JPH09113093A - Apparatus for precooling agricultural products and the like - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten a precooling time by constructing the inside of a storing case so that cooling air may pass through sufficiently and also to quicken the operation by enabling execution of continuous precooling. SOLUTION: A plurality of ventilation ports are formed in a floor panel of a storing case of which the upper side is opened, so that cooling air may pass through easily when an object 60 of precooling is made up and even when it is piled up in a multiple stage. A plurality of cooler units 41 and a plurality of differential-pressure suction units 51 are disposed on a flat conveyor 30 so that the cooling air may flow downward from above. While the object 60 of precooling is set on the conveyor 30 and conveyed, tomatoes are exposed to the cooling air and precooled.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a precooling device for precooling various agricultural products such as vegetables and fruits.

[0002]

2. Description of the Related Art Generally, in order to maintain the freshness of agricultural products such as vegetables and fruits, it is necessary to quickly and quickly remove a large amount of heat at the time of harvest.

Therefore, as a conventional pre-cooling device, Japanese Patent Laid-Open No.
As disclosed in Japanese Patent Laid-Open No. -260275, there is one in which a plurality of load receiving portions are formed in a housing and a differential pressure suction device is provided adjacent to the load receiving portions.

In the pre-cooling device, a ventilation port is formed on a side surface of a storage case for storing agricultural products, and the storage case is installed close to the suction plate of the differential pressure suction device having the suction port. I have to. When the differential pressure suction device is driven in this installed state, the cooling air passes through the inside of the storage case and the agricultural product is forcibly cooled and pre-cooled.

[0005]

In the above-described precooling device, a plurality of precooling objects formed by storing agricultural products in a storage case are stacked on a pallet and installed in a load receiving portion. The pre-cooling device needs to be arranged so that the ventilation port of the storage case is close to the suction plate of the differential pressure suction device in order to allow the cooling air to pass through the storage case. Therefore, there is a problem in that it takes time and effort to arrange and stack the pre-cooled objects, continuous work cannot be performed, and labor saving cannot be achieved.

Further, although a ventilation port is formed on the side surface of the storage case, this side surface is a portion requiring the highest strength among the respective parts of the storage case because the objects to be pre-cooled are stacked. Therefore, since it is necessary to keep the storage case with a predetermined strength, the opening area and the number of ventilation holes are limited. As a result, there is a problem that a sufficient amount of ventilation cannot be ensured and precooling takes a long time.

The present invention has been made in view of the above problems, and aims to shorten the precooling time by allowing the cooling air to sufficiently pass through the storage case, and to enable continuous precooling to speed up the work. The purpose is to ensure that

[0008]

[Means for Solving the Problems]

-Summary of the invention-In order to achieve the above-mentioned object, the present invention forms a plurality of ventilation holes (70, 70, ...) in a floor panel (62) of a storage case (61) whose upper surface is open, and precools it. Make up the object (60),
Even if the pre-cooled objects (60) are stacked in multiple stages, the passage of cooling air is facilitated, while the cooling means (40) and suction are provided so that the cooling air flows from the upper side to the lower side of the flat conveying means (30). Arrange the means (50). Then, the pre-cooling target (60) is placed on the transporting means (30) and is transported while cooling air is applied to the pre-cooling target (CP).
Pre-cool.

As a result, a plurality of ventilation holes (70, 70, 70, 70, 70, 70, 70 are formed in the floor panel (62) of the storage case (61) which does not require much strength.
..), it is possible to secure a sufficient amount of passage of the cooling air and shorten the precooling time.

Further, since the object to be precooled (60) is precooled while being conveyed on a flat plane, continuous work can be carried out and labor saving can be achieved.

-Invention specifying matter-Specifically, the means taken by the invention according to claim 1 is as follows.
One-sided inlet (22) formed in the precooling housing (20)
To the outlet (23) on the other side, a precooling conveyance path (21) is formed inside the precooling housing (20). A precooling target (60) formed by storing the precooled product (PC) in a storage case (61) is placed on the precooling transfer path (21) to precool the precooling target (60). Means for transporting from the entrance (22) of the (20) toward the exit (23),
A transfer means (30) is provided which is configured to be vertically ventilated. Furthermore, in the upper part of the pre-cooling conveyance path (21),
A cooling means (40) is provided above the transfer means (30) to supply cooling air downward, while a cooling means (40) is supplied to the lower portion of the precooling transfer path (21). The suction means (50) for sucking the cooling air in the precooling housing (20) containing the cooling air so that the cooling air passes through the precooling target (60) and circulates in the precooling housing (20). It is located below 30). In addition, the storage case (61) is formed of a case having an open upper portion, and the floor panel (62) of the storage case (61) has a plurality of ventilation openings (70, 70, 70). …)
Are formed.

[0012] Further, the means taken by the invention according to claim 2 is that in the invention according to claim 1, the cooling means (40) is
On the other hand, the suction means (5) is composed of a plurality of cooler units (41, 41, ...) Arranged side by side along the pre-cooling conveyance path (21).
0) is composed of a plurality of differential pressure suction units (51, 51, ...) arranged in parallel along the pre-cooling conveyance path (21) and arranged corresponding to the cooler units (41, 41, ...). It is a thing.

The means of the invention according to claim 3 is such that, in the invention of claim 2, the object to be precooled (60) is located between the cooler unit (41) and the differential pressure suction unit (51). Then, the position detecting means (14) for detecting the precooling target (60) is provided.

-Operation- Due to the above-mentioned matters specifying the invention, in the invention according to claim 1,
Pre-cooled products (PC) such as harvested tomatoes are stored in the storage case (61). Pre-cooling target (60) which is made by storing this pre-cooled product (PC) in the storage case (61).
Are stacked and placed on the transport means (30) in three rows and three stages in the storage section (11), for example. After that, the conveying means (30) is driven to carry it into the precooling housing (20) through the inlet (22).

On the other hand, inside the precooling housing (20), the cooler unit (4
, 41) are located, the differential pressure suction units (51, 51, ...) Are located below the precooling target (60).

The cooler unit (41, 41, ...)
The internal air of the pre-cooling housing (20) is cooled by the evaporator (43) and the suction fan (53) of the differential pressure suction unit (51, 51, ...) Is driven, so the pre-cooling housing (20).
The cooling air inside is sucked from above the differential pressure suction unit (51, 51, ...) And blows out downward. A part of the cooling air blown from the differential pressure suction unit (51, 51, ...) Ascends on the side portion of the pre-cooling housing (20) and then in the evaporator (43) of the cooler unit (41, 41, ...). The cooled air is sucked into the differential pressure suction unit (51, 51, ...) Again together with the cooling air that does not pass through the other evaporator (43), and this operation is repeated.

Since the precooling target (60) is arranged above the differential pressure suction unit (51, 51, ...) As described above, the cooling air in the precooling housing (20) and the cooler unit (41, 41, ...) passes through the storage case (61) for the precooling target (60) in the upper stage, passes through the storage case (61) for the precooling target (60) in the middle stage, and then the precooling target in the lower stage. It passes through the storage case (61) of (60) and is sucked by the differential pressure suction unit (51, 51, ...).

That is, since the upper surface of the storage case (61) is open, the storage case (6
While flowing into 1), the ventilation openings (70, 7) of the floor panel (62)
(0, ...) and flows out downward, so the cooling air in the refrigerator is transferred from the upper storage case (61) to the middle storage case (61).
After that, it will pass through the lower storage case (61) in order.

The cooling air is stored in the storage case (61).
Since it comes into contact with the pre-cooled product (PC) when passing through, the pre-cooled product (PC) is cooled and pre-cooled.

Precooling object (60) on the above-mentioned transfer means (30)
Move between the cooler unit (41, 41, ...) and the differential pressure suction unit (51, 51, ...) at predetermined time intervals, so that new pre-cooling objects (60) are successively added to the pre-cooling housing (2).
On the other hand, the pre-cooled object (60) that has been pre-cooled is carried out from the delivery port (23) while being carried into 0). The pre-cooled product (PC) is pre-cooled to, for example, about 10 ° C., but according to the storage case (61), the pre-cooling is completed in about 20 to 30 minutes.

On the other hand, since the position detecting means (14) detects the precooling target (60) inside the precooling housing (20), when the precooling target (60) does not exist, that is, the precooling target When the object (60) is not continuously carried in and there is a fixed interval between the precooling target objects (60) on the transport means (30), the cooler unit (41, 41, (41, ...) And the differential pressure suction unit (51, 51, ...) Stop driving, and when the precooling target (60) moves, the cooler unit (41, 41, ...) And the differential pressure suction unit again. (51, 51, ...) and will be driven.

[0022]

According to the present invention, therefore, the pre-cooling object (60) is placed on the transfer means (30) and the cooling air is made to flow downward from above to transfer it through the pre-cooling transfer path (21). Meanwhile, since the pre-cooled product (PC) is pre-cooled by applying cooling air to the pre-cooled product (PC), the storage case (61) is the same as the conventional case.
It is not necessary to place the ventilation ports (70, 70, ...) And the suction plate close to each other, that is, it is not necessary to stack and arrange the precooling objects (60) with high accuracy, and a rough arrangement or the like may be used. Easy to do. As a result, the work can be speeded up.

Further, since the pre-cooled object (60) is cooled while being conveyed on a flat plane, the pre-cooled object (60) is carried in order and at the same time, the pre-cooled object (60) is carried out in order. Therefore, continuous work can be performed, and labor can be saved.

Further, the upper surface of the storage case (61) for storing the pre-cooled product (PC) is opened, and the floor panel (62) of the storage case (61) has a plurality of ventilation openings (70, 70, ...). )
Since the cooling air is formed, it is possible to secure a sufficient passage amount of the cooling air. Especially above the floor panel (62)
Since it does not require so much strength, the ventilation port (70, 7
(0, ...) Can be formed sufficiently, so that the precooling time can be significantly shortened.

By reducing the pre-cooling time, the freshness of the pre-cooled product (PC) can be maintained for a long period of time, so that the reduction in commercial value can be effectively prevented. Furthermore, since pre-cooling can be completed in a short time, the target items are not limited, and the range of use can be expanded.

According to the invention of claim 2, the cooler unit (41, 41, ...) And the differential pressure suction unit (51,
51, ...) are provided, so that twice as much cooling air as the cooler unit (41, 41, ...) is pre-cooled to the object (60).
Therefore, rapid cooling can be performed. In particular, since the cooling air supplied to the pre-cooling target (60) can be doubled, the temperature difference can be reduced by half and uneven cooling can be prevented.

The cooler unit (41, 41,
Can be miniaturized by increasing the temperature difference of the cooling air to be cooled.

Further, according to the invention of claim 3, since the position detecting means (14) for detecting the precooling target (60) is provided, the cooler at the position where the precooling target (60) does not exist. Since the unit (41) and the differential pressure suction unit (51) can be stopped, it is possible to prevent waste of energy and save energy.

[0029]

Embodiments of the present invention will be described below in detail with reference to the drawings.

As shown in FIGS. 1 and 2, the precooling device (1
The item 0) is installed in a facility for shipping agricultural products to be pre-cooled to pre-cool the agricultural products. For example, in the present embodiment, tomato (PC) is pre-cooled as the agricultural product. The precooling device (10) is provided with a conveyor (30) inside the precooling housing (20), and
A cooling means (40) and a suction means (50) are provided and configured.

The precooling housing (20) is formed in a horizontally long rectangular housing, and the inside thereof is the precooling target (6
0) is formed in a tunnel-shaped precooling transfer path (21) for precooling. Further, the precooling housing (20) is
While being formed of a heat insulating material, the storage port (22) for the pre-cooling target (60) is formed on one side (the left side in FIG. 1), while the other side (the right side in FIG. 1) is pre-cooled. An outlet (23) for the product (60) is formed, and the pre-cooling conveyance path (21) is formed from the inlet (22) to the outlet (23).

The conveyor (30) is provided with a precooling target (60).
Is configured along the pre-cooling transport path (21), which constitutes a transport means for transporting from the storage port (22) to the storage port (23). The conveyor (30) is a belt conveyor, and is formed so that cooling air can flow from the upper side to the lower side. For example, a mesh-shaped endless conveyor belt (31) is used as a drive roller, a guide roller, or the like. It is configured by winding the transport rollers (32, 32, ...). The conveyor belt (31) is omitted in FIG.

The conveyor belt (31) has a storage port (2
Storage part (1) for the pre-cooling target (60) formed in front of (2)
From 1), pass through the pre-cooling housing (20) and exit (2
It is arranged over the delivery section (not shown) of the precooling target (60) formed behind 3). Further, the transport rollers (32, 32, ...) Are arranged at a predetermined interval, and both ends thereof are rotatable with respect to guide members (12) attached to both inner sides of the precooling housing (20). Supported by.

The cooling means (40) is composed of a plurality of cooler units (41, 41, ...), and the cooler units (41, 41, ...) Are the upper part of the precooling transfer path (21) and the conveyor. Located above the belt (31), the pre-cooled transport path (21)
It is juxtaposed along. Above Cooler Unit (41)
Comprises an evaporator (43) housed in a unit case (42), and the inlet (44) is provided on both side surfaces of the unit case (42).
However, the supply ports (45) are opened on the lower surface. The cooler unit (41) is configured to supply the cooling air generated by the evaporator (43) from the supply port (45) toward the conveyor belt (31).

The suction means (50) is composed of a plurality of differential pressure suction units (51, 51, ...), and the differential pressure suction units (51, 51, ...) Are cooler units (41, 41 ,. ), Is located below the pre-cooling conveyance path (21) and below the feed-side conveyor belt (31), and is arranged in parallel along the pre-cooling conveyance path (21). The differential pressure suction unit (51, 51, ...) Is the cooler unit (41,
The cooling air in the pre-cooling housing (20) containing the cooling air supplied from the cooling air is sucked so as to circulate in the pre-cooling housing (20) through the pre-cooling object (60). .

Specifically, the differential pressure suction unit (51)
As shown in FIG. 2, the chamber case (52) fixed to the guide members (12) on both sides of the precooling housing (20) and the suction fan (5) attached to the chamber case (52).
A fan case (54) having 3) is integrally attached and configured. And the chamber case (52)
The upper surface is open, and the differential pressure suction unit (51) is
Cooling air is sucked from above by the suction fan (53) and blown out downward.

Further, on the upper surface of the guide member (12),
A closing piece (13) that is in contact with the side surface of the precooling target (60) is attached, and the closing piece (13) is formed in a strip shape with a flexible member such as rubber, and the lower part of the precooling target (60). The precooling target (60) is laterally blocked so that the cooling air is not bypassed by the differential pressure suction units (51, 51, ...) From the lateral side.

Further, as shown in FIG. 3, the pre-cooling housing (20) is provided with a plurality of proximity switches (14). The proximity switch (14) is provided at one side of the rear end of the differential pressure suction unit (51, 51, ...) And is placed on the conveyor belt (31) to be precooled. When the object (60) is located between the cooler unit (41, 41, ...) And the differential pressure suction unit (51, 51, ...),
It constitutes a position detecting means for detecting the precooling target (60) and outputting a detection signal.

As shown in FIGS. 4 and 5, the precooling target (60) is made up of tomatoes (PC) stored in a storage case (61), and the storage case (61) contains 20 tomatoes. (P
It is formed to fit C). Furthermore, the storage case (61) is a so-called tray with crosspieces, and side panels (63, 63) are provided on both left and right sides of the floor panel (62), and end panels (63, 63) are provided on both front and rear sides. Reinforcement flaps (65, 65) are continuously formed on the end panels (64, 64) on both front and rear sides of the upper surface while being continuously formed via folds.

Further, the storage case (61) is a case without a lid whose upper surface is open, and the floor panel (62) has a plurality of ventilation holes (70, 70, ...) In a lattice pattern. The array is formed. The ventilation ports (70, 70, ...) Are formed, for example, 20 in correspondence with the number of tomatoes (PC) to be stored,
The floor panel (62) of 43 cm × 29 cm has 20 perfect circular ventilation openings (70) with a diameter of 2 cm and eight semi-circular ventilation openings (70) with a diameter of 2 cm.

As shown in FIG. 2, the objects to be precooled (60) are stacked on the conveyor belt (31) in three steps and arranged in three rows so that they can be moved in the precooling conveyance path (21). become.

-Precooling Operation- Next, the precooling operation of the tomato (PC) by the above-described precooling device (10) will be described.

First, 20 harvested tomatoes (PC) are stored in the storage case (61), as shown in FIGS. 4 and 5. The pre-cooling target (60) in which the tomato (PC) is stored in the storage case (61) is collected in a collection facility or the like and placed on the storage section (11) of the pre-cooling device (10).

On the other hand, the conveyor belt (31) is continuously driven, and in this state, the objects to be precooled (60) are stacked and placed on the conveyor belt (31) in the storage section (11) in three rows and three stages. The precooling target (60) is carried into the precooling housing (20) through the storage port (22).

Further, inside the precooling housing (20), the cooler unit (4
, 41) are located, the differential pressure suction units (51, 51, ...) Are located below the precooling target (60).

The cooler unit (41, 41, ...)
The internal air of the pre-cooling housing (20) is cooled by the evaporator (43) and the suction fan (53) of the differential pressure suction unit (51, 51, ...) Is driven, so the pre-cooling housing (20).
The cooling air inside is sucked from above the differential pressure suction unit (51, 51, ...) And blows out downward. A part of the cooling air blown from the differential pressure suction unit (51, 51, ...) Ascends on the side portion of the pre-cooling housing (20) and then in the evaporator (43) of the cooler unit (41, 41, ...). The cooled air is sucked into the differential pressure suction unit (51, 51, ...) Again together with the cooling air that does not pass through the other evaporator (43), and this operation is repeated.

Since the precooling target (60) is arranged above the differential pressure suction unit (51, 51, ...) As described above, the cooling air in the precooling housing (20) and the cooler unit (41, 41). 41, ...) passes through the storage case (61) for the precooling target (60) in the upper stage, passes through the storage case (61) for the precooling target (60) in the middle stage, and then the precooling target in the lower stage. It passes through the storage case (61) of (60) and is sucked by the differential pressure suction unit (51, 51, ...).

That is, since the upper surface of the storage case (61) is open, the storage case (6
While flowing into 1), the ventilation openings (70, 7) of the floor panel (62)
(0, ...) and flows out downward, so the cooling air in the refrigerator is transferred from the upper storage case (61) to the middle storage case (61).
After that, it will pass through the lower storage case (61) in order.

The cooling air is stored in the storage case (61).
Since it contacts the tomato (PC) when passing through, the tomato (PC) is cooled and pre-cooled.

The object to be precooled (60) on the conveyor belt (31) moves between the cooler unit (41, 41, ...) And the differential pressure suction unit (51, 51, ...) At predetermined time intervals. Therefore, new pre-cooled objects (60) are sequentially loaded into the pre-cooled housing (20), while pre-cooled pre-cooled objects (60).
Will be carried out from the exit (23). This tomato (PC) is pre-cooled to, for example, about 10 ° C., but according to the storage case (61), pre-cooling is completed in about 20 to 30 minutes.

Since the proximity switch (14) detects the precooling target object (60) inside the precooling housing (20), when the precooling target object (60) is not present, that is, the precooling target object (60). When the (60) is not carried in continuously and there is a certain interval between the precooling objects (60) on the conveyor belt (31), the cooler unit (41, 41) in which the precooling objects (60) do not exist. ,…) And differential pressure suction unit (51, 51,
...) is stopped and the precooling object (60) moves, the cooler unit (41, 41, ...) and the differential pressure suction unit (51, 51, ...) are driven again. .

-Effects of this Embodiment- As described above, according to this embodiment, the precooling target (60)
Is placed on a conveyor (30), cooling air is made to flow downward from above, and the tomato (P
Since the tomato (PC) is pre-cooled by applying cooling air to C), it is necessary to dispose the ventilation holes (70, 70, ...) Of the storage case (61) and the suction plate in close proximity to each other as in the conventional case. Without
In other words, it is not necessary to stack and arrange the pre-cooling objects (60) with high accuracy, and a rough arrangement or the like may be used, which can be easily performed. As a result, the work can be speeded up.

Further, since the pre-cooled object (60) is cooled while being conveyed on a flat plane, the pre-cooled object (60) is carried in order and at the same time, the pre-cooled object (60) is carried out in order. Therefore, continuous work can be performed, and labor can be saved.

The upper surface of the storage case (61) for storing the tomato (PC) is opened, and the storage case (6) is opened.
Since the plurality of ventilation openings (70, 70, ...) Are formed in the floor panel (62) of 1), a sufficient amount of cooling air can be secured. Especially, since the floor panel (62) of the storage case (61) does not require so much strength,
Since the ventilation openings (70, 70, ...) Can be formed sufficiently, the precooling time can be significantly shortened.

By shortening this precooling time, tomato (P
Since it is possible to maintain the freshness of C) for a long period of time, it is possible to effectively prevent a decrease in commercial value. Furthermore, since pre-cooling can be completed in a short time, the target items are not limited, and the range of use can be expanded.

The cooler unit (41, 41,
...) and the differential pressure suction unit (51, 51, ...) employ a so-called local return method, so that twice as much cooling air as the cooler unit (41, 41, ...) is pre-cooled (60). Therefore, rapid cooling can be performed. In particular, since the cooling air supplied to the pre-cooling target (60) can be doubled, the temperature difference can be reduced by half and uneven cooling can be prevented.

Further, the cooler unit (41, 41,
Can be miniaturized by increasing the temperature difference of the cooling air to be cooled.

Since the proximity switch (14) for detecting the precooling target (60) is provided, the cooler unit (41) at a position where the precooling target (60) does not exist.
Since the differential pressure suction unit (51) and the differential pressure suction unit (51) can be stopped, waste of energy can be prevented and energy saving can be achieved.

[0059]

Other Embodiments of the Invention In the present embodiment, tomato (PC) was illustrated as an agricultural product to be pre-cooled, but the present invention is not limited to tomato (PC), and for example, cucumber and In addition to bell peppers, it can be applied to vegetables such as spinach.

Further, the cooler unit (41, 41,
...) and the differential pressure suction unit (51, 51, ...) are not limited to the embodiment.

Further, the conveyor (30) is not limited to the belt conveyor, and may be a roller conveyor or the like, and the conveying means is the conveyor (30).
It is not limited to.

Further, the conveying means is provided with the pre-cooling target (60) 3
It is needless to say that it is not limited to stacking in three rows and may be stacked in one row in one row.

The proximity switch (14) does not necessarily have to be provided in the invention according to claim 1.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a partial cross section of a precooling device of the present invention.

FIG. 2 is a cross-sectional view of the precooling device.

FIG. 3 is a perspective view showing a differential pressure suction unit.

FIG. 4 is a sectional plan view of an object to be precooled.

FIG. 5 is a cross-sectional side view of an object to be precooled.

[Explanation of symbols]

 10 Pre-cooling device 14 Proximity switch (position detection means) 20 Pre-cooling housing 21 Pre-cooling conveyance path 22 Entry port (entrance) 23 Entry port (exit) 30 Conveyor (conveyance means) 31 Conveyor belt 32 Conveying roller 40 Cooling means 41 Cooler unit 43 Evaporation Device 50 Suction means 51 Differential pressure suction unit 53 Suction fan 60 Pre-cooling target 61 Storage case 62 Floor panel 70 Ventilation PC tomato (agricultural products, products to be cooled)

Claims (3)

[Claims] 1. A precooling conveyance path (21) is formed inside the precooling housing (20) from an inlet (22) formed on one side of the precooling housing (20) to an outlet (23) on the other side. In the pre-cooling conveyance path (21), a pre-cooling target (60) having a pre-cooled product (PC) stored in a storage case (61) is placed, and the pre-cooling target (60) is pre-cooled in a pre-cooling housing (60). 20) entrance (2
2) A means for transporting from the outlet (23) toward the outlet (23), which is provided with a transport means (30) configured to freely ventilate in the vertical direction. The transport means (30) is provided above the precooling transport path (21). The cooling means (40) for supplying cooling air downward is provided above the above (30), and the cooling air supplied from the cooling means (40) is provided below the pre-cooling transfer path (21). The cooling air in the precooling housing (20) including the precooling housing (20) passes through the precooling target (60).
The suction means (50) for sucking the cooling air so as to circulate in the inside (0) is provided below the transfer means (30), while the storage case (61) is a case whose upper part is opened. The floor panel (62) of the storage case (61) that is formed.
A pre-cooling device for agricultural products, etc., characterized in that a plurality of ventilation openings (70, 70, ...) Through which cooling air passes are formed. 2. The precooling device for agricultural products, etc. according to claim 1, wherein the cooling means (40) is composed of a plurality of cooler units (41, 41, ...) arranged in parallel along the precooling conveyance path (21). On the other hand, the suction means (50) includes a plurality of differential pressure suction units (51, 51) arranged in parallel along the pre-cooling conveyance path (21) and arranged corresponding to the cooler units (41, 41, ...). ,…) Is a pre-cooling device for agricultural products. 3. The pre-cooling device for agricultural products according to claim 2, wherein the pre-cooling target (60) is located between the cooler unit (41) and the differential pressure suction unit (51).
A pre-cooling device for agricultural products and the like, which is provided with a position detecting means (14) for detecting.