KR102115495B1 - Method of Using Automatic Manufacturing Equipment for Organic and Inorganic Compound Fertilizers - Google Patents

Abstract

The present invention provides a method of using automatic manufacturing equipment of an organic-inorganic composite fertilizer, capable of safely performing operations without being affected by high-temperature heat. The present invention comprises: a step of weighing an animal carcass and quicklime, putting them into a first rotary stirring container (110), and mixing and moving them (S210); a first reaction step of, inside a second rotary stirring container (120), inducing the reaction of water of the animal carcass and the quicklime by high-temperature heat in the animal carcass / quicklime mixture (S220); a second reaction step of, inside a third rotary stirring container (130), continuously inducing the reaction by high temperature heat in the animal carcass / quicklime mixture, discharging extra moisture, and transferring the animal carcass / quicklime reactant (S230); a reaction selection step of a control unit for determining the previous step or the next step depending on whether the animal carcass / quicklime reactant belongs to a first animal group or a second animal group according to the command of the control unit (C) (S240); a third reaction step of, in the case of the first animal group, repeatedly transferring the animal carcass / quicklime mixture to the previous second rotary stirring container (120) and third rotary stirring container (130) to perform the same process repeatedly (S250); and a finishing reaction step of, inside of a fourth rotary stirring container (140), inputting a nutrient fertilizer component for the animal carcass / quicklime reactant, mixing them, and discharging them to the outside (S260).

Description

{Method of Using Automatic Manufacturing Equipment for Organic and Inorganic Compound Fertilizers}

The present invention relates to an automatic manufacturing apparatus for organic and inorganic composite fertilizers and a method of using the same, and more specifically, to treat an animal carcass having a relatively small body and an animal carcass having a relatively large body using one and the same rotating stirring tube. The present invention relates to an automatic manufacturing apparatus for an organic-inorganic composite fertilizer and a method of using the same, which is capable of safely performing operations without being affected by high temperature heat.

Today, livestock breeding as a protein source for human society is becoming an inevitable social phenomenon. Breeding of livestock may also involve group deaths due to natural disasters or diseases or epidemics.

Collective landfill was mainly used for the disposal of dead animals. However, while the group reclamation method has the advantage of rapid treatment, there are concerns about the recurrence of infectious diseases after landfill, the possibility of groundwater contamination due to leachate, the occurrence of odors, and the possibility of human infection due to the mutation of pathogens present in animal carcasses. It is pointed out as a disadvantage. Due to these shortcomings, the collective landfilling method could no longer be continued, and the necessity to find new alternatives out of the collective landfilling method emerged.

Several technologies have emerged in recent years as a way to treat dead animals. As such an optimal technique, Patent No. 10-1,808,007 and Patent No. 10-1,907,591 and Patent No. 10-1,955,485 can be exemplified.

All of these prior arts are mainly intended to react with animal carcasses and quicklime, obtain a high concentration of calcium carbonate, and use it as an organic fertilizer while maintaining the inside of the rotary stirring cylinder at a high temperature.

However, in the prior arts, the temperature inside the rotary stirring cylinder rises to a high temperature, and the internal rotational axis is extended to cause trouble in smooth stirring, and the animal carcass to be treated by using a single constant length rotational axis. Depending on the size, there was a drawback that could not be flexibly responded. For example, in the case of processing a small body animal such as a chicken or a duck, and when processing a relatively large body animal such as a bull or a pig, both of the rotational stirring cylinders having the same length of rotation axis are used, and thus must be treated. There was a drawback that it was difficult to properly respond to the size of the animal's body.

As described above, although it is considered that a method of making organic fertilizer using the dead body of the dead livestock has been developed, it seems that a manufacturing apparatus and a manufacturing method capable of solving various animal carcasses with one apparatus have not yet appeared.

Republic of Korea Patent Registration No. 10-1,688,855 (Registration Date: 2016. 12. 16.); Republic of Korea Patent Registration No. 10-1,808,007 (Registration Date: 2017. 12. 5.); Republic of Korea Patent Registration No. 10-1,179,825 (Registration Date: August 29, 2012); Republic of Korea Patent Registration No. 10-1,907,591 (Registration Date: Oct. 5, 2018) Republic of Korea Patent Registration No. 10-1,955,485 (Registration Date: May 30, 2019)

The present invention is to solve the problems of the prior art, it is possible to treat the animal carcasses of relatively small body and animal carcasses of relatively large body using one and the same rotating stirring tube, and its effect is also affected by high temperature heat. An object of the present invention is to provide an automatic manufacturing apparatus for organic-inorganic composite fertilizers and a method of using the same, which can safely perform work without receiving the product.

The present invention is an improved invention of Korean Patent Registration No. 10-1955485.

According to the present invention, the first rotating stir tube 110 for transferring the shredded animal carcasses and quicklime after mixing and transporting it is reacted at a high temperature with the moisture of the carcass and the quicklime to produce a calcium carbonate component to produce animal carcasses / quicklime reactants. A second rotary stirring tube 120 for making and transporting the animal carcass / quicklime reactant, and continuously reacting the animal carcass / quicklime reactant at a high temperature and transferring the animal carcass / quicklime reactant while discharging excess moisture to the outside A third rotating stir shaker 130, and the nutrient fertilizer component is added to the animal carcass / quicklime reactant and kneaded to make an organic-inorganic complex fertilizer consisting of animal carcass / quicklime / nutrient fertilizer, and the organic-inorganic complex fertilizer A fourth rotating stirring tube 140 for discharging the outside, the first rotating stirring tube 110, the second rotating stirring tube 120, the third rotating stirring tube 130 and the fourth rotating stirring tube 140 ) Is a further improvement of the automatic manufacturing apparatus 100 of an organic-inorganic composite fertilizer including a control unit (C) for controlling and controlling.

In the present invention, the second rotary stirring tube 120 is rotated 121, the rotating blades coupled while being rotated as if being wound around the rotating shaft 122, and coupled while being rotated as if being wound in the reverse direction to the rotating shaft Reversing blade (22a), between the rotating blade and the reversing blade and coupled to the rotating shaft, the animal carcass / quicklime wing to pass the reaction material in the direction of the rotating shaft at a right angle, and It includes a safe rotating shaft portion 124 that allows the rotating shaft to rotate safely and unchanged even when the rotating shaft is stretched by high temperature heat.

The second rotary stirring tube 120 sends a second inlet 127 to receive the animal carcass / quicklime mixture from the first rotary stirring tube, and sends the animal carcass / quicklime reactant to the third rotary stirring tube 130. It is preferred that the main further includes a second outlet 129 and a second inlet 128 through which the animal carcass / quicklime reactant is returned back from the third rotary stirring tube.

In the present invention, the third rotational stirring barrel 130 is coupled while rotating around the rotating shaft 131, the rotating blade 122 coupled to the rotating shaft as if revolving, and rotating around the rotating shaft as if revolving. Reversing blade (22a), between the rotating blade and the reversing blade and coupled to the rotating shaft, the animal carcass / quicklime wing to pass the reaction material in the direction of the rotating shaft at a right angle, and It includes a safe rotating shaft portion 124 that allows the rotating shaft to rotate safely and unchanged even when the rotating shaft is stretched by high temperature heat.

The third rotary stirring barrel 130 includes a third inlet 137 for receiving the animal carcass / quicklime mixture from the second rotary stirring tube 120, and a fourth rotary agitator 140 for reacting the animal carcass / quicklime reactant. It is preferred to include a third outlet 138 for sending to the third exit 139 and a third return port 138 for returning the animal carcasses / quicklime reactants back to the second rotary stirring tube 120.

In the present invention, the fourth rotational stirring cylinder 140 is coupled while rotating while rotating like a winding around the rotating shaft 141, the rotating blade 122 and the rotating shaft 122, the rotating shaft in the reverse direction Reversing blade (22a), between the rotating blade and the reversing blade and coupled to the rotating shaft, the animal carcass / quicklime wing to pass the reaction material in the direction of the rotating shaft at a right angle, and It includes a safe rotating shaft portion 124 that allows the rotating shaft to rotate safely and unchanged even when the rotating shaft is stretched by high temperature heat.

The fourth rotary stirring cylinder 140 includes a fourth outlet 149 for discharging the animal carcass / quicklime reactant to the outside.

Method of using the automatic manufacturing apparatus 100 of an organic-inorganic composite fertilizer according to the present invention,

Weighing the dead and shredded animal carcasses and quicklime, respectively, and putting them into a first rotary stirring tube, rotating the first motor to uniformly stir the shredded carcass and the quicklime to knead and move (S 210). ;

The animal carcasses / quicklime mixture transferred to the inside of the second rotary stirring cylinder induces the reaction of water and quicklime of the carcasses by the high temperature heat provided by the first heat generator, and the animal carcasses in the opposite direction from the second motor direction- A first reaction step of transferring the quicklime mixture (S 220);

The second reaction that continuously induces the reaction of water and quicklime of the animal carcass by the high temperature heat provided by the second heat generator to the animal carcass / quicklime mixture transferred to the inside of the third rotary stirring cylinder, and transports the animal carcass / quicklime reactant Step (S 230) and;

When the animal carcass / quicklime reactant that has undergone the second reaction step (S 230) is derived from the first animal group according to the command of the control unit (C), it is sent back to the second rotary stirring tube to send the animal carcass. / When the quicklime reactant is derived from the second animal group, the reaction selection step (S 240) of the control unit for transferring to the fourth rotary stirring tube;

In the case of the first animal group, the animal carcass / quicklime mixture is transferred to the inside of the second rotary stirring tube, undergoing the same process as the reaction procedure of the second rotary stirring tube, and inside the third rotary stirring tube. Is transferred to the third reaction step (S 250) in which the reaction is continuously carried out through the same process as the reaction procedure of the third rotary stirring tube;

A finishing reaction step of discharging the organic and inorganic complex fertilizer composed of animal carcasses-quicklime-nutrition ingredients to the outside while adding and kneading nutrient fertilizer ingredients to the transported animal carcass / quicklime reactants from the inside of the fourth rotary stirring barrel ( S 260).

In the present invention, it is preferable to package the organic and inorganic composite fertilizer completed through such a process and commercialize it or send it to a final use place for use.

When using the automatic manufacturing apparatus according to the present invention, there is an advantage in that the reactants reacted inside the rotary stirring cylinder can be transported in a natural and easy manner to the next rotary stirring cylinder.

In addition, the present invention can be repeated two or more times for the carcasses of an animal with a relatively large body to traverse the inside of the rotary stir, to react and transport the carcasses of an animal with a relatively small body sequentially. Therefore, it has the advantage of being able to handle the carcasses of almost all animals with one device.

1 is a schematic block diagram of a method of use using the automatic manufacturing apparatus of the present invention,
Figure 2 is a schematic plan view showing a coupling relationship between each of the rotating stirring cylinders, showing a plurality of rotating stirring cylinders,
Figure 3 relates to the first rotating stirring, Figure 3a is a side view thereof, Figure 3b is a plan view thereof,
Figure 4 relates to a second rotary stirring, Figure 4a is a side view thereof, Figure 4b is a plan view thereof,
5 relates to a third rotational stirring cylinder, FIG. 5A is a side view thereof, and FIG. 5B is a plan view thereof,
Figure 6 relates to a fourth rotational stirring cylinder, Figure 6a is a side view thereof, Figure 6b is a plan view thereof,
7 is a schematic side view of the safety rotating shaft.

The present invention is an improved invention of Korean Patent Registration No. 10-1955485. The present invention provides an automatic manufacturing apparatus and a method of using the organic-inorganic composite fertilizer suitable for any type of animal to produce high quality.

The present invention will be described in more detail and detail. The specific numerical values or specific examples provided in the present invention are preferred embodiments of the present invention, and are only for explaining the technical idea of the present invention in more detail, and it is clear that the present invention is not limited thereto. In addition, in the specification of the present invention, detailed descriptions of parts which are well known in the art and which can be easily created by a person having ordinary skill in the art will be omitted.

The present invention is an improved invention of Korean Patent Registration No. 10-1955485, which further improves the structure of the rotating stirring cylinder and its working relationship.

The present invention is connected to the first process of the first rotating agitator 110 and the first rotating agitator 110 for kneading and transporting each other after crushing and injecting the carcass of the animal, and then incorporating them. , It is connected to the next process of the second rotating stirring tube 120 and the second rotating stirring tube 120 to react the water and quicklime of the animal carcass at a high temperature and transfer it to the next process. A third rotary stirring barrel 130 that discharges excess moisture to the outside while continuously reacting the moisture and quicklime of the carcass, and is connected to the third rotating stirring barrel, injects a nutrient fertilizer component, further kneading, and then discharged to the outside It includes a fourth rotary stirring cylinder 140.

The first rotating stirring tube 110 includes a hopper for animal carcasses (h1), a shredder 115, and a hopper for fresh lime (h2), and supplies rotational power from the first motor (M1). Receiving, the rotating shaft 111 is rotated.

The animal carcasses injected into the hopper (h1) is generated from a first animal group, such as cattle, pigs, horses, goats, etc., collectively killed by exposure to various infectious diseases, and from a second animal group, such as chickens, ducks, and migratory birds. . The animal carcass shredded by the shredder 115 is crushed and shredded to generate meat protein and bone components and a large amount of moisture. The shredder 115 is operated by the shredder motor Mc, and as the number of operations of the shredder motor Mc increases, the animal that is input to the first rotary stirring cylinder 110 through the shredder 115 The carcass input will increase. The quicklime is physically kneaded with the moisture of the animal carcass inside the first rotating stirring tube 110 and undergoes a chemical reaction with moisture while passing through the second rotating stirring tube 120.

The first rotating stirring tube 110 is rotated while being wound around the rotating shaft 111, and the rotating blade 122 is coupled while rotating while being wound around the rotating shaft 111 in the reverse direction, the rotating blade (22a) is coupled. And, between the rotating blade 122 and the reverse rotating blade (22a) and coupled to the rotating shaft 111, the animal carcass / quicklime mixture that has been transferred along the longitudinal direction of the rotating shaft is the length of the rotating shaft It includes a spatula wing (123) to pass in a direction perpendicular to the direction. The rotary wing 122 and the spatula wing 123 and their mutual relationship will be described in detail below.

The first rotary stirring cylinder 110 has a first outlet 129 near the first motor M ₁ . The first outlet 129 serves as a passage for sending the transferred animal carcass and quicklime mixture to the second rotary stirring tube 120. Whether the first outlet 129 is opened or closed is determined by a separate controller C. In the prior art of the prior art, the first outlet 129 is not provided with such an action or function, and has been opened unilaterally, but in the present invention, it has been improved to determine whether it is opened or closed by the control unit C. will be.

The present invention is an improvement of the second rotary stirring tube 120 as follows.

The second rotating stir tube 120 is a rotating blade 122 coupled while being rotated as if being wound around the rotating shaft 121, and a reverse rotating blade 22a coupled while being rotated as being wound in a reverse direction to the rotating shaft 121 ), Between the rotary blade 122 and the reverse rotary blade (22a) and the spatula blade 123 coupled to the rotary shaft 111, and even when the rotary shaft 121 is thermally expanded, It includes a safety rotating shaft portion 124 that allows a safe rotation regardless of whether the extension.

The rotating shaft 121 is rotated inside the second rotating stirring tube 120 by the rotational force generated by the second motor M ₂ .

The rotary wing 122 is coupled in one direction as if being wound around the rotary shaft 121, and while stirring the animal carcass / quicklime by the rotation of the rotary shaft 121, water and quicklime of the animal carcass can react at high temperature. To help you. The rotating wing 122 is transferred to the front in accordance with the direction of rotation by the second motor (M2) while stirring the animal carcass / quicklime.

The reverse rotary blade 22a is coupled to the rotating shaft 121 as if it is being wound, but the direction combined while being rotated as it is being wound is coupled while being rotated in the opposite direction to the rotational direction of the rotating blade 122. The reverse rotation blade 22a prevents the reactant that has been transferred by the rotation blade 122 from proceeding further forward, and rather pushes it in the opposite direction. In other words, the reactant, which has been continuously conveyed forward so far, stops at that position, and then receives a force pushed from the opposite direction, so that a stop pressure is applied at that position. At this time, the reactant is better transported to the next stage of rotation stirring by the spatula wing 123. Therefore, the reverse rotation blade (22a) is preferably installed near the installation position of the spatula wing (123).

The spatula wing 123 is present between the rotary blade 122 and the reverse rotary blade 22a, and is mounted on the front or rear half of the rotating shaft, and can be mounted on both sides as necessary. The spatula wing 123 functions to pass the animal carcass / quicklime reactant in a direction perpendicular to the rotation axis.

The rotating wing 122, the reverse rotating wing 22a and the spatula wing 123 are combined around the rotating shaft 121, and their functions can be described in comparison with each other as follows.

The rotary wing 122 performs a function of transferring the animal carcass / quicklime reactant in one direction of the rotating shaft 121, and the reverse rotary wing 22a reverses the animal carcass / quicklime reactant to the rotating shaft 121 While performing the function of pushing in the direction, the spatula wing 123 performs a function of pushing the animal carcass / quicklime reactant in the right angle direction of the rotating shaft 121.

The spatula wing 123 is a spatula part 23a for receiving the animal carcass / quicklime reactant that has been transferred along the rotary blade 122, a leg part 23b connected to the spatula part, and the leg part on a rotating shaft. It is preferably composed of a coupling portion 23c to be coupled. The spatula portion 23a may be embodied as a T-type spatula portion or a spoon-type spatula portion depending on its shape. The coupling portion 23c may be welded, riveted, or screwed to the rotating shaft 121.

When the internal temperature of the second rotating stir tube 120 rises, the safety rotating shaft portion 124 safely slides inside the idling bearing regardless of whether or not the rotating shaft 121 is thermally expanded. While idling. The safety rotating shaft portion 124 includes a main bearing portion 24a, an auxiliary bearing portion 24b, a connecting member 24c, a coupling member 24d, and the like, which maintain a gap therebetween and mutually couple.

The second rotating stir tube 120 includes a first heat generator 125a mounted on a cylindrical body forming an outer shape. The second rotary stirring tube 120 may additionally include a second heat generator 125b to supply more heat. These are those already known in the prior art. The first heat generator 125a and the second heat generator 125b are for supplying high-temperature heat to the inside of the second rotary stirring tube 120, and the internal temperature is set at a set temperature (200 ° C to 700 ° C). If it exceeds or exceeds the range, it can be controlled by a temperature sensor (not shown) that can check it. The second rotating stir tube 120 may include a steam outlet 126 as necessary. Typically, the steam outlet 126 is preferably installed in the third rotary stirring cylinder (130). The steam discharge port 126 is installed to discharge the water vapor to the outside, when the water and quicklime of the animal carcasses react inside the second rotary stirring cylinder 120.

The steam discharge port 126 filters out the harmful gas and vapor in the water vapor by a cyclone (not shown), and then exhausts it after burning the harmful gas and vapor in the water vapor through a gas combustion device (not shown). It is desirable to do.

In the present invention, the second rotary stirring tube 120 has a second inlet 127 connected to the first rotary stirring tube 110 and a second outlet 129 connected to the third rotary stirring tube 130. , It includes a second inlet (128) connected to the third rotary stirring cylinder (130).

The second inlet 127 accepts the animal carcass / quicklime mixture from the first rotary stirring tube 110 located on its front side (front side). The second outlet 129 sends the animal carcass / quicklime reactant to the third rotary stirring cylinder 130 located at the rear side (back side). These functions are common components that exist in the same way in the conventional manufacturing apparatus.

The second inlet 128 functions to return and accept the animal carcass / quicklime reactant from the third rotary stirring container 130 located at the front (front) thereof. This function did not exist in the conventional manufacturing apparatus. The function of the second entrance 128 and its operational relationship are determined by the control unit C.

The present invention is an improvement of the third rotary stirring cylinder (130).

The third rotating stir cylinder 130 is a rotating blade 122 that is coupled while being rotated around the rotating shaft 131 and a reverse rotating blade 22a coupled while being rotated while being wound around the rotating shaft 131 in the reverse direction. ), Between the rotating blade 122 and the reverse rotating blade (22a) and the spatula blade 123 coupled to the rotating shaft 131, and even when the rotating shaft 131 is thermally expanded, It includes a safety rotating shaft portion 124 that allows a safe rotation regardless of whether the extension.

The third rotating stirring cylinder 130 receives rotational power from the third motor M3, the rotating shaft 131 rotates, and as the rotating shaft 131 rotates, the rotating blade 122 and the reverse The rotating blade 22a and the spatula blade 123 are rotated.

When the rotating shaft 131 is rotated, as described above, the rotating blade 122 and the reverse rotating blade 22a and the spatula blade 123 coupled to the rotating shaft 131, the third rotating stir The animal carcass / quicklime reactant present in the interior of 130 is transferred in one direction, momentarily stopped, and then passed to the next rotational shaker. The spatula wing 123 is also composed of a spatula portion 23a, a leg portion 23b and a coupling portion 23c.

When the internal temperature of the third rotating stir cylinder 130 rises, the safety rotating shaft portion 124 safely slides inside the idling bearing regardless of whether or not the elastic shaft 131 is thermally expanded. While idling. The safety rotating shaft portion 124 includes a main bearing portion 24a, an auxiliary bearing portion 24b, a connecting member 24c, a coupling member 24d, and the like, which maintain a gap therebetween and mutually couple.

It is preferable that the third rotary stirring cylinder 130 includes a steam outlet 126. The steam discharge port 126 is installed to discharge the water vapor to the outside when the water and quicklime of the animal carcasses react inside the third rotary stirring container 130. The steam outlet 126 may be installed in the second rotary stirring cylinder 120 or may be installed in the third rotary stirring cylinder 130.

The steam outlet 126 is for discharging moisture and harmful gas generated inside the rotary stirring cylinder to the outside. To this end, the steam outlet 126 is provided with a gas combustion chamber 26a capable of burning and burning harmful gas among the discharged components, and collecting a fine dust or the like from the finally discharged gas, and then discharging it. It is preferable to further provide the clone 26b. This is to filter harmful gases and vapors that may be generated from animal carcasses, and to keep the air discharged to the outside clean.

In the present invention, the third rotary stirring cylinder 130 is connected to the third rotary stirrer 120, the third inlet 137, and the fourth rotary stirrer 140 connected to the third outlet 139. , It includes a third return port 138 connected to the second rotary stirring tube (120).

The third inlet 137 receives the animal carcass / quicklime mixture from the second rotary agitator 120 located on its front side (front side). The third outlet 139 is to send the animal carcasses / quicklime reactants to the fourth rotary stirring tube 140 located on the rear (back). These functions are common components that exist in the same way in the conventional manufacturing apparatus.

The third return port 138 serves to return the animal carcass / quicklime reactant back to the second rotary stirring tube 120 located at the front (front) thereof. This function did not exist in the conventional manufacturing apparatus. The function of the third return port 138 and its operational relationship are determined by the control unit C.

The present invention further improves the fourth rotary stirring cylinder (140).

The fourth rotating stirring tube 140 is a rotating blade 122 that is coupled while being rotated around the rotating shaft 141, and a rotating blade 22a coupled while being rotated while being wound around the rotating shaft 131 in the reverse direction. ), Between the rotating blade 122 and the reverse rotating blade (22a) and the spatula blade 123 coupled to the rotating shaft 131, and even when the rotating shaft 131 is thermally expanded, It includes a safety rotating shaft portion 124 that allows a safe rotation regardless of whether the extension.

The fourth rotating stirring tube 140 receives rotational power from the fourth motor M4, the rotating shaft 141 rotates, and as the rotating shaft 141 rotates, the rotating blade 122 and the reverse The rotating blade 22a and the spatula blade 123 are rotated.

The rotating blade 122 and the reverse rotating blade 22a and the spatula blade 123 coupled to the rotating shaft 141, as described above, when the rotating shaft 141 is to be rotated, the fourth rotating stir The animal carcass / quicklime reactant present in the interior of (140) is transferred in one direction, momentarily stopped, and passed to the next step. The spatula wing 123 is also composed of a spatula portion 23a, a leg portion 23b and a coupling portion 23c.

When the internal temperature of the fourth rotating stir tube 140 increases, the safety rotating shaft portion 124 safely slides inside the idling bearing regardless of whether the elastic shaft 141 is thermally expanded or not. While allowing it to idle, and contains the same components as described above.

The fourth rotary stirring container 140 preferably includes a third hopper (h3) for introducing a nutrient fertilizer component. The third hopper (h3) is for supplying nutrient fertilizer components to the animal carcass / quicklime reactants from the outside. As the nutritional fertilizer component, known products can be used.

In the present invention, the fourth rotary stirring container 140 includes a fourth inlet 147 connected to the third rotary stirring container 130, and a fourth outlet for discharging animal carcasses / quicklime / nutrient fertilizer components to the outside ( 149).

The fourth inlet 147 accepts the animal carcass / quicklime mixture from the third rotary agitator 130 located on its front side (front side). The fourth outlet 149 is reacted inside the rotary stirring cylinder to discharge the completed inorganic-organic composite fertilizer to the outside, and is packaged from the outside or transported to the final use place.

The present invention provides a method of using the automatic manufacturing apparatus 100 of the organic-inorganic composite fertilizer described above.

The present invention performs the first step (S 210) of stirring and kneading the dead body and quicklime of the dead animal using the first rotary stirring tube 110.

In the first step (S 210), the dead animal is weighed and shredded with a shredder 115, put into a first rotary stirring tube 110, and weighed quicklime again to the first rotary stirring tube 110. Inject, and rotate the first motor (M ₁ ) located in front of the first rotary stirring tube 110 to rotate the rotary blade 122, uniformly stir the kneaded animal carcass and the quicklime to knead and knead To move.

The present invention includes a first reaction step (S 220) in which the moisture and quicklime of an animal carcass can proceed in a reaction at a high temperature condition, inside the second rotary stirring tube 120.

In the first reaction step (S 220), the animal carcass / quicklime mixture transferred to the inside of the second rotary stirring tube 120 is reacted by rotating a second motor M ₂ , and the first heat generator 125a is reacted. While maintaining the internal temperature of the second rotary stirring tube 120 in a preset temperature range (200 ° C to 500 ° C) by the high temperature heat provided by inducing the reaction of moisture and quicklime of the animal carcass, the second motor (M ₂ ) In the opposite direction, the animal carcasses-can be carried out by transferring the quicklime mixture. The second motor M ₂ is controlled by the control unit C, and generates rotational power to knead animal carcasses and quicklime. If necessary, a second heat generator 125b may be further installed on the second rotary stirring tube 120.

Inside the second rotary stirring tube 120, moisture and quicklime from animal carcasses are reacted by high-temperature heat, and the animal carcass / quicklime reactants are transferred while rotating in the direction of the rotation axis by the rotary blade 122. .

The second rotating stirring tube 120 receives the animal carcass / quicklime mixture from the first rotating stirring tube 110 through the second inlet 127, and the reacted animal carcass / quicklime reactants are reacted therein. It is sent to the third rotary stirring cylinder 130 through the second exit 129.

The second rotating stir tube 120 includes a second inlet 128. The second inlet 128, the function of the passage through which the animal carcass / quicklime reactant of the third rotating stirring tube 130 is brought back into the interior of the second rotating stirring tube 120 by the control unit (C). In charge. The second entrance 128 was first developed by the present invention, and no such function could be found by prior art. The second entrance 128 is not always open, and whether or not it is determined whether to be opened or closed by the control unit C, which belongs to the first animal group or the second animal group It depends on whether or not.

The present invention includes a second reaction step (S 230) of discharging excess moisture to the outside while proceeding with the reaction of moisture and quicklime of animal carcasses under a high temperature condition, inside the third rotary stirring cylinder 130. Doing.

In the second reaction step (S 230), the animal carcass / quicklime reactant transferred to the inside of the third rotary stirring cylinder 130 is continuously reacted by rotating the third motor M ₃ , and the second heat generator 125b. ), While continuously maintaining the internal temperature of the third rotary stirring tube 130 at a preset temperature range (200 ° C to 500 ° C), continuously inducing the reaction of water and quicklime of the animal carcass, 2 The animal carcass / quicklime reactant is transferred from the position of the heat generator 125b to the position of the third motor M3.

The third rotating stirring cylinder 130 rotary blades 122 and the second heat generator (125b) and the steam outlet 126 and the third motor (M ₃₎ and the third inlet 137 and the third return opening ( 138) and a third exit 139. The rotary wing 122 also advances them while mixing animal carcasses / quicklime using the rotational force generated by the third motor M ₃ . The third motor M ₃ is controlled by the control unit C, and generates rotational power to knead animal carcasses and quicklime.

The steam outlet 126 is water vaporized from the animal carcass is vaporized by high temperature, and remains inside the third rotary stirring cylinder 130, which simultaneously removes the residual moisture and high temperature heat. In the steam outlet 126, a gas combustion chamber 26a and a cyclone 26b may be respectively installed or all may be installed in order to remove odor or odor or harmful gas from animal carcasses. In principle, the steam outlet 126 is preferably installed in the third rotary stirring cylinder 130, but sometimes it may be installed in the second rotary stirring cylinder 120.

The third inlet 137 accepts the animal carcass / quicklime mixture carried from the second rotating agitator 120 into the inside of the third rotating agitator 130, and the third outlet 139 is the first 3 The animal carcass / quicklime mixture reacted from the inside of the rotating stirring container 130 is sent to the fourth rotating stirring container 140.

On the other hand, the third return port 138 is kneaded and stirred inside the third rotating stirring container 130, and does not send the animal carcass / quicklime reactant to the fourth rotating stirring container 140, and the previous second It is responsible for the function of the passage to return to the rotating stir tube 120.

The third return port 138 was first developed by the present invention, and no such function could be found by prior arts. In addition, the third return port 138 is not always open, and it is determined whether or not to be opened or closed by the control unit C, which is whether the animal carcass belongs to the first animal group or the second animal group. Because it depends on whether you belong to.

The animal carcasses / quicklime reactants reacted inside the third rotating stirring barrel 130 are transported by the third motor M ₃ and then fed back to the second rotating stirring barrel 120 to proceed. The fourth rotating stir tube 140 proceeds directly. Again, the transfer or direct transfer function of the third rotary stirring cylinder 130 could not be found at all in the prior art.

The third outlet 139 is limited to the case where it is determined to be transferred to the fourth rotary stirring container 140 by the control unit C after the animal carcass and quicklime are reacted inside the third rotary stirring container 130. , It becomes open. When the third outlet 139 is opened, the third return opening 138 must be closed, and when the third outlet 139 is closed, the third return opening 138 must be closed. Should be open.

In the present invention, the animal carcass / quicklime reactant that has undergone the second reaction step (S 230) is returned to the previous second rotating stirring tube 120 and returned, or transferred straight to the fourth rotating stirring tube 140 to be transferred. It includes a reaction selection step (S 240) of the control unit (C) to determine whether or not.

In the reaction selection step (S 240) of the control unit (C), when the animal carcass / quicklime reactant that has undergone the second reaction step (S 230) is the first animal group, the second rotation is performed according to the command of the control unit (C). It can be embodied by sending it back to the stirring container 120 and sending it to the fourth rotary stirring container 140 according to the command of the control unit C when the animal carcass / quicklime reactant is the second animal group.

The first animal group is any one selected from the group consisting of cow, pig, horse, wild boar, goat and roe deer. The first animal group means a case where the body mass is large and the reaction of the animal carcass / lime lime is insufficient through the reaction process of the second rotary stirring tube 120 and the third rotary stirring tube 130 once. . When processing the animal carcasses related to the first animal group, after passing through the third rotary stirring container 130, it is returned to the second rotary stirring container 120 again. In this case, the animal carcass / quicklime reactant is sent to the second inlet 128 through the third return opening 138 of the third rotation stirring barrel 130, and consequently again the second rotation stirring barrel. It will be sent to the interior of (120). However, even if it corresponds to the first animal group, if it has already been repeated once, it is to go to the fourth rotary stirring tube 140. Such control is carried out through the control unit (C).

The second animal group is any one selected from the group consisting of chicken, duck, pheasant, bird, puppy, rabbit, cat, and fish. The second animal group has a small body size, and once passing through the reaction process of the second rotary stirring tube 120 and the third rotary stirring tube 130, it means that the animal carcass / quicklime reaction is sufficient. In the case of processing the animal carcasses related to the second animal group, after passing through the third rotary stirring container 130, it is directly directed to the fourth rotary stirring container 140.

The present invention includes a third reaction step (S 250) for the first animal group to repeat the second rotary stirring tube 120 and the third rotary stirring tube 130 once again.

The third reaction step (S 250) is the same as the reaction and transport in the interior of the second rotary stirring tube 120 and the reaction and transport process in the interior of the third rotary stirring tube 130 mentioned above. Will proceed. Therefore, when the animal carcass corresponds to the first animal group, the animal carcass / quicklime reactant is the second through the third return port 138 and the second inlet port 128 in the third rotary stirring cylinder 130. It is transferred to the inside of the rotating stirring tube 120, and after going through the same process as the previous reaction procedure in the inside of the second rotating stirring tube 120, it is transferred to the inside of the third rotating stirring tube 130 again. Therefore, the same procedure as the reaction procedure of the third rotary stirring cylinder 130 is performed.

Since the present invention has the third reaction step (S 250), it has the following differences from the conventional conventional prior art.

All of the conventional compound fertilizer automatic manufacturing apparatuses were uniformly performed with the first rotary stirring tube 110-the second rotary stirring tube 120-the third rotary stirring tube 130-the fourth rotary stirring tube 140. .

On the other hand, the automatic fertilizer manufacturing apparatus of the present invention, for the first animal group, the first rotating stirring tube 110-the second rotating stirring tube 120-the third rotating stirring tube 130-the second rotating stirring tube (120)-the third rotating agitation barrel (130)-while the fourth rotating agitation barrel (140) proceeds, while for the second animal first rotating agitation barrel (110)-the second rotating agitation barrel (120) )-The third rotating agitation cylinder 130-It is to be able to proceed to the fourth rotating agitation cylinder 140. Therefore, the present invention has an advantage that, even in the case of the first animal group having a large size, a more sufficient animal carcass / quicklime reaction can be performed.

The present invention includes a finishing reaction step (S 260) of lowering the internal temperature of the fourth rotary stirring container 140 and adding a nutrient fertilizer component.

The finishing reaction step (S 260) is carried out inside the fourth rotary stirring tube 140, and proceeds with the remaining reaction to the transported animal carcass / quicklime reactant, inside the fourth rotary stirring tube 140 While maintaining the temperature in the range of 80 ℃ to 100 ℃, the animal carcasses / quicklime to the nutrient fertilizer component is added to the reactant, the internal temperature of the fourth rotary stirring 140 is lowered to the range of 40 ℃ to 50 ℃ It is preferable to transfer from the direction of the fourth motor M ₄ in the opposite direction.

It said fourth rotary stirring cylinder 140 includes a rotary blade 122 and a fourth motor (M ₄₎ with nutrient fertilizer input hopper (h3) for the fourth inlet 147 and the fourth outlet 149 . The rotary blade 122 is rotated by receiving rotational power from the fourth motor (M ₄ ) through a rotating shaft, and additionally stirs the newly added nutrient fertilizer in the kneading process.

The nutrient fertilizer input hopper (h3) is installed just above the fourth rotary stirring tube (140), and in the state where the water and quicklime of the animal carcass have almost finished the reaction, beneficial nutrition for fruit growth or fruit of the plant It is to add more fertilizer ingredients. The nutritional fertilizer component is a functional fertilizer component that determines the characteristics of the final fertilizer product, any one or two or more selected from the group consisting of loam, compost, siliceous fertilizer, fermented molasses, shell powder, sawdust, and fermented fertilizer containing microorganisms It may include.

The fourth inlet 147 is a passage for receiving animal carcass / quicklime reactants from the third rotary stirring container 130. The fourth outlet 148 forms a passage for discharging the composite fertilizer kneading the animal carcass / quicklime reactant and the nutrient fertilizer component from the inside of the fourth rotary stirring tube 140 to the outside.

In the present invention, it is desirable to finally wrap the organic and inorganic composite fertilizer composed of animal carcasses-quicklime-nutrient components and finally finish.

The worker is transported to use the organic and inorganic fertilizer discharged by weighing and packing in the product weighing unit, weighing and storing in the storage, or spraying directly onto the soil. Products discharged to the outside are weighed and packaged in units of 10kg, 20kg, 30kg, 40kg, 50kg, and 100kg, stored in an external storage, or delivered to a place in need of organic fertilizer. This can be done in a conventional way.

It is preferable that the present invention is stably fixed to the ground while moving to a work place and mounted on a vehicle so that work can proceed.

The present invention includes a control unit (C) for controlling the various motors and the various inlets and outlets as a whole by operating, stopping, or adjusting them. Since the operation relationship of the control unit C has already been described above, it will not be repeated.

The organic and inorganic composite fertilizer manufacturing apparatus 100 according to the present invention may be mounted on a mobile vehicle such as a truck and utilized. It is preferable to install and use the outrigger device in the front, rear, left, and right directions in the apparatus 100 for manufacturing organic and inorganic fertilizers mounted on a mobile vehicle. In such a case, it is possible to move quickly to a gathering place of livestock that has died collectively, and then directly process the dead livestock there.

In the above, the automatic manufacturing apparatus 100 for organic and inorganic composite fertilizers according to the present invention and the method of using them have been specifically presented, but these are only specified in the process of explaining the embodiments of the present invention, and all the features of the present invention It should not be construed as limiting that it applies only to the items mentioned above.

In addition, anyone skilled in the art will be able to make various modifications and imitation according to the contents of the specification of the present invention, but it will be clear that this is also not outside the scope of the present invention.

100: organic-inorganic composite fertilizer automatic manufacturing device,
110: first rotary stirring, 115: trituration,
120: second rotating stirring cylinder, 121: the first rotating shaft,
122: rotary blade, 123: spatula blade,
124: safety axis of rotation, 125a: first heat generator,
125b: second heat generator, 126: steam outlet,
127: second entrance, 128: second entrance,
129: second exit, 130: third rotating stir,
137: Entrance 3, 138: Return 3,
139: 3rd exit, 140: 4th rotation stir,
147: 4th entrance, 149: 4th exit,
h1: body hopper, h2: quicklime hopper,
h3: Hopper for nutrient fertilizer input, Mc: Motor for grinding machine,
M1: first motor, M2: second motor,
M3: third motor, M4: fourth motor,

Claims (11)

The first rotating agitator 110 for transferring the shredded animal carcass and quicklime after mixing and kneading, and reacting moisture and the quicklime of the animal carcass transferred from the first rotating agitator 110 at high temperature to react with animals Carcass / quicklime reacts the animal carcass / quicklime reactants transferred from the second rotary agitator 120 and the second rotary agitator 120 to make and transport the reactants at high temperature and discharges excess moisture to the outside. While, the nutrient fertilizer component is added to the animal carcass / quicklime reactant transferred from the third rotary agitator 130 to be transferred, and the third cartilage agitator 130, and kneaded to form an animal carcass / quicklime / nutrient fertilizer. In the apparatus comprising a fourth rotary stirring container 140 for making a composed organic-inorganic composite fertilizer and discharged to the outside,
The second rotating stirring tube 120 is
A rotating shaft 121 rotated by the second motor,
The rotating blades 122, which are combined while revolving as if revolving on the rotating shaft 121, and the reverse rotating blades 22a, which are combined while revolving as if revolving in the reverse direction to the rotating shaft 121, and the rotating blades 122, The spatula blade (123) present between the reverse rotation blade (22a),
The rotating shaft 121 includes a safety rotating shaft portion 124 that enables the rotation to be safe and unchanged even when stretched by high temperature heat,
In addition, the second rotary stirring tube 120 is
A second inlet 127 for receiving the animal carcass / quicklime mixture from the first rotary agitator 110 and a second outlet 129 for sending the animal carcass / quicklime reactant to the third rotary agitator 130 ), A second inlet (128) to receive the animal carcasses / quicklime reactants back from the third rotary stirring tube (130)
Further comprising, an organic-inorganic composite fertilizer automatic manufacturing apparatus.
According to claim 1,
The spatula wing (123)
A spatula part (23a) for receiving the animal carcass / quicklime reactant that has been transferred along the rotary blade (122),
A leg portion 23b connected to the spatula portion 23a,
The engaging portion (23c) for coupling the leg portion (23b) to the rotating shaft
An organic-inorganic composite fertilizer automatic manufacturing apparatus characterized in that it contains.
According to claim 1,
The third rotary stirring tube 130 is
The rotation shaft 131 rotated by the third motor,
Rotating blades (122) coupled while being rotated to revolve around the rotating shaft (131),
And the reverse rotation blades (22a) coupled while being rotated as if to wind in the reverse direction to the rotating shaft (131),
It is present between the rotating blade 122 and the reverse rotating blade 22a, is coupled to the rotating shaft 131, and the spatula blade 123 for passing an animal carcass / quicklime reactant in a direction perpendicular to the rotating shaft. Wow,
When the rotating shaft 131 is stretched by high-temperature heat, a safe rotating shaft unit 124 that enables safe and unchanged rotation
An organic-inorganic composite fertilizer automatic manufacturing apparatus characterized in that it contains.
The method of claim 3,
The third rotary stirring tube 130 is
A third inlet (137) for receiving the animal carcass / quicklime mixture from the second rotary agitator (120),
A third exit 139 for sending the animal carcass / quicklime reactant to the fourth rotary stirring tube 140,
A third return port 138 for returning the animal carcass / quicklime reactant back to the second rotary stirring tube 120
An organic-inorganic composite fertilizer automatic manufacturing apparatus characterized in that it contains.
The method of claim 3,
The spatula wing (123)
A spatula part (23a) for receiving the animal carcass / quicklime reactant that has been transferred along the rotary blade (122),
A leg portion 23b connected to the spatula portion 23a,
The engaging portion (23c) for coupling the leg portion (23b) to the rotating shaft
An organic-inorganic composite fertilizer automatic manufacturing apparatus characterized in that it contains.
Weighing the dead and shredded animal carcasses and quicklime, respectively, and putting them into the first rotary stirring tube 110, rotating the first motor M ₁ to uniformly stir the animal carcasses and quicklime to knead and move (S 210);
A first reaction step (S 220) of inducing and transferring the reaction of water and quicklime of the animal carcass by high temperature heat to the animal carcass / quicklime mixture inside the second rotary stirring tube 120;
Inside the third rotary stirring cylinder 130, the second reaction step (S) of continuously inducing the reaction of the animal carcass / quicklime by the high temperature heat of the animal carcass / quicklime mixture, and transferring the animal carcass / quicklime reactant 230);
When the animal carcass / quicklime reactant that has undergone the second reaction step (S 230) is the first animal group according to the command of the control unit (C), it is sent back to the second rotary stirring tube 120 for sending, and the animal carcass / When the quicklime reactant is the second animal group, the reaction selection step (S 240) of the control unit for transferring to the fourth rotary stirring tube 140;
In the case of the first animal group, the animal carcass / quicklime mixture is transferred to the inside of the second rotary stirring tube 120, so that the second rotary stirring tube 120 and the third rotary stirring tube 130 A third reaction step (S 250) in which the reaction is continuously performed through the same process as the reaction procedure;
Inside the fourth rotary stirring cylinder 140, while maintaining the transferred animal carcasses / quicklime reactants in the range of 80 ° C to 100 ° C, the nutrient fertilizer component is introduced, and the internal temperature is further lowered to discharge the outside. Finishing reaction step (S 260)
The method of using the automatic manufacturing apparatus 100 of an organic-inorganic composite fertilizer, characterized in that it contains.
The method of claim 6,
The first group of animals is characterized in that any one selected from the group consisting of cattle, pigs, horses, wild boar, goats, roe deer, the method of using the automatic manufacturing apparatus 100 of organic-inorganic composite fertilizer.
The method of claim 6,
The second animal group is chicken, duck, pheasant, bird, puppy, rabbit, cat, fish, characterized in that any one selected from the group consisting of, organic-inorganic composite fertilizer automatic manufacturing apparatus 100 method of use.
The method of claim 6,
The third rotating stirring cylinder 130 includes a third return opening 138,
Whether or not the third return port 138 is opened or closed is determined by the control unit C,
When the animal carcass belongs to the first animal group, it is opened to return the animal carcass / quicklime reactant to the second rotary stirring tube 120, and when the animal carcass belongs to the second animal group, the fourth carrot stir Method of using the automatic manufacturing apparatus 100 of an organic-inorganic composite fertilizer, characterized in that it is closed to transport the animal carcass / quicklime reactant to the barrel 140.
The method of claim 9,
The third rotary stirring cylinder 130 includes a third outlet 139,
The third outlet 139 is limited to the case where it is determined to be transferred to the fourth rotary stirring tube 140 by the control unit C after the animal carcass and quicklime are reacted inside the third rotary stirring tube 130. Being open,
When the third outlet 139 is opened, the third return opening 138 must be closed, and when the third outlet 139 is closed, the third return opening 138 is opened The method of using the automatic manufacturing apparatus 100 of an organic-inorganic composite fertilizer, characterized in that it should be.
The method of claim 9,
The animal carcass
If it corresponds to the first animal group, the first rotating stirring tube 110-the second rotating stirring tube 120-the third rotating stirring tube 130-the second rotating stirring tube 120-the third rotating stirring tube (130)-On the other hand, proceeds to the fourth rotary stirring tube (140),
If it corresponds to the second animal group, it is characterized in that the first rotating stirring tube 110-the second rotating stirring tube 120-the third rotating stirring tube 130-the fourth rotating stirring tube 140 As a method of using the automatic manufacturing apparatus 100 of an organic-inorganic composite fertilizer.

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