KR200472071Y1

KR200472071Y1 - Cow house

Info

Publication number: KR200472071Y1
Application number: KR2020130009053U
Authority: KR
Inventors: 강현석
Original assignee: 강현석
Priority date: 2013-11-04
Filing date: 2013-11-04
Publication date: 2014-04-07

Abstract

The present invention can be easily managed to create a sanitary and comfortable environment, and is for a future type barn of a new configuration that also reduces the barn management cost.
According to the present invention, the front and rear walls (210, 220) and the left and right walls (230, 240), including the roof 300, the cow house is provided in the breeding room (A) is provided; The bottom of the breeding room (A) 110 is penetrated up and down, through-holes 112 are formed to drop the manure of cows; The lower part of the bottom of the breeding room (A) 110 is partitioned by a partition 412, the bottom is provided with a plurality of manure chamber (410) having an outlet 414; A branch pipe 422 for discharging the manure stored in the manure chamber 410 is connected to the discharge port 414 of the manure chamber 410; The branch pipe 422 is provided with a future-type barn, characterized in that the main end 426 is connected to the connection passage (2) connected to the discharge end is connected to the waste treatment plant.

Description

Future House {Cow house}

The present invention relates to a barn, and more particularly, to a future type barn of a new configuration that can be easily managed to create a hygienic and comfortable environment, and the barn management costs are also reduced.

In general, spread the sawdust thickly on the bottom of the barn so that the water in the cow manure is absorbed. When the sawdust is laid, the sawdust and manure are mixed and shaken. If the manure is not handled at the right time and the new sawdust is not applied, germs multiply and the disease develops.

Therefore, it is necessary to periodically remove manure from the bottom of the barn and lay new sawdust. This operation requires a lot of labor and time, resulting in a large labor cost.

In addition, a lot of costs are incurred in the purchase of sawdust, such as the cost of purchasing sawdust and labor costs a significant burden on the farmers raising cattle, causing a increase in cattle breeding costs.

On the other hand, suitable temperature for cattle to live is 15-25 degreeC. Therefore, the internal temperature of the barn must be managed to maintain the temperature range. Moreover, if temperature is maintained in such a temperature range, an operator may work in a barn. In addition, it must be well ventilated to every corner of the barn, so that there is no fear of bacterial growth and the cow grows well and healthy.

Korean Utility Model Model No. 20-2010-0000458 (January 13, 2010)

The present invention is to solve the above problems, the purpose of the present invention is not only hygienic management is easy, labor is reduced, sawdust purchase cost does not occur, it is economical, the temperature is maintained and suitable for cattle growth and ventilation Is to provide a futuristic barn of a new configuration that works well.

According to one feature of the present invention, the front and rear walls (210, 220) and the left and right walls (230, 240), including the roof 300, in the barn provided with a breeding room (A) where cattle live; The bottom of the breeding room (A) 110 is penetrated up and down, through-holes 112 are formed to drop the manure of cows; The lower part of the bottom of the breeding room (A) 110 is partitioned by a partition 412, the bottom is provided with a plurality of manure chamber (410) having an outlet 414; A branch pipe 422 for discharging the manure stored in the manure chamber 410 is connected to the discharge port 414 of the manure chamber 410; The main pipe 426 is connected to the branch pipe 422; The main pipe 426 is provided with a future type barn, characterized in that the discharge end is in communication with the connecting passage (2) connected to the manure treatment plant.

According to another feature of the present invention, the branch pipe 422 extends horizontally from the lower end of the vertical portion 423 and the vertical portion 423 connected to the outlet 414 is connected to the main tube 426. Consisting of a horizontal portion 424; The horizontal portion 424 and the main tube 426 is constructed to be horizontal.

According to another feature of the present invention, the front wall 210 is formed with a doorway (212); A plurality of blowing fans 222 are mounted on the rear wall 220 to be parallel to each other in a horizontal direction; A plurality of first air inlets 232 and 242 are formed at upper ends of the left side wall 230 and the right side wall 240, and the front wall 210 of the left side wall 230 and the right side wall 240. A second air inlet (234, 244) is formed at the front end portion adjacent to the first air inlet (232, 242); The vent 300 is provided on the roof 300.

According to another feature of the present invention, the connection path (2) is the upper portion is opened to the ground, the vertical opening tube 4 is opened and closed by the opening and closing means 500 is connected, the main tube 426 is discharged The side end portion is in communication with the vertical opening tube 4, the opening and closing means 500 is hinged to one side of the vertical opening tube 4 so that the main tube 426 is located below the communication portion, A valve 510 for opening and closing the vertical opening tube 4; Consists of a metal bar, the lower end is coupled to the other upper surface of the valve 510, the upper end is a connecting member 520 exposed to the ground through the vertical opening tube 4; includes, the vertical opening tube (4) On the inner side of the bottom circumferential portion of the valve 510 is supported a locking jaw 512 is formed to prevent the valve 510 is rotated downward, is fixed to the inner side of the upper end of the vertical open pipe (4) The protrusion 6 is formed to protrude, and the connection member 520 is provided with a fixing ring 522 fitted to the fixing protrusion 6.

According to another feature of the present invention, the connection path (2) is the upper end is open to the ground is covered by a protective cap 540, the vertical opening tube 4 is opened and closed by the opening and closing means 500 is connected , The main pipe 426 is discharged end is connected to the vertical open pipe 4, the protective cap 540 is installed on the ground to cover the top of the vertical open pipe 4, at one end A base portion 542 having a fitting hole 543 formed therethrough; And a rotation cap 544 rotatably coupled to the base portion 542 to cover the upper portion of the base portion 542. The opening and closing means 500 includes a manure discharge hole 511. A valve seat 513 provided inside the vertical opening pipe 4 so that the main pipe 426 is located below the communicating portion; A ball-shaped valve 510 for opening and closing the manure discharge hole 511; And a flexible wire or chain, the lower end of which is connected to the valve 510, and the upper end of which is connected to the fitting hole 543 so as to be exposed to the upper part of the base part 542. First and second fixing pins 545 and 546 are formed on an upper surface of the base part 542, and the first fixing pin 545 is positioned to be close to the fitting hole 543, and the second fixing pin ( 546 is located at a greater distance from the fitting hole 543 than the first fixing pin 545, the upper end of the connecting member 520, the first fixing pin 545 or the second fixing pin 546 The ring body 547 to be fitted to is provided.

The present invention having the configuration as described above because the manure excreted in the breeding room (A) falls to the manure chamber 410 formed in the lower breeding room (A), the manure is not accumulated in the bottom of the breeding room (A) 110. Therefore, it is not necessary to lay the sawdust in order to process the manure in the bottom of the breeding room (A) as in the prior art, accordingly, the sawdust purchase cost does not occur, labor is also reduced. Therefore, barn can be managed hygienically and economically.

In particular, according to the present invention, since the manure chamber 410 is divided into a plurality of partitions 412, and the manure is stored for each manure chamber 410, the manure chamber 410 is formed with a relatively large space. In comparison, when the manure is discharged through the outlet 414 at the bottom of the manure chamber 410, a relatively high discharge pressure is generated to smoothly discharge the manure.

In addition, since the horizontal portion 424 of the branch pipe 422 and the main pipe 426 connected to each of the manure chamber 410 and the main pipe 426 are installed horizontally, only the liquid component of the manure is discharged first, and the liquid component and the solid component are discharged together. . Therefore, only the solid content remains in the manure chamber 410, the branch pipe 422, and the main pipe 426, and thus there is no problem of clogging.

In addition, since the opening and closing means 500 for opening and closing the main pipe 426 is configured to be manually operated, there is less risk of failure compared to the case in which the opening and closing means is configured to be electrically and electronically driven and economical.

In particular, even if the operator does not hold the connection member 520 connected to the valve 510 by hand in order to maintain the state in which the valve 510 is rotated, the manure is discharged because the valve 510 is kept open. It is practical because the worker can do other things while.

In addition, the present invention by the first, second air inlet (232, 242, 234, 244) and the blower fan 222, the ventilation hole 310 formed in the left, right wall (230, 240), the ventilation is made to every corner of the right, the inside of the barn is comfortable and sanitary Maintain an environmental environment. In addition, since the cows are kept at a temperature of 15 to 25 ° C. suitable for living in winter and summer, rapid growth and rapid growth of the cows are achieved.

1 is an external view of a barn according to a first embodiment of the present invention.
FIG. 2 is a plan view of the barn shown in FIG. 1; FIG.
3 is a side cross-sectional view of the bottom of the barn shown in FIG.
4 is an enlarged view of the opening and closing means shown in FIG.
5 is a view showing the winter ventilation of the barn according to the first embodiment of the present invention.
6 is a view showing the summer ventilation of the barn according to the first embodiment of the present invention.
Figure 7 is an enlarged side cross-sectional view of the opening and closing means according to a second embodiment of the present invention
8 is an enlarged side cross-sectional view of the opening and closing means of FIG. 7 taken at different angles;
9 is an enlarged side cross-sectional view of the opening and closing means according to the third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. 1 is an external view of a barn according to a first embodiment of the present invention, Figures 2 and 3 are a plan view and a side cross-sectional view showing the bottom and the underground structure of the barn. As shown, the right side according to the present invention comprises a front, rear wall (210, 220), left, right wall (230, 240) and the roof 300.

The right side of the right wall 230 and the right wall 240 is formed longer than the front, rear walls (210, 220), has a long shape before and after, the front wall 210 is formed with an entrance 212, the rear wall ( 220, a plurality of large blowing fan 222 is installed side by side in parallel. Preferably, these, the front and rear walls (210, 220) and the left and right walls (230, 240) are formed of a sandwich panel having a thickness of 150mm or more for heat insulation of the right.

A plurality of first air inlets 232 and 242 are formed at upper ends of the left and right walls 230 and 240, and the first and second air inlets 232 and 242 are formed along the longitudinal direction, and the first and second ends of the left and right walls 230 and 240 are adjacent to the front walls 210 of the left and right walls 230 and 240. The second air inlets 234 and 244 are formed to have a larger size than the first air inlets 232 and 242 so as to be positioned below the air inlets 232 and 242. The left and right walls 230 and 240 are further provided with windows 236 and 246 in an appropriate number.

In addition, a plurality of vents 310 are formed at the center of the roof 300 in the front-rear direction.

Inside the barn formed by the front and rear walls (210 and 220) and the left and right walls (230 and 240) and the roof 300, the breeding room (A) in which cattle live is formed side by side on both sides, and the left and right rearing rooms ( A passage B is formed between A). Left and right breeding room (A) is divided into individual breeding rooms by a fence, the feeding tank and the water supply tank is provided in the front of the breeding room (A) is the same as the general barn.

The bottom 110 of the breeding room (A) is formed through the slots of the through-holes 112 to be vertically penetrated in front, rear, left and right. The bottom 110 of the breeding room A is formed of concrete or formed of metal or synthetic resin.

On the other hand, the lower part of the bottom (110) of the breeding room (A), that is, the manure chamber 410 for storing the manure falling through the through-hole 112 is partitioned by a plurality of partitions 412. In addition, an outlet 414 is formed at the bottom of each manure chamber 410.

Branch pipe 422 for discharging the manure to the outside is connected to the discharge port 414 of each manure chamber 410, these branch pipes 422 are connected to the main pipe 426 through the main pipe 426 Manure is discharged to the outside.

The branch pipe 422 has a vertical portion 423 connected to the outlet 414 and a horizontal portion 424 extending horizontally from the lower end of the vertical portion 423, and the horizontal portion 424 is the main portion. Is connected to the tube 426.

Preferably, the horizontal portion 424 and the main pipe 426 of the branch pipe 422 is constructed horizontally to have the same height. As will be described later, when the horizontal portion 424 and the main pipe 426 is inclined construction, only the liquid component of the manure at the time of discharge of the manure may be discharged properly, so that the solids may not be properly discharged, in the present invention, the horizontal portion 424 and The main pipe 426 is constructed horizontally.

On the other hand, the discharge end of the main pipe 426 is installed to communicate with the manure treatment plant. Specifically, as shown in Figure 3, the inclined connecting path (2) is connected to the manure treatment plant is formed, the connecting path (2) is connected to the vertical open tube (4) extending upwards to open to the ground . The upper end of the vertical opening tube 4 protrudes about 1 m from the ground.

And the main pipe 426 is discharge side end is formed to be inclined downward and connected to the lower end of the vertical open pipe (4), the manure discharged from the main pipe 426 is the vertical open pipe (4) It is discharged to the connecting furnace (2) through.

On the other hand, the vertical open tube 4 is provided with an opening and closing means 500 for controlling the discharge of the manure. As shown in detail in FIG. 4, the opening and closing means 500 includes a valve seat 513 having a manure discharge hole 511 formed at the center thereof, and a ball-shaped valve 510 which opens and closes the manure discharge hole 511. , A connecting means 520 connected to the valve 510.

The valve seat 513 is provided inside the vertical open tube 4 so that the main tube 426 is located below the communication portion. And the valve 510 is made of a ball having a diameter larger than the diameter of the manure discharge hole (511). Therefore, when the valve 510 is seated on the valve seat 513, the manure discharge hole 511 is closed.

The connecting means 520 is made of a wire is connected to the valve 510, the upper end of the connecting means 520 is provided with a bar-shaped operation knob 523 longer than the diameter of the vertical open tube (4). Therefore, the operation handle 523 can be placed on the top of the vertical open tube (4).

On the other hand, in the state in which the connection operation handle 523 is placed on the vertical open pipe (4), the valve 510 is not pulled by the connecting means 520, but is seated on the valve seat 513 and the manure discharge hole 511. The length of the connecting means 520 is adjusted so that it is closed.

Then, when the operation handle 523 is pulled upward, the valve 510 is pulled to open the manure discharge hole 511 and the manure is discharged to the connection path 2 through the main pipe 426. Since the upper end of the vertical opening tube 4 protrudes from the ground, it is convenient for the operator to hold and pull the operation handle 523 without bending the waist much.

Looking at the process of the manure of the present invention having such a floor and underground configuration are as follows.

Manure excreted by the cattle living in the breeding room (A) is stored in the dropping room (410) through the through-hole 112 formed in the bottom 110 of the breeding room (A), the worker is spaced about 2-3 weeks To discharge the manure stored in the manure room 410 to the manure treatment plant.

When the manure is to be discharged, the operation handle 523 is pulled up. In this way, the valve 510 is pulled up to open the manure discharge hole 511, and the manure stored in each manure chamber 410 is discharged to the connection path 2 connected to the manure treatment plant.

On the other hand, when the horizontal portion 424 and the main pipe 426 of the branch pipe 422 is formed to be inclined downward closer to the connection path (2), the liquid component in the manure is discharged at a relatively high speed compared to the solid content, Only the solids remain in the manure chamber 410, the branch pipe 422, and the main pipe 426. And if only solids remain in this way, the solids stick to the floor and the branch pipe 422 or the main pipe 426 is blocked.

However, the present invention, as described above, because the horizontal portion 424 and the main pipe 426 of the branch pipe 422 is constructed horizontally, the liquid content of the manure is not discharged first, the solid content is flowed by the flow of the liquid content Since it is discharged together with the powder, there is no fear that only solid content remains on the floor of the manure chamber or the pipe. The manure may remain in the manure chamber 410, the branch pipe 422, or the main pipe 426 in a state where liquid and solid content coexist.

In addition, since the manure chamber 410 is divided into a plurality, the manure stored in each manure chamber 410 is effectively discharged. That is, when the manure chamber 410 is formed in a relatively wide one space, because the manure is widely spread on the bottom of the manure chamber 410, when the manure is discharged to the outlet 414, a large discharge pressure is generated As a result, manure cannot be discharged smoothly.

However, when the manure chamber 410 is divided into a plurality as in the present invention, because the manure is stored in each manure chamber 410 to achieve a relatively high level, a relatively stronger discharge pressure when the manure is discharged Manure is effectively discharged at a rapid rate.

Thus, because the manure of the cattle living in the breeding room (A) is dropped and stored in the manure room (410), the barn according to the present invention does not need to spread the sawdust on the bottom of the breeding room (A).

On the other hand, in order to promote rapid growth and increase in cattle, the temperature of the barn should be maintained at 15-25 ° C, and smooth ventilation should be achieved. The cow's body generates a significant amount of heat, so if you heat insulation and keep warm in winter, you can keep the barn's room temperature at a reasonable level without heating.

In winter, the second air inlets 234 and 244 formed in the left and right wall bodies 230 and 240 are closed, and only the first air inlets 232 and 242 are opened, and the blower fan 222 is not operated. In this way, as shown in FIG. 5, an air flow is formed in the winter season in the winter season.

Cold air flowing into the first air inlets 223 and 242 formed in the left and right wall bodies 230 and 240 is collided at the center of the right side, that is, the upper part of the passage B, and moved downward to flow to the left and right rearing room A, and the cow's body It is heated up by the heat emitted from and moved upward.

The hot air moved upwards is moved in the form as described above along the flow of cold air flowing into the first air inlets 232 and 242 to generate a cross-shaped circulation, and the inside of the barn is heated evenly. In this process, some air is discharged to the outside through the vent hole 310 formed in the roof 300, the odor or dust inside the barn is discharged to the outside.

In the summer, the second air inlets 234 and 244 are opened in addition to the first air inlets 232 and 242 to operate the blower fan 222. In this way, as shown in FIG. 6, air introduced into the barn through the first and second air inlets 232, 242, 234, and 244 is discharged to the rear of the barn by the blowing fan 222.

In particular, since the second air inlets 234 and 244 are formed at the front ends of the left and right walls 230 and 240, a large amount of air introduced through the second air inlets 234 and 244 is discharged to the outside through the rear wall 220. As a result, a large air flow (tunnel ventilation system) discharged from the front to the rear of the barn as a whole is caused to evenly ventilate the inside of the barn.

In addition, the wind caused by the air flow lowers the internal temperature of the barn. If necessary, the windows 236 and 246 may be opened for ventilation.

Preferably, cooling pads 235 are installed at the second air inlets 234 and 244. The cooling pad 235 is formed with a flow path through which groundwater flows in and out, and a vent hole 237 is formed in a predetermined pattern so that air flows smoothly into the barn. The cooling pad 235 is connected to the ground water supply pipe and installed at the second air inlets 234 and 244.

Therefore, when the cooling pad 235 is operated in the summer, the air flowing into the barn is cooled by the cold ground water flowing into the cooling pad 235, thereby effectively cooling the inside of the barn.

Hereinafter, another embodiment of the present invention will be described, but the description of the same configuration and effect as the above-described embodiment will be omitted.

7 and 8 are side cross-sectional views showing the opening and closing means 500 according to the second embodiment of the present invention. In the present embodiment, the vertical opening tube 4 is made of a square tube, the opening and closing means 500 is a rectangular plate shape so that one side end is hinged to the vertical opening tube 4 so as to rotate up and down, and It consists of a connecting member 520 coupled to the upper surface of the other end of the valve 510, the upper end of the connecting member 520 is exposed to the ground through the vertical opening pipe (4).

Naturally, the valve 510 is located below the portion where the main tube 426 and the vertical opening tube 4 communicate with each other, and the bottom surface of the valve 510 is supported on the inner side of the vertical opening tube 4. As a result, a locking step 512 is formed to prevent the valve 510 from rotating downward.

In the present embodiment, the connecting member 520 is made of a metal bar so that the lower end thereof is rotatably coupled to the valve 510. An arbitrary portion of the connecting member 520 is provided with a fixing ring 522. On the inner circumferential surface of the upper end of the vertical opening tube 4, a fixing protrusion 6 into which the fixing ring 522 is fitted is formed. Reference numeral 524 is an annular handle provided on the top of the connecting member 520.

Therefore, when the operator pulls up the connecting member 520 to rotate the valve 510 and then hooks the fixing ring 522 of the connecting member 520 to the fixing protrusion 6, the connecting member 520 is pulled upward. Is maintained, the valve 510 is rotated upward.

Therefore, since the worker does not need to continue to pull the connecting member 520, while the manure is discharged, the worker may perform other tasks such as cleaning the bottom of the breeding room (A). When the worker cleans the breeding room A, the water to be cleaned is also discharged through the manure chamber 410.

On the other hand, in the present embodiment, the upper end of the vertical open tube 4 has a height substantially similar to the ground, and is covered by a protective cap 540, the protective cap 540 and the base portion 542 is installed on the ground, Rotating cap 544 is rotatably coupled to the base portion 542.

9 is a side cross-sectional view showing the opening and closing means 500 according to the third embodiment of the present invention. As shown, the valve seat 513 in which the manure discharge hole 511 is formed in the vertical opening tube 4 is formed, and the valve 510 has the ball shape as in the first embodiment.

In this embodiment, the connection member 520 is made of a flexible wire or chain, the base portion 542 of the protective cap 540 completely covers the vertical open tube (4).

In addition, fitting holes 543 are formed at one end of the base portion 542 to penetrate up and down, and first and second fixing pins 545 and 546 are formed on the upper surface of the base portion 542. The first fixing pin 545 is formed at a position closer to the fitting hole 543, the second fixing pin 546 is located at a relatively farther distance from the fitting hole 543 than the first fixing pin 545. do.

On the other hand, the connecting member 520 is exposed to the upper portion of the base portion 542 by being fitted into the fitting hole 543, the upper end of the connecting member 520 is fastened to the first, second fixing pins (545, 546) Ring body 547 is provided. In addition, in the state where the ring body 547 is caught by the first fixing pin 545, the length of the connecting member 520 is adjusted so that the valve 510 is seated on the valve seat 513 and the manure discharge hole 511 is closed.

In this embodiment, when the operator hooks the ring body 547 of the connecting member 520 to the second fixing pin 546, the valve 510 is pulled up to open the manure discharge hole 511 to open the main pipe 426. The manure is discharged to the connecting passage (2).

When the ring body 547 of the connecting member 520 is hung on the second fixing pin 546, the manure discharge hole 511 is kept open, so that the operator opens the manure chamber 410 while the manure is discharged. It is practical because it can do other things such as cleaning.

When the manure is discharged to some extent, the worker closes the vertical open tube 4 by hooking the ring body 547 of the connecting member 520 to the first fixing pin 545.

A. Nursery B. Aisle
2. With connection 4. Vertical open tube
6. Fixing protrusion 110. Bottom
112. Through Hole 210. Front Wall
212.Doors 220.Rear Wall
222. Blowing fan 230. Left wall
232, 242. First air inlet 234, 244. Second air inlet
236, 246. Windows 240. Right wall
300. Roof 310. Vent
410. Manure chamber 412. Bulkhead
414. Outlet 422. Branch pipe
423. Vertical Sections 424. Horizontal Sections
426. Main building 500. Opening and closing means
511. Manure drain 510. Valve
512. Locking Jaw 513. Valve Seat
520. Connecting member 522. Retaining ring
540. Protective Cap 542. Base Section
544. Rotating cap 543. Fitting hole
545. First Locking Pin 546, Second Locking Pin
547. Ringze

Claims

Including a front and rear wall (210,220), left, right wall (230, 240), a roof 300 and the bottom 110, the rearing room (A), the front, rear wall (210, 220) and the left, right wall ( 230 and 240 are made of a sandwich panel for the insulation of the breeding room (A), the front wall 210 is formed with a doorway 212, the rear wall 220, the blowing fan 222 is side by side The plurality of first air inlets 232 and 242 are formed along the longitudinal direction at upper ends of the left and right walls 230 and 240, and the front and rear ends of the left and right walls 230 and 240. Second air inlets 234 and 244 are formed at a lower side of the first air inlets 232 and 242 and larger than the first air inlets 232 and 242, and a plurality of windows 236 and 246 are formed in the left and right walls 230 and 240, respectively. The roof 300 has a vent 310 is formed,
Cooling pads 235 are installed at the second air inlets 234 and 244, and a cooling channel 235 is formed in the cooling pad 235 to be connected to the groundwater supply pipe, and a flow path through which groundwater flows in and out is formed. Vents 237 are formed in a predetermined pattern so that air flows smoothly,
The bottom 110 has a through-hole 112 in the form of a slot through which the manure of the cow falls up and down, and is partitioned by a partition wall 412 in the bottom of the bottom 110, the outlet 414 in the bottom Is provided with a plurality of manure chamber 410, the outlet 414 of each manure chamber 410 is connected to the branch pipe 422 for discharging the manure stored in the manure chamber 410,
The branch pipe 422 is connected to the main pipe 426, the discharge side end is in communication with the connecting passage (2) connected to the manure treatment plant, the branch pipe 422 is connected to the vertical opening (414) ( 423 and a horizontal portion 424 extending horizontally from the bottom of the vertical portion 423 and connected to the main tube 426, and the horizontal portion 424 and the main tube 426 are horizontal. ,
The connection path 2 is open to the ground, the upper part is connected to the vertical opening tube 4 which is opened and closed by the opening and closing means 500, the main tube 426 is the discharge side end of the vertical opening tube (4) ),
The opening and closing means 500 is a plate-shaped valve 510 for opening and closing the vertical opening tube 4 by one side hinged to the vertical opening tube 4 so that the main pipe 426 is located below the communication portion. And, consisting of a metal bar, the lower end is coupled to the other upper surface of the valve 510 and the upper end includes a connecting member 520 exposed to the ground through the vertical opening tube 4, the vertical opening tube (4) On the inner side of the bottom circumferential portion of the valve 510 is supported a locking jaw 512 is formed to prevent the valve 510 is rotated downward, the fixing projections on the inner side of the upper end of the vertical open pipe (4) (6) is protruded, the connection member 520 is provided with a fixing ring 522 to be fitted to the fixing projection (6) to pull the connecting member 520 upwards to the fixing ring 522 When inserted into the fixing protrusion (6), the valve 510 is maintained in an upwardly rotated state, Through the main pipe 426, the manure is discharged to the connection path (2),
Futuristic barn characterized in that.

delete

The method of claim 1,
The connection path (2) is the upper end is opened to the ground and covered by a protective cap 540, the protective cap 540 is installed on the ground to cover the top of the vertical open tube (4), at one end And a base portion 542 having a fitting hole 543 formed therethrough, and a rotation cap 544 rotatably coupled to the base portion 542 to cover an upper portion of the base portion 542. Futuristic barn.