KR102021433B1 - disposal apparatus for livestock cadaver - Google Patents

Abstract

Our livestock processor is disclosed. In one embodiment, the waste livestock processor is a body portion having a waste storage space for accommodating our livestock therein, a heating unit for receiving heat to the heat transfer medium received from the outside receiving the heat transfer medium And a heat transfer medium circulation supply unit for supplying the heat transfer medium heated in a circulating manner to the heating unit, and a pulverizing unit for pulverizing the waste yarn which is disposed in the waste house storage space and supplied to the waste house storage space. The heat transfer medium circulation supply unit may include a heat transfer medium heating unit for heating the heat transfer medium and a circulation supply unit for supplying the heat transfer medium heated by the heat transfer medium heating unit in a circulation manner to the heating unit through a circulation pipe. .
The crushing unit may include a rotating shaft rotatably installed in the stock receiving space and a plurality of stirring members spaced apart from each other on the rotating shaft. In this case, the stirring blade may be disposed on at least one side of the plurality of stirring members. The stirring blade may be arranged in a manner of connecting the stirring members adjacent to each other of the plurality of stirring members in a spiral shape. At least some of the plurality of stirring members are disposed on the rotating shaft in a shape that penetrates the rotating shaft, and a protrusion is formed on the other side of the stirring member on which the stirring blade is not disposed so that the dead shaft is rotated during the rotation of the rotating shaft. Stirring and grinding may be performed simultaneously.

Description

Disposal apparatus for livestock cadaver}

The technology disclosed herein relates to a waste livestock processor, and more particularly, to a waste livestock processor for drying and pulverizing the waste livestock supplied through the supply unit through a heat pulverizer and discharging it to the outside.

The burial treatment method, incineration treatment method, etc. are widely used as a method of killing livestock due to an infectious disease or dead bodies caused by other causes.

In case of investment treatment method, it is difficult to select burial site, hygiene problem due to bad smell caused by corruption of buried livestock, prevention of epidemic, prevention of infectious disease, water pollution from leachate and soil There are many problems such as after-sales problem that requires long-term follow-up on pollution.

In the case of the incineration treatment method is treated as a hate facility, it is difficult to attract the facility is difficult to immediately deal with the large number of livestock due to the lack of incineration facilities. In addition, in the case of the incineration method there is a problem that a large number of civil complaints from the inhabitants due to dioxin, dust, odor generated in the incineration process.

In order to dispose of livestock by burial or incineration, the livestock must be moved to the site where the facility is located. In this process, transportation costs, decay of carcasses, and pathogen contamination Problems such as secondary pollution from carcasses can also occur.

The technology disclosed herein is derived to solve the problems of the prior art, the livestock livestock processor disclosed in the present specification is capable of heating and crushing the carcasses of livestock at the site where the livestock breeding occurred, which enables sterilization. We propose a technology related to our livestock processor.

In one embodiment, a technique related to a livestock processor is disclosed. The waste livestock processor includes a body part having a waste house storage space capable of accommodating waste livestock therein, a heating unit receiving heat from the outside to provide heat to the house storage space, and circulating in the heating unit. And a heat transfer medium circulation supply unit for supplying the heat transfer medium heated in such a manner, and a pulverizing unit for pulverizing the waste yarns, in which the waste yarns are disposed in the storage space and supplied to the storage spaces.

The livestock livestock processor may further include a supply unit for supplying the livestock livestock to the livestock storage space in such a way that the livestock feedstock receives the livestock feedstock and raises and descends the livestock feedstock.

The waste livestock processor may further include a blower for discharging dust generated in the livestock storage space to the outside using wind. In this case, the body portion is formed with a first opening and a second opening for connecting the livestock storage space to the outside, the blower is connected to any one selected from the first opening and the second opening, Dust may be discharged to the outside through the first opening or the second opening through the operation of the blower. In this case, the waste livestock processor may further include a dust collector for receiving the dust discharged to the outside through the first opening or the second opening according to the operation of the blower to remove the dust.

On the other hand, the heating unit is arranged to surround at least a portion of the outer surface of the body portion includes a heat transfer medium receiving portion to form a heat transfer medium receiving space for receiving the heat transfer medium between the at least a portion of the outer surface of the body portion. Can be. In this case, the heat transfer medium receiving unit may provide heat generated from the heated heat transfer medium supplied from the heat transfer medium circulation supply unit to the waste house storage space.

The heat transfer medium circulation supply unit includes a heat transfer medium heating unit for heating the heat transfer medium and a circulation supply unit for supplying the heat transfer medium heated by the heat transfer medium heating unit in a circulation manner to the heating unit through a circulation pipe. can do.

The heat transfer medium heating unit may include a heat transfer medium storage unit including a heat transfer medium accommodation space accommodating the heat transfer medium, and a heating element inserted into the heat transfer medium accommodation space from the outside to heat the heat transfer medium.

On the other hand, the crushing unit may include a rotary shaft rotatably installed in the storage space for the dead yarn and a plurality of stirring members disposed to be spaced apart from each other on the rotary shaft. In this case, the stirring blade may be disposed on at least one side of the plurality of stirring members. The lower surface of the inside of the body portion may have a circular or semi-circular cross-sectional shape. The stirring blade is formed in a spiral shape so as to rotate in close or close contact with the surface of the lower surface inside the body portion along the shape of the lower surface inside the body portion in the process of rotating by the rotation of the rotary shaft, stirring It may be disposed on the one side of the member.

The stirring blade spirally forms one side of the first stirring member and one side of the second stirring member among the stirring members adjacent to each other among the plurality of stirring members, hereinafter referred to as a first stirring member and a second stirring member. It may be arranged on the one side of the first stirring member and the one side of the second stirring member in a manner connected to. The lower surface of the inside of the body portion may have a circular or semi-circular cross-sectional shape. The stirring blade is formed in a spiral shape so as to rotate in close or close contact with the surface of the lower surface inside the body portion along the shape of the lower surface inside the body portion in the process of rotating by the rotation of the rotary shaft It may be disposed on the one side of the first stirring member and the one side of the second stirring member.

At least one of the first stirring member and the second stirring member, hereinafter referred to as a rotating shaft through stirring member, may be disposed on the rotating shaft in a shape that penetrates the rotating shaft. The other side of the rotating shaft penetrating stirring member that is not the stirring blade is formed may be a simultaneous stirring and pulverization of the dead shaft in accordance with the rotation of the stirring blade in the rotation process of the rotating shaft.

The waste livestock processor disclosed herein includes a supply unit for supplying the livestock livestock to the livestock storage space in such a way that the livestock feedstock receives the livestock feedstock and raises and descends the livestock feedstock. Through the supply part, the waste liquid is supplied from the livestock livestock to the body part in the process of transporting the livestock livestock or supplying the livestock livestock to the demanding space by raising and lowering the feedstock by raising and lowering the livestock in the manner of carrying out such as gourd. It can provide an effect to prevent the leakage of the leakage to the outside.

In addition, the waste livestock processor disclosed herein may include a blower to discharge dust generated in the livestock storage space to the outside. At this time, by utilizing a dust collector to remove the dust discharged to the outside it can prevent the external environmental pollution that may occur during the operation of the livestock waste processor disclosed herein. In this case, in addition to the direct removal of the dust through the dust collector, the waste livestock processor disclosed herein may include a water tank at the front of the dust collector, and may filter the dust discharged to the outside through the water tank and process the dust with the dust collector. The efficiency of the treatment and the life of the dust collector can be provided at the same time.

In addition, the closed livestock processor disclosed herein utilizes a heating unit including a heat transfer medium accommodation portion that forms a heat transfer medium accommodation space therebetween. Through this, the waste livestock processor disclosed in the present specification can be applied to the waste livestock storage space while preventing excessive heat from being applied to the livestock storage space by taking a heating method through a bath. .

In addition, the waste livestock disposal system disclosed herein may provide a more efficient and uniform heat to the livestock storage space by taking a circulation method as a method of providing a heat transfer medium to the heating unit or the heat transfer medium receiving unit.

In addition, the livestock livestock processor disclosed herein heats a heat transfer medium storage portion in which a heat transfer medium is accommodated through a heating element, rather than directly attaching a heating element to a heating portion, and heats the heated heat transfer medium through a circulation supply part. By adopting the circulating heating method to supply to the heating element can provide an effect that can reduce or minimize the amount of heat transfer medium leaked to the outside when the heating element is replaced compared to replacing the heating element mounted directly on the heating unit.

In addition, the pulverization portion of the waste livestock processor disclosed herein may include a rotating shaft rotatably installed in the space for storing livestock and a plurality of stirring members spaced apart from each other on the rotating shaft. In this case, the stirring blade may be disposed on at least one side of the plurality of stirring members. In this case, the stirring blade may be independently disposed on one side of at least one of the plurality of stirring members. Alternatively, the stirring blades may be arranged in such a manner as to connect the stirring members adjacent to each other among the plurality of stirring members in a spiral shape. In this case, at least some of the plurality of stirring members may be disposed on the rotating shaft in a shape penetrating the rotating shaft, and a protrusion may be formed on the other side of the stirring member on which the stirring blade is not disposed. Through this, the closed livestock processor disclosed in the present specification may provide an effect of simultaneously stirring and pulverizing the closed livestock in the course of rotating the rotary shaft.

In addition, the closed livestock processor disclosed herein may provide an effect of further increasing the stirring efficiency by allowing the ends of adjacent stirring blades taking a spiral shape to overlap each other.

The foregoing provides only optional concepts in a simplified form for the details that follow. This disclosure is not intended to limit the main or essential features of the claims or to limit the scope of the claims.

1 is a view showing a closed livestock processor disclosed in the present specification.
2 is a view showing a body portion and a pulverization portion of the closed livestock processor disclosed herein.
3 is a view showing another embodiment of the waste livestock processor disclosed herein.
Figure 4 is a view showing another embodiment of the waste livestock processor disclosed herein.

Hereinafter, exemplary embodiments disclosed herein will be described in detail with reference to the accompanying drawings. Unless otherwise indicated in the text, like reference numerals in the drawings indicate like elements. The illustrative embodiments described above in the detailed description, drawings, and claims are not meant to be limiting, other embodiments may be utilized, and other changes may be made without departing from the spirit or scope of the technology disclosed herein. Those skilled in the art can arrange, configure, combine, and designate the components of the present disclosure, that is, the components generally described herein and described in the figures, in a variety of different configurations, all of which are expressly devised and It will be readily understood that they form part of. In order to clearly express various layers (or layers), regions, and shapes in the drawings, the width, length, thickness, or shape of the components may be exaggerated.

When one component is referred to as "placement" in another component, it may include a case in which one component is directly disposed in the other component, as well as a case in which additional components are interposed therebetween.

When one component is referred to as "connecting" to another component, it may include a case in which the one component is directly connected to the other component, as well as a case in which additional components are interposed therebetween.

Description of the disclosed technology is only an embodiment for structural or functional description, the scope of the disclosed technology should not be construed as limited by the embodiments described in the text. That is, the embodiments may be variously modified and may have various forms, and thus, the scope of the disclosed technology should be understood to include equivalents capable of realizing the technical idea.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as “comprise” or “have” refer to features, numbers, steps, operations, components, parts, or parts that are implemented. It is to be understood that the combination is intended to be present and does not preclude the existence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof in advance.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the disclosed technology belongs unless otherwise defined. The terms defined in the commonly used dictionary should be interpreted to coincide with the meanings in the context of the related art, and should not be interpreted as having ideal or excessively formal meanings unless clearly defined in the present application.

1 is a view showing a closed livestock processor disclosed in the present specification. 2 is a view showing a body portion and a pulverization portion of the closed livestock processor disclosed herein. 3 is a view showing another embodiment of the waste livestock processor disclosed herein. Figure 4 is a view showing another embodiment of the waste livestock processor disclosed herein.

With reference to the drawings will be described in our livestock processor disclosed herein.

The waste livestock processor disclosed herein is provided with a heat transfer medium heated from the outside and a body part 100 having a waste house storage space 110 capable of receiving the house livestock therein, and the waste livestock storage space 110. The heating unit 200 to provide heat to the heat transfer medium circulation supply unit 300 for supplying the heat transfer medium heated in a circulating manner to the heating unit and the waste yarn is disposed in the storage space is supplied to the storage space It includes a grinding unit 400 for grinding the dead yarn.

Body portion 100 according to an embodiment is configured in the form of a general barrel having a livestock housing interval 110 to accommodate the livestock livestock therein. The inner bottom surface may have a circular or semicircular cross-sectional shape. The shape of the body portion 100 is limited in consideration of the best efficiency through the operation or structure of the crushing unit 400 to be described below, it may be configured in various forms.

The heating unit 200 according to an embodiment includes a heat transfer medium accommodating part 210 that forms a heat transfer medium accommodation space 211 in which the heat transfer medium is accommodated.

The heating unit 200 according to an example is disposed to surround at least a portion of the outer surface of the body portion 100 to receive the heat transfer medium between the at least a portion of the outer surface of the body portion 100. It may include a heat transfer medium receiving portion 210 to form a medium receiving space (211). The heat transfer medium receiving unit 210 may provide the heat generated from the heated heat transfer medium supplied from the heat transfer medium circulation supply unit 300, which will be described below, to the storage house 110 through the surface of the body 100. have.

The heat transfer medium described above may be a heated gas. The heating unit 200 described above may be disposed to contact the body 100 so that the inside of the body 100 is heated, may be disposed in the body 100, by a predetermined distance from the surface of the body 100 It may be arranged apart.

The heat transfer medium circulation supply unit 300 according to an embodiment includes a heat transfer medium heating unit 310 for heating a heat transfer medium and the heat transfer medium heated by the heat transfer medium heating unit 310 through a circulation tube (not shown). It may include a circulation supply unit 320 for supplying the heating unit 400 in a circulating manner.

The heat transfer medium heating unit 310 according to an example is inserted into the heat transfer medium storage space 311a including the heat transfer medium accommodation space 311a for receiving the heat transfer medium and the heat transfer medium accommodation space 311a from the outside to the heat transfer medium. It may include a conventional heating element 312 for heating the medium.

The circulation supply unit 320 according to an example may be configured as a conventional pump. The circulation supply unit 320 applies pressure to the heat transfer medium storage unit 311 to move the heat transfer medium accommodation space 211 formed in the heat transfer medium accommodation unit 210 of the heating unit 200. Here, the circulation pipe (not shown) connecting the heat transfer medium storage unit 311 and the heating unit 200 is further configured to be connected to the other side of the heat transfer medium receiving unit 210 and the other side of the heat transfer medium storage unit 311. By the circulation supply unit 320 may be made to circulate.

Furthermore, the circulation supply unit 320 may be configured as a conventional blower. As the heat transfer medium herein, it will be preferable to use the gas described above. The blower may be disposed inside the circulation pipe (not shown).

The crushing unit 400 according to an embodiment includes a rotating shaft 410 rotatably installed in the storage space and the plurality of stirring members 420 spaced apart from each other on the rotating shaft 410.

Rotating shaft 410 according to an example is configured in the form of a conventional rod, it may be installed to rotate freely through the body (100). One side of the rotating shaft 410 is connected to the ordinary motor is rotated.

Stirring member 420 according to an example may be configured to be arranged one or more in the longitudinal direction on the surface of the rotating shaft 410. The stirring member 420 may be disposed to contact or adjoin the inner surface of the body 100.

The pulverization unit 400 described above is stirred while the stirring member 420 rotates in the rotational direction of the rotary shaft 410 while dispersing the four dead shafts in both sides of the stirring member 420 while partially lifting the internal shafts. The dead yarn caught in the stirring member 420 is pulverized so that a specific part of the shaft is torn off.

The grinding unit 400 according to another embodiment may further include a stirring blade 430 at one side of at least some of the rotating shaft 410 and the stirring member 420 and the plurality of stirring members 420 described above. Can be. In the present embodiment, the stirring member 420 may not be in contact with the inner surface of the body 100, or may be simply configured to connect the stirring blade 430 to the rotating shaft 410.

Stirring blade 430 according to an example is in close contact with the surface of the lower surface inside the body portion 100 in the shape of the lower surface inside the body portion 100 in the process of rotating by the rotation of the rotary shaft 410 or It may be formed in the shape of the same spiral as the longitudinal direction of the body 100 so as to rotate in a close state may be disposed on the one side of the stirring member 420. In other words, the stirring blade 430 is to be in contact with the inner surface of the body 100 or adjacent to the screw shape, and moves the dead axis to one end of the stirring blade 430.

In another example, the stirring blades 430 are agitating members 420 adjacent to each other among the plurality of stirring members 420, hereinafter referred to as a first stirring member 421 and a second stirring member 422. The one side and the second stirring member 422 of the first stirring member 421 in such a manner as to connect one side of the first stirring member 421 and one side of the second stirring member 422 in a spiral shape. It may be disposed on the one side of the. Meanwhile, as shown in FIG. 2, the stirring blades 430 may be disposed in plural, and in this case, the plurality of stirring blades 430 may be connected to the stirring member 420 but not connected to each other. The first stirring member 421, the second stirring member 422, and the rotating shaft penetrating stirring member 440 are illustrated as an example of the stirring member 420 in which the stirring blade 430 is disposed. On the other hand, adjacent stirring blades 430 that are not connected to each other as shown in Figure 2 may have a different rotation direction of the spiral. In this case, the closed yarns located between the stirring members 420 are moved and concentrated by the stirring blades 430 to the stirring member 420 and then crushed and stirred by the stirring member 420.

The stirring blade 430 described above is in close contact with the surface of the lower surface inside the body portion 100 along the shape of the lower surface inside the body portion 100 in the process of rotating by the rotation of the rotary shaft 410. Or it may be formed in a spiral shape so as to rotate in a close state may be disposed on the one side of the first stirring member 421 and the one side of the second stirring member 422. The stirring blade 430 moves the dead shafts located between the stirring member 420 to the stirring member 420.

After the four livestock shafts located between the pulverization unit 400 and the stirring member 420 described above are moved to the stirring member 420 by the stirring blade 430, the dead yarns are crushed and stirred by the stirring member 420. do. The crushing unit 400 has an effect that the stirring and crushing efficiency of the dead yarns is greatly increased.

On the other hand, by allowing the ends of the adjacent stirring blades 430 taking the spiral shape overlap each other, it is possible to provide an effect that can further increase the stirring efficiency.

In addition, the above-described grinding unit 400 may further include a protrusion 450 on the stirring member 420. The protrusion 450 protrudes from the side of the stirring member 420. The protrusion 450 may be stirred and pulverized at the same time with the stirring member 420.

One or more protrusions 450 may be formed in each stirring member 420.

According to another example, the protrusion 450 may include at least one of the first stirring member 421 and the second stirring member 422 described below, hereinafter referred to as a rotating shaft through stirring member 440. The protrusion shaft 450 is formed on the other side of the rotating shaft penetrating stirring member 440 in which the stirring blade 430 is not disposed, and is disposed on the rotating shaft 410 to penetrate the rotation of the rotating shaft 410. In the process, stirring and pulverization of the closed yarns according to the rotation of the stirring blades 430 may be simultaneously performed. The protrusion 450 prevents the protrusion 450 from interfering with the stirring and pulverization by the stirring blade 430.

The waste livestock processor described above utilizes a heating part 200 including a heat transfer medium accommodating part 210 to form a heat transfer medium accommodating space 110 between the body part 100. Through this, the livestock livestock processor disclosed herein takes a heating method through a hot water bath to prevent excessive heat from being applied to the livestock storage space 110 and at the same time the uniform livestock storage space 110 ) Can be delivered.

In addition, the waste livestock processor disclosed herein uses a circulation method as a method of providing a heat transfer medium to the heating unit 200 or the heat transfer medium accommodating part 210 to more efficiently and uniformly heat the waste livestock storage space 110. ) Can be provided.

In addition, the waste livestock processor disclosed herein heats the heat transfer medium after heating the heat transfer medium storage unit 311 that accommodates the heat transfer medium, rather than the heating element mounted directly on the heating unit 200, and is heated. By reducing the amount of heat transfer medium leaked to the outside when replacing the heating element by replacing the heating element directly mounted on the heating unit 200 by taking the circulation heating method to supply the heating unit 200 through the circulation supply unit 300. It can provide the effect that it can be minimized.

According to another embodiment of the present disclosure, the livestock livestock processor according to another embodiment may supply the livestock livestock to the livestock storage space 110 in such a way that the livestock feedstock receives the livestock livestock and raises and descends the livestock livestock. ) May be further included.

The supply unit 500 includes a container of a type capable of containing liquid such as blood of the livestock and the livestock of the livestock bucket in a conventional bucket elevator. Supply unit 500 is configured on one side of the body portion (100). Through the feeding part 500, the wastes are generated from our livestock in the process of transporting them or feeding them to the livestock storage space 110 by supplying them in such a way as to carry the livestock in a manner of carrying over and then descending along the pipe. Since the leaking liquid is supplied to the body part 100 and treated, the leaking liquid may provide an effect of preventing the leaking liquid from being discharged to the outside.

According to another embodiment of the present disclosure, the waste livestock processor according to the present disclosure may further include a general blower 600 for discharging dust generated in the livestock storage space 110 to the outside by using wind. The body portion 100 is formed with a first opening portion 120 and a second opening portion 130 for connecting the livestock storage space 110 to the outside, the blower 600 is the first opening portion 120 and Is connected to any one selected from the second opening 130, the dust is discharged to the outside through the first opening 120 or the second opening 130 through the operation of the blower 600.

Furthermore, according to the operation of the blower 600 may further include a dust collector 700 for receiving the dust discharged to the outside through the first opening 120 or the second opening 130 to remove the dust. have.

The waste livestock processor disclosed herein may include a blower 600 to discharge dust generated in the livestock storage space 110 to the outside. At this time, by using the dust collector 700 to remove the dust discharged to the outside can prevent the external environmental pollution that may occur during the operation of the livestock waste disposal processor disclosed herein.

In the drawing, the blower 600 is connected to the first opening 120 to provide wind to the dead house storage space 110 so that the dead hole in the livestock storage space 110 to the second opening 130 is formed. The case where dust is discharged to the outside is shown as an example. Alternatively, the blower 600 may be connected to the second opening 130 to suck air from the livestock storage space 110 to discharge the dust to the outside. As long as the dust can be discharged to the outside from the storage space 110, there is no limitation on the arrangement position or the blowing direction of the blower 600.

Meanwhile, the livestock livestock processor may further include a water tank (not shown). In this case, in addition to directly removing dust through the dust collector 700, the waste livestock processor 100 is provided with a water tank (not shown) in front of the dust collector 700 to discharge dust discharged to the outside through a water tank (not shown). After the first filtering, dust can be treated with the dust collector 700, which can provide the effect of increasing the efficiency of dust treatment and increasing the life of the dust collector.

From the above, various embodiments of the present disclosure have been described for purposes of illustration, and it will be understood that various modifications are possible without departing from the scope and spirit of the present disclosure. And the various embodiments disclosed are not intended to limit the present disclosure, the true spirit and scope will be presented from the following claims.

100: body
110: our livestock storage space
120: first opening
130: second opening
200: heating unit
210: heat transfer medium receiving portion
211: space for heat transfer medium
300: heat transfer medium circulation supply unit
310: heat transfer medium heating unit
311: heat transfer storage unit
311a: space for heat transfer medium
312: heating element
320: circulation supply
400: crushing unit
410: axis of rotation
420: stirring member
421: first stirring member
422: second stirring member
430: stirring blade
440: rotating shaft through stirring member
500: supply part
600: blower
700: Dust Collector

Claims (10)

A body part having a space for accommodating our house which can accommodate our house axis therein;
A heating unit which receives a heat transfer medium heated from the outside and provides heat to the waste house storage space;
A heat transfer medium circulation supply unit supplying the heat transfer medium heated in a circulation manner with the heating unit; And
The grinding yarn is disposed in the livestock storage space and includes a crushing unit for pulverizing the waste livestock is supplied to the livestock storage space,
The grinding unit
A rotating shaft rotatably installed in the stock receiving space; And
It includes a plurality of stirring members disposed to be spaced apart from each other on the rotating shaft,
At least one side of at least some of the plurality of stirring members is disposed with a stirring blade,
The stirring blade spirally forms one side of the first stirring member and one side of the second stirring member among the stirring members adjacent to each other among the plurality of stirring members, hereinafter referred to as a first stirring member and a second stirring member. Is disposed on the one side of the first stirring member and the one side of the second stirring member in a manner that connects to,
The stirring blade is formed in a spiral shape so as to rotate in close or close contact with the surface of the lower surface inside the body portion along the shape of the lower surface inside the body portion in the process of rotating by the rotation of the rotary shaft It is disposed on the one side of the first stirring member and the one side of the second stirring member,
The stirring blades are arranged in plural, these are not connected to each other,
Adjacent stirring blades are different from each other in the direction of rotation of the spiral,
The ends of the adjacent stirring blades overlap each other,
The dead yarns located between the stirring members are concentrated and moved to the stirring member by the stirring blade, and then crushed and stirred by the stirring member.
At least one of the first stirring member and the second stirring member, hereinafter referred to as a rotating shaft through stirring member, is disposed on the rotating shaft in a shape that penetrates the rotating shaft.
The other side of the rotating shaft penetrating stirring member that is not disposed of the stirring blade is formed at the same time the stirring and pulverization of the dead shaft is made at the same time, the rotation of the stirring blade in the rotation process of the rotating shaft,
And the protrusion is formed on the other side of the rotating shaft through stirring member where the stirring blade is not disposed, thereby preventing the stirring by the stirring blade. The method of claim 1,
And a supply unit for supplying the livestock livestock to the livestock storage space in such a way that the livestock feedstock receives the livestock feed and raises the livestock livestock and then descends the livestock feedstock. The method of claim 1,
Further comprising a blower for discharging dust generated in the livestock storage space to the outside using wind,
The body portion is formed with a first opening and a second opening for connecting the livestock storage space to the outside,
The blower is connected to any one selected from the first opening and the second opening,
And said dust is discharged to the outside through said first opening or said second opening through the operation of said blower. The method of claim 3,
And a dust collector for receiving the dust discharged to the outside through the first opening or the second opening according to the operation of the blower to remove the dust. The method according to any one of claims 1 to 4,
The heating unit may include a heat transfer medium accommodation unit disposed to surround at least a portion of an outer surface of the body unit to form a heat transfer medium accommodation space between the at least a portion of the outer surface of the body unit and the space for accommodating the heat transfer medium.
And the heat transfer medium receiving unit provides heat generated from the heated heat transfer medium supplied from the heat transfer medium circulation supply unit to the waste house storage space. The method according to any one of claims 1 to 4,
The heat transfer medium circulation supply unit
A heat transfer medium heating unit for heating the heat transfer medium; And
And a circulation supply unit configured to supply the heat transfer medium heated by the heat transfer medium heater to the heating unit in a circulating manner through a circulation tube. The method of claim 6,
The heat transfer medium heating unit
A heat transfer medium storage unit including a heat transfer medium accommodation space accommodating the heat transfer medium; And
And a heating element inserted into the heat transfer medium receiving space from the outside to heat the heat transfer medium. delete delete delete

Images