KR102405271B1 - Animal carcass handler - Google Patents

Abstract

The present invention relates to an animal carcass processor.
An animal carcass processor according to an embodiment of the present invention includes a lower chamber having a lower space in which a carcass is accommodated, and an upper space disposed above the lower chamber and communicating with the lower space and having a horizontal cross section of a circle or oval shape. a housing comprising an upper chamber in which the upper chamber is formed, and a cover for opening and closing an upper end of the upper chamber; an agitator for grinding and stirring the animal carcass accommodated in the lower chamber of the housing; a heating unit for heating the lower chamber of the housing; and a circulation unit connected to the upper chamber of the housing and circulating air in the upper space and separating water contained in the air, wherein the circulation unit is located at the upper side of the upper chamber so that the air in the upper space is rotated. Air circulated to the edge of the upper space may be introduced, and the air including water and foreign substances in the upper space may be discharged to the circulation unit through an outlet formed in the center of the cover.

Description

Animal carcass handler

The present invention relates to an animal carcass processor.

In general, the grinding, heating, and drying method, which is one of the methods of processing animal carcasses, is generally equipped with a heating means in a U-shaped housing, and a rotary shaft with grinding blades radially attached to the inside of the housing is mounted, crushing animal carcasses Stir, heat and dry.

Because the carcass contains about 75% of moisture before grinding, the carcass is put into the carcass treatment machine and after about 30 minutes of operation, the carcass is physically changed to a sludge of 75% moisture.

And, if the sludge is heated and stirred until the moisture becomes 30-40% in this state of sludge, it is dried in the form of sawdust.

The sludge of 75% moisture is a very fluid porridge, and in the prior art, sawdust or rice husks were added to shorten the drying time and dried.

This animal carcass treatment method has a problem in that the amount of electricity consumed is excessive and the operator feels fatigue because the processing time is about 12 to 14 hours in the conventional animal carcass processing machine of about 1000 liters or less.

In addition, as heating is performed to evaporate moisture in the sludge, evaporation of moisture and a bad odor occur at the same time, thereby causing air pollution and civil complaints.

As a conventional animal carcass processor for solving such a problem, there is a Republic of Korea Patent Registration No. 10-1250766 'Animal carcass processor having a deodorizing function'.

In the case of the prior art, in order to solve the odor problem, air circulation pipes were laid on the left and right sides of the U-shaped chamber, and dehumidification was performed while passing the air in the chamber through a low-temperature condenser of the evaporation chamber.

수증기를 포함한 공기가 증발실의 콘덴서를 통과하면서 제습이 되는 원리이기는 하나, 콘덴셔의 저온을 유지 하기 위해서는 히터용량에 비례하는 압축기와 응축기가 요구되는 문제점이 있었다. 이에 따라, 제습을 위해서 과도한 설비와 전기가 사용되는 문제점이 있었다. However, this dehumidification method

Although the principle is that air containing water vapor is dehumidified while passing through the condenser of the evaporation chamber, there is a problem that a compressor and a condenser proportional to the heater capacity are required to maintain the low temperature of the condenser. Accordingly, there is a problem in that excessive facilities and electricity are used for dehumidification.

In addition, in the case of the prior art, the pipe inlet and outlet in the U-shaped chamber were installed inside the square of the upper U-shaped chamber. Accordingly, there was a problem in that the air in the square did not flow smoothly as turbulence occurred at the four corners, so that the discharge efficiency of water vapor decreased.

It was devised based on the above technical background, and an embodiment of the present invention can prevent air pollution, reduce the cost of dehumidification, and smoothly change the flow of air inside the housing. An object of the present invention is to provide an animal carcass processor capable of reducing the time required for animal carcass treatment by improving water vapor emission efficiency.

In order to achieve the above object, the animal carcass processor according to an embodiment of the present invention includes a lower chamber having a lower space for accommodating an animal carcass, disposed above the lower chamber, communicating with the lower space, and having a horizontal cross section a housing comprising an upper chamber having an upper space formed in the circular or elliptical shape, and a cover for opening and closing an upper end of the upper chamber; an agitator for pulverizing and agitating the animal carcass accommodated in the lower chamber of the housing to generate sludge; a heating unit for heating the lower chamber of the housing; and a circulation part connected to the upper chamber of the housing and circulating the air in the upper space and separating foreign substances and water vapor contained in the air, wherein the circulation part is located above the side of the upper chamber so that the air in the upper space is rotated. , the circulated air may be introduced to the edge of the upper space, and the air including foreign substances and water vapor in the upper space may be discharged to the circulation unit through an outlet formed in the center of the cover.

In addition, the housing may include a discharge unit installed on any one of the lower side of the lower chamber and discharging the sludge of the lower chamber.

In addition, the circulation unit, the cover side pipe having one end connected to the outlet at the upper side of the cover and through which air including the foreign matter and water vapor is introduced from the upper space; a first connecting member installed at the other end of the cover side pipe; a second connection member connected to the first connection member and from which the first connection member is detachable; a connecting pipe having one end connected to the second connecting member and through which air including the foreign matter and water vapor is introduced from the cover side pipe; a foreign material removal filter having one end connected to the other end of the connecting pipe and receiving air containing the foreign material and water vapor from the connecting tube to filter foreign matter from the air including the foreign material and water vapor; a dehumidifier connected to the other end of the foreign material removal filter and receiving the air containing the water vapor to separate the air containing the water vapor into condensed water and air; a dividing unit connected to a lower portion of the dehumidifier, receiving the condensed water and air from the dehumidifier, and discharging the condensed water to a lower portion; a storage container connected to the lower part of the classifying unit and storing condensed water discharged to the lower part of the classifying unit; a suction pipe having one end connected to the dividing unit and through which air is introduced from the dividing unit; a ring blower connected to the other end of the suction pipe and accelerating by receiving air from the suction pipe; an exhaust pipe having one end connected to the ring blower and through which air accelerated from the ring blower is discharged; and an inlet pipe having one end connected to the other end of the discharge pipe, the other end penetrating through the upper side of the side of the upper chamber and inserted into the upper space, receiving the accelerated air from the discharge pipe and introducing it to the edge of the upper space. may include

In addition, the dehumidifier may include an outer housing having upper and lower sides open; an inner housing disposed inside the outer housing; a house cover that closes the upper side of the outer housing and has a ventilation hole formed on one side thereof; a first condensing pipe arranged in a spiral shape in the space between the outer housing and the inner housing, one end connected to the other end of the foreign material removal filter, and the other end connected to the dividing unit; and a cooling fan disposed under the outer housing and cooling the first condensing tube by blowing air into the outer housing.

In addition, the dehumidifier may include: a second condensing pipe disposed inside the first condensing pipe, a heat transfer medium flowing therein, and cooling the inside of the first condensing pipe; a radiator connected to one end of the second condensing tube and cooling the heat transfer medium by receiving the heat transfer medium from the second condensing tube; and a circulation pump having one end connected to the radiator and the other end connected to the other end of the second condensing tube, receiving the cooled heat transfer medium from the radiator and transferring the cooled heat transfer medium to the second condensing tube can do.

In addition, it may include a control unit for controlling the stirring unit, the heating unit and the circulation unit.

The housing, the stirring unit, the heating unit, and the circulation unit may include a case in which a first hole through which the cover of the housing protrudes and a second hole through which the second connection member is installed are formed.

In the animal carcass processor according to an embodiment of the present invention, the upper space of the upper chamber has a horizontal cross section formed in a circle or oval shape, and the circulation unit introduces circulated air from the upper side of the upper chamber to the edge of the upper space to the upper space. Let the air in the space rotate. Accordingly, the air inside the upper chamber rotates inside the upper chamber in a spiral direction along the inner wall of the upper chamber, and the water vapor generated from the sludge in the lower chamber gathers at the center where the pressure is low and closes the outlet formed in the center of the cover. It can be discharged to the circulation section through As described above, the animal carcass processor according to an embodiment of the present invention can use the cyclone principle to facilitate the flow of air inside the housing and improve water vapor discharge efficiency, thereby reducing the time required for animal carcass processing. It has the effect of shortening it.

1 is a perspective view showing an animal carcass processor according to an embodiment of the present invention.
2 is a perspective view showing an animal carcass processor according to an embodiment of the present invention.
3 is a perspective view showing an animal carcass processor according to an embodiment of the present invention.
4 is a view showing the inside of the housing of the animal carcass processor according to an embodiment of the present invention.
5 is a view showing the air flow in the circulation unit and the housing of the animal carcass processor according to an embodiment of the present invention.
6 is a perspective view showing the dehumidifier of the circulation part of the animal carcass processor according to an embodiment of the present invention;
7 is a cross-sectional view showing the dehumidifier of the circulation unit of the animal carcass processor according to an embodiment of the present invention.
8 is a cross-sectional view of the condensing tube of the circulation unit of the animal carcass processor according to an embodiment of the present invention;
9 is a view showing the flow of air, water vapor, and foreign substances in the animal carcass processor according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are given to the same or similar components throughout the specification.

In the present specification, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

An animal carcass processor according to an embodiment of the present invention may be used for an animal carcass processing operation, an animal carcass may be input to the animal carcass processor, and sludge may be generated by grinding and stirring the inputted animal carcass. And, by heating the sludge to discharge the water contained in the sludge as steam to lower the content of water (moisture) contained in the sludge, the animal carcass treatment operation can be completed.

1 to 8, the animal carcass processor 10 according to an embodiment of the present invention includes a pedestal BT, a housing 100, a stirring unit 200, a heating unit 300, and a circulation unit. (400).

The pedestal BT is seated on the ground and may support the housing 100 , the stirring unit 200 , the heating unit 300 , and the circulation unit 400 .

In addition, the pedestal BT may be provided in a plate shape or may be provided in a form such as a frame in which a plurality of bars are connected.

The housing 100 may include a lower chamber 110 , an upper chamber 120 , a cover 130 , and a discharge unit 140 .

The lower chamber 110 may be formed with a lower space 110s in which a carcass of an animal is accommodated. In addition, the lower chamber 110 may be formed in a shape in which a vertical cross section is convex downward. In other words, the lower chamber 110 may be provided as a U-shaped chamber.

The upper chamber 120 may be disposed on the upper side of the lower chamber 110 and communicate with the lower space 110s, and an upper space 120s having a horizontal cross section of a circle or an ellipse may be formed. Preferably, the upper space 120s may be formed in an elliptical shape. In addition, the upper space 120s is formed in a circular or elliptical shape so that air AI rotates along the inside of the upper chamber 120 , so that air resistance is low and turbulence is not generated. Additionally, a guide vane in a spiral direction may be installed inside the upper chamber 120 . And, the guide vane may induce the flow of the air AI so that the air AI introduced into the upper space 120s is rotated in a spiral direction.

In addition, the air (AI) rotated inside the upper chamber 120 comes in contact with the sludge in the lower space 110s to promote separation of moisture in the sludge, thereby improving the drying speed.

The cover 130 may open and close the upper end of the upper chamber 120 . In addition, an outlet 130h through which air AI including foreign substances GA and water vapor WA inside the upper chamber 120 is discharged may be formed in the center of the cover 130 .

The discharge unit 140 is installed in any one of the lower side of the lower chamber 110 and may discharge the sludge of the lower chamber 110 . In more detail, a discharge hole may be formed on the lower side of the lower chamber 110 , and the discharge unit 140 may be installed on the side of the discharge hole. And, it is possible to discharge the sludge of 40-50% moisture after the animal carcass treatment operation is finished.

In addition, the discharge unit 140 may include a discharge lid 141 and an operating cylinder (142).

The discharge lid 141 may close the discharge hole of the lower chamber 110 .

The operation cylinder 142 may open or close the discharge hole by moving the discharge lid 141 . In addition, the operation cylinder 142 may be provided as an air cylinder or a hydraulic cylinder.

The agitator 200 may generate sludge by pulverizing and stirring the animal carcass accommodated in the lower chamber 110 of the housing 100 .

In addition, the stirring unit 200 may include a rotating motor 210 , a rotating shaft 220 , a timing belt 230 , and a grinding blade 240 .

The rotation motor 210 may be disposed outside the lower chamber 110 . And, the rotary motor 210 may be operated by receiving power from the outside.

The rotation shaft 220 is disposed in the lower space 110s of the lower chamber 110 , both ends are rotatably connected to the lower chamber 110 , and one end may protrude to the outside of the lower chamber 110 . In more detail, a bearing BR may be installed in the lower chamber 110 , and the rotation shaft 220 may be connected to the bearing BR to be rotatably connected to the lower chamber 110 .

The timing belt 230 may have one side connected to the rotating motor 210 and the other side connected to one end of the rotating shaft 220 . In addition, the timing belt 230 may connect the rotation motor 210 and the rotation shaft 220 to rotate the rotation shaft 220 through the rotation motor 210 . At this time, one end of the rotation shaft 220 and the rotation motor 210 may be equipped with a gear to which the timing belt 230 is connected, respectively.

The grinding blades 240 are radially attached to the outer circumferential surface of the rotation shaft 220 and may be provided in plurality. And, the grinding blade 240 may be rotated together with the rotation shaft 220 to crush and stir the animal carcass accommodated in the lower chamber 110 of the housing 100 to generate sludge.

The heating unit 300 may heat the lower chamber 110 of the housing 100 .

In addition, the heating unit 300 may include a frame 310 , a heating medium (not shown), and a heater 330 .

The frame 310 may surround the lower chamber 110 and an internal space 310h may be formed. In other words, the frame 310 may be provided in a U shape similar to the shape of the lower chamber 110 .

A heating medium (not shown) may be filled in the inner space 310h. In addition, the heating medium (not shown) may be provided with water, oil, mercury, or the like.

The heater 330 may heat a heating medium (not shown) to heat the lower chamber 110 of the housing 100 through the frame 310 . In addition, the heater 330 may be provided in a state in which the heater 330 rod is inserted into the inner space 310h of the frame 310 to heat a heating medium (not shown).

The circulation unit 400 is connected to the upper chamber 120 of the housing 100, circulates air AI in the upper space 120s, and separates foreign substances GA and water vapor WA contained in the air AI. can do it

In addition, the circulation unit 400 includes a cover side pipe 410 , a first connection member JS1 , a second connection member JS2 , a connection pipe 420 , a foreign material removal filter 430 , a dehumidifier 440 , and a classification unit. 450 , a reservoir 460 , a suction pipe 470 , a ring blower RB, a discharge pipe 480 , and an inlet pipe 490 .

The cover side tube 410 may have one end connected to the outlet 130h from the upper side of the cover 130 . In addition, the cover side tube 410 may introduce air AI including foreign substances GA and water vapor WA from the upper space 120s to the inside.

The first connection member JS1 may be installed at the other end of the cover side pipe 410 .

The second connection member JS2 may be connected to the first connection member JS1 . In addition, the first connection member JS1 may be detachably attached to the second connection member JS2 .

In more detail, since the cover side tube 410 and the first connection member JS1 are connected to the cover 130 , as the cover 130 is opened and closed, it is rotated around the hinge of the cover 130 . Accordingly, when the cover 130 is opened, the first connection member JS1 may be detached from the second connection member JS2 , and when the cover 130 is closed, the first connection member JS1 is It may be mounted on the second connection member JS2. In addition, the first connecting member JS1 and the second connecting member JS2 may be provided with a silicone packing to prevent air AI from leaking.

The connection pipe 420 has one end connected to the second connection member JS2 , and air AI including foreign substances GA and water vapor WA may be introduced from the cover side pipe 410 .

The foreign material removal filter 430 has one end connected to the other end of the connection pipe 420 and receives air (AI) including foreign substances (GA) and water vapor (WA) from the connection pipe 420 to receive foreign substances (GA) and water vapor. It can filter out foreign substances (GA) in air (AI) including (WA).

The dehumidifier 440 is connected to the other end of the foreign matter removal filter 430 and receives air containing water vapor (WA) and air (AI) including water vapor (WA) into condensate water (WB) and air (AI). can be separated into

The dehumidifier 440 includes an outer housing 441, an inner housing 442, a housing cover 443, a first condensing pipe 444, a second condensing pipe 445, a cooling fan 446, a radiator 447, It may include a circulation pump (448).

The outer housing 441 may be provided in a cylindrical shape with upper and lower sides open.

The inner housing 442 may be disposed in the center of the inside of the outer housing 441 and may be provided in a cylindrical shape. Additionally, a helical air induction path may be formed inside the outer housing 441 . Here, the blowing guide path may be formed by the first condensing pipe 444 or by a helical protrusion (not shown) formed inside the outer housing 441 .

The house cover 443 may close the upper side of the outer housing 441 . In addition, a ventilation hole 443H may be formed at one side of the house cover 443 .

The first condensing pipe 444 may be disposed in a spiral shape in the space between the outer housing 441 and the inner housing 442 . In addition, the first condensing pipe 444 may have one end connected to the foreign material removal filter 430 , and may receive air AI including water vapor WA from the foreign material removal filter 430 . In addition, the water vapor WA introduced into the first condensing pipe 444 may be cooled to become condensed water WB. In addition, the other end of the first condensing pipe 444 may be connected to the dividing unit 450 , and the condensed water WB and air AI may be transferred to the dividing unit 450 .

The second condensation pipe 445 may be disposed inside the first condensation pipe 444 . In addition, a heat transfer medium (not shown) may flow inside the second condensing tube 445 . In addition, a heat transfer medium (not shown) may cool the inside of the first condensing pipe 444 . In addition, the heat transfer medium (not shown) may be provided with water, oil, mercury, or the like.

In addition, the first condensing pipe 444 and the second condensing pipe 445 may be provided as stainless corrugated pipes. Here, the stainless steel corrugated pipe has a large specific surface area, so the cooling efficiency is high, and thus the condensation efficiency is also high.

The cooling fan 446 may be disposed below the outer housing 441 , and blow air into the outer housing 441 to cool the first condensing tube 444 . Also, the air blown into the outer housing 441 may be discharged to the outside through the ventilation hole 443h of the house cover 443 . In other words, the air blown into the outer housing 441 may be raised along the air induction path formed inside the outer housing 441 and discharged to the outside through the ventilation hole 443h of the house cover 443 . Additionally, the cooling fan 446 may be installed at the lower end of the inner housing 442 .

The radiator 447 may be connected to one end of the second condensation pipe 445 , and may receive a heat transfer medium (not shown) from the second condensation pipe 445 to cool the heat transfer medium (not shown).

The circulation pump 448 has one end connected to the radiator 447, the other end connected to the other end of the second condensing tube 445, and receives the cooled heat transfer medium (not shown) from the radiator 447 2 The cooled heat transfer medium (not shown) may be transferred to the condensing tube 445 . Accordingly, the heat transfer medium (not shown) may be circulated in the order of the circulation pump 448 , the second condensing pipe 445 , and the radiator 447 to cool the inside of the first condensing pipe 444 .

In summary, the air AI including the water vapor WA introduced into the first condensing tube 444 is cooled through the second condensing tube 445 and the cooling fan 446, so that the water vapor WA is condensed water. (WB) can be Since the temperature of the water vapor WA flowing into the first condensing pipe 444 is about 100 degrees, the surface temperature of the first condensing pipe 444 and/or the surface temperature of the second condensing pipe 445 is set to 90 degrees. By dropping in and out of the figure, the water vapor inside the first condensing tube 444 may be condensed.

Therefore, since the air-cooled condensation through the cooling fan 446 and the water-cooled condensation can be simultaneously performed through the second condensing tube 445, the water vapor WA can be smoothly liquefied into the condensed water WB. , the dehumidification efficiency can be improved.

Additionally, a plurality of dehumidifiers 440 may be provided, and the dehumidifiers 440 may be connected in parallel to the foreign material removal filter 430 and the classification unit 450 to be used.

The classification unit 450 may be connected to the lower portion of the dehumidifier 440 , receive the condensed water WB and the air AI from the dehumidifier 440 , and discharge the condensed water WB to the lower portion. In more detail, the classification unit 450 may be connected to the discharge bracket 448 .

The storage container 460 is connected to the lower portion of the classification unit 450 and may store the condensed water WB discharged to the lower portion of the classification unit 450 .

Additionally, the circulation unit 400 may include a discharge pump connected to the reservoir 460 .

The discharge pump may discharge the condensed water WB stored in the reservoir 460 to the outside of the animal carcass processor 10 .

One end of the suction pipe 470 may be connected to the dividing unit 450 . In addition, air AI may be introduced from the classification unit 450 into the suction pipe 470 .

The ring blower RB may be connected to the other end of the suction pipe 470 and may be accelerated by receiving air AI from the suction pipe 470 . Here, the ring blower (RB) may be provided as a blower that can selectively use a strong suction pressure and a discharge pressure, such as those distributed in the market.

The discharge pipe 480 may have one end connected to the ring blower RB. Then, the accelerated air AI may be discharged from the ring blower RB to the discharge pipe 480 .

One end of the inlet pipe 490 may be connected to the other end of the discharge pipe 480 , and the other end may pass through the upper side of the upper chamber 120 to be inserted into the upper space 120s. In addition, the inlet pipe 490 may receive the accelerated air AI from the discharge pipe 480 and introduce it to the edge of the upper space 120s.

In summary, the circulation unit 400 may introduce the circulated air AI from the upper side of the upper chamber 120 to the edge side of the upper space 120s so that the air AI of the upper space 120s is rotated. . And, as the air AI inside the upper chamber 120 rotates inside the chamber in a spiral direction along the inner wall of the upper chamber 120, the pressure in the center is lowered, so the foreign material GA in the upper space 120s ) and air AI including water vapor WA may be discharged to the circulation unit 400 through the outlet 130h formed in the center of the cover 130 .

The animal carcass processor 10 according to an embodiment of the present invention may include a case 500 and a control unit 600 .

The case 500 is installed on the upper portion of the pedestal BT, and surrounds the housing 100, the stirring unit 200, the heating unit 300, the circulation unit 400, and the cover 130 of the housing 100 on the upper portion. A first hole 500p protruding from and a second hole 500q in which the second connection member JS2 is installed may be formed.

The control unit 600 may control the stirring unit 200 , the heating unit 300 , and the circulation unit 400 . In addition, the control unit 600 may be installed in the case 500 . For example, the control unit 600 may operate the rotary motor 210 to crush and stir the animal carcass accommodated in the lower chamber 110 through the crushing blades 240 to generate sludge. In addition, the controller 600 may operate the heater 330 to heat the lower chamber 110 . Also, the controller 600 may operate the dehumidifier 440 and the ring blower RB to circulate the air AI.

And, the control unit 600 may control the discharge unit 140 . For example, the control unit 600 may operate the operation cylinder 142 to open and close the discharge hole of the lower chamber 110 .

Additionally, the animal carcass processor 10 according to an embodiment of the present invention can be divided into two parts into the housing 100 and the rest of the components so that transport can be made easily, and after being transported to the installation site, the housing 100 ) can be connected to the remaining components.

As a result, in the animal carcass processor 10 according to an embodiment of the present invention, the upper space 120s of the upper chamber 120 is formed in a horizontal cross-section in a circle or oval shape, and the circulation unit 400 is formed in the upper chamber The circulated air AI is introduced from the upper side of the side of the upper space 120s to the edge side of the upper space 120s so that the air AI of the upper space 120s is rotated. Accordingly, the air AI inside the upper chamber 120 rotates inside the upper chamber 120 in a spiral direction along the inner wall of the upper chamber 120, and the sludge in the lower chamber 110 is generated. The water vapor WA may be collected in the center of low pressure and discharged to the circulation unit 400 through the outlet 130h formed in the center of the cover 130 . As described above, the animal carcass processor 10 according to an embodiment of the present invention can smoothly flow the air (AI) inside the housing 100 using the cyclone principle, and improve the water vapor (WA) discharge efficiency. This can reduce the time required for animal carcass processing.

In more detail, the animal carcass processor 10 according to an embodiment of the present invention is an animal carcass processing operation in comparison to the animal carcass processor 10 that is not equipped with a conventional dehumidifier 440 and dehumidifies by inputting sawdust. The time required for this can be reduced by about 50%.

In addition, since the animal carcass processor 10 according to an embodiment of the present invention is provided in a closed circulation cycle of air AI, it is possible to prevent contamination of the air environment.

Although the present invention has been described through preferred embodiments as described above, the present invention is not limited thereto, and various modifications and variations are possible without departing from the concept and scope of the following claims. Those in the technical field to which it belongs will readily understand.

10 : animal carcass handler
100: housing 110: lower chamber
110s: lower space 120: upper chamber
120s: upper space 130: cover
130h: outlet 140: outlet
141: discharge lid 142: operating cylinder
200: stirring unit 210: rotating motor
220: rotation shaft 230: timing belt
240: crushing blade 300: heating unit
310: frame 310h: interior space
330: heater 400: circulation unit
410: cover side pipe JS1: first connection member
JS2: second connecting member 420: connecting pipe
430: foreign matter removal filter 440: dehumidifier
441: outer housing 442: inner housing
443: housing cover 444: first condensing pipe
445: second condensing tube 446: cooling fan
447: radiator 448: circulation pump
450: classification unit 460: storage bin
470: suction pipe RB: ring blower
480: discharge pipe 490: inlet pipe
500: case 500p: first hole
500q: second hole 600: control unit
BT: Pedestal AI: Air
WA : Water vapor WB : Condensate GA : Foreign matter

Claims (7)

A lower chamber having a lower space in which an animal carcass is accommodated; A housing comprising a cover for opening and closing the;
an agitator for pulverizing and agitating the animal carcass accommodated in the lower chamber of the housing to generate sludge;
a heating unit for heating the lower chamber of the housing; and
and a circulation part connected to the upper chamber of the housing, circulating air in the upper space, and separating foreign substances and water vapor contained in the air,
The circulation unit introduces circulated air from the upper side of the upper chamber side to the edge side of the upper space so that the air of the upper space is rotated, and the air including foreign substances and water vapor in the upper space is discharged through an outlet formed in the center of the cover. discharged to the circulation unit through
The circulation unit,
a cover side tube having one end connected to the outlet at the upper side of the cover and through which air including the foreign matter and water vapor is introduced from the upper space;
a first connecting member installed at the other end of the cover side pipe;
a second connection member connected to the first connection member and from which the first connection member is detachable;
a connecting pipe having one end connected to the second connecting member and through which air including the foreign matter and water vapor is introduced from the cover side pipe;
a foreign material removal filter having one end connected to the other end of the connecting tube and receiving air containing the foreign matter and water vapor from the connecting tube to filter foreign matter from the air including the foreign material and water vapor;
a dehumidifier connected to the other end of the foreign material removal filter and receiving the air containing the water vapor to separate the air containing the water vapor into condensed water and air;
a dividing unit connected to a lower portion of the dehumidifier and receiving the condensed water and air from the dehumidifier and discharging the condensed water to a lower portion;
a suction pipe having one end connected to the dividing unit and through which air is introduced from the dividing unit;
a ring blower connected to the other end of the suction pipe and accelerating by receiving air from the suction pipe;
an exhaust pipe having one end connected to the ring blower and through which air accelerated from the ring blower is discharged; and
An inlet pipe having one end connected to the other end of the discharge pipe, the other end passing through the upper side of the side of the upper chamber and inserted into the upper space, receiving the accelerated air from the discharge pipe, and introducing it to the edge of the upper space do,
The dehumidifier is
an outer housing with open upper and lower sides;
an inner housing disposed inside the outer housing; and
A first condensing pipe disposed in a spiral shape in the space between the outer housing and the inner housing, one end connected to the other end of the foreign material removal filter, and the other end connected to the dividing unit,
The dehumidifier is
a second condensing pipe disposed inside the first condensing pipe, a heat transfer medium flowing therein, and cooling the inside of the first condensing pipe;
a radiator connected to one end of the second condensing tube and cooling the heat transfer medium by receiving the heat transfer medium from the second condensing tube; and
A circulation pump having one end connected to the radiator and the other end connected to the other end of the second condensing tube, receiving the cooled heat transfer medium from the radiator and transferring the cooled heat transfer medium to the second condensing tube animal carcass handlers. According to claim 1,
The housing is installed on any one part of the lower side of the lower chamber and includes a discharge unit for discharging the sludge of the lower chamber. According to claim 1,
The circulation unit is connected to the lower part of the classification unit and includes a storage bin for storing the condensed water discharged to the lower part of the classification unit. 4. The method of claim 3,
The dehumidifier is
a house cover that closes the upper side of the outer housing and has a ventilation hole formed on one side thereof; and
and a cooling fan disposed under the outer housing and blowing air into the outer housing to cool the first condensing tube. delete According to claim 1,
Animal carcass processor including a control unit for controlling the stirring unit, the heating unit and the circulation unit. 4. The method of claim 3,
and a case in which the housing, the stirring unit, the heating unit, and the circulation unit are formed and the first hole through which the cover of the housing protrudes, and the second hole through which the second connection member is installed.

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