KR20140145752A - Vibratory hot wind dryer - Google Patents

Abstract

The present invention relates to a vibratory hot air dryer which includes a vibratory motor, a transfer elevator, and a heat-generating coil. The vibratory motor generates vibration. The transfer elevator includes a central cylindrical portion with a plurality of cylindrical holes formed on a side surface and a transfer portion spirally formed on the side surface of the central cylindrical portion, is installed on an upper portion of the vibratory motor to enable an object to be dried injected into the transfer portion to be transferred along the spiral direction by the vibration generated by the vibratory motor, and dries the object to be dried by hot air discharged from the cylindrical holes. The heat-generating coil is installed to be apart from the transfer elevator, and transfers heat to the object to be dried injected into the transfer portion while generating heat, such that the object to be dried is transferred by the transfer elevator in the direction of the vertical spiral to enable efficient processing relative to an installation space; and the object to be dried is efficiently more dried due to not only being dried with the hot air discharged from the transfer elevator, but also being dried with the heat generated in the heat-generating coil.

Description

[0001] Vibratory hot wind dryer [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a drying apparatus, and more particularly, to a vibratory hot air drying apparatus capable of drying a drying object such as agricultural and marine products and processed products through hot air while conveying the object in a spiral direction formed vertically through vibration.

In general, drying is essential to keep agricultural and fishery products that contain moisture or keep them free from degeneration during distribution. Drying is also essential for storage and transportation of processed products such as wood pellets and powdered products. For example, cereals such as rice and barley harvested from the mountains contain a large amount of moisture, so they are dried for storage and transport until they reach the consumer.

Accordingly, drying apparatuses of various types have been used to dry a medium (hereinafter, referred to as a drying object) in the form of particles containing water, such as agricultural products or processed products such as wood pellets.

A tunnel type drying apparatus, which is one of various drying apparatuses, uses a conveyor belt to convey a drying object into a tunnel, and is dried by gas hot wind or a heater. The tunnel type drying apparatus is to dry the object to be dried while moving horizontally. For complete drying, the speed of the conveyor belt must be kept low, which slows the drying process and lowers productivity. In addition, because it is dried while being moved horizontally, it takes a lot of installation area in the production equipment, and thus efficiency in space is reduced.

The drum-type drying apparatus, which is one of the other drying apparatuses, causes the drum to be rotated so that the object to be dried is dried by the hot air introduced into the drum in the course of the drying object being conveyed. Since the drum-type drying apparatus also dries the drying object in the horizontal direction, the drying efficiency is lowered and the drum has a long length.

As a result, the tunnel type drying apparatus and the drum type drying apparatus have a problem that the conveying distance of the drying object for drying is long, the installation area is large, the processing amount is limited, and the processing time is long.

In addition, there is an inefficiency in that the drying time is long because the drying object is not dried because the drying object is transported in the state where the drying object is placed or dried.

Korean Patent Laid-Open Publication No. 10-2012-0092870 (published on Aug.22, 2012) (Name: Method of drying sawdust using steam and method for manufacturing pellet for floor cover using the same)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a vibratory hot air drying apparatus capable of efficiently drying a hot object through heat generated from hot wind and heat generating coil while being conveyed in a spiral direction formed vertically through vibration.

In order to achieve the above object, the present invention provides a vibration motor comprising: a vibrating motor for generating vibration; a central cylindrical portion having a plurality of cylindrical holes formed on a side thereof; and a transfer portion formed in a spiral shape on a side surface of the central cylindrical portion, A conveying elevator installed at the upper part and being conveyed along the spiral direction by the vibration generated by the vibration motor and dried by the hot air discharged from the cylindrical hole, And a heat generating coil installed to be spaced apart from the heat generating coil and adapted to transmit heat to the object to be dried, the heat being generated and supplied to the conveying unit.

In the vibratory hot air drying apparatus according to the present invention, the heat generating coil is wound around the conveying elevator and spirally wound around the conveying elevator, and heat is transferred to the drying object to be introduced into the conveying unit, .

In the vibratory hot air drying apparatus according to the present invention, the heat generating coils are bent and installed on the side of the conveying elevator, and the plurality of heat generating coils are radially installed around the conveying elevator.

In the vibrating hot air drying apparatus according to the present invention, the heat generating coil is made of at least one of inconel or stainless steel.

In the vibrating hot air dryer according to the present invention, the conveying unit may include a bottom surface formed in a spiral shape on a side surface of the central cylindrical part and conveying the dried object put on the upper part along the spiral direction, And a wall.

In the oscillatory hot air drying apparatus according to the present invention, the heat generating coil generates heat at a position of ½ to ⅔ of the conveying elevator with respect to the lower portion of the conveying elevator, and provides heat to the drying object conveyed from the conveying unit .

In the vibratory hot air drying apparatus according to the present invention, the plurality of cylindrical holes are formed to a half to 2/3 position on the side of the center cylindrical portion with respect to the lower portion of the central cylindrical portion, And the heat generating coil generates heat at a position corresponding to the plurality of cylindrical holes and provides heat to the object to be dried conveyed from the conveying portion.

In the vibratory hot air drying apparatus according to the present invention, the temperature of the heat generated by the hot air and the heat generating coil discharged from the cylindrical hole is 30 to 400 ° C.

In the vibration type hot air drying apparatus according to the present invention, a heat insulating case that surrounds the conveying elevator, the vibration motor, and the heat generating coil and is made of a heat insulating material to maintain the temperature of the heat generated by the hot air and the heat generating coils discharged from the cylindrical hole And further comprising:

In the vibrating hot air drying apparatus according to the present invention, one end is communicated with the upper part of the heat insulating case, and the other end is communicated with the lower side of the heat insulating case so as to circulate hot air discharged from the cylindrical hole and heat generated by the heat generating coil. And further comprising:

In the vibrating hot air dryer according to the present invention, the conveying elevator is made of stainless steel.

According to the oscillatory hot air drying apparatus of the present invention, the drying object is conveyed in the spiral direction formed vertically by the conveying elevator which is vibrated by the vibration motor, so that the processing can be performed more efficiently than the installation area.

Further, since the object to be dried is dried not only by the hot air discharged from the conveyance elevator but also by the heat generated in the heat generating coil, the object to be dried can be dried more efficiently.

1 is a cross-sectional view of a vibrating hot air drying apparatus according to an embodiment of the present invention.
FIG. 2 is a view showing a vibration type hot air drying apparatus according to an embodiment of the present invention viewed from above.
FIG. 3 is a view showing a state in which hot air is discharged from a cylindrical hole to a drying object conveyed in a conveyance unit according to an embodiment of the present invention, and heat is provided from the heating coil.
4 is a cross-sectional view of a vibrating hot air drying apparatus according to a second embodiment of the present invention.
FIG. 5 is a top view of a vibrating hot air drying apparatus according to a second embodiment of the present invention.

In the following description, only parts necessary for understanding the embodiments of the present invention will be described, and the description of other parts will be omitted so as not to obscure the gist of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor is not limited to the meaning of the terms in order to describe his invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention, so that various equivalents And variations are possible.

Hereinafter, a vibrating hot air drying apparatus according to the present invention will be described in detail with reference to the drawings.

The object to be dried used in the present invention refers to a medium in the form of particles containing moisture. For example, grains or seeds such as rice, barley, and the like, harvested from a mountain containing water, wood pellets, foodstuffs, chemicals, sawdust as a by-product of wood processing, and the like can be dried objects. However, the technical idea of the present invention is not limited to this, and various particle type media containing water may be dried objects.

1 is a cross-sectional view illustrating a vibration type hot air blower case according to an embodiment of the present invention.

Referring to FIG. 1, a vibration type hot air drying apparatus 100 according to an embodiment of the present invention includes a conveying elevator 10, a vibration motor 20, and a heat generating coil 30.

The conveying elevator 10 includes a central cylindrical portion 12 and a conveying portion 15.

The hot air supply device 50 may be connected to the conveying elevator 10. The hot air supply device 50 may be a boiler or the like for producing hot air. The hot air supply device 50 may be connected to the lower or the lower side of the central cylindrical portion 12 through a pipe. When hot air is produced in the hot air supply device 50, the generated hot air moves into the central cylindrical part 12 through a pipe connected to the lower or lower side of the central cylindrical part 12. Since the hot air is lighter than air, the hot air moved to the lower portion of the central cylindrical portion 12 moves to the upper portion of the central cylindrical portion 12. [

The central cylindrical portion 12 has a plurality of cylindrical holes 13 formed in the side surface thereof. The hot air, which has moved upward from the lower part of the inner surface of the central cylindrical part 12, can be discharged to the outside of the central cylindrical part 12 through the cylindrical hole 13. The hot air discharged through the cylindrical hole 13 can be directly contacted to the drying object in the moving part 15 and dried. In other words, the cylindrical hole 13 is formed toward the top of the bottom surface 14 to discharge the hot air to the object to be dried which is placed on the bottom surface 14, which will be described later.

The transfer section (15) is formed in a spiral shape on the side of the central cylindrical section (12). In other words, the conveying part 15 is formed in a spiral shape on the side of the central cylindrical part 12 and has a bottom surface (14 in FIG. 3) for conveying the dried object put into the upper part along the spiral direction, (16 in Fig. 3) protruded at one end.

The bottom surface (14 in Fig. 3) is a portion for conveying the dried object put on the bottom surface (14 in Fig. 3). An upper part of the conveying elevator 10 is provided with a charging part 17 through which the object to be dried is charged and the object to be dried is put into the upper part of the floor surface 14 of the conveying elevator 10 through the charging part 17. The drying object put on the bottom surface (14 in Fig. 3) is conveyed by the vibration transmitted through the vibration motor 20. [ As mentioned above, the bottom surface (14 in Fig. 3) is formed in a spiral shape on the side of the central cylindrical portion 12. Accordingly, the dried object put on the bottom surface (14 in FIG. 3) can be conveyed along the bottom surface (14 in FIG. 3) formed in a spiral shape on the side of the vertically formed central cylindrical portion 12. The drying object conveyed to the bottom of the bottom surface (14 in Fig. 3) can be discharged through the discharge portion 18 provided under the conveying elevator 10.

A transfer wall (16 in Fig. 3) is protruded from one end of the bottom surface (14 in Fig. 3). It is possible to prevent the drying object from being released to the outside of the bottom surface (14 in Fig. 3) when the drying object being conveyed is conveyed from above the floor surface (14 in Fig. 3) through the projecting formed transfer wall have.

The spiral formed on the bottom surface (14 in Fig. 3) can be formed by tilting 3 to 8 degrees. When the spiral of the bottom surface (14 in Fig. 3) 3). When the spiral of the bottom surface (14 in FIG. 3) is formed by more than 8 degrees, the drying object put on the bottom surface (14 in FIG. 3) is transported at a high speed So that a problem of not being sufficiently dried occurs.

As mentioned above, the plurality of cylindrical holes 13 are formed toward the top of the bottom surface (14 in Fig. 3) to discharge the hot air to the object to be dried which is put on the bottom surface (14 in Fig. 3). The plurality of cylindrical holes 13 may be formed to a half to 2/3 position on the side of the central cylindrical portion 12 with respect to the lower portion of the central cylindrical portion 12. This is because the plurality of cylindrical holes Because the hot air discharged from the blower fan 13 is lighter than air and is raised by the blower pan 45 to be described later. That is, even if the plurality of cylindrical holes 13 are formed at 1/2 to 2/3 positions on the side of the central cylindrical portion 12 with respect to the lower portion of the central cylindrical portion 12, The hot air may be transferred to the drying object being conveyed in the conveying unit 15 formed on the upper portion of the drying unit 15 and dried.

The conveying elevator 10 may be made of stainless steel. Stainless steel, which is a material of the conveying elevator 10, may be made of SUS310S, SUS304, etc., which are strong in corrosion resistance and excellent in heat resistance. However, the technical idea of the present invention is not limited to this, but a general structural rolled steel having excellent corrosion resistance and excellent heat resistance, typically SS400 (cabon steel), may also be used.

The vibration motor 20 is a portion that generates vibration. In other words, it is installed at the lower part of the conveying elevator 10 to vibrate the conveying elevator 10 to convey the dried object put on the floor surface (14 in Fig. 3) along the spiral direction. That is, as the vibration motor 20 is operated to vibrate, the conveying elevator 10 also oscillates, and not only the drying object put on the conveying unit 15 is transferred to the lower portion of the conveying unit 15, It is vibrated and dries more efficiently.

The vibration motor 20 may be installed at a lower portion of the conveying elevator 10 by 15 to 40 degrees to vibrate the conveying elevator 10. The reason why the vibration motor 20 is installed at an angle of 15 to 40 degrees to the lower portion of the conveyance elevator 10 is to direct the vibration transmitted to the conveyance elevator 10. As described above, since the conveying elevator 10 is installed with the vibration motor 20 inclined by 15 to 40 degrees to convey the drying object from the upper part of the conveying part 15 to the lower part by the vibration transmitted from the vibration motor 20, Can be transported with this directionality.

The oscillating hot airflow case 100 according to the embodiment of the present invention is configured such that the charging unit 17 is installed on the conveying elevator 10 and the discharging unit 18 is provided on the lower part of the conveying elevator 10, The drying object charged through the evaporator 17 is transferred to the lower portion of the conveying elevator 10 by the vibration transmitted from the vibration motor 20 to discharge the discharging portion 18. [ However, the technical idea of the present invention is not limited to this, and if the loading part 17 into which the drying object is put is installed in the lower part of the conveying elevator 10 and the discharging part 18 discharging the drying object is installed in the conveying elevator 10, the drying object can be transferred from the lower part of the conveying elevator 10 to the upper part by adjusting the installation angle of the vibration motor 20. [ That is, when the vibration motor 20 is installed at a lower portion of the conveying elevator 10 by being inclined at 140 to 165 degrees, the drying object can be conveyed from the lower portion of the conveying elevator 10 to the upper portion thereof.

As described above, the vibration motor 20 can adjust the directionality of the vibration transmitted to the conveying elevator 10 according to the installation angle provided at the lower portion of the conveying elevator 10. [

The heat generating coil 30 is installed to be spaced apart from the conveying elevator 10 and generates heat to transfer heat to the object to be dried,

The heating coil 30 can be wound around the conveying elevator 10 around the conveying elevator 10 and spirally wound around the conveying elevator 10. Referring to FIG.

FIG. 2 is a view showing a vibration type hot air drying apparatus according to an embodiment of the present invention viewed from above.

Referring to FIG. 2, the heat generating coil 30 is a device capable of generating heat when power is supplied, and transfers heat to the object to be dried, which is supplied to the conveying unit 15, by supplying heat to the air through heat. In other words, the heat generating coil 30 is a device for generating heat to the air and is wound around the conveying elevator 10 in the form of a spiral around the conveying elevator 10, It is possible to transmit heat to the drying object to be dried.

As a result, since the object to be dried can be dried not only by the hot air discharged from the cylindrical hole 13 of the central cylindrical portion 12 but also through the heat provided by the heat generated in the heat generating coil 30, .

The heating coil may be made of at least one material selected from the group consisting of inconel and stainless steel. In other words, a metal having excellent heat resistance can be used as the heat generating coil. The above-mentioned heat resistant stainless steel or nickel having excellent heat resistance is mainly composed of 15% of chromium, 6 to 7% of iron, 2.5% of titanium, % Or less of aluminum, manganese or silicon can be used.

The heat generating coil 34 may be installed at a position corresponding to the plurality of cylindrical holes 13, which will be described with reference to FIG.

FIG. 3 is a view showing a state in which hot air is discharged from a cylindrical hole to a drying object conveyed in a conveyance unit according to an embodiment of the present invention, and heat is provided from the heating coil.

3, the heating coil 30 generates heat at 1/2 to 2/3 of the conveying elevator 10 with respect to the lower portion of the conveying elevator 10 to form the conveying unit 15, that is, the bottom surface 14 To the drying object 60 conveyed from above.

As described above, the plurality of cylindrical holes 13 can be formed to a half to 2/3 position on the side of the central cylindrical portion 12 with respect to the lower portion of the central cylindrical portion 12, The drying object 60 to be conveyed to the conveying unit 15 is installed not only in the cylindrical hole 13 but also in the heat generating coil 30 due to the heat generated by the heat generating coil 30 And can be efficiently dried.

Even if the heat generating coil 30 generates heat at 1/2 to 2/3 of the conveying elevator 10 to provide heat with respect to the lower portion of the conveying elevator 10, The heat is transferred to the drying object 60 being conveyed in the conveying section 15 formed on the conveying elevator 10 by the rising heat and is then dried by the blowing fan 45 to be dried .

As described above, the spiral shape of the transfer part 15 may be formed by being inclined by 3 to 8 degrees, and the spiral shape of the heat generating coil 30 may be formed by being inclined by 3 to 8 degrees. In other words, the heating coil 30 is wound around the periphery of the conveying elevator 10, that is, the bottom surface 14, and when the spiral shape of the conveying unit 15 is formed inclined by 5 degrees, Can be formed by inclining the spiral of FIG. 4 to FIG. 6 as well. The hot air discharged through the cylindrical hole 13 and the heat generated by the heat generating coil 30 can be uniformly supplied to the drying object 60 conveyed from above the bottom surface 14.

The temperature of the hot air discharged from the cylindrical hole 13 of the central cylindrical portion 12 and the heat generated by the heat generating coil 30 may be 30 to 400 ° C. In other words, the temperature of the hot air and heat provided to the drying object 60 can be controlled within a range of 30 to 400 ° C depending on the type, size, and weight of the object 60 to be dried.

The vibration type hot air drying apparatus 100 according to the embodiment of the present invention may further include a heat insulating case 40.

The heat insulating case 40 surrounds the conveying elevator 10, the vibration motor 20, and the heat generating coil 30. In other words, the heat insulating case 40 is made of a heat insulating material so that hot air discharged from the cylindrical hole 13 of the conveying elevator 10 and heat radiated from the heat generating coil 30 escape to the outside of the heat insulating case 40 prevent. Therefore, the temperature inside the vibrating hot air drying apparatus 100 according to the embodiment of the present invention can be maintained by the heat insulating case 40.

At least one of a glass wool, a cerak wool, and a mineral wool may be used as an insulating material which can be used in the heat insulating case 40. [

The heat insulating case (40) may be provided with a blowing fan (45) on the lower side. The blowing fan 45 is a mechanical device for causing the air to flow. The wind generated through the blowing fan 45 installed on the lower side of the heat insulating case 40 raises the hot air generated inside the heat insulating case 40.

One end of the heat insulating case 40 communicates with the upper portion of the heat insulating case 40 and the other end communicates with the lower side surface of the heat insulating case 40 to generate hot air discharged from the cylindrical hole 13 and heat generated by the heat generating coil 30 And an air circulation path 42 for circulating the air.

The hot air discharged from the cylindrical hole 13 of the conveying elevator 10 and the heat generated by the heat generating coil 30 are raised to the upper side of the heat insulating case 40 Respectively. The hot air and the heat transferred to the upper part of the heat insulating case 40 are sucked into the air circulating path 42 communicated with the upper part of the heat insulating case and the hot air and heat sucked into the air circulating path 42 are sucked by the air circulating fan 42 The air is circulated through the air circulation path 42 communicated with the lower side surface of the heat insulating case 40. [ The hot air and heat discharged to the air circulation path 42 communicated with the lower side surface of the heat insulating case 40 rise again and are transferred to the upper part of the heat insulating case 40 and circulated inside the heat insulating case 40. The oscillating type hot-air vibrating apparatus 100 according to the embodiment of the present invention can maintain a constant temperature throughout the whole through the circulation setting.

A fan may be installed at one end of the air circulation passage 42 communicated with the upper portion of the heat insulating case 40. The fan can operate to lower the heated air and heat, that is, hot air and heat can be vortexed.

Specifically, a drying process of the drying object 60 using the vibration type hot air drying apparatus 100 according to an embodiment of the present invention will be described.

First, when the vibration type hot air drying apparatus 100 according to the embodiment of the present invention starts operating, the vibration motor 20 vibrates. The lower portion of the conveying elevator 10, which is in contact with the vibration motor 20 by the vibration of the vibration motor 20, also vibrates. Since the vibration motor 20 installed at the lower part of the conveying elevator 10 is installed at an angle of 15 to 40 degrees, the vibration has a constant directionality. When the conveying elevator 10 is vibrating with a certain direction by the vibration motor 20, the conveying part 15, that is, the bottom part of the conveying part 15, through the loading part 17 provided on the conveying elevator 10, A drying object (60) is put on the upper surface (14). The introduced drying object is conveyed downward from the upper part of the conveying elevator 10 by the vibration having a certain directionality. At this time, hot air is exhausted through the plurality of cylindrical holes 13 formed in the central cylindrical portion 12, and the hot air directly abuts against the drying object 60 being conveyed in the conveying elevator 10 and dried.

A heat generating coil 30 wound around the conveying elevator 10 in a spiral manner is provided around the conveying elevator 10. The heat generating coil 30 generates heat to generate heat. The heat is transferred to the drying object 60 placed on the bottom surface 14 of the transfer unit 15 to dry the object 60.

As a result, not only the hot air discharged from the plurality of cylindrical holes 13 formed in the central cylindrical portion 12 but also the heat generated by the heat generating coil 30 is transferred to the drying object 60 conveyed by the conveying elevator 10 It can be dried more efficiently than hot air is discharged only in the plurality of cylindrical holes 13 formed in the central cylindrical portion 12. [

The drying object 60 being conveyed at the upper portion of the bottom portion 14 is conveyed to the lower portion of the conveying elevator 10 by the vibration having the predetermined direction and is discharged to the lower portion of the conveying elevator 10 ) And the drying is completed.

The vibratory hot air drying apparatus 100 according to the embodiment of the present invention can maintain the temperature generated in the hot air until the drying object 60 is discharged to the discharge unit 18 through the heat insulating case 40. [ In other words, the heat insulating case 40 is formed of a heat insulating material so that heat is not discharged to the outside, and a tubular air circulation path 42 having one end communicating with the upper portion and the other end communicating with the lower side surface is provided, And can circulate the inside of the oscillating hot air dryer 100, so that a constant temperature can be maintained as a whole.

4 is a cross-sectional view of a vibrating hot air drying apparatus according to a second embodiment of the present invention.

Referring to FIG. 4, the vibration type hot air drying apparatus 200 according to the second embodiment of the present invention includes a vibration motor 20, a conveying elevator 10, and a heat generating coil 30.

The vibration motor 20 and the conveyance elevator 10 are the same as the vibration motor 20 and the conveyance elevator 10 of Figs. Therefore, the heat generating coil 30 will be mainly described below.

The heat generating coil 30 is a device capable of generating heat when power is supplied, and transfers heat to the object to be dried, which is supplied to the conveying unit 15, by supplying heat to the air through heat. In other words, the heat generating coil 30 is bent and installed on the side surface of the conveying elevator 10 so as to be able to transfer heat to the object to be dried, which is to be fed into the conveying unit 15, to be dried.

A plurality of heat generating coils 30 may be provided on the side of the conveying elevator 10, which will be described with reference to FIG.

FIG. 5 is a top view of a vibrating hot air drying apparatus according to a second embodiment of the present invention.

5, a plurality of heat generating coils 30 may be spaced apart from the side of the conveying elevator 10, and a plurality of heat generating coils 30 may be installed radially around the conveying elevator 10 . That is, when two heat generating coils 30 are installed, the heat generating coils 30 can be installed at 180 degrees on both sides of the conveying elevator 10, respectively. Further, when three heat generating coils 30 are installed, the heat generating coils 30 may be installed at 120 degrees apart from the side surface of the conveying elevator 10, respectively.

Thus, since the plurality of heat generating coils 30 are radially installed, the heat generated by the heat generating coil 30 can be uniformly supplied to the object to be dried placed on the bottom surface 14.

It should be noted that the embodiments disclosed in the drawings are merely examples of specific examples for the purpose of understanding, and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Feed elevator
12: central cylinder part
13: Cylindrical hole
14: bottom surface
15:
16:
17:
18:
20: Vibration motor
30: Heating coil
40: Insulation case
42: air circulation path
45: blowing fan
50: Hot air supply device
60: object to be dried
100, 200: oscillating hot air drying device

Claims (11)

A vibration motor for generating vibration;
And a conveyance unit formed in a spiral shape on a side surface of the central cylindrical part, wherein a drying object installed on the vibration motor and input to the conveyance unit is moved by the vibration motor A conveying elevator which is conveyed along a spiral direction by a generated vibration and which allows hot air discharged from the cylindrical hole to dry the object to be dried;
A heating coil spaced apart from the conveying elevator and transmitting heat to the object to be dried,
And a drying unit for drying the drying unit. The method according to claim 1,
Wherein the heating coil is spaced around the conveying elevator and wound spirally around the conveying elevator and transfers heat to the object to be dried, which is heated and externally supplied to the conveying unit. The method according to claim 1,
Wherein the heating coil is bent and installed on a side surface of the conveying elevator, and the plurality of heating coils are radially installed around the conveying elevator. The method according to claim 1,
Wherein the heat generating coil is made of at least one of inconel or stainless steel. The method according to claim 1,
The conveying portion
A bottom surface formed in a spiral shape on a side surface of the central cylindrical part and conveying the dried object put on the upper part along the spiral direction;
A transfer wall protruding from one end of the bottom surface;
And a drying unit for drying the drying unit. The method according to claim 1,
Wherein the heat generating coil generates heat at 1/2 to 2/3 of the conveying elevator with respect to the lower portion of the conveying elevator and provides heat to the object to be dried conveyed from the conveying portion. The method according to claim 6,
Wherein the plurality of cylindrical holes are formed to a position 1/2 to 2/3 of the central cylindrical portion side with respect to a lower portion of the central cylindrical portion to discharge hot air to a drying object to be conveyed to the conveying portion,
Wherein the heat generating coil generates heat at a position corresponding to the plurality of cylindrical holes, and provides heat to the object to be dried conveyed from the conveying unit. The method according to claim 1,
Wherein the temperature of the hot air discharged from the cylindrical holes and the heat generated by the heat generating coils is 30 to 400 ° C. The method according to claim 1,
A heat insulating case which surrounds the conveying elevator, the vibration motor and the heat generating coil, and is made of a heat insulating material to maintain the temperature of the heat generated by the hot air and the heat generating coil discharged from the cylindrical hole;
Further comprising: a heat exchanger for supplying heat to the drying unit; 10. The method of claim 9,
An air circulation path communicating with the upper part of the heat insulating case at one end and communicating with the lower side surface of the heat insulating case to circulate the heat generated by the hot air and the heat generating coil discharged from the cylindrical hole;
Further comprising: a heat exchanger for supplying heat to the drying unit; The method according to claim 1,
Wherein the conveying elevator is made of a stainless steel material.

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