KR100308725B1 - Apparatus for drying waste food - Google Patents

Abstract

The present invention relates to a food waste drying apparatus having high drying efficiency and thermal efficiency and capable of continuously feeding and discharging food waste to dry a large amount of food waste within a short time, and having an air inlet and an air outlet. A main body, a plurality of cylindrical cylinders installed in the multi-stage inside the main body with a predetermined height difference, communication ducts provided at different ends of the cylinders so as to communicate in a zigzag manner, and the uppermost cylinders A food waste inlet to be provided, a food waste outlet provided to the lowermost cylinder, and screw feeders respectively installed in the cylinders so that the food waste introduced into the uppermost cylinder is transferred to the lowermost cylinder while sequentially passing through each cylinder; Drive motor for driving screw feeder Characterized in that the burners provided in the lower side of the main body, the water vapor generated inside the cylinder formed hayeoseo containing water vapor outlet duct in which each device in the cylinder is discharged to the outside of the body.

According to the food waste drying apparatus of the present invention configured as described above, the heat transfer area is increased due to the multi-stage cylindrical cylinder, and the drying efficiency is improved, and the air efficiency can be recycled without cooling the heating air, and the thermal efficiency is improved. The evaporation rate is improved and the continuous input and discharge of food waste is possible.

Description

Food Waste Drying Equipment {APPARATUS FOR DRYING WASTE FOOD}

The present invention relates to a food waste drying apparatus, and more particularly, to a high drying efficiency and a thermal efficiency, and to a continuous input and discharge of food waste, a food waste drying apparatus capable of drying a large amount of food waste in a short time. It is about.

In general, food waste is landfilled or used as feed or compost, or fuel, such as livestock through a predetermined recycling process. When food waste is landfilled, severe odors are generated and high levels of leachate are generated. As a result, serious environmental pollution problems such as groundwater contamination are caused, and when food waste is composted, salt pollution accumulates in farmland, which also causes environmental pollution problems.

Accordingly, recently, a feeder apparatus for producing livestock feed by adding various kinds of additives to food waste, or a device for solidifying food waste has been developed and used in part.

Since the feeder and the fuelizer are similar in their technical configurations, the following description will be given using a fuelizer using food waste as an example.

1 is a block diagram of a general fueling device using food waste, Figure 2 is a block diagram of a food waste drying apparatus according to the prior art.

As shown in the drawing, the fuelization apparatus using food waste includes a sorter 120 for sorting non-combustible foreign matter mixed in the food waste, and shredding and pulverizing the food waste in which the foreign matter is sorted through the sorter 120 to a predetermined size. Compression and crusher 130, and the compression feeder 140 to reduce the moisture content to 50 to 60% while compressing and conveying the food waste crushed and crushed through the crusher / crusher 130, and the compression feeder 140 Dryer 150 for drying the food waste of which water is primarily reduced while passing through) to reduce the water content to 5 to 10%, and a transporter for transporting the food waste of 5 to 10% water content to the extruder 170 ( 160 and an extruder 170 for extruding the food waste transported by the conveyer 160 to produce a solid fuel.

Hereinafter, the operation of the fuelization device configured as described above will be described.

When the food waste is collected using the food collection vehicle 180, the food waste is stored in the hopper 110, and the food waste stored in the hopper is discharged to the sorter 120 after the predetermined amount, followed by the sorter 120. As it is transported, foreign matter is sorted out automatically (separating iron and metals by magnetic drums) and manually (separating non-combustible materials such as glass, porcelain, and stainless steel).

Subsequently, the food waste, in which foreign matters are sorted, is crushed and crushed to have a maximum diameter of about 8 mm in the bidirectional rotary blade type crusher / crusher 130, and then transferred to the compression feeder 140, and the compression feeder 140 is moved. As it is transported along, it is first dried to have a water content of 50 to 60%, and then charged into the dryer 150.

As shown in FIG. 2, a jacket 152 is installed at an outer lower portion of the drying container 151, and a heater (not shown) is installed inside the jacket 152. On one side, a heat exchanger 153, a cooler 154, a condensate bottle 155, and a blower 156 are provided.

Accordingly, when a certain amount of food waste is input through the inlet 157, the inside of the drying container 151 is indirectly heated by the heated water by heating the heater, and the food waste is not illustrated in the stirring shaft 158. Drying is made while stirring by the stirring blades.

As such, the steam generated while the food waste is dried is discharged through the air outlet 159 of the drying container 151 to be primarily cooled while passing through the heat exchanger 153, and then sent to the cooler 154 to be cooled to water. The condensate is collected in the condensate bucket 155, the moisture is separated and cooled exhaust air is sent to the heat exchanger 153 by the blower 156 to recover the waste heat from the exhaust air discharged from the air outlet 159 It is supplied to the air suction port 159 'of the drying container 151.

When the food wastes are dried to have a water content of 5 to 10% by the above-described action, the dried food wastes are transferred to the extruder 170 by the feeder 160 to be extruded, thereby making them solid fuel.

By the way, according to the conventional drying apparatus which consists of one cylinder of the drying container which dry | cleans food waste as mentioned above, there existed the following problems.

First, since a drying operation is performed in a state in which a large amount of food waste is put into a drying container, water vapor generated during drying is not effectively discharged, and thus drying efficiency is not good.

In addition, since the steam generated during drying and the discharge passage of the heated air are configured in the same way, the step of condensing the water vapor must be provided to recycle waste heat of the heated air, so that the heated air passes through the cooler and the heat exchanger. The thermal efficiency was also not satisfactory.

In addition, since the drying operation of food waste is performed in one drying container, it is impossible to continuously input and discharge food waste, and other devices (selector, crushing / crusher, compression conveyer, conveyer, extruder, etc.) during the drying operation are not possible. ), And the heat transfer area of the jacket to heat the food waste is small compared to the amount of food waste there was a problem that takes a long time to dry.

The present invention is to solve the above problems, the drying efficiency and the thermal efficiency is high, it is possible to continuously input and discharge food wastes to provide a food waste drying apparatus that can dry a large amount of food waste in a short time It is done.

1 is a block diagram of a general food waste fuelization apparatus.

Figure 2 is a block diagram of a food waste drying apparatus according to the prior art.

3 and 4 show the configuration of the food waste drying apparatus according to the present invention,

3 is a front view of the drying apparatus according to the present invention.

Figure 4 is a side view of the drying apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: drying apparatus main body 12a-12f: cylindrical cylinder

14: communication duct 16: food waste inlet

18: food waste outlet 20: screw feeder

22: timing belt 24: band heater

26: burner 28: air circulation duct

32: water vapor exhaust duct

Food waste drying apparatus according to the present invention for achieving the above object, the main body having an air inlet and an air outlet, a plurality of cylindrical cylinders installed in the multi-stage inside the main body with a predetermined height difference, the cylinder is Communication ducts respectively provided at different ends of the cylinder so as to communicate in a zigzag manner, a food waste inlet provided in the uppermost cylinder, a food waste outlet provided in the lowermost cylinder, and food waste injected into the uppermost cylinder, respectively. Screw feeders respectively installed in the cylinders so as to be sequentially transferred through the cylinders of the cylinders, drive motors for driving the screw feeders, burners installed below the main body, and installed in the cylinders, respectively. Including water vapor discharge ducts And a gong.

According to a preferred feature of the invention, the outer peripheral surface of the cylinder is provided with a band heater for directly heating the cylinder, the air inlet and the air outlet provided in the main body is in communication with each other to continuously circulate the heating air heated by the burner, the cylinder Each screw feeder installed inside to transport food waste is interlocked by one driving motor.

According to the drying apparatus of the present invention having the above characteristics, the drying operation of the food waste is carried out inside the cylindrical cylinder of the multi-stage, so that the heat transfer area is increased, and the separate discharge duct without mixing water vapor in the cylinder with the heating air. Because it is effectively discharged through the air, the air can be recycled without cooling the heated air, and the waste heat of the heated air can be recycled effectively. Input and discharge are possible.

Hereinafter, with reference to the accompanying drawings, the drying apparatus according to a preferred embodiment of the present invention will be described in detail as follows.

3 and 4 show the configuration of the drying apparatus according to the invention, Figure 3 is a front view, Figure 4 is a side view.

As shown, the main body 10 is provided with the first to sixth cylindrical cylinders 12a to 12f in multiple stages with a predetermined height difference, and the first and second cylinders 12a and 12b and the first to sixth cylindrical cylinders 12a to 12f. The right side of the third and fourth cylinders 12c and 12d, the fifth and sixth cylinders 12e and 12f, and the second and third cylinders 12b and 12c, the fourth and fifth cylinders 12d and 12e. The left side communicates with the communication duct 14, respectively, and the food waste inlet 16 and the food waste outlet 18 are respectively provided in the uppermost 1st cylinder 12a and the lowermost 6th cylinder 12f. .

In addition, screw feeders 20 are disposed in the first to sixth cylinders 12a to 12f to transfer the food waste put into the first cylinder 12a to the sixth cylinder 12f, respectively. And screw feeders in the second cylinders 12a and 12b, screw feeders in the third and fourth cylinders 12c and 12d, left ends of the screw feeders in the fifth and sixth cylinders 12e and 12f, and second and The screw feeder in the third cylinder 12b, 12c, the right end of the screw feeder in the fourth and fifth cylinders 12d, 12e are connected by a timing belt 22, and the right end of the screw feeder in the sixth cylinder. Is connected to a drive motor (not shown).

Therefore, the driving of each screw feeder 20 installed in the first to sixth cylinders can be made by one drive motor.

On the other hand, four band heaters 24 for heating the cylinders are provided on the outer circumferential surfaces of the first to sixth cylinders 12a to 12f, respectively, and a burner 26 for heating the air below the main body 10. Is installed.

Here, direct heat can be applied to the sixth cylinder 12f by allowing the installation angle of the burner to be adjusted.

An air circulation duct 28 through which the heated air is circulated is connected to the main body 10 so as to connect the air inlet 30 and the air outlet 30 ′, and the main body 10 is connected to the air circulation duct 28. In addition to the air inlet 30 to be connected, a separate air inlet (not shown) for introducing external air into the main body is provided, and the first to sixth cylinders 12a to 12f include steam generated in the cylinder. A plurality of steam discharge ducts 32 for discharging to the outside are provided, respectively, and the steam discharge ducts 32 are connected to ducts 34 provided in the main body.

Here, reference numeral 32 ′ is a portion to which the steam discharge duct is connected, and the steam discharge duct 32 is shown only in FIG. 4 for clarity of the drawing.

Hereinafter, the operation and effects of the present invention configured as described above are as follows.

When the drying apparatus is operated, the screw feeder 20 is driven by the driving of the motor while the air is heated by the burner 26, and the heated air heats the outer circumferential surfaces of the first to sixth cylinders 12a to 12f. As it passes, it rises above the body by natural convection.

Therefore, the food waste continuously fed into the first cylinder 12a through the food waste inlet 16 is driven by the screw feeder 20 from the second cylinder 12b to the third cylinder 12c to the fourth cylinder 12d. ) → the fifth cylinder 12e → the sixth cylinder 12f is sequentially dried inside the cylinder while passing through, and then the food waste dried at a predetermined water content (for example, 5 to 10% water content) is a food waste outlet. It is discharged continuously through 18.

In such a food drying process, water vapor generated inside the cylinder is introduced into the duct 34 through the water vapor discharge duct 32 installed in each cylinder, and then discharged to the outside of the main body 10, wherein the sixth cylinder Since the heat quantity of steam generated in the inside of 12f is the highest and the heat quantity of steam generated in the inside of the first cylinder 12a is the lowest, the water vapor in the duct 34 is effectively discharged by the natural convection phenomenon.

Then, the heated air that transfers heat to the cylinder is transferred to the upper side by the natural convection phenomenon and then flows back into the main body 10 through the air outlet 30 ′, the air circulation duct 28, and the air inlet 30. do.

On the other hand, by operating the band heater 24 provided on the outer peripheral surface of the cylinder to combine the indirect heating by the heating air and the direct heating by the band heater 24 it is possible to dry food waste quickly.

The present invention is not limited to the above embodiments, but may be modified and changed by those skilled in the art within the spirit and scope of the appended claims.

As described above, according to the food waste drying apparatus according to the present invention, since the drying operation of the food waste is performed in the cylindrical cylinder of the multi-stage, the heat transfer area is increased to improve the drying efficiency, and the steam inside the cylinder is mixed with the heated air. Because it is effectively discharged through a separate discharge duct, it is possible to recirculate the air without cooling the heating air, thereby improving the thermal efficiency and the evaporation rate, and drying the food wastes while being transported along the multi-stage cylinder. This enables continuous input and discharge of food waste.

Claims (4)

A main body having an air inlet and an air outlet, a plurality of cylindrical cylinders installed in the multi-stage inside the main body with a predetermined height difference, and communication provided at different ends of the cylinders so that the cylinders are connected in a zigzag manner. The duct, the food waste inlet provided in the uppermost cylinder, the food waste outlet provided in the lowermost cylinder, and the food waste introduced in the uppermost cylinder are transferred to the lowermost cylinder while sequentially passing through each cylinder. A screw feeder installed respectively, a drive motor for driving the screw feeder, a burner installed at the lower side of the main body, and steam discharged respectively installed in the cylinder to discharge water generated inside the cylinder to the outside of the main body; Including the ducts Food waste drying apparatus characterized by. The food waste drying apparatus according to claim 1, wherein a band heater is installed on an outer circumferential surface of the cylinder. The food waste drying apparatus according to claim 1 or 2, wherein the air inlet port and the air outlet port communicate with each other. 4. The food waste drying apparatus according to claim 3, wherein each screw feeder is rotated in conjunction with one driving motor.