KR101549688B1 - Grain dryer - Google Patents

Abstract

The present invention relates to an apparatus for drying grain, with a housing unit for drying grain equipped with a space for storing grain inside and drying, which is divided into a tempering room and a drying room by a hot air supply pipe unit, wherein the upper part of the hot air supply pipe unit formed with the tempering room filled only with grain enables grain to fall smoothly inside the housing unit for drying grain. The apparatus is capable of effectively and evenly drying a large amount of grain to dry until a target moisture content by circulating grain, minimizing an installation space, and minimizing production costs by simplifying a hot air supply duct and reducing the height of the tempering room and the drying room.

Description

[0001] Grain dryer [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a grain drying apparatus, and more particularly, to a co-current circulating grain drying apparatus capable of circulating a grain and drying the grain to a target moisture content more effectively.

Generally, a grain dryer is a machine for drying high-moisture grains after harvesting to a moisture suitable for storage.

Grains such as rice and barley harvested from the mountain must be dried beforehand for the sake of long-term storage.

This is because grains harvested from the mountains generally have a high moisture content of 20 to 30%, which is easily altered or corrupted, resulting in grain degradation and quantitative loss. Therefore, cereals should be dried to have a moisture content of about 15% for safe storage, transportation and preservation of food after harvest.

The grain dryer is designed to prevent deterioration when storing grains and to dry the grain to improve processability and quality.

As a conventional grain dryer, Korean Patent Registration No. 0968966 'circulating co-current type grain dryer' (registered on July 1, 2010) has been proposed. In the housing of the circulating type grain dryer, there are provided a tempering chamber necessary for the diffusion and balance of moisture of the grain, a plurality of supply chutes that fall freely from the tempering portion to move to the drying chamber, Unit, and a grain discharging unit for discharging the grain dried by the hot air discharging unit are sequentially provided from above. In addition, the circulating coarse grain dryer may circulate and dry the grains by feeding the grains discharged from the gravity discharging unit to the tempering chamber again through the circulating unit, and then passing the grains to the hot air discharging unit.

However, since the circulating coarse grain dryer is provided with a plurality of lattice-shaped supply chutes between the tempering chamber and the hot air discharge unit, the drying chamber per unit time means a space in which the hot air and the grain come into contact with each other to dry the grain (Meaning the inner space of the hot air discharge unit ), there is a problem that the amount of cereals to be supplied to the inside of the hot air discharge unit is limited.

That is, since the area of the supply pipe of the supply chute is small, the drying capacity is lowered, and the contact time between falling grains and the drying hot air is reduced, which causes a decrease in drying quality.

According to various research papers, the optimal volume ratio of the drying chamber and the tempering chamber is 1: 9.1. In the circulating type grain dryer, the volume of the tempering chamber is reduced due to the space of the supply chute, and the optimum volume ratio is 1: 9.1 It is necessary to form a large tempering chamber, so that the entire equipment is enlarged, requiring a large installation space and increasing manufacturing costs.
Here, the term "tempering chamber" refers to a space in which the difference in water content between the inside and the surface of the grain grains is mitigated to prevent the occurrence of coincidence, and a moisture content is left for a predetermined time until the water content of the inside and outside of the grain reaches equilibrium .
The term " drying chamber " refers to a space in which the hot air supplied to the inside of the dryer and the grain falling in the tempering chamber are mixed with each other, and the hot air and the grain come into contact with each other to dry the grain.

In addition, the hot air discharge unit of the circulating type grain dryer is provided with a first pipe group and a second pipe group arranged vertically so as to vertically discharge the hot air, and the first pipe group and the second pipe group There is a problem in that the air is not smoothly discharged. That is, the first pipe group has a structure in which hot air is discharged on both sides and the second pipe group is discharged with hot air on the rear surface, so that there is a problem that hot air flow inside the drying chamber is not smooth.

It is an object of the present invention to provide a grain drying apparatus capable of drying grains more efficiently by circulating the grains and drying the grains to a target moisture content.

It is also an object of the present invention to provide a grain drying apparatus capable of minimizing installation space while reducing the manufacturing cost while maintaining the optimum volume ratio of the drying chamber and the tempering chamber.

In order to achieve the above-mentioned object, a grain drying apparatus according to the present invention comprises: a housing for drying cereals having a space for storing and drying cereals therein;

A hot air supply pipe unit 20 disposed inside the housing for drying grain to supply hot air heated by the outside air to the inside of the grain drying housing;

A hot air discharge pipe unit 30 disposed in the lower part of the hot air supply pipe unit inside the housing for drying grain and discharging hot air in the grain drying housing to the outside;

A grain discharging unit 40 disposed at a lower portion of the hot air discharge pipe unit 30 inside the housing for drying grain and discharging the grain in the housing for drying grain to the outside; And

And a grain circulation unit 50 for feeding the grains discharged from the grain discharging unit to the upper portion of the housing for drying grain.

The inside of the grain drying housing of the dryer according to the present invention is divided into a tempering chamber 15 and a drying chamber 35 by the hot air supply pipe unit 20. The upper part of the hot air supply pipe unit 20 is filled with only grains The hot air discharge pipe unit 30 is provided at a lower portion of the hot air supply pipe unit 20 and a space in which hot air and grains are in contact with each other in the hot air discharge pipe unit 30 Hereinafter, this space is referred to as a 'drying room'), and the grain is dried. That is, the tempering chamber 15 and the drying chamber 35 are divided by the hot air supply pipe unit 20, and any structure (a supply chute in the prior art, etc.) So that the grain supplied from the upper part of the housing 10 for grain drying can be smoothly moved to the drying chamber 35 directly through the tempering chamber 15.

In the present invention, the hot air supply pipe unit 20 includes a plurality of hot air supply pipe members 21 spaced apart from each other in a plan view, one end side in the longitudinal direction thereof being opened, The hot air discharge pipe member and the hot air discharge pipe member may be arranged in parallel to each other. The hot air discharge pipe member may be disposed at a position spaced apart from the upper surface of the hot air discharge pipe member.

In the present invention, the hot air supply pipe member 21 may be disposed between the hot air discharge pipe members 31.

In the present invention, the hot air discharge pipe unit (30) comprises: a central discharge duct member (32) having a hot air discharge duct part (90) connected to a blower and connected centrally; And a side discharge duct member (33) which is connected to both sides of the central discharge duct member and surrounds the open end of the hot air discharge pipe member, the side discharge duct member being connected to the central discharge duct member The inner flow path may be gradually narrowed from the one end side connected to the opposite end to the opposite end side.

In the present invention, the hot air supply pipe unit 20 is connected to the heating unit 60 through a hot air supply duct 70, and the hot air supply duct includes a plurality of hot air supply pipe members A main hot air supply duct portion 71 surrounding the main hot air supply duct portion 71; And a connection supply duct part (72) connecting the main hot air supply duct part to the heating unit, wherein the connection supply duct part is connected to the center of the main hot air supply duct part, and the main hot air supply duct part gradually The inner flow path may be formed to be narrowed.

The present invention has the effect of drying the grain in the housing for drying grain, thereby increasing the amount of drying in the drying chamber, thereby drying more grain and drying the grain more effectively due to uniform hot air discharge .

Further, the present invention maximizes the drying efficiency of the grain, minimizes the installation space and minimizes the manufacturing cost in designing the optimum volume ratio of the drying chamber and the tempering chamber.

1 is a perspective view showing a grain drying apparatus according to the present invention;
Fig. 2 is a side sectional view of one side of the grain drying apparatus according to the present invention
Fig. 3 is a side sectional view of the grain drying apparatus according to the present invention in the other direction
Fig. 4 is an enlarged view of a part A of Fig. 3
5 is a perspective view showing an embodiment of a hot air supply pipe unit and a hot air discharge pipe unit according to the present invention.
6 is a perspective view showing an embodiment of the hot air discharge pipe unit according to the present invention.
7 is a cross-sectional view illustrating a hot air discharge pipe unit according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

While the present invention has been described in connection with certain embodiments, it is obvious that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the drawings, the same reference numerals are used for the same reference numerals, and in particular, the numerals of the tens and the digits of the digits, the digits of the tens, the digits of the digits and the alphabets are the same, Members referred to by reference numerals can be identified as members corresponding to these standards.

In the drawings, the components are expressed by exaggeratingly larger (or thicker) or smaller (or thinner) in size or thickness in consideration of the convenience of understanding, etc. However, It should not be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the term " comprising " or " consisting of ", or the like, refers to the presence of a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

FIG. 1 is a perspective view showing a grain drying apparatus according to the present invention, FIG. 2 is a side sectional view in one direction of a grain drying apparatus according to the present invention, FIG. 3 is a cross- Fig.

Referring to FIG. 1, a grain drying apparatus according to the present invention includes a housing 10 for drying cereals having a space for storing and drying cereals therein, a housing 10 for drying cereals, A hot air supply pipe unit 20 for supplying hot air to the inside of the grain drying housing and separating the inside of the grain drying housing into a tempering chamber and a drying chamber, A hot air discharge pipe unit 30 disposed in the lower part of the hot air supply pipe unit 20 to discharge hot air in the grain drying housing to the outside, 30 for discharging the grain in the housing for drying 10 to the outside and a grain discharging part 40 for discharging the grain discharged from the grain discharging part 40 to the grain drying housing part 10 to the upper portion of the grain circulation section 50.

The inside of the grain drying housing part 10 is divided into a tempering chamber, a drying chamber, and a discharge chamber in order from the top, and the tempering chamber is a space for tempering a certain amount of grain, and the drying chamber is formed by drying the tempered grain by hot air And the discharge chamber is a space for discharging the dried grain to the outside and supplying the dried grain to the tempering chamber again through the grain circulating unit 50.

The cereal circulation part (50) includes a vertical conveyor (51) installed on the side of the grain drying housing and feeding the grain discharged through the grain discharge part (40) to the upper part of the grain drying housing. And

A horizontal conveyor 52 connected to the vertical conveyor 51 horizontally on the upper surface of the grain drying housing and feeding the grain conveyed by the vertical conveyor 51 to the inside of the grain drying housing .

The vertical conveyor 51 is a bucket conveyor, and the horizontal conveyor 52 is a screw conveyor.

A feed hole through which the building conveyed from the grain circulation unit 50 can be fed is formed on the upper surface of the grain drying housing unit 10 and the grain circulation unit 50 uses a bucket conveyor and a screw conveyor So that the grain discharged from the grain discharging portion (40) is transferred to the supply hole.

The tempering chamber 15 and the drying chamber 35 are separated from each other by the hot air supply pipe unit 20 and no structure is provided on the upper part of the hot air supply pipe unit 20, ) Is smoothly moved to the drying chamber directly through the tempering chamber.

That is, the upper part of the hot air supply pipe unit 20 is formed with a tempering chamber 15 filled with only grain.

Further, in the same dryer size, no structure (a supply chute in the prior art) is provided at the upper part of the hot air supply pipe unit 20, and the hot air supply pipe unit 20 also serves as a supply chute function in the prior art The dimension of the tempering chamber 15 can be maximized and the size of the housing 10 for grain drying can be minimized when designing the optimum volume ratio of the drying chamber 35 and the tempering chamber 15 to 1: will be.

The hot air supply pipe unit 20 is connected to the heating unit 60 through the hot air supply duct 70 and the heating unit 60 is a burner.

The hot air supply pipe unit 20 includes a plurality of hot air supply pipe members 21 spaced horizontally or vertically from each other on a plane and opened at one end side in the longitudinal direction and opened at the lower side. The gap between the adjacent hot air supply pipe members 21 has a function as a passage through which the grain stored in the tempering chamber 15 can descend into the drying chamber 35.

The hot air supply duct 70 includes a main hot air supply duct part 71 surrounding one opened end side of a plurality of the hot air supply pipe members 21 arranged to be spaced apart from each other on a plane. And a connection supply duct part 72 connecting the main hot air supply duct part 71 with the heating unit 60. The connection supply duct part 72 is connected to the center of the main hot air supply duct part 71 And the main hot air supply duct portion 71 is formed so that the inner flow path becomes gradually narrower toward both end portions.

This allows the hot air to be evenly supplied into each of the hot air supply pipe members 21, which are arranged on the same plane, through the connecting supply duct portion 72 and the air flowing into the main hot air supply duct portion 71 . That is, the plurality of hot air supply pipe members 21 are uniformly supplied with hot air into the respective hot air supply pipe members 21 regardless of the distance from the connecting supply duct portion 72.

The hot air supply pipe member 21 is vertically centered at an upper side and has inclined surfaces inclined downward to both sides from the center so that the grains do not accumulate on the upper surface but smoothly move from the upper side to the lower side.

The hot air discharge pipe unit 30 is connected to the blower 100 and the hot air discharge duct unit 90 to discharge the hot air in the housing 10 for drying grain through the hot air discharge duct unit 90 to the outside do.

The hot air discharge pipe unit (30) includes a plurality of hot air discharge pipe members (31) spaced horizontally or vertically from each other on a plane, both end sides in the longitudinal direction being opened, and lower parts being opened. The space (spaced apart space) between the adjacent hot air discharge pipe members 31 has a function as a passage through which the grain can descend.

The center of the upper side of the hot air supply pipe member 21 and the hot air discharge pipe member 31 are configured to be sharp and inclined downwardly inclined downward from the center so that the grains do not accumulate on the upper surface and smoothly move from the upper side to the lower side do.

The grain discharging unit 40 includes a grain conveying screw conveyor 41 connected to the grain circulating unit and a guide hopper 42 for guiding the grain to the grain conveying screw conveyor.

The guide hopper part 42 has an inclined guide surface for guiding the grains to the grain conveying screw conveyor 41. The dried grains are smoothly moved to the grain discharging screw conveyor 41 along the guide surfaces of the guide hopper portion 42.

The grain conveying screw conveyor 41 is disposed horizontally in a lower portion of the grain drying housing part 10 and dried into the bucket conveyor installed vertically on the side from the outside of the grain drying housing part 10 The grain is transported.

The grain discharge control unit 80 may be provided between the grain discharge unit 40 and the hot air discharge pipe unit 30 to control the discharge amount of the grain. A discharge guide member 81 having inclined surfaces inclined to the upper side on both sides with the center of the discharge guide member 81a as a center; And a plurality of discharge control rotary members 82 provided at the discharge port 81a side of the discharge guide member 81 and connected to the motor 82a by a belt 82b and whose rotational speed is controlled.

The discharge control rotary member 82 has a plurality of blades formed on the outer circumferential surface thereof and the amount of opening and closing of the discharge port 81a is adjusted by the blades so as to adjust the rotational speed of the discharge control rotary member 82, Can be controlled.

FIG. 4A is an enlarged view of a portion A in FIG. 3, FIG. 4B is a flow direction of the grain, and FIG. 4C is a flow direction of hot air.

5 is a perspective view showing one embodiment of the hot air supply pipe unit 20 and the hot air discharge pipe unit 30 according to the present invention, and FIG. 6 is a perspective view showing an embodiment of the hot air discharge pipe unit 30 according to the present invention It is a perspective view.

4 to 6, it is preferable that the hot air supply pipe member 21 and the hot air discharge pipe member 31 are disposed in the same direction.

That is, the hot air supply pipe member 21 and the hot air discharge pipe member 31 are spaced apart from each other and arranged side by side to be discharged to the opened lower portion of the hot air supply pipe member 21, ) My grain is dried. At this time, the hot air discharge pipe member 31 is disposed in the same direction as the hot air supply pipe member 21,
The hot air flowing out through the open lower portion of the hot air supply pipe member 21 comes into contact with falling grains to dry the grain,
Since the hot air descended along with the grain is naturally sucked through the lower portion of the hot air discharge pipe member 31, the flow of air in the grain drying housing part 10 is smooth.

The hot air supply pipe member 21 disposed on the upper portion of the hot air discharge pipe member 31 is configured to be disposed between the spaced spaces of the two adjacent hot air discharge pipe members 31, It is more preferable that the air discharged to the lower portion of the hot air discharge pipe member 31 can be sucked more naturally from the opened lower side of the hot air discharge pipe member 31 after passing between the spaced spaces of the two adjacent hot air discharge pipe members 31.

On the other hand, the hot air discharge pipe unit (30)

A central discharge duct member 32 having a discharge connection hole formed at the center thereof and connected to the hot air discharge duct unit 90; And a side discharge duct member 33 which is connected to both sides of the central discharge duct member 32 and surrounds the open end of the hot air discharge pipe member 31 spaced apart from each other.

In addition, the side discharge duct member 33 is formed so that the inner flow passage gradually becomes narrower from the one end side connected to the central discharge duct member 32 to the other opposite end side, and the plurality of the hot air discharge pipe members It is preferable to allow the hot air to be sucked evenly and discharged to the outside.

7 is a plan sectional view showing an embodiment of the hot air discharge pipe unit 30 according to the present invention. Referring to FIG. 7, a plurality of hot air discharge pipe members 31, The air discharged to the discharge duct member 33 is smoothly moved to the hot air discharge duct through the central discharge duct member 32 through the side discharge duct member 33 and discharged to the outside.

That is, the side discharge duct member 33 is formed in a tapered shape so that the inner flow passage is narrowed toward the other end side, and the inner space of the inner flow passage gradually becomes smaller as the spacing distance from the central discharge duct member 32 becomes longer Air is uniformly discharged from both ends of a plurality of the hot air discharge pipe members 31 arranged in a spaced relation on the plane irrespective of the distance, and the flow of air is smoothly carried out in the grain drying housing part 10 The efficiency can be further improved.

The present invention smoothes the descent of the grains in the housing for drying cereals, thereby circulating the grains and more effectively drying the grains to the target moisture content.

Further, the present invention maximizes the drying efficiency of the grain, minimizes the installation space and minimizes the manufacturing cost when designing the optimum volume ratio of the drying chamber and the tempering chamber.

In the above description, conventionally known techniques relating to the construction of the burner, the screw conveyor, and the bucket conveyor are omitted, but those skilled in the art can easily guess and deduce it and reproduce it.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be construed as falling within the scope of protection of the present invention.

10: housing for grain drying part 20: hot air supply pipe unit
21: hot air supply pipe member 30: hot air discharge pipe unit
31: hot air discharge pipe member 32: central discharge duct member
33: side outlet duct member 40: grain outlet
41: Screw conveyor for discharging grain 42: Guide hopper part
50: grain circulation part 51: vertical conveyor
52: horizontal conveyor 60: heating unit
70: hot air supply duct 71: main hot air supply duct section
72: connection supply duct section
80: Grain discharge control section
81: Discharge guide member 81a: Discharge port
82: discharge control rotary member 82a: motor
82b: belt 90: hot air discharge duct part
100: blower

Claims (5)

delete A grain drying housing part 10 having a space for storing and drying the grains therein;
A hot air supply pipe unit 20 disposed inside the housing unit 10 to supply hot air heated by outside air into the housing unit 10;
A hot air discharge pipe unit 30 disposed at a lower portion of the hot air supply pipe unit inside the housing unit to discharge hot air inside the housing unit to the outside;
A grain discharging unit 40 disposed at a lower portion of the hot air discharge pipe unit 30 in the housing unit and discharging grain inside the housing unit to the outside; And
And a grain circulating part (50) for feeding the grain discharged from the grain discharging part (40) to the upper part of the housing part,

A drying chamber 35 is formed in the lower part of the hot air supply pipe unit 20 to dry the grain so that the hot air supply pipe unit 20 20 are divided into a tempering chamber 15 and a drying chamber 35 in the upper and lower portions of the housing,

The hot air supply pipe unit 20 includes a plurality of hot air supply pipe members 21 spaced apart from each other on a plane, one end side in the longitudinal direction of which is opened,
The hot air discharge pipe unit includes a plurality of hot air discharge pipe members (31) spaced from each other in a plan view, both end sides in the longitudinal direction being opened,
Wherein the hot air supply pipe member (21) is disposed on an upper portion of the hot air discharge pipe member (31) and arranged in a direction parallel to each other .
3. The method of claim 2,
Wherein the hot air supply pipe member (21) is disposed above the hot air discharge pipe member (31) between the spaced spaces of two adjacent hot air discharge pipe members (31) .
3. The method of claim 2,
The hot air discharge pipe unit (30) includes a central discharge duct member (32) having a hot air discharge duct portion (90) connected to the blower, the central discharge duct member being connected to the center;
And a side discharge duct member (33) which is connected to both sides of the central discharge duct member (32) and surrounds the opened end of the hot air discharge pipe member (31)
Wherein the side discharge duct member (33) is formed such that the inner flow path is gradually narrowed from one end side connected to the central discharge duct member (32) to the other opposite end side.
3. The method of claim 2,
The hot air supply pipe unit 20 is connected to the heating unit 60 through the hot air supply duct 70,
The hot air supply duct 70 includes a main hot air supply duct part 71 surrounding one opened end side of a plurality of the hot air supply pipe members 21 arranged to be spaced apart from each other on a plane;
And a connection supply duct part (72) for connecting the main hot air supply duct part (71) to the heating unit (60)
The connection hot-air supply duct portion 71 is connected to the center of the main hot-air supply duct portion 71, and the inner hot-air supply duct portion 71 is formed so that the inner hot- Grain dryer.

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