connection between the motor and the dehydrator, the outer network 125 and the sussex network 127 and fermentation Sludge outlet 126 is installed, the lower support of the device Consists of a vibration preventing rubber plate 123, the vibrator 101 is livestock waste treatment method using the treatment of livestock waste, characterized by configured to include a screen 102 of the device and 0.1㎡ him to lower.

Description

Livestock Manure Treatment Method and Apparatus {THE METHOD FOR PROCESS AND STOCK RAISING OF APARATUS}

The present invention relates to a conventional livestock waste treatment method and apparatus using microorganisms and fresh water, and basically to decompose and reduce odor removal using microorganisms, and also to the livestock waste treatment apparatus of the present invention The manure supply and stirring means, the air supply means, the bubble removing means, the solid-liquid separation of the manure and the high-speed fermentation dehydrator and the like to make the treatment process continuously and automatically and to improve the efficiency by reusing the treated manure.

In general, a large amount of manure is inevitably generated in the livestock farms, and since the livestock manure contains a lot of water, it is not only causing considerable cost and difficulty in processing, but also severely decomposing organic matter in the livestock manure. Odor was generated and other pathogens grew naturally, which greatly affected hygiene.

There are various methods of treating livestock manure, but until now, it has been generally applied without fertilization or fertilization without manure, active sludge treatment methods utilizing water treatment facilities, and high-speed fermentation by adding moisture regulators to compost or compost. The high speed fermentation method utilized as a raw material of the is widely applied.

However, when manure is applied as compost without processing, there is a problem of contaminating the surrounding environment as well as groundwater due to the generation of leachate during rainy weather, and the problem of deterioration of crops and soils as heavy metals in livestock manure are fertilized without filtration. Is holding.

In addition, even in the case of activated sludge treatment method, the treatment facility cost and maintenance cost is excessively consumed, which is a problem that is impossible in small and medium farms.

Fast fermentation methods are also difficult to implement in each livestock farm due to high maintenance costs.

In order to solve this problem, recently, a method of reducing weight by a method similar to the present invention or drying using external energy has been proposed.

Conventional technologies do not provide sufficient air supply for the activation of microorganisms, or the design of the air supply process that meets the required reduction rate is incorrect, so that the reduction rate is less than 10-30%, unnecessary equipment is required, and bubbles that are disturbed during processing. Has not been able to smoothly remove the manure of the disadvantage has been difficult.

In order to solve the above problems, the present invention is to improve the method and apparatus for the treatment of livestock wastes, the name of the present invention, the patent application No. 99-17038 filed on May 12, 1999, the object of the present invention is basically To take fermentation of 100% manure, and to provide a method and apparatus for treating livestock manure using microorganisms to process livestock manure using microorganisms as necessary.

Another object of the present invention is to use aeration and aeration machine used as a mixing / stirring apparatus in a microbial reaction tank, and to finely evaporate the water and microorganisms contained in the foam by using a bubble removing means and to separate the manure into solid-liquid separation and high-speed fermentation. Providing a high efficiency livestock waste treatment apparatus using a dehydrator,

Still another object of the present invention is to provide a method of treating livestock manure, so that a series of processes can be continuously and automatically performed using a mechanical device, so that livestock manure can be processed in a short time and the livestock manure can be reused. The present invention provides a method for treating manure and an apparatus for treating the same.

1 is a detailed view of the fecal manure processing device of the present invention

2 is aeration device of the present invention

3 is a breaker of the present invention

4 and 5 is a detailed view of the manure solids separation and high-speed fermentation dehydrator of the present invention

6 is a high speed fermentation dehydrator of the present invention

7, 8 and 9 show a vibrator of the present invention.

Explanation of symbols for the main parts of the drawings

(1) pig companies (2) primary collection tanks (3) secondary collection tanks (4) tertiary collection tanks (5) level control tanks (6) maturing tanks (7) primary aeration tanks (8) secondary aeration tanks (9 ) Primary storage tank (10) Secondary storage tank (11) Third storage tank (12) Fourth storage tank (13,13 ') Aerator (14,14`) Aerator (15) Submersible pump (16,16') Aeration Equipment Belt Connection (17) Aeration Shaft (18) Aeration Impeller (19) Air Inlet Pipe (20) Inlet (21, 21 ') Bushing (22) Blower (24) Outlet Pipe (25) Aerator Belt Upper End Connection (26) ) Driller Belt Lower End (27) Driller Shaft (27`) Driller Second Impeller (28) Driller First Impeller (29) Bearing (30) Motor Fixture (31) Aerator Cylinder (32) Heater (33,33 Transfer pipe (34) Foam treatment tank (99) Solids separator

(100) Manure solids separation and high speed fermentation dehydrator (101) Vibrator (102) Vibration screen (103) Hydraulic sprayer (104) Gas generating group (105) Gas ejector and fan (106) Vibration height (107) Exhaust pipe ( 108) Screw type rubber fermentation dehydrator (109) Raw water pipe (110) Manure injection pipe (111) Gas generating screw motor (112) Solid liquid fermentation dehydration storage tank (113) Gas removal storage tank (114) Vibration motor (115) Dehydrator motor (116) ) Tras (117) Case (118) Underwater motor (121) Inlet (122) Mechanical seal (123) Vibratory rubber plate (124) Blade (125) Outer net (126) Fermented sludge outlet (127)

The present invention for achieving the above object is basically to process livestock manure using microorganisms and promote the microbial activity by utilizing the aeration device, that is, the air forced supply means and agitation means specially produced livestock manure supplied To decompose organic matter in livestock manure, remove the inhibitory factors for evaporation loss such as foaming with bubbler and replenishment of insufficient latent heat, and manure is efficiently processed using solid-liquid separation and fast fermentation dehydrator The present invention relates to a method and apparatus for treating livestock manure, characterized by reusing fermented manure.

In the case of livestock manure, in particular pigs, approximately 90 tons of pig manure is produced per month based on 1,000 heads of pigs. When processed by the method and apparatus of the present invention, 1.8 tons of sludge is produced per month, and water is evaporated and required for the growth of microorganisms. Livestock manure was efficiently treated due to the sufficient supply of oxygen.

In addition, the microorganisms used in the treatment are four kinds of complex bacteria including STEARO THERMOPHILUS and BACILLUS SUBTILUS, which are deposited on March 14, 1995, with the Korea Advanced Institute of Science and Technology. The manure has no odor, smells similar to the odor and is ocher.

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

Figure 1 is a detailed view of the manure manure processing device of the present invention, Figure 2 is the aeration device of the present invention, Figure 3 is a deaerator of the present invention, Figures 4 and 5 is a detailed view of the manure solids separation and high speed fermentation dehydrator 6 is a high speed fermentation dehydrator of the present invention, Figures 7, 8 and 9 shows the vibrator of the present invention, (1) piglet, (2) primary collection tank, (3) secondary collection tank, ( 4) 3rd collection tank, (5) water level control tank, (6) aging tank, (7) primary aeration tank, (8) secondary aeration tank, (9) primary storage tank, (10) secondary storage tank, (11 (3) 3rd Reservoir, (12) 4th Reservoir, (13, 13 ') Aerator, (14,14') Aerator, (15) Submersible Pump, (16,16 ') Aerator Belt End, (17) Aeration shaft, (18) Aeration impeller, (19) Air injection pipe, (20) Inlet, (21, 21 ') Bushing, (22) Brow, (24) Discharge pipe, (25) Aerator belt upper end connection, (26) Brapper belt lower end connection, (27) Body axle shaft, (27`) Body aerator 2 impeller, (28) Body aerator 1 impeller, (29) Bearing, (30) Motor fixture, (31) Aeration cylinder , (32) heater, (33,33`) transporter, (34) Foam treatment tank, (99) solids separator, (100) manure solids separation and high speed fermentation dehydrator, (101) vibrator, (102) vibrating plate screen, (103) hydraulic sprayer, (104) gas generating screw, (105) gas ejection Tube (106) Vibration rubber (107) Drainage pipe (108) Screw-type rubber fermentation dehydrator, (109) Raw water pipe, (110) Manure injection pipe, (111) Gas generating screw motor, (112) Solid-liquid fermentation dehydration storage tank , (113) Degassing Reservoir, (114) Vibration Motor, (115) Dehydrator Motor, (116) Tras, (117) Case, (118) Underwater Motor, (121) Inlet, (122) Mechanical Seal, (123 Vibration rubber plate, (124) blade, (125) external network, (126) fermented sludge outlet, (127) sustain network.

The present invention is to decompose and reduce the livestock manure that is inevitably generated in the livestock farms, which is shown in detail in Figure 1 or less of the accompanying drawings, the manure discharged from the pig (1) of Figure 1 is the first water When it automatically flows into the full collection tank (2), by removing the manure using the solid-liquid separation and gas removal high-speed fermentation dehydrator (100) to recover and reuse in pigs, or the manure flowing automatically from the collection tank (2) After passing through the secondary collection tank and the third collection tank (3, 4), and arrives at the water level control tank (5) to maintain the optimal fermentation state by supplying the appropriate amount to the aging tank (6) The submersible pump 15 is transferred to the secondary aeration tank 8 through the transfer pipe 33, and aeration devices 13 and 13 ′ are installed in the primary aeration tank 7 and the secondary aeration tank 8. And, the foam treatment tank is installed on the upper portion of the primary aeration tank (7) and the secondary aeration tank (8). The bubble crusher 14, 14` is embedded in the foam treatment tank, and the treated liquid is transferred to the storage tanks 9, 10, 11, 12, and then recovered to a pig house through a transfer pipe 33 '. It is composed of the structure to reuse the pigs for cleaning and maintaining the fermentation state in the sludge tank.

FIG. 2 shows the aerators 13 and 13` in detail. The motor is built in the aerator and the belt is connected to the aerator belt connector 16, 16` and the aeration shaft 17 of the motor. , An aeration impeller 18 installed under the aeration shaft 17 is installed in the aeration cylinder 31, and eight air injection pipes 19 are installed around the aeration shaft 17 and an aeration cylinder ( 31) the inlet 20 is formed in the lower middle, the aeration cylinder 31 can be rotated by the bushing (21, 21`), the heater 32 is provided on the upper portion of the aeration cylinder (31) In the lower part of the aeration cylinder 31, discharge pipes 24 and 24 ′ are mounted horizontally, and a broa 22 is installed in the upper part of the aeration cylinder 31 from an upper part of the aeration devices 13 and 13 ′. You can see

3 is a detailed view of the breaker 14, 14`, and is connected to the breaker belt connector 25 and the breaker shaft 27 of the motor by a belt, and the breaker at the bottom of the breaker shaft 27. The secondary impeller (27 ') is installed, in the middle of which is a breaker primary impeller (28) is installed, the breaker secondary impeller (27) is about 1/2 of the breaker primary impeller (28) Less installed. It can be seen that the unexplained sign (29) bearing (30) consists of a motor fixture.

4 and 5 are the manure solids separation and the high-speed fermentation dehydrator in detail, the manure injection secondary pipe 10 and the raw water pipe (9) and the vibrator 101 and the diaphragm screen 102 is installed, at the bottom

A hydraulic sprayer 103 connected to the pipe formed of the solid-liquid fermentation dehydration storage tank 112 and the 2mm susceptor net 127 is formed, and a gas generating screw is formed at a lower portion thereof, and a gas removing storage tank 113 and a discharge portion thereof are disposed at a lower portion thereof. The water pipe 107 is formed, the high-speed fermentation dehydrator 8 and the gas generating motor is formed on the side of the device, the gas discharge pipe and the fan 105 is formed on the other side,

6 is a high-speed fermentation dehydrator 108, the manure inlet 121, the gas generating screw motor 115, the mechanical seal 122 and eight blades 124 and the outer network 125 installed in the connection between the motor and the dehydrator, ) And susnet 127 and the fermentation sludge outlet 126 is installed, the lower support of the device is composed of a vibration rubber prevention plate 123,

7 to 9 relate to the solid-liquid separation vibrator, which can be seen that the vibrator 101 is equipped with a screen 102 of 0.1 m 2 at the bottom.

The method of treating livestock manure of the present invention is the manure discharged from piglet 1 of FIG. 1 when the manure is first automatically flowed into the collection tanks 2, 3 and 4 filled with water, and the manure of FIGS. 4 and 5 degrees. The present invention relates to a method of treating and reprocessing a solid through a solid-liquid separation and a high-speed fermentation dehydrator, or treating the treated liquid as described above by using a device such as a seeker level control tank (5).

The former method passes through the manure solids separation and high speed fermentation dehydrator of FIGS. 4 and 5, and the treatment is carried out in the collection tanks 2, 3 and 4, and the manure injection secondary tube of the high speed fermentation dehydrator (10). The manure wastewater introduced through) is guided to the place where the vibrator 101 and the diaphragm screen 102 are installed together with the raw water supplied from the raw water pipe 9 and lowered by the vibrating screen by the operation of the vibrator 101. Part of which is transferred to the lower part, by the action of the hydraulic sprayer 103 connected to the pipe formed of the solid-liquid fermentation dehydration storage tank 112 and the 2mm susceptor network 127 was moved by the hydraulic pressure through the movement of the separated manure. High liquid fermentation dehydration storage tank, (113) is a passage to transfer to the gas removal storage tank, by using the space of 3㎡ to minimize the level of ammonia, phosphorus or methane mixed with manure,

The gas generating screw 104 installed in the solid-liquid fermentation dehydration storage tank 112 rotates the manure injected through the hydraulic sprayer by the gas generating screw motor 111 to separate the methane gas product mixed in the urine.

When moving to the aging tank (6) to remove the odor and methane gas in the preliminary fermentation tank, the gas discharge pipe and the fan 105 is separated by the gas generated from the secondary storage tank 113 and the gas generating screw 104 To vent the gas to the outside,

When the manure sludge filtered from the vibrating screen 102 is introduced through the manure inlet 121 of the high speed fermentation dehydrator 8 of FIG. 6 installed on the sides of the devices, the high speed rotary shaft is operated by the operation of the gas generating screw motor 115. Heated by 3600RPM per minute rotation by using the screw type has the effect of evaporation and fermentation, and decomposes easily by high speed fermentation by eight blades 124 installed in the motor and the high speed fermentation dehydrator (8), dehydration The wastewater is evaporated at the same time as it is discharged through the external network 125 and the suspend network 127, the fermentation sludge is discharged through the fermentation sludge outlet 126,

After the gas is stored in the gas removal storage tank 113, the gas is discharged through the discharge pipe and the fan 105, and the discharged water is sent to the pig company 1 through the discharge water pipe or reused, or the following water level control tank (5) Transfer to reprocessing.

The latter method is the first water level containing water without the need for power together with the liquid treated as described above and the pig waste manure containing wastewater that has passed from the second and third collection tanks (3,4) in the pig house (1). Upon arrival at the control tank (5), the water level control tank (5) introduces an appropriate amount of manure into the aging tank (6), and the submersible pump built in the aging tank (6) to mix the incoming manure with the existing liquid. It is transferred to the secondary aeration tank 8 through the transfer pipe 33 by the 15 so that the primary aeration tank 7 is introduced, and 2.5 liters of microorganisms are injected into the aeration tank as necessary. The microorganism used at this time has excellent effect on sludge decomposition by 4 kinds of complex bacteria including STEARO THERMOPHILUS and BACILLUS SUBTILUS, which are deposited on March 14, 1995, with Korea Advanced Institute of Science and Technology.

The aeration devices 13 and 13` of FIG. 2 are installed in the primary aeration tank 7 and the secondary aeration tank 8, and a motor built in the upper part of the aeration devices 13 and 13` starts to operate. The aeration shaft 17 connected to the aeration device belt connector 16 and 16 ′ and the aeration impeller 18 installed below the aeration shaft 17 begin to rotate. The aeration impeller 18 is mounted inside the aeration cylinder 31, and eight air injection pipes 19 installed around the aeration shaft 17 are rotated at the top of the air injection pipe 19. Air starts to flow from the broa 22 installed in the.

The inlet 20 is formed at the lower middle of the aeration cylinder 31, and the aeration cylinder 31 is rotated by bushings 21 and 21 ′, and the manure is introduced into the inlet 20 of the aeration cylinder to provide the air. The discharge pipe 24 is guided by the discharge pipe 24 horizontally installed under the aeration cylinder 31 while the manure and air are sufficiently stirred by the aeration impeller 18 while contacting the air injected into the injection pipe 19. ) Is rotated and forcedly discharged by pressure into the aeration tank to mix well with the existing liquid.

The upper part of the aeration cylinder 31 is provided with a heater 32 for adjusting the temperature 50 ~ 65 ℃ to facilitate the growth of microorganisms, the usual temperature is 38 ~ 40 ℃.

A foam treatment tank is provided at the upper portion of the primary aeration tank 7 and the secondary aeration tank 8, and the foam breakers 14 and 14` installed in the foam treatment tank have a breaker belt connector 25 of the motor as shown in FIG. ) And (27) are connected to the bubbler shaft by a belt, and an impeller (27`) is installed at the lower end of the shaft, and an impeller (28) is installed at the middle thereof, and the bubbler shaft and the bubbler shaft are rotated by a motor. Each of the impellers 27` and 28 connected to the vaporizer rotates together to evaporate the fine particles of the crushed liquid, and when the bubble starts to rise to the center by the rotation of the breaker primary impeller 28, the breaker secondary impeller 27 Bubbles are broken by ') and turn into liquid.

Unexplained reference numeral 29 is a device for fixing the rotary shaft 27 to rotate by the bushing.

The foam of the foam treatment tank is a capillary phenomenon, bubbles generated in the aeration tank are treated in the same manner as in the foam treatment tank.

The treated liquid is transferred according to the water level of the reservoirs 9, 10, 11, and 12. After sufficient fermentation in the reservoir, the treated liquid is passed through the transfer pipe 33` by a pump 15` installed in the reservoir. The present invention relates to a method for treating manure by a livestock manure processing device for collecting the waste water and reusing it for cleaning pigs.

Mechanical performance and treatment comparison table

Aeration

Comparative specification and performance Third party Invention Rotation Ratio (R.P.M) 1750 2100 Exit diameter 100 mm 350 ~ 400mm Power consumption 5HP 3.75KW 7HP 5.25KW 3HP 2.25KW Driving time 24 hours Available as required Suction Caliber 100mm Caliber 600mm Oxygen inhalation Discharge suction 40mm Forced suction 120mm Evaporation 60 minutes / 0.9ℓ 60 minutes / 108ℓ Fermentation efficiency 90 days based on 250 TON, 10 TON fresh water 13 days of manure 100% 250 TON Bubble generation costs 100% at 50% fresh water 100% when manure solution is 100% Sludge treatment About 10% 90% Fermentation Light red coffee color Light red coffee color P.P.M measurement ratio 25,000 ~ 40,000 (50% fresh water) 25,000-40,000 Hourly processing 0.9 TON 1.8 TON Fermentation agent added has exist none Average fermentation temperature 20 ℃ ~ 32 ℃ 36 ℃ ~ 40 ℃ Hitachi 50 ℃ ~ 65 ℃ Barn Clean Fee (Gas) none none Storage tank facility Civil engineering standard according to design Existing tank facilities and specifications available Sludge in machinery tanks Remaining none Mechanical use Fermentation (Underwater Motor) Septic Tank (Manufacturing Machine) Facility fee Sludge Tanks / Storage Fermenters 2 Fermenter 2 Install and let Mechanical product standard (underwater motor) Manufactured according to tank capacity Wig effect Yes (after 90 days) none

2. Aerator

Comparative specification and performance Third party Invention Motor R.P.M IHP 1750 2HP 1750 Bubble crushing amount limit Infinity 휀 none U. RPM. 1480-1850 Impera RPM 1750 RPM 2100 ~ 2600 Bubble generation ratio control impossible Adjustable Spray Angle (Pulverization) Almost none 2,000 mm upward Crushing remnants Can't Infinity Grinding 60 minutes /0.9TON 60 minutes / 8TON overload has exist none

3. solid-liquid separator

Comparison Species The present invention Treatment ability 15TON per day 15TON per day Electric power consumption 7.5㎾ 0.75㎾ Moisture content 20 to 25% 20 to 25% Moving direction screen Stainless steel net 0.5㎡ Phase polyester 0.1㎡ under Screen plate Stainless Steel Arm 4mm Plastic plate 30 mm

4. High speed fermentation dehydrator

Comparison Species The present invention Treatment ability 15TON per day 15TON per day Electric power consumption 3㎾ to 5.0㎾ 1.5 ㎾ High speed rotation method Heater method 80% 100% of low temperature method over 60 ° Acid water sawdust none Composting 100% 100%

5. hydraulic injector

Comparison Species The present invention Treatment ability Urine 1 day 20TON Urine 1 day 20TON Electricity consumption 850 yen none Method Jet Natural SUS 3㎡ Gas removal rate 40% to 50% 40% to 50%

6. Gas generating screw

Comparison Species The present invention Treatment ability Urine 1 day 20TON Urine 1 day 20TON Electric power consumption 0.75㎾ 850 yen Method Circulation jet Blow trommel Gas removal rate 40% to 50% 40% to 50% Squirt road Forced suction 휀 150 W

As described above, the present invention basically uses microorganisms to decompose, reduce, and treat 100% livestock manure, and by using a mechanical device, a series of processes are continuously and automatically performed, thereby treating performance thereof. Multiplying and using aeration device to smoothly mix the manure, microorganisms and air, and remove the air bubbles with a debris has the effect of reusing the ocher-free fermented manure liquor to wash pigs.

Claims (6)

In the livestock manure treatment system, the wastewater treated with piglet is reused by passing through the collecting tank filled with water at the first time to collect the manure discharged from piglet (1) and treating it in the manure solids separation and degassing high-speed fermentation dehydration device. Or, the wastewater treated in the degassing high-temperature fermentation dehydrator with the manure passed through the collection tank is treated by passing through a water level control tank, a maturing tank and an aeration tank, and then stored in a storage tank and then recovered and reused in a pig house. As for A primary collection tank 2, secondary collection tanks and tertiary collection tanks 3 and 4 connected to the primary collection tank 2, in which manure flows automatically, and Pass through the collection tank to treat the manure solids separation, degassing high speed fermentation dehydration apparatus 100, or the collection with the treated wastewater passed through the manure solids separation, gas removal high speed fermentation dehydration apparatus 100 Water level control tank, aging tank, aeration tank (5, 6, 7, 8) flowing through the tank and An underwater pump (15) and a transfer pipe (33) for transferring the manure introduced into the aging tank (6) to a secondary aeration tank (8); Aeration devices (13, 13`) installed in the primary aeration tank (7) and the secondary aeration tank (8) and Foam treatment tank 34 formed on the upper portion of the primary aeration tank (7) and the secondary aeration tank (8) and Bubble breakers (14, 14 ') embedded in the bubble treatment tank (34) to break bubbles; Reservoirs (9, 10, 11, 12) for sufficiently fermenting a stirred solution sufficiently mixed with microorganisms, Livestock, characterized in that it comprises a pump (15`) and a transfer pipe (33`) for transferring the liquid fermented sufficiently in the storage tank (9, 10, 11, 12) to pigs for reuse for pigs treatment, etc. Manure Treatment Device According to claim 1, the manure solids separation, gas removal high speed fermentation dehydration device 100 is a manure injection secondary pipe 10 and the raw water pipe 9, the vibrator 101 and the diaphragm screen 102 is installed, At the bottom thereof, a hydraulic sprayer 103 connected to a pipe formed of a solid-liquid fermentation dehydration storage tank 112 and a 2 mm susceptor net 127 is formed, and a gas generating screw is formed at a lower portion thereof, and a gas removal storage tank 113 is disposed at a lower portion thereof. ) And a discharge water pipe 107, the high-speed fermentation dehydrator (8) and the gas generating motor is formed on the side of the device, the gas discharge pipe and the fan 105 is formed on the other side, As a high-speed fermentation dehydrator 108, the manure inlet 121 and the gas generating screw motor 115, the mechanical seal 122 and eight blades 124, which are installed in the connection between the motor and the dehydrator, and the outer network 125 and sus The net 127 and the fermentation sludge outlet 126 is installed, the chapter A lower supporter, the processing apparatus of the livestock waste, characterized by configured to include a screen 102 of 0.1㎡ consists of a vibration preventing rubber plate 123, the vibrator 101 is on the lower According to claim 1, The aeration device (13, 13`) has a motor embedded in the upper aeration device and connected to the aeration belt (16, 16`) and the aeration shaft (17) of the motor by a belt, The aeration impeller 18 and the broa 22 which are installed in the lower part of the aeration shaft are installed in the aeration cylinder 31, and eight air injection pipes 19 are installed around the aeration shaft 17. The inlet 20 is formed in the lower middle, and the aeration cylinder 31 can be rotated by the bushings 21 and 21 ', and the air injection pipe 19 is rotated by the aeration impeller 18. ) And the aeration cylinder 31 rotate together with the following discharge tube 24, the heater 32 is provided in the upper portion of the aeration cylinder 31, the discharge tube 24 horizontally in the lower portion of the aeration cylinder 31 Livestock manure treatment device, characterized in that configured to include According to claim 1, wherein the breaker (14, 14`) is connected to the belt of the breaker belt connector 25 and the breaker shaft 27 of the motor by a belt, the breaker 2 in the lower portion of the breaker shaft (27) A chimella 27 ′ is installed, and a device for treating livestock manure, characterized in that it comprises a swelling machine primary impeller 28 installed at the center of the swelling machine shaft 27. In the livestock manure treatment method, the manure discharged from the pig house 1 automatically flows into the collection tank 2 filled with water first, and then in the secondary collection tank and the third collection tank 3,4. The manure solids separation and treatment through the high speed fermentation dehydrator 100, and recovered to pigs or reused, or the water treated in the manure solids separation and high-speed dehydrator with water from the tertiary collection tank initially contained water The secondary aeration tank through the transfer pipe 33 by the submersible pump 15 built in the aging tank (6) in order to ensure that the first manure to be mixed with the existing liquid when arriving at the water level control tank (5) ( It is transferred to 8) to be introduced into the primary aeration tank (7), and microorganisms are injected into the aeration tank as necessary. The microorganism used at this time has excellent effect on sludge decomposition by 4 kinds of complex bacteria including STEARO THERMOPHILUS and BACILLUS SUBTILUS, which are deposited on March 14, 1995, with Korea Advanced Institute of Science and Technology. An aeration shaft 17 connected to the aeration device belt connector 15, 15 ′ by a motor built in the upper part of the aeration devices 13, 13 ′ installed in the primary aeration tank 7 and the secondary aeration tank 8. And, the aeration impeller 18 installed in the lower portion of the aeration shaft is rotated, the eight air injection pipes 19 installed around the aeration shaft 17 is rotated with the impeller 18, the air injection pipe 19 Air from the top of the The manure flows into the inlet 20 of the aeration cylinder 31 and comes into contact with the air injected into the air injection pipe 19 while the manure and the air are sufficiently stirred by the aeration impeller 18, thereby lowering the aeration cylinder 31. Due to the discharge pipes 24 and 24` installed horizontally, the temperature rises by beating the whole side of the aeration tank width 5x5x2m, The aeration cylinder 31 is rotated by the bushings 21 and 21`, and the aeration impeller 18 and the air injection pipe 19 are mounted inside the aeration cylinder 31 to rotate together, as well as the aeration cylinder ( The discharge pipes 24, 24` installed at the lower part of the 31 are also simultaneously rotated, At the same time as the discharge tube (24, 24`) is rotated and forcedly discharged by pressure into the aeration tank to mix well with the existing liquid, and recovered from one side of the aeration cylinder 31 from the top of the aeration apparatus (13) The pipe (bypass pipe) 22 and the instrument 23 is installed to know the amount of manure in the aeration tank, the upper temperature of the aeration cylinder 31 by the heater 32 installed in the average temperature 38 ~ 40 due to fermentation of microorganisms It is raised to 50 ~ 65 ℃ to induce evaporation at ℃, the upper portion of the primary aeration tank (7) and the secondary aeration tank (8) is equipped with a foam treatment tank, the foam of the foam treatment tank is capillary phenomenon in the aeration tank As the generated bubbles, the bubble breakers 14 and 14` installed in the bubble treatment tank have impellers 27 ', 28 and 28` connected to the bubbler axis and the bubbler axis by rotation of a motor, so that the bubbler side faces. By the rotation of the impeller (28, 28`) Is diffused from side to side and bubbles start to rise in the center, the bubble is broken by the bubbler central impeller 27 'and turned into a liquid, and the treated liquid is stored in the storage tank 9 by a pump 16 installed at the bottom of the foam treatment tank. , 10, 11, 12) and after the fermentation in the reservoir sufficiently, the treated liquid is recovered to the pig house through the transfer pipe 33` by the pump (15`) installed in the reservoir to reuse for pig house cleaning, etc. Livestock manure treatment method characterized in that The method of claim 1, wherein the manure solids separation and the high-speed fermentation dehydrator through the treatment method is the manure introduced through the manure input secondary pipe (10) of the manure solids separation and high-speed fermentation dehydrator in the collection tank (2, 3, 4) Waste water is guided to the place where the vibrator 101 and the diaphragm screen 102 are installed together with the raw water supplied from the raw water pipe 9, and is partially transported downward by the vibrating screen by the operation of the vibrator 101, Under the action of the hydraulic sprayer 103 connected to the pipe formed of a solid-liquid fermentation dehydration storage tank 112 and a 2mm suspense net 127, the solid-liquid fermentation dehydration storage tank, and moved by the hydraulic pressure through the movement of the separated manure (113) The passage to be transferred to the degassing storage tank, using the space of 3㎡ to minimize the level of ammonia, phosphorus or methane mixed with manure, The gas generating screw 104 installed in the solid-liquid fermentation and dehydration storage tank 112 rotates the manure injected through the hydraulic sprayer by the gas generating screw motor 111 to separate the methane gas product mixed in the urine and matures. When moving to the tank (6) to remove the odor and methane gas in the preliminary fermentation tank, the gas discharge pipe and the fan 105 is a gas generated by the secondary storage tank 113 and the gas separated by the gas generating screw 104 To the outside, When the manure sludge filtered from the vibrating screen 102 is introduced through the manure inlet 121 of the high speed fermentation dehydrator 8 of FIG. 6 installed on the sides of the devices, the high speed rotation shaft is operated by the operation of the gas generating screw motor 115. Screw type 3600RPM per minute by rotating and heating to blow water has the effect of evaporation and fermentation, it is easy to decompose easily by high speed fermentation by eight blades 124 installed in the motor and high speed fermentation dehydrator (8), dehydrated The waste water is discharged through the external network 125 and the suspend network 127 and evaporated at the same time. The fermented sludge is discharged through the fermentation sludge outlet 126, and the gas is discharged after storing the gas in the gas removal storage tank 113. Discharge through the pipe and fan 105, the discharged water is sent to the pig company (1) through the discharge water pipe to reuse, or transferred to the water level control tank (5) Livestock manure treatment method characterized in that the treatment.