KR102234109B1 - Drying apparatus for enhancing dry efficiency - Google Patents

Abstract

The present invention discloses a drying apparatus capable of improving drying efficiency by drying an object to be dried while the drying plate generates heat at a high temperature by heating the heating medium oil filled in the drying plate with a heating coil.

Description

Drying device using heating coil and heat medium oil{DRYING APPARATUS FOR ENHANCING DRY EFFICIENCY}

The present invention includes a cylindrical body having an input port formed on one side of the upper portion so that the object to be dried is input and dried, and having an empty inside; It is installed in the upper and lower multi-stage inside the body, and is a disk shape having a predetermined thickness, and a predetermined amount of heat medium oil is filled inside, and a heating coil for heating the heat medium oil is mounted on one side of the heat medium oil heated through the heating coil. A drying plate for heating and drying the object to be dried while generating heat by heating; A shaft installed perpendicular to the center of the main body and rotating by receiving power from a motor; It is coupled to the shaft and is provided with a plurality of moving holes coupled to be inclined at predetermined intervals so that the object on the drying plate is gradually moved to the center or outer edge of the drying plate while rotating together with the shaft, and radially on the drying plate. At least one scraper to be installed; It relates to a drying apparatus using a heating coil and heat medium oil comprising a; a falling groove formed on the drying plate so that the object to be dried, which has been moved to the central portion or the outer edge of the drying plate by the moving port, falls to the bottom. .

The drying device refers to a device that dries a wet object to be dried, and is used for objects such as water supply, industrial water, industrial wastewater, sewage and manure, food, and the like, and the range of use thereof is very wide.

In a conventional drying apparatus, the dried product is heated with high-temperature air heated using a boiler to reduce moisture and discharge humid air to the outside to allow drying.

The drying method is to use a boiler as a heat source and dry the object to be dried with high-temperature air through the boiler, and the boiler used as the heat source has an operating method of obtaining high-temperature heat by heating water. There is a limit to the temperature of the heat obtained, and there is a problem in that drying efficiency is deteriorated due to heat loss in the process of discharging high-temperature air with increased humidity to the outside.

In addition, due to the development of dietary habits, food wastes thrown away at home or at restaurants, foods discarded in the process of selling and distributing foods, garbage discarded while trimming foods during the cooking process, such as at homes and restaurants, food wastes left over from eating, storage and distribution institutions. The amount of food waste that is just thrown away is about 11,237 tons per day, and about 4.1 million tons per year, reaching 1,400 units with an 8-ton truck. Is increasing little by little again.

Various drying devices have been disclosed for the effective treatment of such food waste, and as an example, there is a "sludge drying device with increased residence time" in Korean Patent Publication No. 10-0894175.

The biggest feature of the drying device is that it uses a hot air as a heat source to transfer heat to the drying plate, and heats the drying plate by supplying hot air to a supply pipe connected to the heat source and disposed at the bottom of the drying plate to heat the sludge on the drying plate. Was allowed to dry.

However, since the above drying apparatus must supply hot air generated from an external hot air fan to the supply pipe at the bottom of the drying plate, a separate high-pressure pump must be provided. As the hot air is supplied at high pressure, the pressure vessel is regulated ( 2kg/cm ²⁾ ), so the drying plate must maintain a thickness of at least 12t.

However, if the drying plate has a thickness of 12 tons or more according to the regulation of the pressure vessel, the manufacturing cost is inevitably increased, and the amount of hot air that can be introduced into the drying plate is relatively reduced, so that the drying efficiency is inevitably lowered.

In addition, heat loss occurs in the process of being supplied from the hot air fan to the supply pipe, and in the process of supplying the evaporated hot air to the heat source after drying through the receiver, causing unnecessary power consumption because the hot air must be continuously operated to maintain the high temperature. There was a problem to become.

The present invention is invented to solve the above problems, in a drying apparatus in which an object to be dried is dried on a drying plate heated by heat supplied from a heat source, heating the heat medium oil filled in the drying plate with a heating coil Therefore, drying efficiency can be improved by drying the object to be dried while the drying plate heats up at a high temperature, and a configuration for supplying heat at high pressure (for example, a high pressure pump) can be omitted. Its purpose is to provide a drying device that can reduce the thickness and significantly reduce the manufacturing cost through this.

For the above object, the present invention includes a cylindrical body having an input port formed at one side of the upper portion so that the object to be dried is input and dried, and having an empty inside; It is installed in the upper and lower multi-stage inside the body, and is a disk shape having a predetermined thickness, and a predetermined amount of heat medium oil is filled inside, and a heating coil for heating the heat medium oil is mounted on one side of the heat medium oil heated through the heating coil. A drying plate for heating and drying the object to be dried while generating heat by heating; A shaft installed perpendicular to the center of the main body and rotating by receiving power from a motor; It is coupled to the shaft and is provided with a plurality of moving holes coupled to be inclined at predetermined intervals so that the object on the drying plate is gradually moved to the center or outer edge of the drying plate while rotating together with the shaft, and radially on the drying plate. At least one scraper to be installed; A falling groove formed on the drying plate so that the object moved to the center or the outer edge of the drying plate falls to the bottom by the moving port; including, but extending from the central portion of the drying plate to the bottom, and the heat medium oil therein A heat medium oil storage unit having a predetermined diameter to be stored, and a heat medium oil transfer path having both ends formed at both ends of the input to be fed into the heat medium oil storage unit and connected to communicate with the upper portion of the heat medium oil storage unit, and the output of the heat medium oil discharge. And a communication pipe connected to the output so as to re-inject the heat medium oil discharged to the output into an input, and the heating coil is disposed between the input and the output, and the heat medium oil transfer path allows the heat medium oil to flow between the central part of the drying plate and the outer edge. It is characterized in that a plurality of arrangements are formed in the drying plate at regular intervals along the circumferential direction so that the drying plate is evenly heated while moving along the part.

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In addition, in the present invention, a belt-shaped housing in which a bracket in a "c" shape is formed along the periphery is coupled along the outer circumferential surface of the drying plate, and the shaft is a fixed shaft vertically installed at the center of the drying plate and the fixing It is rotated by the power of a motor inside the shaft, but consists of a rotating shaft in which a fastening part and a fastening groove are respectively formed at the top and bottom so that it can be fitted in multiple stages, and the drying plate is sequentially installed from the bottom to the top, and then dried. It is characterized in that it is possible to assemble the drying plate in multiple stages according to the site situation by combining the housing of the plate and the rotating shaft.

In addition, a steam outlet for discharging the steam generated in the drying process of the object to be dried to the outside is formed on the upper part of the main body according to the present invention, and a cooling condenser for cooling and condensing the steam discharged through the steam outlet is provided. The condensed water is discharged to the outside while passing through the cooling condenser, and the circulation in which the remaining low-temperature, low-humidity air is injected back into the body is repeated, so that the odor contained in the steam can be removed.

The present invention made as described above can improve the drying efficiency by heating the heating medium oil filled in the drying plate with a heating coil to dry the object to be dried while the drying plate heats up at a high temperature. There is an advantage in that the thickness can be reduced and the manufacturing cost can be significantly reduced through this.

In addition, it is possible to secure the time to stay on the drying plate by gradually moving the object to be dried inputted by the moving port of the scraper toward the center or the outer edge of the drying plate, and at regular intervals along the circumferential direction inside the drying plate. Drying efficiency is remarkably excellent by forming a heat transfer path so that the high temperature heat transfer oil heated by the heating coil is uniformly moved along the center and outer edges of the drying plate.

In addition, in the present invention, the drying plate and the shaft are configured to be assembled in a multi-stage up and down, so that the height can be adjusted to suit the site situation in which the drying device is installed.

In addition, the steam generated in the drying process of the object to be dried is introduced into the cooling condenser through the output to remove the contained condensate and then re-introduced into the body to remove the odor in the air, thereby reducing the damage caused by the odor and air pollution. There is an advantage that can be prevented.

1 is a schematic illustration of a drying apparatus using a heating coil and heat medium oil according to the present invention.
2 and 3 are schematic illustrations for explaining a drying plate according to an embodiment of the present invention.
4 to 5 are schematic exemplified diagrams for explaining the principle in which objects to be dried are sequentially transferred to the bottom according to an embodiment of the present invention.
6 and 7 are schematic exemplified diagrams for explaining the principle in which the drying plate is assembled in a multi-stage top and bottom according to an embodiment of the present invention.

Hereinafter, a drying apparatus using a heating coil and heat medium oil according to the present invention will be described in more detail with reference to the accompanying drawings.

1 is a schematic illustration of a drying apparatus using a heating coil and heat medium oil according to the present invention, wherein the drying apparatus has an inlet 110 formed on one side of the upper portion so that an object to be dried can be injected and dried, and a space therein A cylindrical body 100 to be formed is provided, and a drying plate 200 on which the object to be dried input through the inlet is dried is provided inside the body.

The drying plate 200 is a disk shape having an empty inside and a predetermined thickness, and a predetermined amount of heat medium oil 211 is filled therein, and a heating coil 230 for heating the heat medium oil is mounted on one side. Heat medium oil is a known material that can be heated up to 250 to 300°C and has a wide usable range. In the present invention, the heating medium oil heated through the heating coil 230 directly heats the drying plate so that the drying plate heats up to a remarkably high temperature while drying the object to be dried.

Among the drying apparatuses disclosed in the prior art, the method of transferring high-temperature heat generated from an external heat source to the object to be dried through high-pressure spraying inevitably causes heat loss during the transfer process. It is regulated (2kg/cm2 ⁾ ), so the thickness of the drying plate must be maintained at least 12t. As the thickness of the drying plate increases, the manufacturing cost is inevitably increased, and since heat cannot be transferred smoothly to the object on the drying plate, drying efficiency is inevitably reduced, and the operating time of the heat source is increased. none.

The present invention is a structure in which the heat medium oil 211 heated by the heating coil 230 directly heats the drying plate 200, and transfers heat generated from an external heat source such as a high pressure pump or a supply pipe at high pressure. As can be omitted, manufacturing cost can be reduced, and the thickness of the drying plate can be reduced since it is not regulated by pressure vessels. When the thickness of the drying plate becomes thinner, heat is transferred more smoothly to the object to be dried, and thus drying efficiency can be improved.

Next, a heat medium oil storage part 210 in which heat medium oil is stored is formed in the drying plate according to the present invention, and a heat medium oil transfer path 220 communicating with the heat medium oil storage part is formed.

2 and 3, the heat medium oil storage unit 210 is formed to extend from the center of the drying plate to a lower portion by a predetermined height and has a predetermined diameter so that the heat medium oil can be stored therein.

The heating medium oil transfer path 220 is formed in a circumferential direction in the drying plate, is connected to communicate with the upper part of the heating medium oil storage unit, and an input 221 into which the heating medium oil is injected and an output 222 through which the heating medium oil is discharged. Both ends of this are formed.

The heating coil 230 is disposed between the input and the output, a partition wall 240 is provided on the output side to prevent the heat medium oil from being lost to the outside, and both ends of the drying plate communicate with the input and output. A communication pipe 223 is provided for reintroducing the heat medium oil that is connected and discharged to the output as an input.

The heat medium oil can be continuously circulated inside the drying plate through a separate circulation pump (not shown), or when the heat medium oil is heated through the heating coil 230, the temperature and pressure of the heat medium oil storage unit increase. A temperature difference and a pressure difference are generated between the heat medium oil storage unit 210 and the heat medium oil transfer path 220, and as a result, the air in the heat medium oil storage unit 210 moves to the bottom, and the heat medium oil 211 is transferred to the input 221. A change in the input position occurs, and thermal equilibrium is established over the entire interior of the drying plate. In addition, the heat medium oil 211 injected into the input 221 is discharged to the output 222 after being moved along the heat medium oil transfer path 220 and then re-introduced into the heat medium oil storage unit 210 through the communication pipe 223 There is a cycle of becoming.

On the other hand, the heating medium oil transfer path 220 is arranged in a plurality of heat medium oil 211 at regular intervals along the circumferential direction inside the drying plate so that the drying plate is evenly heated while moving along the central part and the outer edge of the drying plate 200. It is preferably formed.

Next, FIGS. 4 and 5 are schematic exemplified diagrams for explaining the principle of drying while the drying apparatus according to the present invention sequentially drops a to-be-dried object from top to bottom.

In the present invention, the drying plate 200 may be provided in a plurality of upper and lower multi-stages inside the main body 100, and the shaft 300 rotated through the rotational force of a motor driven by an external power is vertically positioned at the center of the main body. And a plurality of scrapers 400 radially around the shaft so as to sequentially move the object to be dried from the drying plate installed on the highest layer of the main body to the drying plate installed on the next layer at the bottom. Is installed.

The scraper 400 is coupled to the shaft 300 and rotated together with the shaft, and is disposed at a position spaced apart from the drying plate 200 by a predetermined height, and transfers the object to be dried on the drying plate to the center or the outer edge of the drying plate. A plurality of moving ports 410 are provided on the bottom so as to be gradually moved.

Here, the inclination direction of one or more of the moving ports 410 ′ among the plurality of moving ports 410 is formed in the opposite direction to reduce the moving speed of the object to be dried, thereby increasing the time that the object stays on the drying plate. have.

In addition, it is preferable that the scraper 400 further installs a stirrer 420 in which teeth are formed in the lower portion to perform a role of stirring the object to be dried on the drying plate.

A falling groove 500 is formed on the drying plate 200 for dropping the object moved to the center or the outer edge of the drying plate by the moving port 410 to the lower end. It is preferable that the falling groove 500 is alternately formed in the central portion and the outer edge portion of the drying plate installed in a multi-stage vertically so as to secure a time for the object to be dried to stay on the drying plate.

In addition, in the present invention, the dropping groove 500 may be made of a sharp blade net 510 of a sharp material so that one side is open and the other side is cut from the center. For example, when it is assumed that sludge is input as the object to be dried, sludge with small particles can be dried uniformly on the outside and inside on a drying plate, but in the case of sludge with large particles, the outside can be dried, but the inside contains moisture as it is. It can be discharged by falling sequentially to the bottom of the furnace. Therefore, the sludge having large particles can be crushed through the blade net and then fall to the drying plate at the bottom so that the outside and the inside can be uniformly dried.

In the present invention as described above, when the scraper 400 is rotated together with the shaft 300, the moving port 410 causes the drying plate 200 to alternately move the object to be dried to the central portion and the outer edge of the drying plate 200. The location of the falling groove 500 installed on the drying plate installed in multiple stages is alternately installed in the center and the outer edge of the drying plate so that the object to be dried falls into the falling groove formed in the center of the drying plate, and then In the layer, the drying efficiency can be further improved by allowing the object to stay in the drying plate for a long time by falling into the falling groove formed on the outer edge of the drying plate.

Next, the drying apparatus according to the present invention can be installed by adjusting the height according to the site situation.

6 and 7, a strip-shaped housing 700 is coupled to the outer circumferential surface of the drying plate 200. The housing 700 is formed with a predetermined thickness to protect the drying plate and is made of a metal material having excellent strength. In addition, the housing is formed in the shape of a "c" or an inverted "c" along the circumference, and a bracket having one or more fastening holes formed on the bottom surface thereof is formed.

In addition, the shaft 300 is composed of a fixed shaft 310 vertically installed in the central portion of the drying plate 200 and a rotating shaft 320 that is rotated through the power of a motor inside the fixed shaft.

Here, the rotation shaft has a fastening part 310 and a fastening groove 320 formed at the top and bottom, respectively, and the fastening part of the rotation shaft located at the bottom is fitted into the fastening groove of the rotation shaft located at the top, and thus the power of the motor is applied. It is configured to rotate simultaneously on a plurality of rotation shafts.

The present invention can assemble a drying apparatus by stacking the drying plates in a multi-stage top and bottom through mutual coupling between the housing of the drying plate located at the top and the bottom, and the drying plate is additionally stacked according to the moisture content of the object or the site situation. Or you can separate the stacked drying plates. For example, a drying plate may be additionally laminated so as to increase the time that the dried object stays on the drying plate when drying the dried material having a high moisture content.

In addition, a steam outlet 120 for discharging the steam generated in the drying process of the to-be-dried object to the outside is formed in the upper part of the main body 100 according to the present invention, and the steam discharged through the steam outlet is formed outside the main body. A cooling condenser 700 for cooling condensation may be provided.

For example, when drying food sludge containing moisture inside the main body 100, steam containing moisture and odor is discharged during the drying process of the sludge. It causes serious discomfort due to the odor around it.

Therefore, the steam generated in the drying process is discharged through the steam outlet 120 and passed through the cooling condenser 700, while the moisture contained in the steam is discharged to the outside in the form of condensed water via the drain of the cooling condenser 700, Air containing residual low-temperature, low-humidity odor is re-introduced into the main body 100. The inside of the main body 100 is a state in which high-temperature heat radiated from the drying plate 200 is retained, and odors in the re-injected air are removed by the high-temperature heat.

The present invention can effectively remove the odor generated during the drying process of the object to be dried while repeating this circulation.

The above-described embodiments and the accompanying drawings are merely illustrative of some of the technical ideas included in the present invention. Accordingly, it is obvious that the embodiments disclosed in the present specification are not intended to limit the technical idea of the present disclosure, but to explain the technical idea, and thus the scope of the technical idea of the present disclosure is not limited by these embodiments. Therefore, within the scope of the technical idea included in the specification and drawings of the present invention, all modified examples and specific embodiments that can be easily inferred by those of ordinary skill in the art are included in the scope of the present invention. Should be interpreted as.

100: main body
110: inlet 120: steam outlet
200: drying plate
210: heat medium oil storage unit 211: heat medium oil
220: heat transfer oil transfer path
221: input 222: output
223: communication pipe
230: heating coil
240: bulkhead
300: shaft
310: fixed shaft
320: rotating shaft
321: fastening part 322: fastening groove
400: scraper
410,410′: moving port 420: stirring port
500: falling groove 510: blade net
600: housing
610: bracket 611: fastening hole
700: cooling condenser
M: motor

Claims (4)

A cylindrical body 100 having an input port formed at one side of the upper portion so that the object to be dried is input and dried, and having an empty inside;
It is installed in the upper and lower multi-stage inside the body, and is a disk shape having a predetermined thickness, and a predetermined amount of heat medium oil is filled inside, and a heating coil for heating the heat medium oil is mounted on one side of the heat medium oil heated through the heating coil. A drying plate 200 for heating and drying the object to be dried while generating heat by heating;
A shaft 300 installed perpendicular to the center of the main body and rotating by receiving power from a motor;
It is coupled to the shaft and is provided with a plurality of moving holes coupled to be inclined at predetermined intervals so that the object on the drying plate is gradually moved to the center or outer edge of the drying plate while rotating together with the shaft, and radially on the drying plate. At least one scraper 400 to be installed;
Including; a falling groove 500 formed on the drying plate so that the object to be dried, which has been moved to the central portion or the outer edge portion of the drying plate by the moving port, falls to the bottom,
The heating medium oil storage part of a predetermined diameter which is formed extending from the center of the drying plate to the bottom and stores the heating medium oil therein, and the heat medium oil storage part connected so as to be in communication with the upper part of the heat medium oil storage part. A heat medium oil transfer path having an end formed therein, and a communication pipe for re-injecting the heat medium oil discharged to the output into the input by connecting both ends to communicate with the input and the output are formed,
The heating coil is disposed between the input and the output,
The heat medium oil transfer path comprises a heating coil and heat medium oil, characterized in that a plurality of heat medium oils are arranged in a circumferential direction within the drying plate so that the drying plate is evenly heated while the heat medium oil moves along the central part and the outer edge of the drying plate. Drying device to be used.
delete The method of claim 1,
A belt-shaped housing in which a bracket in a "C" shape is formed along the periphery is coupled along the outer circumferential surface of the drying plate,
The shaft is a fixed shaft vertically installed in the center of the drying plate and a rotating shaft in which a fastening part and a fastening groove are respectively formed at the top and bottom so as to be rotated through the power of a motor inside the fixed shaft, but can be fitted in multiple stages. Consists of,
Drying apparatus using a heating coil and heat medium oil, characterized in that the drying plates are sequentially installed from the bottom to the top, and then the housing of each drying plate and the rotating shaft are combined to assemble the drying plate in multiple stages according to the field situation.
The method according to claim 1 or 3,
A steam outlet for discharging the steam generated in the drying process of the object to be dried to the outside is formed on the upper part of the body,
A cooling condenser for cooling and condensing the steam discharged through the steam outlet is provided,
A heating coil and heat medium oil, characterized in that the circulation of condensed water is discharged to the outside while passing through the cooling condenser and the remaining low-temperature, low-humidity air is injected back into the main body to remove odors contained in the steam. Drying device to be used.

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