JPH04200749A - Grain drying facilities - Google Patents

Abstract

PURPOSE:To prevent the deterioration of grain by killing fungi or the like in a prehandling for storage and to store grain over a long period of time, in grain drying facilities equipped with a dryer for received grain and a storage silo for the grain after drying. by providing a sterilizing apparatus in the dryer. CONSTITUTION:Each of left-hand and right-hand grain flow-down routes of a drying cylinder 65 formed by stacking dryer blocks 74 is equipped with one or more sterilizing lamps 89 being a sterilizing device and the sterilizing lamps 89 are attached to the under surface of the middle partition plate 84 above a lower bed 82 of each block 74. Grain is irradiated with sterilizing rays (ultraviolet rays) emitted from the sterilizing lamps 89 during drying. Further, an ozone generator 90 being a sterilizing or insecticidal device is mounted so as to be arranged under the support stand 68 of a dryer 10 and connected to the curved part of the hot air duct 73 through a gas pipe 91 on the blowoff side of a hot air fan 72 supplying hot air to the drying cylinder 65, and ozone is heated along with hot air to be sprayed to grain and sterilizing and insecticidal treatment is applied to the grain after finish drying before the grain is stored in a main silo.

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to grain drying facilities such as country elevators for drying grains such as rice or wheat.

``Prior art'' Conventionally, received grain is put into a raw material tank, taken out from the tank into a dryer, dried to a predetermined half, then put into a silo, and the grain is transferred from the silo to the dryer. The grains were taken out, dried as required, and returned to the silo for long-term storage.

``Problems to be Solved by the Invention'' The above-mentioned conventional technology dries the grains with hot air, which provides a certain degree of sterilization effect in the drying process, but it cannot safely sterilize mold and bacteria, and the grains are stored in silos. While doing so, there was a problem with mold.

"Means for Solving the Problems" However, the present invention includes a sterilizing device inside the dryer.

"Function" Therefore, according to the present invention, it is possible to completely sterilize mold and the like in the process before grain is stored in a silo, and the grain can be stored without deteriorating (it can be stored in a silo for a long period of time, and it can be stored in a high temperature environment). By using a sterilizing device, the sterilizing effect of the device can be further promoted and a high sterilizing effect can be obtained.

"Example" Hereinafter, an example of the present invention will be described in detail based on the drawings. 1st
The figure is a partially enlarged sectional view of the dryer, Figure 2 is a front view of the exterior of the country elevator, Figure 3 is a side view of the exterior, and Figure 4 is an explanatory plan view of the same. ) and a building (6) forming a shipping room (2), an independent inspection room (3), an operation room (4), and a welfare-related room (5)...
A receiving room (II) is formed on the right side of the front, and a shipping room (2) is formed on the left side of the front. (3), an operation room (4), and a welfare-related room (5).

In addition, a clock tower (
7), and a clock (8) that is visible from the front of the building (6).
) is attached to the clock tower (A).

In addition, four raw material tanks (9
)..., a vertical cascade dryer (10) which is a dryer for drying the raw paddy, and 11 storage silos (11) with main and sub-stands for storing the dried paddy. 12)
..., and these are installed outdoors, with raw material tanks (9) ... lined up in a - row on the right side of the back side of the shipping room (2), and Two rows of four main storage silos (11) are arranged on the left side, and three sub-storage silos (11) are placed between each silo (fil)...
2)..., a dryer (lO) is installed on the left outside of the shipping chamber (2), and a wet dust removal chamber 3) is separately formed behind the dryer (10).

Then, as shown in the work process explanatory diagram in Figure 5, the receiving room (
After the grains to be put into the receiving hopper (14) of 1) are accumulated in each raw material tank (9) for - hours, the grains are transferred to the dryer (10).
) and the semi-dried grains are transferred to each sub-silo (12
)..., and the dryer (
10), and the dried grains are transferred to each main silo (1
1) After being stored for a long period of time in ..., and after adjusting the dry grain in the shipping room (2), the product grain is shipped in bags, containers, and in bulk, and (15) in the diagram is the receiving area. Conveyor, (16) is receiving elevator, (17) is rough sorting machine, (
18) is a receiving and weighing machine, (19) is a raw material tank loading elevator, (20) is a raw material tank loading relay conveyor, (21) is a raw material tank loading moving conveyor, - (22) is a raw material tank taking out conveyor, and (23) is a raw material tank loading conveyor. Raw material tank take-out elevator, (2
4) is a drying relay conveyor, (25) is a dryer loading elevator, (26) is a dryer loading conveyor, (27) is a dryer taking out conveyor, (28) is a drying machine taking out elevator, (29) is a drying silo elevator , (30) is a drying silo input relay conveyor, (31) is a drying silo input moving conveyor, (32
) is the silo relay conveyor, (33) is the drying silo take-out conveyor, (34) is the selected silo take-out conveyor, (35)
(36) is the sorting machine, (37) is the selling weighing machine, (38) is the sorting machine take-out elevator, (39) is the adjustment tank, (40) is the paddy elevator, (41) is the paddy Sliding machine (
42) is a vibrating conveyor, (43) is a mixed rice elevator, (4
4) is a swing sorter, (45) is a brown rice elevator, (46) is a stone remover, (47) is a grain sorter, (48) is a lift for good brown rice, (49) is a rice shipping tank, (50) ) is an automatic closing sewing machine, (51) is a flexible container, (52) is a stand, (5
3) is a shipping weighing machine, (54) is a shipping weighing lift,
(55) is a brown rice tank input relay conveyor, (56) is a brown rice tank input moving conveyor, (57) is a brown rice tank, (
58) Bulk shipping conveyor, (59) Bulk shipping elevator, (60) Raw material tank return relay conveyor, (61) Selection silo elevator, (62) Selection silo input relay conveyor, (63) Selection silo input Mobile conveyor, (64
) is a dehulling machine, (65) is an unripe rice elevator, (66) is an unripe rice tank, and (67) is a brown rice return elevator.

As shown in FIGS. 6 and 7, the dryer (lull)
is a square columnar drying cylinder (65) mounted on a support stand (68)
, a hot air hood (66) attached to the minus side outer surface of the drying tube (65), and an exhaust hood (671?) attached to the minus side outer surface of the drying tube (65) opposite to the hot air hood (66).
, a roof (68) that can be covered over the top of the drying tube (65), a dryer input duct (691) that protrudes from the top of the drying tube (65) into the roof (68), and a dryer inlet duct (691) that extends over the bottom of the drying tube (65). The main body of the dryer is formed by the cross-feeding conveyor (70), and a burner (71) and a hot air fan (72) for generating hot air to be supplied to the drying tube (65) are installed below the support base (68). The hot air hood (6) is provided through a hot air duct (73) to the blowing side of the hot air fan (72).
6) The lower end side is connected.

As shown in FIGS. 1 and 8, the dry Mk cylinder (65) is formed by stacking the first to fourth dryer blocks (74), with communication ports ( 75
) and a grain flow inlet (78) that connects the duct (69) to a top plate (77) that closes the top surface of the fourth dryer block (74) at the top. The crushed grain outlet (79) of the bottom plate (79) which forms the
80) Below the conveyor gutter (81) of the conveyor (70)
) is installed.

Each block (74) also has an input port (7) for receiving grains.
The louver bed (82) serving as the ventilation bed is stretched in a diamond shape so that the grain flows down naturally in a zigzag pattern from 8) toward the discharge port (80), and the crushed grain flows down naturally on each louver bed (82). A plurality of impellers (83), which are roller dams, are installed in each louver bed (8
2) The louver bed (82) is rotatably supported upwardly at equal intervals, and the louver bed (82) on the upper two plates and the louver bed (82) on the lower two plates (
A middle partition plate (84) is installed to separate the two upper louvered beds (
82) The space on the lower side and the louvered bed (8) of the two lower plates whose bottom is the partition plate (76) or the bottom plate (79)
2) A hot air supply port (85) that connects the space on the lower surface side to the hot air hood (66), and the partition plate (76).
Alternatively, the space on the upper surface side of the two upper louver beds (82) with the top plate (77) as the upper surface and the partition plate (82)
A hot air outlet (86) is formed to communicate the space on the upper surface side of the two lower louver beds (82) with the exhaust hood (67), and a fourth dryer plotter (82) is formed.
74) to the louver bed (82) of the first dryer block (74), hot air is passed through the grain while the grain continuously flows down by gravity, and the moisture content of the grain is reduced to a predetermined value. It consists of

In addition, a vertical partition plate (87) is provided between the input port (78) and the discharge port (80) via a communication port (75), and the inside of the drying cylinder (65) is divided into two sections. A grain input direction switching plate (88) is swingably supported in the duct (69) from the upper end of the vertical partition plate (87), and the entire drying tube (65) is adjusted according to the amount of received grains and the drying rate. The structure is such that the drying operation can be performed by using only the left or right half of the drying cylinder (65).

As shown in FIG. 1, one or a plurality of sterilizing lamps (89), which are sterilizing devices, are provided on each of the grain-flowing trays on the pressure side and the right side of the drying tube (65). 8
9) is a partition plate (8) above the louver bed (82).
4) Attach to the bottom surface (other top plate (77) bottom surface or partition plate (
76) The grains are irradiated with sterilizing light (ultraviolet light, etc.) generated from sterilization (89) (also available on the bottom surface), and are equipped with an ozone generator (90) that is a sterilizer and insecticide. 90) as a support stand (68) for the dryer (10).
A generator (90) is connected to the curved part of the duct (73) through a gas pipe (91), and the ozone is heated and blown onto the grains together with hot air, and the grains are heated after finishing drying. It is configured to sterilize and kill insects before storing the grains in the main silo (11).

Furthermore, as shown in FIG. 5, each of the main silos (11)...
- A carbon dioxide gas cylinder (93) is connected to the main silo (Ill...) via an on-off valve (92), and carbon dioxide gas is sealed in the main silo (Ill...) to prevent grain deterioration due to oxidation during storage. are doing.

"Effects of the Invention" As is clear from the above embodiments, the present invention provides a facility equipped with a dryer (10) for drying received grains and a storage silo (11) for storing the dried grains. Dry fi! (10) Equipped with a sterilizer (89) inside, it can completely sterilize mold and other bacteria in the process before grain is stored in the silo (11), and the grain can be stored in the silo (11) for a long time without deteriorating. By using the sterilizer (89) in a high temperature environment, the device (89) can be stored for a period of time.
It has the remarkable effect of further promoting the bactericidal effect and obtaining a high bactericidal effect.

[Brief explanation of the drawing]

Fig. 1 is a partially enlarged sectional view of the dryer, Fig. 2 is an external front view of the country elevator, Fig. 3 is an external side view of the same, Fig. 4 is an explanatory plan view of the same, and Fig. 5 is an explanatory view of the same work process. , FIG. 6 is a front view of the entire dryer, FIG. 7 is a side view thereof, and FIG. 8 is a sectional view thereof. (10) Vertical cascade dryer (dryer) (
11) Main silo (storage silo) (89)...
Germicidal lamp (sterilizing device) Applicant Yanmar Agricultural Machinery Co., Ltd.

Claims (1)

[Claims] A grain drying facility comprising a dryer for drying received grain and a storage silo for storing the dried grain, the facility comprising a sterilizer inside the dryer.