JPH08313150A - Heat insulation box for cold storage and freezing wagon - Google Patents

Abstract

PURPOSE: To provide a heat insulation box for a cold storage and freezing wagon capable of improving cold insulation performance and having a light weight and durability. CONSTITUTION: In the heat insulation box for a cold storage and freezing wagon having a combination of heat insulation wall panels in a box state, the heat insulation wall panels of the side walls, the front and rear walls and the ceiling of the box are provided with a sandwiched panel 27 obtained by laminating the sheets 23 of glass fiber-reinforced polypropylene resin composite materials at both sides of a polystyrene foam layer 21 as an intermediate at the inside of an outer surface plate 17 and the heat insulation layer 19 of polyurethane foam to improve the cold insulation performance and to maintain a sound state for a long period.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulating box for refrigerating and freezing vehicles, and more particularly to a lightweight and durable heat insulating wall panel structure capable of improving cold insulating performance.

[0002]

2. Description of the Related Art Refrigerating and refrigerating cars used for long-distance frozen tuna transportation at high temperatures (for example, -20.degree. C.) discolor the frozen tuna, resulting in deterioration of freshness. Cooling performance at a low temperature of about ° C is required.
Therefore, a low temperature liquid nitrogen refrigerator is used as a refrigerating and refrigerating system. This is one in which liquid nitrogen is put into a cylinder, and this is blown out from a spray tube and cooled by the heat of vaporization of liquid nitrogen, and it is possible to keep cold at -40 ° C. or higher. The heat insulation box body of this type of refrigerating and refrigerating vehicle also uses a special heat insulation box body that can prevent the entry of external heat and exhibit a cold insulation performance of -40 ° C or higher. It is difficult to integrally form a large heat-insulating box body such as a refrigerating or refrigerating car like a refrigerator, and a heat-insulating wall panel is combined to form the box body. This will be described with reference to FIGS. 7 to 9.

FIG. 7 is a cross-sectional view showing the side wall and front and rear wall panels of the heat insulating box. First, there is an aluminum outer face plate (corrugated panel) 101, and the heat insulating layer 103 is arranged inside the outer face plate 101. ing. The heat insulating layer 103
Uses a polyurethane foam having a thickness of about 150 mm in order to obtain a high degree of cold insulation performance. In addition, a fiber reinforced plastic (FRP) layer 10 is provided inside the heat insulating layer 103 in order to prevent water from entering the polyurethane foam.
5 are arranged. Inside the fiber reinforced plastic (FRP) layer 105, a veneer plywood 107 having a thickness of about 15 mm is arranged in order to prevent external impact on the heat insulating layer 103. Further, inside the veneer plywood 107, in the lower half of the side wall, an aluminum plate (checker plate) 109 having irregularities is arranged to prevent the frozen tuna to be loaded from slipping. The plywood 107 is exposed at the upper part of the side wall.

On the other hand, the ceiling panel, as shown in FIG.
First, there is an outer plate 111 made of aluminum, and a heat insulating layer 113 made of polyurethane foam is provided inside the outer plate 111.
Is arranged. Further, a veneer plywood 115 is arranged inside thereof, and an aluminum plate 117 is arranged entirely inside thereof. As shown in FIG. 9, the floor panel has an outer face plate 121 made of a fiber reinforced plastic (FRP) layer, and a heat insulating layer 123 made of polyurethane foam is arranged inside the outer face plate 121. Further, a veneer plywood 125 is arranged inside thereof, and an aluminum T-type rail plate 127 is further arranged inside thereof.

[0005]

The structure of the heat insulating box of the conventional refrigerating and refrigerating car has the following problems.
Veneer plywood and aluminum plates as materials used for the heat insulating box have a desired function in terms of strength and that they can be used even at a low temperature of -40 ° C or less. However, veneer plywood has the drawback that it easily absorbs water. In other words, when the temperature inside the heat-insulating box rises, frozen tuna, etc. is thawed and some water evaporates, or when water is splashed during cleaning the inside of the box, water is gradually absorbed by the plywood. I will end up. When liquid nitrogen is blown out in such a state to cool the inside of the heat insulating box, liquid nitrogen is first used to freeze the water contained in the plywood, and as a result, the cold insulation performance deteriorates. However, there was a problem that the pre-cooling time was long.

Further, the moisture contained in the veneer plywood increases the weight of the heat insulation box of the refrigerating and refrigerating vehicle, and therefore, there is a problem that the possible load weight decreases. Especially when the water freezes, the tendency becomes remarkable. Further, a checker plate made of aluminum is provided on the inner surface of the box body, but since aluminum has a large thermal conductivity and is highly endothermic, the aluminum plate is first cooled at the time of cooling by blowing out liquid nitrogen. Therefore, liquid nitrogen is used, and as a result, there is a problem that the cold insulation performance is deteriorated.

The present invention has been made on the basis of the above points, and an object of the present invention is to improve the heat insulation performance by eliminating the above-mentioned problems, and to provide a lightweight and durable refrigerating unit, It is to provide a heat insulating box for a refrigeration vehicle.

[0008]

In order to achieve the above object, the first aspect of the present invention is to provide a heat insulation box body of a refrigerating or freezing vehicle in which heat insulation wall panels are combined in a box shape. Each heat insulation wall panel of the front and rear walls and the ceiling is a sandwich panel in which a sheet of glass fiber reinforced polypropylene resin composite is laminated on both sides of the outer surface plate and the heat insulation layer of polyurethane foam with the polystyrene foam layer in the middle. It is characterized by being provided.

According to a second aspect of the present invention, in the heat insulation box body for a refrigerating or refrigerating vehicle according to the first aspect, the inside of the sandwich panel is made of synthetic resin having a high skin density and a low inner layer density. It is characterized in that it is provided with an inner plate.

[0010]

According to the first aspect of the present invention, the sandwich panel is provided inside the heat insulating layer, with the polystyrene foam layer in the middle, and the glass fiber reinforced polypropylene resin composite sheet laminated on both sides thereof. The polystyrene foam layer exhibits a heat insulating effect of about 75% of that of the polyurethane foam, and can improve the cold insulation performance more than the conventional veneer plywood. Moreover, the sheets of the glass fiber reinforced polypropylene resin composite material laminated on both sides thereof have sufficient strength and impact resistance against external impact such as frozen tuna and protect the polystyrene foam. Further, even if one of the sheets is damaged, the polystyrene foam having waterproofness and the other sheet can waterproof the heat insulating layer. Therefore, it is possible to exhibit excellent cold insulation performance and maintain a healthy state for a long period of time.

According to a second aspect of the present invention, in the heat insulation box body for a refrigerating or refrigerating vehicle according to the first aspect, the inside of the sandwich panel is made of a synthetic resin having a high skin density and a low inner layer density. Since the inner surface plate of is provided, it is possible to protect the sandwich panel from the impact from the outside, and
The inner surface plate made of synthetic resin has a property that it is difficult to absorb heat, whereas the conventional aluminum plate has high heat absorption, so when cooling by blowing out liquid nitrogen, the inner surface plate made of synthetic resin is cooled. Energy is not needed, and the cold insulation performance can be further improved.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a heat insulation box body for a refrigerating and refrigerating vehicle of the present invention will be specifically described with reference to FIGS. FIG.
Is a perspective view showing the heat insulating box 1 mounted on the refrigerating / freezing vehicle F, and FIG. 2 is a sectional view showing the heat insulating box 1. Insulation box 1
Is composed of a front wall 3, a rear wall (door) 5, side walls 7 and 9, a ceiling 11 and a floor plate 13, each of which is a heat insulating wall panel. A liquid nitrogen spray pipe 15 is arranged at the boundary between the ceiling 11 and the side walls 7 and 9 of the heat insulating box 1.

In the heat insulating box 1, the heat insulating wall panels of the front wall 3, the rear wall (door) 5, and the side walls 7 and 9 are shown in FIG.
The configuration is as shown in. First, there is the outer surface plate 17, and the heat insulating layer 19 is provided inside thereof. And
A sandwich panel 27 is provided inside which a polystyrene foam layer 21 is placed in the middle and sheets 23 and 25 of glass fiber reinforced polypropylene resin composite materials are laminated on both sides of the sandwich panel 27. Inside the sandwich panel 27, a synthetic resin inner surface plate is provided. 29 are provided. The outer plate 17 is a corrugated panel made of aluminum as in the conventional case, and the heat insulating layer 19 has a thickness of about 1 in order to obtain a high degree of cold insulation performance as in the conventional case.
Polyurethane foam of about 50 mm is used.

The sandwich panel 27 is provided in place of the conventional veneer plywood, and is formed with a polystyrene foam layer 21 having a thickness of about 20 mm in the middle. The polystyrene foam exhibits a heat insulating effect of about 75% of that of the polyurethane foam, and has a property that it is foamed but impermeable to water. Further, on both sides of the polystyrene foam layer 21, sheets 23 and 2 of glass fiber reinforced polypropylene resin composite material having a thickness of about 2 mm are provided.
5 are stacked. The glass fiber reinforced polypropylene resin composite material is a product name "K
It is commercially available as "P sheet", and is a sheet formed by a paper machine by dispersing and mixing a thermoplastic resin such as polypropylene and about 40% of glass fiber in water. And this one has excellent strength and impact resistance,
Tensile strength of 10.5 kgf / mm ² , 90 kgf / cm
^It exhibits an impact strength of ² .

In order to form the sandwich panel 27, as shown in FIG. 4, the end portions of the divided sandwich panel constituent elements 27A and 27B are formed in an L shape,
An adhesive / sealing material 31 called a "sealer" is applied to the end faces and butt-bonded to each other, which prevents water from entering the polystyrene foam layer 21.

On the other hand, the synthetic resin inner surface plate 29 disposed inside the sandwich panel 27 is provided in place of the aluminum plate (checker plate), and as shown in FIGS. The plate-like members are closely arranged side by side, in particular, the lower part is closely arranged without any gaps, and fixed by screws or the like to protect the sandwich panel 27 against external impacts such as frozen tuna. The inner plate 29 made of synthetic resin is commercially available under the trade name "Durawood" manufactured by Aiwa Co., Ltd. This is an extruded product of polypropylene, which has a sandwich structure with a high-density skin and a foamed inner layer, and has excellent rigidity, impact resistance, and abrasion resistance,
It is waterproof. Further, since it is a synthetic resin molded product, it has a low thermal conductivity, and has the property that it is difficult for heat to be transferred (hard to absorb heat) even when placed at low temperatures.

The heat insulating wall panel of the ceiling 11 is as shown in FIG. First, the aluminum outer plate 3
3 and a heat insulating layer 35 made of polyurethane foam having a thickness of about 150 mm is provided inside thereof.
A sandwich panel 43 is provided inside of which a polystyrene foam layer 37 is placed in the middle and glass fiber reinforced polypropylene resin composite sheets 39 and 41 are laminated on both sides thereof.

The heat insulating wall panel of the floor 13 has the same structure as the conventional one, and the details are as shown in FIG. First, there is an outer surface plate 121 made of a fiber reinforced plastic (FRP) layer, and a heat insulating layer 123 made of polyurethane foam is arranged inside thereof. Further, a veneer plywood 125 is arranged inside thereof, and an aluminum T-type rail plate 127 is further arranged inside thereof.

The heat insulation box body of the refrigerating and refrigerating vehicle of this embodiment has the above-mentioned structure and has the following operation. First, since the sandwich panels 27 and 43 have strength and impact resistance equivalent to those of plywood, and waterproofness, they have the characteristic that they are not easily damaged even when an external impact is applied, and the heat insulating layer The invasion of water into 19, 35 is also prevented. Further, since the polystyrene foam layers 21 and 37 are provided, the heat insulation is high, and the cold insulation performance of the heat insulation box 1 can be improved. In addition, the polystyrene foam layers 21, 37
Since the sheets 23, 25, 39, 41 of the glass fiber reinforced polypropylene resin composite material are laminated on both sides with the sheet in the middle, even if one of the sheets 23, 39 is damaged, a polystyrene foam layer having waterproofness is provided. 21 and 37 and the other sheets 25 and 41 enable waterproofing of the heat insulating layers 19 and 35.

Further, since the inner surface plate 29 made of synthetic resin having a high skin density and a low inner layer density is provided inside the sandwich panel 27, the conventional aluminum plate has a high heat absorbing property. Since it has a property of hardly absorbing heat, there is no energy consumption for cooling the synthetic resin inner surface plate at the time of cooling by blowing out the liquid nitrogen, and the cold insulation performance can be further improved.

Next, regarding the heat insulating box body 1 of the above embodiment,
The cold insulation performance was tested by comparison with a conventional heat insulating box having almost the same heat transfer area. The test method is based on the internal heating method.
While controlling the temperature inside the test car for a certain period of time to maintain a constant temperature (40 ° C), the heat transmission coefficient K (kcal / hr °)
It was carried out by measuring cm ² ). When the test result is shown in FIG. 6, while the conventional type has K = 0.25,
In the case of this example, K = 0.19, and it was found that the cold insulation performance was remarkably improved as compared with the conventional case. Assuming the heat transmission coefficient of the test vehicle of this embodiment from the heat insulation thickness, K = 0.
Although it is about 21, the measured value is better than that and the cold insulation performance is good. Further, when the liquid nitrogen usage amount (kg / hr) was calculated from the above-mentioned measured values of heat transmission coefficient, the conventional type was 18.1.
On the other hand, in this example, it was 14.3, and it was found that the use of the liquid nitrogen in this example can reduce the amount of liquid nitrogen used by about 20%.

Further, according to the heat insulating box body 1 of the present embodiment, by adopting the sandwich panel 27 and the inner surface plate 29 made of synthetic resin, it is possible to reduce the weight by about 100 kg or more as compared with the conventional type. The possible load weight increases accordingly.

According to this embodiment, the following effects can be obtained. First, the sandwich panel 2
7 has the same strength and impact resistance as plywood, and
Since it is waterproof, it is less likely to be damaged even when an external impact is applied, and water can be prevented from entering the heat insulating layer. Moreover,
Since it has a heat insulating property, it can exhibit excellent cold insulation performance, and can reduce the amount of liquid nitrogen used as much as possible and reduce the transportation cost. Further, since the weight is reduced, the possible load weight can be increased.

In addition, the sandwich panels 27 and 43 are made of the polystyrene foam layers 21 and 37 in between, and the glass fiber reinforced polypropylene resin composite sheet 2 is provided on both sides thereof.
Since 3, 25, 39 and 41 are laminated, even if one of the sheets is damaged, the polystyrene foam layer having waterproofness and the other sheet can waterproof the heat insulating layers 19 and 35 for a long time. A healthy state can be maintained throughout.

Further, in the case where an inner surface plate 29 made of synthetic resin having a high skin density and a low inner layer density is provided inside the sandwich panel 27, the sandwich panel is protected against an external impact. In addition, while the conventional aluminum plate has a high heat absorption property, it has a property of hardly absorbing heat. Therefore, during cooling by blowing out liquid nitrogen, energy for cooling the inner surface plate made of synthetic resin can be obtained. There is no consumption and the cold insulation performance can be further improved.

The present invention is not limited to the above-mentioned embodiment. For example, in the above-described embodiment, in the heat insulating wall panels of the side wall and the front and rear walls, the inner surface plate 29 made of synthetic resin in which the density of the skin is increased and the density of the inner layer is decreased is further provided inside the sandwich panel 27. Alternatively, it may be provided on the inner surface of the sandwich panel of the ceiling 11.

[0027]

As described above in detail, according to the first aspect of the present invention, by providing the sandwich panel, the same strength and impact resistance as the plywood and the waterproof property are provided. It is hard to be damaged even when the impact is applied, and it is possible to prevent water from entering the heat insulating layer. Moreover, since it has a heat insulating property, it can exhibit excellent cold insulation performance, and can reduce the amount of liquid nitrogen used as much as possible to reduce the transportation cost. Further, since the weight is reduced, the possible load weight can be increased.

In the sandwich panel, sheets of glass fiber reinforced polypropylene resin composite are laminated on both sides of the polystyrene foam layer in the middle, so that even if one of the sheets is damaged, the polystyrene having waterproof property is used. With the foam layer and the other sheet, the heat insulating layer can be waterproofed, and a healthy state can be maintained for a long time.

According to the second aspect of the present invention, since the inner surface of the sandwich panel is made of a synthetic resin having a higher skin density and a lower inner layer density, a synthetic resin inner surface plate is provided. The conventional aluminum plate has a high endothermic property, but it does not absorb heat. Therefore, when cooling by blowing out liquid nitrogen, the inner panel made of synthetic resin can be used. No energy is consumed to cool the face plate, and the cold insulation performance can be further improved.

[Brief description of drawings]

FIG. 1 is a perspective view showing a heat insulating box mounted on a refrigerating / freezing vehicle according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view showing a heat insulating box in a view showing an embodiment of the present invention.

FIG. 3 is an enlarged cross-sectional view of a side wall in a diagram showing an embodiment of the present invention.

FIG. 4 is a view showing an embodiment of the present invention and is a view showing a method of joining sandwich panel components to each other.

FIG. 5 is an enlarged cross-sectional view of the ceiling showing the embodiment of the present invention.

FIG. 6 is a diagram showing an example of the present invention and is a diagram showing the results of a cold insulation performance test of this example and a conventional type.

FIG. 7 is a diagram showing a conventional example and an enlarged sectional view of a side wall.

FIG. 8 is an enlarged cross-sectional view of a ceiling showing a conventional example.

FIG. 9 is an enlarged cross-sectional view of a floor showing a conventional example.

[Explanation of symbols]

1 Insulation Box Body 3 Front Wall 5 Rear Wall (Door) 7, 9 Side Wall 11 Ceiling 13 Floor 17 Exterior Plate 19 Heat Insulation Layer 21 Polystyrene Foam Layer 23, 25 Glass Fiber Reinforced Polypropylene Resin Composite Sheet 27 Sandwich Panel 29 Synthetic Resin Inner plate made of

Claims (2)

[Claims] Claim: What is claimed is: 1. A heat-insulating box body for refrigerating and refrigerating vehicles, which comprises a combination of heat-insulating wall panels in a box shape.
Each heat insulation wall panel of the front and rear walls and the ceiling is a sandwich panel in which a sheet of glass fiber reinforced polypropylene resin composite is laminated on both sides of the outer surface plate and the heat insulation layer of polyurethane foam with the polystyrene foam layer in the middle. A heat-insulating box body for refrigerating and refrigerating vehicles, which is provided. 2. The refrigerating / refrigerating vehicle heat insulating box according to claim 1, wherein an inner surface plate made of synthetic resin having a high skin density and a low inner layer density is provided inside the sandwich panel. A heat-insulating box body for refrigerated and frozen cars.