KR101455028B1 - A mobile manufacturing system for livestock manure pellet - Google Patents

Abstract

The present invention relates to a mobile system for manufacturing a livestock manure pellet, which includes a dryer, a pellet manufacturing device, a control power unit, and a container and additionally includes a power take-off unit. According to the present invention, livestock manure is smoothly dried when the livestock manure including much moisture put into a hanger through an electric heating unit of the hanger which is formed on the dryer and has a flowing heat mediate moves through a moving screw, is manufactured in a pellet shape to allow covenient use, and the drying efficiency of the livestock manure is enhanced, thereby improving producing efficiency of a pellet used as fuel or compost.

Description

[0001] A mobile manufacturing system for livestock manure pellet

More particularly, the present invention relates to a system for manufacturing a movable shaft pellet, and more particularly, to a pellet production facility in a moving means such as a vans or a movable container, The present invention relates to a mobile-type pellet manufacturing system capable of reducing the transportation cost and the like required for treating an accumulated pellet by making pellets usable as fuel or compost.

Especially, the disposal of livestock fodder is costly for the treatment of socially including the environmental pollution problem. In the residential area, the pest or fodder treatment device is classified as a dislike facility due to the problem of odor, , It was avoided to construct an accumulation treatment plant for processing the accumulation product, a housing, and the like, and the accumulation device was installed only in an arbitrary designated area.

On the other hand, in order to treat the fecal matter generated in the housing, it has been common to use the collection means implemented with the fecal storage means to move the fecal matter to the place where the fecal treatment apparatus is installed, and to compost the fecal matter in the pest control plant.

However, in order to treat the flour, it is necessary to move the flour to the place where the flour treating apparatus installed only in a limited area is located and to transport the compost treated in the flour treating apparatus to the area where compost is required. .

In addition, there has been a problem in that a facility for reprocessing pollutants such as polluted water generated during the composting process has to be additionally implemented.

In addition, it is inconvenient to install the apparatuses separately except for a limited area in order to install the apparatus for treating fines and odors.

On the other hand, pellet equipments are installed in a transportation means capable of moving so as not to cause bad smell as in the Korean Patent Registration Nos. 10-1250262 and 10-1183540 of the present applicant and inventors, and the wood is processed in the pellet equipments, Type fuel or compost.

However, even if pellet-shaped fuel or compost is produced using the wood which does not generate a bad odor as described above, the resources of the wood are limited so that the utilization of wood is limited, and the wood is crushed, pulverized, There is a problem that the economical efficiency is poor due to an increase in cost for composting the wood by adding a separate process for adding chemicals or the like for use.

Even if the wood or the like is dried by using the pellet facility, the effect of the dryer during the processing of wood is not so great, and there is a limitation in the amount of pellets produced.

That is, since the wood is dried only by the rotation of the paddles formed in the dryer, the drying effect is limited and the drying efficiency is poor.

The present invention relates to a manufacturing system for a movable type pellet of a movable pellet, which comprises a hopper which is installed in a moving means such as a lorry and into which a shaft fraction is injected, a movable screw which is formed below the hopper and which moves the shaft portion while stirring, A case in which a crusher is formed on the lower side of the cradle and the shaft portion transferred by the moving screw is broken, a movable screw formed on the cradle and a power unit for driving the crusher formed on the case, A boiler capable of supplying the heating medium to the heat transfer part of the cradle, and a sensing part capable of measuring the moisture contained in the shaft fractions while sensing the amount of the mist flowing into the hopper A dryer, and a shaker which is dried and crushed in the dryer, A pellet producing unit for processing pellets produced by processing the shaft fraction supplied from the quantitative supply unit, a cooling separator for separating the pellets by cooling the pellets produced by the pellet producing unit, A pelletizing device comprising a weighing and packing section for packing the pellets while controlling the size and the amount of the pellets; a control power section for controlling power supplied to the pellets by the dryer and the pelletizing apparatus; A controller for controlling the operation of the dryer and the pellet manufacturing apparatus, the container, and the drive unit for supplying power to or controlling the operation of the dryer and the pellet manufacturing apparatus; When the container is not installed in the moving means, the control unit and the driving device And a control unit that controls the number of revolutions of the power generated by the engine installed in the moving means when the container is installed on the moving means, And the power take-off part is further included. When the shaft part containing a large amount of water to be introduced into the holder through the heat transfer part formed in the dryer and through which the heat medium flows is smoothly dried through the moving screw, The pellets are easily manufactured in the form of pellets which can be dried and the drying efficiency of the pellets is improved, thereby making it possible to increase the production efficiency of the pellets used as fuel or compost.

The present invention relates to a pellet-type pellet which is formed in a dryer and is smoothly dried when an axial flow containing a large amount of water, which is introduced into a cradle through a heat transfer portion of a cradle through which the heat medium flows, The pellets can be easily produced and the efficiency of drying the pellets can be improved. Thus, the production efficiency of pellets used as fuel or compost can be improved.

In addition, since the heat transfer portion formed on the cradle is formed in a U shape in which the moving screw is wrapped, a larger amount of heat is supplied to the inside of the cradle, So that the drying efficiency of the plant is increased. The heat transfer unit can circulate the cooling water used in the moving unit or can further supply the heating medium heated to the heat transfer unit through the boiler formed in the dryer, so that the steam flow can be smoothly dried.

In addition to this, it is also possible to form a sensing part in the dryer, to constantly sense the moisture content of the shaft part which is put into the holder and the case, dried and discharged and by controlling the operation of the power part of the dryer according to the moisture content, It is advantageous that the content can be kept constant at all times.

In addition, there is an advantage in that the solid and the shaft portion injected into the liquid form through the crusher of the case formed in the dryer are crushed to a particle size desired by the user, and the shaft portion is formed smoothly in the form of pellets.

In addition, the water vapor generated at the shaft portion dried by the dryer through the ventilation device formed in the dryer is smoothly discharged to the outside, thereby improving the efficiency of the dryer.

In addition, by using the drier or the like provided on the moving means and using the pellet-shaped raw material or compost which emits odor and the like as the pellet-shaped raw material or compost, it is possible to use it as an eco-friendly fuel while reducing environmental pollution by regenerating with energy of the biomass. It can be used as raw material or compost by processing directly at the site where stubble is generated. It is possible to reduce the transportation cost for treating stubble and pelletize various kinds of odor-producing stones, thereby improving long-term storage and usability . In addition, the pellet manufacturing equipment of the shaft pellet can be installed in the moving means and moved, thereby increasing the operationality of the equipment, thereby providing an advantageous profit generating effect.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a mobile pellet manufacturing system of the present invention. FIG.
2 is a perspective view showing a dryer of a mobile-type pellet-making system of the present invention;
Figure 3 is a side cross-sectional view of a holder formed in a dryer of a mobile fortified pellet manufacturing system of the present invention.
4 is a perspective view showing a cross-section of a dryer of a mobile-type pellet manufacturing system of the present invention.
5 is a block diagram illustrating a system for manufacturing a mobile pellet of the present invention.
Figure 6 is a block diagram illustrating another embodiment of a mobile column pellet manufacturing system of the present invention.
FIG. 7 is a perspective view showing a container of a movable type pellet manufacturing system of the present invention. FIG.

In order to achieve the above object, the present invention is as follows.

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

The movable pellet manufacturing system 50 of the present invention comprises a dryer 10, a pelletizing apparatus 20, a control power unit 30, and a container 40 as shown in Figs. 1 to 7.

2 to 4, the dryer 10 is provided with a hopper 11 into which a shaft portion for discharging livestock is inserted, and a holder 12 is disposed below the hopper 11 A moving screw 12a is formed inside the cradle 12 to move the shaft portion while stirring the shaft portion introduced into the cradle 12 through the hopper 11 and to move the inside of the cradle 12 And the heat transfer portion 12b is formed to surround the moving screw 12a and the heat medium flows.

The hopper 11 is a mechanism for transferring raw materials and the like generally used at present to the machine, and a detailed description thereof will be omitted.

As shown in FIGS. 2 to 4, the dryer 10 is provided with a hopper 11 into which a shaft portion provided with livestock is inserted upward, and a hopper 11 is disposed below the hopper 11 A moving screw 12a is formed inside the cradle 12 so as to move while stirring the shaft portion introduced into the cradle 12 through the hopper 11, And a heat transfer portion 12b in which the heat medium flows in the form of wrapping the movable screw 12a while being positioned inside.

In addition, by forming the holder 12 in an open form, the water vapor generated by drying the shaft powder introduced into the holder 12 smoothly flows upward and is discharged to the outside, The drying efficiency can be increased.

As shown in FIG. 3, the heat transfer part 12b formed inwardly as shown in FIG. 3 of the cradle 12 includes a U-shape, which is a shape that covers the moving screw 12a from both sides and from below, So that the shaft portion moved by the moving screw 12a can be smoothly dried by the heating medium flowing through the heat transfer portion 12b.

In addition, the upper part of the cradle 12 is opened so that the water vapor generated by the drying of the condensate supplied to the cradle 12 is smoothly discharged to the upper part, So that the drying efficiency of the shaft fraction can be increased.

As shown in FIG. 3, the heat transfer part 12b formed on the inner side of the cradle 12 is formed with a U-shape, which is a shape that covers the moving screw 12a from both sides and from the lower side, So that the shaft portion moved by the moving screw 12a can be smoothly dried by the heating medium flowing through the heat transfer portion 12b.

In addition, the fluid that is a heating medium flowing to the heat transfer portion 12b can be selected in various ways according to the purpose of the user, and a detailed description thereof will be omitted.

The steam generated by the heating medium of the heat transfer portion 12b is smoothly radiated to the upper portion of the heat transfer portion 12b and the steam having lowered temperature is left in the cradle 12 after the drying operation is completed. It is possible to prevent the drying efficiency from being lowered.

The case 13 is located below the cradle 12 and has a crusher 13a for crushing the shaft portion conveyed by the moving screw 12a inwardly.

Here, the moving screw 12a of the holder 12 and the crusher 13a of the case 13 are formed in a shape similar to a screw (not shown) used for moving or crushing a solid or liquid at present (Not shown in the drawing), and therefore, detailed description thereof will be omitted.

The sizes and rotation ratios of the moving screw 12a and the crusher 13a may be variously set according to the purpose of the user.

Further, the holder 12 and the case 13 may be formed by various means for higher moving force and crushing force.

In addition, as described above, the cradle 12 and the case 13 may be formed in a single structure, or the cradle 12 and the case 13 may be separated from each other and connected to each other.

Also, the holder 12 and the case 13 may be formed by a single or multiple means for higher moving force and crushing force.

When the power unit 14 transmits the power to the moving screw 12a of the cradle 12 and the crusher 13a of the case 13, the power unit 14 is used in a gear system, a belt pulley system, Any method may be used, and the generation or transmission of the rotational force with the operation of the power section 14 is not described in detail in the present general method.

The power unit 14 may be connected to the moving screw 12a of the cradle 12 and the crusher 13a of the case 13 separately and may be connected to one cradle 12 The crusher 13a of the case 13 may be connected at the same time to transmit the rotational force.

In order to increase the drying efficiency and the shredding efficiency of the shafts flowing into the dryer 10 while allowing the heat medium flowing through the heat transfer portion 12b formed in the cradle 12 to flow more smoothly, 15) may be further formed.

Here, the boiler 15 is generally used to supply hot water or the like having a high temperature by using various kinds of raw materials, and a detailed description thereof will be omitted.

The boiler 15 is connected to the heat transfer part 12b of the cradle 12 so as to supply various kinds of heat transfer materials to the heat transfer part 12b.

And a sensing unit 16 capable of measuring the moisture content contained in the shaft fraction and the moisture content of the shaft fraction dried by the holder 14 and the case 14 while sensing the shaft fraction input into the dryer 10 .

This is because if the water contained in the dried shaft fraction is in excess or less than a predetermined content, the dried shaft fraction is not properly molded into the pellet form, The sensing unit 16 senses the moisture content contained in the shaft 13 passing through the case 13 and controls the operation of the power unit 14 accordingly so that the moving screw 12b and the case 13 (13a) formed in the dryer (10) so that the shaft fraction passing through the drier (10) always contains a constant amount of water, so that the shaft fraction can be smoothly produced in the form of pellets.

In addition, the sensing unit 16 operates in a manner similar to a sensor (not shown in the drawings) which is currently used, such as an infrared sensor or an ultrasonic sensor, and thus a detailed description thereof will be omitted.

This is because if the moisture contained in the dried shrub component exceeds or is less than a predetermined content, the dried shrub component is not properly molded into the pellet form, The sensing unit 16 senses the moisture content contained in the shaft 13 passing through the case 13 and controls the operation of the power unit 14 accordingly so that the moving screw 12b and the case 13 (13a) formed in the dryer (10) so that the shaft fraction passing through the drier (10) always contains a constant amount of water, so that the shaft fraction can be smoothly produced in the form of pellets.

5 to 6, the pelletizing apparatus 20 includes a fixed amount supplying unit 21 for supplying a predetermined amount and amount of dried pellets to the pelletizing apparatus 20, Is formed.

The pellet producing unit 22 is connected to the quantitative supply unit 21 to supply the pellets manufactured by the quantitative supply unit 21 to the pellet maker 22.

In addition, the pelletizing unit 22 may produce pellets of a certain shape through a process such as a compression process, which is supplied from the quantitative feeder 21.

In addition, the shape of the pellets can be formed in various shapes depending on the purpose of the user.

The pellets passed through the pelletizing section 22 are maintained at a constant temperature by a process such as compression. The pellets produced by the pelletizing section 22 are cooled And a cooling screen 23 for sorting the remaining scrap or the like.

In addition, it is preferable to include the weighing and packaging unit 24 that can uniformly pack the pellets manufactured in the size and amount set by the user through the cooling sorting unit 23.

The weighing and packaging unit 24 may be formed only when the container 40 is installed on the moving means 1 or when the container 40 is installed on the ground with the moving means 1 have.

5 to 6, the control power unit 30 is configured to transmit power to the dryer 10 and the pelletizer 20.

A controller 31 connected to the controller 31 for controlling the operation of the dryer 10 and the pelletizer 20; And a driving device 32.

The control unit 31 controls the rotational force of the moving screw 12a formed in the dryer 10 and the flow rate and temperature of the fluid flowing through the heat transfer unit 12b and controls the operation of the crusher 13a As shown in Fig.

In addition, it is configured to control the operation of the ventilation device 41 and the support stand 42 of the container 40 to be described later.

The driving unit 32 is configured to supply or block the power supplied to the dryer 10 and the pelletizing unit 20 by the signal of the controller 31 or to control the moving speed and the like.

In addition, the control power unit 30 is installed inside the container 40. The container 40 can be fixed to the ground, and the container 40 can be installed on the moving means 1, The pelletizing apparatus 20, and the control power unit 30 installed in the container 40 may be operated while moving the pelletizer 40,

5, when the container 40 is installed on the ground, the control power section 30 can not generate power by itself and the control section 31 and the drive device 32 It is preferable to additionally provide a power supply unit 33 having a power generation unit using a generator (not shown in the figure) or an engine (not shown in the drawings) that generates power to supply power.

In addition, the power generated by the power supply unit 33 may be adjusted to variously adjust the force according to the purpose of the user.

Alternatively, the container 40 may be mounted on a moving means 1 such as a freight car without being fixed to the ground. When the container 40 is mounted on the moving means 1, The power generated by the engine of the moving means 1 can be connected and used.

Here, when the container 40 is installed in the moving means 1, since the power generated by the engine can be generated more than a power capable of operating the dryer 10 and the pelletizing apparatus 20, A transmission (34) connected to the engine of the means (1) and capable of constantly changing the power of the engine so that the drier (10) and the pellet manufacturing apparatus (20) can transmit power with a constant force, And a power take-off unit 34 connected to the transmission 34 for transmitting power to the control unit 31 and the drive unit 32. [

1 or 7, the container 40 is installed in the moving means 1 and is configured to store the dryer 10, the pelletizing apparatus 20, and the control power unit 40 inside And a ventilating device 41 is installed at an arbitrary point so as to smoothly discharge the steam generated in the dryer 10 by the dryer 10 and the height of the container 40 can be adjusted while supporting the container 40 A supporting base 42 is formed.

Here, the ventilator 41 is formed of a ventilator (not shown) and a blower (not shown in the figure), which are currently in use so as to discharge the air in the room or to suck fresh fresh air from outside. The description will be omitted.

1 or 7, the container 40 is installed in the moving means 1 and is configured to store the dryer 10, the pelletizing apparatus 20, and the control power unit 30 therein And a ventilating device 41 is installed at an arbitrary point so as to smoothly discharge the steam generated in the dryer 10 by the dryer 10 and the height of the container 40 can be adjusted while supporting the container 40 A supporting base 42 is formed.

The support table 42 formed on the container 40 may be controlled through the control unit 31 formed on the control power unit 30. After a separate controller is formed on the container 40, And the support table 42 may be controlled.

In order to smoothly install the dryer 10, the pelletizing apparatus 20 and the control power unit 30 in the container 40 or to facilitate separation, maintenance, and storage, A door (not shown) and a lock (not shown) such as a lock (not shown) and a lock (not shown in the drawings), which are generally used at present, can be formed to improve security It is self-explanatory, and detailed explanation is omitted. In the case of freight vehicles, you can install the commonly used Nyuwabadi.

The apparatus 10, the pellet manufacturing apparatus 20, the control power section 30, and the switch for controlling the container 40 and the like (not shown in the drawing) The detailed description will be omitted.

A construction method according to a preferred embodiment of the present invention having the above-described construction will be described as follows.

First, the hopper 11 formed in the dryer 10 injects a portion of the shaft to be processed by the user.

Then, the detection unit 16 senses the moisture content and the like contained in the shaft fractions.

Here, it is obvious that the dryer 10 and the pelletizing apparatus 20 are operated by the control unit 31 formed in the control power unit 30, and a detailed description thereof will be omitted.

The container 40 may be installed on the ground according to the purpose of the user or installed on the moving means 1. When the container 40 is installed on the ground, A power is supplied from the power supply unit 33 to the control unit 31 and the driving unit 32 by the operation of the power supply unit 33. [

The control unit 31 senses the amount of moisture contained in the shaft and the amount of the shaft to check the operating state of the sensing unit 16 and controls the power unit 14 of the dryer 10, The rotational force or the rotational speed of the moving screw 12a of the first motor 12 is adjusted.

Thereafter, as the moving screw 12a of the holder 12 is operated, the shaft containing the moisture introduced into the hopper 11 is stirred and moved to the case 13 along the moving screw 12a.

The container 40 may be installed on the ground according to the purpose of the user or installed on the moving means 1. When the container 40 is installed on the ground, The power generated by the power supply unit 33 is transmitted to the control unit 31 and the drive unit 32 by the operation of the power supply unit 33. [

Then, the shaft portion that has moved along the moving screw 12a is dried by the heating medium introduced into the inside of the heat transfer portion 12b, and is moved to the case 13 through the mounting table 12.

The heating medium heated to a predetermined temperature or higher flows through the boiler 15 formed in the dryer 10 and flows into the heat sink 12 through the heat sink 12, The shaft fraction is dried easily according to the value set by the user.

The dried shaft portion moved to the case 13 by the moving screw 12a of the cradle 12 is crushed by the crusher 13a formed in the case 13 to have a predetermined size or the like.

When the container 40 is installed on the ground as described above, the power supply unit 33 is installed in the control power unit 30 and the case 13 is moved from the holder 12 to the case 13, .

The heating medium heated to a predetermined temperature or higher flows through the boiler 15 formed in the dryer 10 and flows into the heat sink 12 through the heat sink 12, The shaft fraction is dried easily according to the value set by the user.

In detail, when the engine installed in the moving means 1 is operated, the transmission 34, which converts the rotational force of the engine into a predetermined value, is operated to convert the rotational force of the engine into a rotational force set by the user.

The power transmitted through the transmission 34 is transmitted to the power take-off unit 35 and is transferred from the power take-off unit 35 to the control unit 31 and the drive unit 32.

Then, the control unit 31 senses the amount of shaft dust charged into the hopper 11, moisture content, and the like, and operates the driving unit 32 to control the power unit 14 of the dryer 10 The movable screw 12a of the mount 12 rotates in accordance with the amount of the molten metal or the moisture content and the molten metal charged into the mount 12 is moved to the case 13. [

In detail, when the engine installed in the moving means 1 operates, the transmission 34 that converts the rotational force of the engine to a predetermined value is operated, and the rotational force of the engine is converted into the rotational force set by the user.

Here, when the fluid that is the heating medium flows through the heat transfer unit 12b, the fluid that is the heating medium is allowed to flow while operating the boiler 15 is the same as that described above, so a detailed description will be omitted do.

Then, the control unit 31 senses the amount of shaft dust charged into the hopper 11, moisture content, and the like, and operates the driving unit 32 to control the power unit 14 of the dryer 10 The movable screw 12a of the mount 12 is rotated in accordance with the quantity of the molten metal or the moisture content and the molten metal charged into the mount 12 is moved to the case 13. [

As described above, the container 40 may be installed on the ground, or may be installed on the moving means 1 and used.

Here, when the container 40 is installed on the ground and when the container 40 is installed on the moving means 1, only the power supply means supplied to the movable pellet manufacturing system 50 is different.

The shaft portion moved from the hopper 11 to the cradle 12 moves to the case 13 and the crusher 13a formed in the case 13 rotates by the power portion 14. [

Then, the shaft portion moved to the case (13) is crushed to a predetermined size by the crusher (13a).

In the meantime, when drying the shredded shredded material by the case 13 through the receptacle 12 through the hopper 11 and drying the shredded shredder more efficiently, the case 12 and the case 13 are separated from each other And dried and shredded.

As described above, the drier 10 is moved as set by the user by the control unit 31 formed on the control power unit 30, and the shafts are smoothly dried and crushed.

The steam generated by the dryer 10 is generated by the operation of the dryer 10 as described above. The steam is generated by the ventilator 41 formed in the container 40 in which the dryer 10 is installed. So that the drying efficiency of the dryer 10 can be improved.

In the meantime, when drying the shredded shredded material through the case 13 by way of the hopper 11 through the hopper 11 and drying the shredded shredder more efficiently, the holder 12 and the case 13 It may be installed in a single or multiple means to dry and crush the shaft fraction.

As described above, the dryer 10 operates as set by the user by the control unit 31 formed in the control power unit 30, and the shaft is dried and crushed smoothly.

Meanwhile, as described above, the dried and crushed scraper is introduced into the drier 10 and moved to the fixed amount feeder 21 formed in the pelletizer 20.

Then, the dried fractions of the dried powder in the dryer 10 are classified into a certain size, shape, weight and the like according to the values set by the user in the quantitative feeder 21.

Thereafter, the dried pellets are passed through the pelletizing unit 22 through the pelletizing unit 21 to be pelletized through a compression process or the like.

Also, the pellets manufactured through the pelletizing unit 22 are moved to the cooling sorting unit 23, and the pellets are cooled to a predetermined temperature, and the pellets are produced, and the scraps are classified.

In this case, the dried fraction produced by the dryer 10 is classified into a certain size, shape, weight, or the like according to the value set by the user in the quantitative feeder 21.

When the control unit 31 formed in the control power unit 30 is operated by the operation of the pelletizing apparatus 20 as described above, when the pellet passing through the pelletizing apparatus 20 is made into pellets, The pelletizing unit 22 and the cooling screening unit 23 of the pelletizing apparatus 20 are controlled in accordance with the purpose of the user by operating the driving apparatus 31 while sensing the state of the pelletizing apparatus 20 will be.

When the container 40 is installed on the ground, the pellets passing through the cooling sorting section 23 are moved to the weighing and packaging section 24 which can package the pellets in a predetermined amount. Thus, .

Here, when the dried shredded portion is moved to the pelletizing apparatus 20 to be made into pellets, the pellet producing unit 22, the cooling sorting unit 23, It is to be understood that the shaft fractions or pellets moved to the part 24 are moved by means of a transportation device (not shown in the figure) such as a conveyor belt currently in use, and a detailed description thereof will be omitted.

When the control unit 31 formed in the control power unit 30 is operated by the operation of the pelletizing apparatus 20 as described above, when the pellet passing through the pelletizing apparatus 20 is made into pellets, The pellet producing unit 22 and the cooling sorting unit 23 of the pelletizing apparatus 20 are controlled in accordance with the purpose of the user by operating the drive unit 31 while sensing the state of the pelletizing unit 20 will be.

On the other hand, as described above, when the shaft stock is dried in the container 40 loaded on the moving means 1 and made into pellet fuel or compost, the moving means 1 is fed through the support table 42 formed on the container 40, The container 40 can be easily mounted on the ground while being loaded.

For example, it is possible to control the support table 42 of the container 40 through the control unit 31 formed in the control power unit 30, and to control the support table 42 through the controller, You may.

In this way, the livestock produced from livestock can be processed directly in the area where the livestock has been produced through the convenient moving means (1), and made into pellets such as compost or fuel, thereby reducing the cost of processing the livestock product and transporting the processed product And the pellets are produced in the form of pellets, so that they can be stored for a long period of time and can be conveniently used by the user.

In addition, by reworking the waste material as a waste compost or fuel, it can be processed into biomass energy using the waste material to reduce environmental pollution, and the natural waste material can be used as an environmentally friendly fuel, thereby obtaining an environmental effect and an economical effect It will be possible.

In addition, it is possible to reprocess the shaft portion by moving through the moving means (1) in any region where the shaft portion is generated, so that there is no need for a separate sheet to process the shaft portion and excellent economic effect due to increase in the operationality of the equipment.

In addition, when drying the stem powder generated from the livestock, a 'U' shaped heat transfer part 12b is formed in the dryer 10 so as to surround the moving screw 12a, It is possible to more efficiently dry the shaft part and to break the shaft part smoothly through the crusher 13a and to form the cradle 12 and the case 13 of the drier 10 according to the purpose of the user So that the drying effect and the crushing effect can be enhanced.

In addition, the shaft portion injected into the dryer 10 through the fluid as the heat medium flowing through the heat transfer portion 12b formed in the mounting table 12 of the dryer 10 is more smoothly dried, and the shaft portion connected to the heat transfer portion 12b The temperature of the fluid can be controlled through the boiler 15, thereby improving the drying efficiency.

In addition, by discharging the steam generated during the drying of the stem components to the outside of the container 40 through the ventilation device 41 formed in the container 40, the drying efficiency by the steam can be prevented from being lowered, .

In addition, when drying the stem powder generated from the livestock, a 'U' shaped heat transfer part 12b is formed in the dryer 10 so as to surround the moving screw 12a, The shaft portion can be more efficiently dried and the shaft portion can be smoothly broken through the crusher 13a and the holder 12 and the case 13 of the dryer 10 can be crushed by the single or multiple means So that the drying effect and the crushing effect can be enhanced.

10: Dryer
11: Hopper
12: Cradle 12a: Moving screw
12b: heat transfer part 13: case
13a: Crusher 14: Power unit
15: boiler 16:
20: Pelletizer
21: Quantitative supply part 22: Pellet manufacturing part
23: cooling and sorting unit 24: weighing and packaging unit
30: control power section
31: Control section 32: When shifting
33: Power take-off unit 34: Hydraulic pump
40: Container
41: ventilation device 42: support
50: Mobile pellet manufacturing system

Claims (11)

A hopper 11 into which the shaft fraction is injected and a moving screw 12a formed below the hopper 11 and moving the shaft fraction while stirring the inside of the hopper 11 are formed and water vapor generated by the dried raw material easily escapes to the upper side A crusher 12 which is formed below the cradle 12 and inwardly crushes the shaft portion transferred by the moving screw 12a to the inside thereof, A power unit 14 for driving a crusher 13a formed in the case 13 and a power unit 14 for driving the crane 12 and the case 13, A boiler 15 capable of supplying a heating medium to the heat transfer portion 12b of the mount table 12 and a shaft portion And a sensing section (16) capable of measuring moisture contained in the shaft fraction A dryer (10);
A pellet producing unit 22 for producing a pellet by processing the shaft fraction supplied from the fixed amount supplying unit 21, a pellet producing unit 22 for producing pellets, A cooling and sorting section 23 for sorting the residue while cooling the pellets produced by the cooling section 22 is provided with a weighing and packaging section 24 for packaging while controlling the size and amount of pellets produced from the cooling section 23, (20);
A controller 32 for controlling the operation of the dryer 10 and the pelletizer 20 and the container 40. The controller 30 controls the operation of the dryer 10 and the pelletizer 20, The control unit 31 and the power supply unit 33 for supplying power to the drive unit 32 are formed when the container 40 is not installed on the moving unit 1, A transmission 34 connected to the transmission 34 for controlling the number of revolutions of the power generated by the engine provided in the moving means 1 when the container 40 is installed in the moving means 1, 31) and a power take-off unit (35) for supplying power to the drive unit (32);
And a container 40 in which the dryer 10, the pelletizing apparatus 20, the control power unit 30, the ventilator 41, and the support base 42 capable of controlling the height are provided. A mobile pellet manufacturing system. delete delete delete delete delete delete delete delete delete delete

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