KR101415182B1 - drying control system and the method of organic waste matter - Google Patents

Abstract

The present invention relates to a drying control system and method for organic wastes, A stirring motor for stirring a shaft shaft in a main body heated by a burner, a stirring motor for rotating the shaft shaft for stirring the shaft shaft in the main body, a load cell for sensing the weight of the main shaft, And a control panel for outputting a signal as a notifying means for informing the operator that the moisture content is below the set moisture content. The present invention also provides a system for controlling drying of organic wastes and a method thereof. According to the present invention, by using pellets (solid fuel) produced by drying the fodder when producing alternative fuels or fertilizers using organic wastes such as fodder, power consumption for fodder drying is minimized, The weight change can be converted into the water content, the change amount can be measured in real time, and the driving of the drying apparatus can be controlled so as to dry the shaft fraction, thereby precisely drying the water to have a desired moisture content. Therefore, it is possible to produce fertilizer or pellets of good quality by using the drying apparatus according to the present invention.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drying control system for organic wastes,

The present invention relates to a system and method for controlling drying of organic wastes. More specifically, the present invention relates to a system and method for drying organic wastes using organic wastes such as cattle manure such as cattle horses (hereinafter referred to as " The present invention relates to a drying control system for organic wastes to be dried.

At present, the average daily amount of livestock manure produced in Korea is 193,000 tons, which accounts for 1% of total wastewater and 15% of BOD-based pollutant loads. Most of the generated amount of such fodder is treated by the purification method and discharged to the water system such as river or river, and some is recycled due to composting and liquefaction. However, in the case of composting, the cost of sawdust, which is the moisture control material at the time of composting, is expensive, the operation cost of the facility is excessively high and the facilities in operation are extremely limited due to the lack of facility management skill of the livestock farmhouse. In some farms, While chemical fertilizers are preferred for easy use, compost producers are seeing deficits due to high production costs.

On the other hand, recently, there is an attempt to liquefy compost, but the technology has not been established yet, and it is bulky and difficult to work, and the users of the farm are not interested because of inconvenience of storage facility installation and transportation vehicle and spraying work. Especially, when the immature liquid is used, it may cause complaints of the residents due to bad odor, and it is known that the farmers using the fermentation accelerator for insulting the properties of the liquid are lacking in economical efficiency. In addition, it is known that overexposure can cause problems such as accumulation of salts in soil, contamination of ground water, and air pollution caused by ammonia gas. As is known, composting and liquefaction are used for composting, but there is a lack of economical efficiency and a large area of livestock. In case of livestock, additional secondary facilities are inevitable. . In addition, there is a need for a new alternative to the treatment of fodder in the reality that regulations on the generation of odor are strengthened.

Nevertheless, the regulations on farming are becoming increasingly severe, and farming farms are an annoyance in the reality that there is no clear solution to the farming process.

Of course, attempts have been made to develop alternative fuels or fertilizers using such fodder, but such alternative fuels are dried through fermentation process of the fodder during manufacturing with a certain solid carbon.

A general fermentation apparatus uses an agitating screw stirring agitated shaft fractions inside the fermentation space, and has an inlet and an outlet for taking in / out of outside air from one side of the fermentation space do. At this time, when external air is introduced into the fermenter through the inlet, the microorganisms are activated to increase the efficiency of decomposing the fines, and the methane gas generated by the decomposition action is discharged through the outlet.

As an example of such an apparatus for fermenting or drying a starch, Japanese Patent Application Laid-Open No. 10-2011-0105096 has been proposed. And a driving motor for rotating the agitator, wherein the agitator is provided at one side of the main body, and the agitator is provided at one side of the main body, And a heating air introducing means for heating the air to be heated to a predetermined temperature to be introduced into the receiving portion. The main body has a receiving portion formed therein, a heater wire wound around the outer circumferential surface thereof, And a temperature sensor is provided on the inner side. With this structure, the temperature of the receiving portion can be kept constant by controlling and monitoring the driving motor, the heater wire, and the temperature sensor in the control panel.

However, according to the above-mentioned patent, the temperature of the main body accommodating part is increased by turning on the power to the heater wire, so that even if the fermentation of the fermented milk is made, the moisture content of the fermented milk should be reduced by using a separate drying device. In this case, It is not possible to know how much moisture content has been reduced during the fermentation or drying process of the flour, and the device is not driven precisely.

In particular, it is not possible to measure the moisture content during drying of the shaft fraction, and thus it is impossible to know the state suitable for molding with fertilizer or fuel. Therefore, if the skilled operator is not skilled with long experience, There are problems that are difficult to distinguish.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to solve the above problems and to provide a method and apparatus for producing an alternative fuel or fertilizer utilizing organic wastes such as a fossil fuels, and using pellets (solid fuel) And to provide a drying control system and method for organic wastes which can accurately measure the amount of change in moisture content during the fermentation or drying process of the wastewater and thereby control the drying of the wastewater accurately.

It is another object of the present invention to provide a drying control system and method for organic wastes which can be dried by using high-quality shaft fractions for fertilizer and fuel molding because the drying state of the shaft wastes can be known even if they are unskilled.

In order to achieve the above object,

A stirring motor for stirring a shaft shaft in a main body heated by a burner, a stirring motor for rotating the shaft shaft for stirring the shaft shaft in the main body, a load cell for sensing the weight of the main shaft, And a control panel for outputting a signal as a notifying means to notify the operator when the moisture content is below the set moisture content.

At this time, a temperature sensor is provided inside the receiving portion so that the control panel proportionally controls the rotating speed of the stirring motor in proportion to the temperature of the receiving portion of the main body.

The notification means may be a warning light or a buzzer.

In addition, the control panel calculates the weight of the shaft using the weight of the body measured by the load cell, assuming that the water content of the shaft is 85%, and determines whether the water content during drying of the shaft is 15% .

In addition, the control panel calculates the weight of the stem by using the weight of the body measured in the load cell, assuming that the moisture content of the stem is 85%, and determines whether the moisture content of the stem is less than 45% .

The present invention also provides

A drying control method of a control panel for controlling an agitating motor for rotating an agitator for agitating an agitator in a main body heated by a burner, the method comprising the steps of: measuring a weight of the main body, A first step of calculating the weight of the shaft portion charged into the main body; A second step of comparing whether the water content according to the calculated mass weight is equal to or less than a set water content; And a third step of judging that the drying of the shaft fraction has been completed if the calculated moisture content is less than the set water content.

And a fourth step of outputting a signal to the notifying means so that the operator recognizes if the water content in the main body of the main body is less than the set water content after the third step.

According to the present invention, by using pellets (solid fuel) produced by drying the fodder when producing alternative fuels or fertilizers using organic wastes such as fodder, power consumption for fodder drying is minimized, The weight change can be converted into the water content, the change amount can be measured in real time, and the driving of the drying apparatus can be controlled so as to dry the shaft fraction, thereby precisely drying the water to have a desired moisture content. Therefore, it is possible to produce fertilizer or pellets of good quality by using the drying apparatus according to the present invention.

In addition, by informing the operator of the completion of drying through informing means, it is possible to easily determine the ideal state of the fertilizer and the drying state for fuel molding, even if the skilled person is not a skilled worker through long experience.

1 is a perspective view of a drying apparatus for organic wastes according to the present invention.
2 is a front sectional view of a drying apparatus for organic wastes according to the present invention.
3 is a side cross-sectional view of a drying apparatus for organic wastes according to the present invention.
4 is a view for explaining the burner of the present invention.
5 is a view for explaining the flow of the circulating water in the burner of the present invention.
6 is a view for explaining the pellet molding machine of the present invention.
7 is a system block diagram of an apparatus for drying organic wastes according to the present invention.
8 is a flowchart illustrating a drying process of the organic waste according to the present invention.

The drying control system and control method of organic wastes according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 7, the drying control system for organic wastes according to the present invention uses an apparatus for drying organic wastes.

The drying apparatus 100 for drying organic wastes is used to dry the shaft stock 1, which is the excrement of cattle such as cattle or horse, for use as fuel or fertilizer. The shaft stock 1 is filled in the apparatus 1, A receiving portion 122 in which a stirring member 130 for stirring the shaft stock 1 in the receiving portion 122 is provided is formed at the upper portion of the receiving portion 122 and an inlet 124 for feeding the shaft stock 1 is provided at an upper portion of the receiving portion 122 A main body 120 having an outlet 125 for discharging the dried shaft powder to the lower side; A burner 200 installed at a lower portion of the main body 120 to heat the main body 120 by burning the pellets 2 produced by drying the main shaft 1; A load cell 140 for sensing the weight of the main body 120; And a control panel 150 for controlling the driving of the stirring motor 110 when the water content of the shaft fraction 1 is calculated using the weight of the body 120 and the charged shaft fraction 1, .

The main body 120 is installed on the upper part of the base frame 102. The load cell 140 is installed on the upper part of the base frame 102 to measure the weight of the main body 120, ).

Hereinafter, the constituent parts of the present invention will be described in more detail.

The main body 120 is made of a steel plate and has a receiving portion 122 filled with the shaft portion 1 and has a charging port 124 for charging the shaft portion 1 on one side thereof, And an outlet 125 for discharging the dried stem powder 1 is formed.

The main body 120 is manufactured by bending and welding an iron plate having a thickness of 7 mm and a stirrer 130 stirring the shaft stock 1 in the receiving portion 122 is installed therein by a stirring motor 110 do.

At this time, a speed reducer 111 is connected to a rotary shaft of the stirring motor 110 by a belt 112 and a drive sprocket 113 is provided at an output end of the speed reducer 111. The drive sprocket 113 is connected to a chain 114 to the driven sprocket 115 provided at the end of the rotating shaft of the stirring body 130. [

The stirring member 130 includes a rotating shaft 131 that is horizontally extended in the receiving portion 122 and rotated by a stirring motor 110 installed outside the main body 120, And a screw stirring member 132 formed in a twin screw structure.

In particular, the screw stirring member 132 is formed by screws which are opposed to each other in the longitudinal direction of the rotary shaft 131 with a difference in the diameter between the inner and outer screws, and the inner screw rotates in the outward direction from the center of the rotary shaft 131 And the outer screw moves the shaft portion toward the center of the rotating shaft so that the shaft portion 1 is evenly stirred and dried.

According to this structure, the shaft fraction 1 injected into the inlet 124 of the main body 120 is dried to lower the moisture content of the shaft fraction 1.

At this time, the shaft member 1 can be transferred to the loader, and a large amount of the shaft member 1 can be simply input through the inlet 124 of the main body 120. For this, the capacity of the receiving part 122 of the main body 120 is preferably designed to be 4000 to 6100 liters (L).

A safety cover 126 having a net structure is rotatably provided at the inlet 124 to prevent an operator or other animals from entering the inside of the receiving portion 122, A safety cover sensing means 160 for sensing the open / closed state of the safety cover 126 is provided. Therefore, only when the safety cover sensing means 160 senses the closed state of the safety cover 126, the control panel 150 controls the agitation motor 110 to be driven.

At this time, the safety cover sensing means 160 can be generally used as a limit switch, but various kinds of switches can be applied. Particularly, the safety cover 126 has a net structure so that water evaporated during drying is freely discharged through the inlet 124 of the main body 120.

On the other hand, a temperature sensor 162 is provided inside the receiving part 122 to control the rotation speed of the stirring motor 110 in proportion to the temperature, thereby preventing the shaft part 1 from being carbonized during drying.

The deodorization means 104 may be disposed above the main body 120 to remove odors in the steam discharged through the inlet 124 in the drying process of the stem powder 1 filled in the receiving portion 122 desirable. In this case, the deodorizing means 104 is preferably installed on the upper part of the sandwich panel 101 surrounding the main body 120.

A door 127 is provided at a lower end of the main body 120 to close the outlet 125 when the shaft 1 is dried and when the drying of the shaft 1 is completed The door 127 of the discharge port 125 is opened to discharge the dried shaft fraction 1. At this time, at the time of discharging the shaft fraction 1, the stirring motor 110 is driven so that the stirring body 130 is naturally discharged to the discharge port 125 while rotating.

It is preferable that the shaft fraction 1 before the introduction into the main body 120 maintains the moisture content of 80 to 90% and the shaft fraction 1 dried in the main body 120 is water The content should be 40 ~ 50% and the water content should be 15 ~ 20% for pellets (solid fuel).

At this time, a load cell 140 for measuring the weight of the main body 120 is provided in order to calculate the moisture content of the shaft fraction 1 to be introduced into the main body 120 and dried. The load cell 140 is provided under the support frame 121 supporting the main body 120 to measure the weight of the main body 120 and the measured weight of the main body 120 is input to the control panel 150.

The control panel 150 stores the weight of the main body 120 in the main body 120 in the main body 120 in a state in which the main body 120 is empty, When the shaft weight and the body weight are input, the weight of only the remaining shaft weight is subtracted from the shaft weight and the weight of the main body.

At this time, it is preferable that the water content of the shaft fraction 1 charged into the main body 120 is 80 to 90%, and the water content of the charged shaft fraction is assumed to be 85%. In the case of composting, the water content is set to 40 to 50%, and in the case of pellets (solid fuel), the water content is 15 to 20% . For example, the water content for composting is 45%, and for pellet (solid fuel) 15% is the set water content.

In this case, the control panel 150 outputs a signal to the notification means 164 to notify the operator if the water content is less than the predetermined moisture content, so that the operator discharges dried fractions in the body 120. At this time, the notifying means 164 is constituted by a warning light and a buzzer so that the operator can recognize by visual and auditory.

A humidity sensor 166 and a proximity sensor 168 are further provided inside the main body 120 to measure the humidity inside the main body 120 and further measure the volume of the shaft inside the main body 120 through the proximity sensor, It is possible to more precisely grasp the state of the shaft portion being dried in the drying apparatus 150.

Meanwhile, a burner 200 for heating the main body 120 is provided below the main body 120. The burner 200 is provided on the upper side of the base frame 101 and includes a body 210 in which an accommodation space 212 in which the pellet 2 is placed is formed and the upper part is opened, And a conveying screw 220 which rotates in accordance with the driving of the conveying motor 222 and conveys the pellets 2 toward the outlet 213 of the body 210.

At this time, a sieve heater 230, which is an ignition source, is installed on one side of the body 210 to allow the pellet 2 to be ignited. When the pellet 2 is introduced through the hopper 201 guiding the pellet 2 into the upper part of the body 210, the sieve heater 230 drives the pellet 2 to heat the body 120 . The feed motor 222 and the sheath heater 203 are driven under the control of the control panel 150.

In this case, when the conveying screw 230 is rotated at a speed of 50 mm per minute (for example, when the conveying distance of the conveying screw is 2000 mm, 40 minutes is required), the pellet 2 And is gradually transferred to the outlet 213.

The hopper 201 is preferably configured to transfer pellets from a container (not shown) using a bucket elevator (not shown) or a fuel pellet transfer screw (not shown).

An air inlet space 218 is formed in the side of the body 210 for blowing and heating the pellet 2 through the blower 232. The air inlet space 218 An air hole 218 penetrating into the receiving space of the body 210 is formed so that the outside air is forced into the body 210.

When the main body 120 of the pellet 2 is dried and the water content of the burned stems 1 is lower than the predetermined moisture content, the control panel 150 stops the driving of the blower 232 and stops the operation of the pellet 2 Reducing firepower during combustion.

A water jacket 240 is provided on the outer side of the burner 200 to heat the circulating water in the water jacket 240 using heat generated by burning the pellet 2, 12 may be circulated to be used for heating the room 10 or the water of the water supply equipment flowing into the water jacket 240 may be heated and the heated hot water may be used for bathing or washing through the distributor 20 In this case, the heat source can be efficiently used by adopting a structure in which the pump 22 is used for forced circulation.

'형상의 회전용 손잡이(223)를 착탈식으로 장착할 수 있다. 이를 통해 이송용 모터(222)의 구동이 정지되는 경우에는 이송스크류(220)를 수동으로 회전시켜 몸체(210)의 수용공간(212)에 존재하는 펠릿(2)을 강제로 배출시켜 본체(120)하부가 가열되는 것을 방지한다.When the pellet 2 is burned in the body 210 of the burner 200 and the pellet 2 is burned and the pellet 2 is not stirred due to a sudden blackout or the like, It should be able to prevent this burning. To this end, the conveying screw 220 is provided with a latch portion 221 at an end thereof, and an end portion thereof is provided with an latch groove 223a into which the latch portion 221 can be inserted,

Shaped turning handle 223 can be detachably mounted. When the driving motor 222 is stopped, the feed screw 220 is manually rotated to forcibly discharge the pellets 2 existing in the receiving space 212 of the body 210, To prevent the lower portion from being heated.

A guide rail 240 is installed on the base frame 101 to allow the burner 200 to move from the lower side to the lower side of the main body 120, And a wheel 242 that travels on the wheel 240 is provided.

The dried shaft fraction 1 discharged through the outlet 125 of the main body 120 is made of pellets 2 usable for fuel through the pellet molding machine 300.

In this case, the moisture content of the dried stem powder 1 in the main body 120 is 15 to 20%. The pellet molding machine 300 includes a pellet molding plate 320 having a plurality of pellets 322 for discharging the pellets to be injected into the case 310 through the pellet inlet 301, A pressing roller 330 disposed on the upper side of the forming plate 320 and provided with a plurality of rollers 332 which rotate on the upper surface of the pelletizing plate 320 and rotate; And a rotary cutter 340 for cutting the pellet 2 which is molded into a cylindrical shape and discharged through the discharge hole 322 of the pellet molding plate 320. The pellet 2 is molded .

Hereinafter, the process of drying and pelletizing organic wastes using the drying apparatus according to the present invention will be described with reference to FIGS. 1 to 8. FIG.

First, an optional step of introducing the shaft fraction 1 into a crusher and crushing it to a predetermined size or less is performed. (S100) It is preferable that the water content of such an aggregate is 80 to 90%.

In the drying apparatus of the present invention, the control panel is initialized according to the operation of the input means 151 of the operator. When the shaft member 1 having a moisture content of 80 to 90% is loaded through the inlet 124 of the main body 120 using the loader and the safety cover 126 of the inlet 124 is closed, 160 detects the closed state of the safety cover 126 and the control panel 150 drives the stirring motor 110 to rotate the stirring body 130.

At this time, the control panel 150 calculates the weight of the stem (assuming the moisture content of the stem is 85%) using the weight of the body measured by the load cell 140, and sets the moisture content according to the stem weight to the moisture content 15%, for compost, 45% moisture content).

That is, the control panel 150 detects the weight of the shaft 1 inserted into the main body 120 from the weight of the main body 120 measured by the load cell 140 sensing the weight of the main body 120, And whether or not the water content according to the calculated weight per unit weight is equal to or less than the set water content is determined. If the calculated water content is less than the set water content, it is determined that the drying is completed.

For example, in the case of manufacturing for a pellet, the control panel 150 may be configured such that a shaft portion having a moisture content of 85% is introduced to dry the shaft portion for a pellet (solid fuel) having a moisture content of 15% The weight should be 17.64% of the weight of the batch. Therefore, when 10 tons of the shaft having the moisture content of 85% is fed into the inlet 124 of the main body, the agitation motor ( 110). That is, assuming that the water content of the shaft portion having the input amount of 10 tons is 85%, the solid portion is equivalent to 1.5 tons, and the dried shaft portion for manufacturing the pellet has the water content of 15% do.

If the water content of the shaft portion is less than the set water content through the above process, the control panel 150 outputs a signal to the notification means 164 to allow the operator to recognize the water content (S110)

Thereafter, when the operator opens the discharge port 125 of the main body 120, the shaft fraction 1 dried in the main body 120 is dried and discharged at a moisture content of 15%, which is poured into the pellet molding machine 300, (S120)

In the case of 1,764 tons of pellets thus formed, 0.2646 tons, which is about 15%, is put into the burner 200 and used as a heat source for heating the main body 120. The remaining pellets of 1.4994 tons, which is 85% (S130). ≪ RTI ID = 0.0 >

Therefore, by using the pellet molded as a shaft as a heat source for drying the shaft stock 1, the consumption of electric energy for drying the shaft stock 1 can be minimized.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and the scope of the present invention extends to substantially the same range as the embodiments of the present invention.

1: Component 2: Pellet
104: deodorization means 110: stirring motor
120: main body 126: safety cover
140: load cell 150: control panel
151: input means 162: temperature sensor
164: Notification means 166: Humidity sensor
168: proximity sensor 200: burner
222: conveying motor 223: turning handle
230: Sheath heater 232: Blower
240: Water jacket 300: Pellet molding machine

Claims (7)

A stirring motor 110 for rotating a stirrer 130 stirring the shaft 1 in the main body 120 heated by the burner 200 and a load cell 140 for sensing the weight of the main body 120, And calculating the water content of the shaft fraction 1 charged into the main body 120 by using the weight of the main body 120 and the charged shaft fraction 1 measured by the load cell 140. If the water content is less than the set water content, And a control panel 150 for outputting a signal to a warning lamp or a buzzer,
The main body 120 is formed with a receiving portion 122 filled with the shaft portion 1 and provided with a stirring body 130 stirring the shaft portion 1 by the stirring motor 110, 1), and an outlet 125 for discharging the dried shaft fraction is provided at a lower side of the inlet 124;
The burner 200 is provided at a lower portion of the main body 120 to heat the main body 120 by driving the pellet 2 manufactured by drying the main shaft 1,
The control panel 150 calculates the water content of the shaft fraction 1 by using the weight of the shaft fraction 1 charged into the main body 120 and compares the moisture content of the shaft fraction 1 with the water content of the shaft fraction 1, ),
A temperature sensor 162 is provided inside the accommodating portion 122 so that the control panel 150 adjusts the rotation speed of the stirring motor 110 in proportion to the temperature of the accommodating portion 122 of the main body 120 Wherein the control unit controls the drying of the organic wastes.
delete delete The method according to claim 1,
The control panel 150 calculates the weight of the shaft using the weight of the body measured by the load cell 140, assuming that the water content of the shaft is 85%, and the water content of the shaft for the pellet is set to 15 % Or less of the organic waste.
The method according to claim 1,
The control panel 150 calculates the weight of the stem by using the weight of the body measured by the load cell 140, assuming that the moisture content of the stem is 85%, and the moisture content of the stem for the compost is set to 45 % Or less of the organic waste.
delete delete

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