JP2000279282A - Heat insulating sheet for refrigerating rack - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a heat insulating sheet for a refrigerating rack that prevents dew condensation, provides a good refrigerating effect, and can be formed at low cost. SOLUTION: This heat insulating sheet 3 for covering an opening 2 in a refrigerating rack 1 open on its front face is formed of a nonwoven fabric. The heat insulating sheet can form a film of water by absorbing water and retaining the film between component fibers. The nonwoven fabric forming the heat insulating sheet has a METSUKE (weight/unit area) of 50 to 100 g/m2, an air permeability of 10 to 200 cc cm2-sec, and a water retention rate of 100 to 250%.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a heat insulating sheet for a refrigerator shelf.

[0002]

2. Description of the Related Art Refrigerated shelves with open fronts are used in supermarkets and mass retailers to display and store food items such as vegetables. Here, “refrigerated shelf” is used as a word representing a concept including “frozen shelf”. In this type of refrigerated shelf, a roll screen is installed to cover the opening at night or the like after the store is closed, so that cool air does not escape. However, if this roll screen is not air permeable at all, the foodstuffs in the shelves will get too much moisture. For this reason, a certain degree of air permeability for releasing this moisture is required.

In order to satisfy such requirements, conventionally, a perforated PET (polyethylene terephthalate) film, a woven fabric, or the like has been used as a material for the roll screen.

[0004]

However, when a PET film is used, even if a hole is formed to improve air permeability, dew condensation still occurs due to moisture generated in the shelf. And may adversely affect food items in the shelf, such as deteriorating or freezing. Further, there is a problem that the refrigeration effect is not good because the cool air escapes from the holes formed in the film. On the other hand, when woven fabric is used, there is a problem that the cost is too high.

Therefore, the present invention solves such problems and does not cause dew condensation, has a good refrigeration effect,
Moreover, an object of the present invention is to obtain a heat insulating sheet for a refrigerator shelf that can be formed at low cost.

[0006]

According to the present invention, in order to achieve the above object, a heat insulating sheet for covering the opening of a refrigerator shelf having an open front surface is formed of a nonwoven fabric. . With such a configuration, since the heat insulating sheet is formed of a nonwoven fabric, it has appropriate air permeability. In addition, it is possible to absorb water and retain water between the constituent fibers, so that dew condensation does not occur on the sheet surface, and a water film is formed by water retention, so that a corresponding heat insulating performance is obtained. Therefore, a good refrigeration effect can be expected. Also, because it is a non-woven fabric,
It can be constructed much cheaper than a woven fabric.

[0007]

1 and 2 show an example in which the heat insulating sheet of the present invention is applied to a refrigerator shelf. Here, reference numeral 1 denotes a refrigerated shelf, which is used for displaying and storing food items such as vegetables in a supermarket or a mass retailer, and has an opening 2 on a front surface thereof. Reference numeral 3 denotes a heat insulating sheet of the present invention, which is configured as a roll screen as shown. That is, the heat insulating sheet 3 is wound and stored in a roll shape inside a case 4 provided at the upper end of the opening 2, and the case 4 is operated by operating a handle 5 provided at the tip end. Pull downward from
It is configured so that the opening 2 can be covered.

The heat insulating sheet 3 for a refrigerator according to the present invention is formed of a nonwoven fabric. As fibers constituting the nonwoven fabric, long fibers and short fibers made of natural fibers, regenerated fibers, synthetic fibers, and the like can be suitably used. Among them, as the natural fiber, cotton, pulp, hemp, wool, silk and the like can be used.

As the regenerated fiber, viscose rayon, copper ammonia rayon, lyocell, which is a rayon which is prevented from melting, and the like obtained from pulp can be used. As the synthetic fibers, those formed of an amide-based polymer, an ester-based polymer, or an ethylene-based polymer can be used. Further, a mixture of these fibers or a mixture of short fibers and long fibers can be used.

[0010] If necessary, the polymer forming the synthetic fiber may include, for example, a matting agent, a pigment, a flame retardant, a deodorant, an antistatic agent, a heat stabilizer, an antioxidant, an antibacterial agent, and a fungicide. Various additives such as agents can be added within a range that does not impair the effects of the present invention. The nonwoven fabric of the present invention can be formed using the above-mentioned fibers by a known nonwoven fabric method such as a wet method, a spunlace method, a spunbond method, and a melt blow method. When synthetic long fibers are used as constituent fibers, a long fiber web can be prepared by suitably applying a spun bond method or a melt blow method, and the fibers can be bonded to each other by a thermal bond method. As a specific bonding method by the thermal bonding method, a partial thermocompression bonding method, an ultrasonic method, a calendar method, a thermal through method, or the like can be employed.

[0011] Since the heat insulating sheet of the present invention is formed of the non-woven fabric in this way, it has voids between the constituent fibers, and therefore it is possible to absorb the moisture generated in the refrigeration shelf and hold it in these voids. As a result, a water film can be formed to create a state having substantially no air permeability. Therefore, dew condensation does not occur on the sheet surface, and heat insulation performance according to the formed water film is obtained, so that a good refrigeration effect can be expected. Further, since it is a non-woven fabric, it can be constructed at a much lower cost than a woven fabric.

The nonwoven fabric constituting the heat insulating sheet of the present invention comprises:
Specifically, it is preferable that the basis weight is 50 to 100 g / m ² . If the basis weight is less than 50 g / m ² , the volume will be reduced, and not only the strength required for the heat insulating sheet will not be achieved, but also the water retention will be poor. The performance is reduced, and dew condensation easily falls in the refrigerator shelf. Conversely, if the basis weight exceeds 100 g / m ² , the weight becomes heavy and the cost increases.

The nonwoven fabric constituting the heat insulating sheet of the present invention has an air permeability of 10 to 200 c when not retaining water.
The c / cm ² · sec is preferable, so that it is possible to prevent the foodstuffs in the shelves from collecting too much moisture. When the air permeability is less than 10 cc / cm ² · sec,
There is a tendency for foodstuffs in the shelves to become too moist. Conversely, if the air permeability exceeds 200 cc / cm ² · sec, the interval between the constituent fibers of the nonwoven fabric becomes extremely large, and it tends to be difficult to obtain the required water retention performance.

The nonwoven fabric preferably has a water retention of 100 to 250%. If the water retention is less than 100%,
It becomes difficult to maintain a sufficient amount of water, so that it becomes difficult to obtain required heat insulating performance, and dew condensation easily occurs. On the other hand, when the water retention exceeds 250%, an unfavorable result of containing a large amount of water, becoming too heavy and growing mold without drying is likely to occur.

The nonwoven fabric has a mechanical strength of 10 kgf.
It is preferably at least / 5 cm wide. This makes it possible to achieve the necessary strength of the heat insulating sheet for the refrigerator shelf, and the tear strength is improved as compared with the conventional one using a film, so that the product lasts longer. 10kgf /
If the width is less than 5 cm, it becomes difficult to obtain the required sheet strength.

When the heat insulating sheet is formed, the nonwoven fabric can be commercialized after being dyed or resin-coated.

[0017]

Next, the present invention will be specifically described based on examples. Note that the present invention is not limited to only these examples. The measurement of various characteristic values in the following Examples and Comparative Examples was performed by the following methods.

(1) Weight of nonwoven fabric (g / m ² ): A total of 10 sample pieces of 10 cm long × 10 cm wide were prepared from a sample in a standard state, and after reaching equilibrium moisture, the weight of each sample piece was obtained. (G) was weighed, and the average of the obtained values was converted per unit area (m ² ) to obtain the basis weight (g / m ² ). (2) Water retention rate (%) of nonwoven fabric: Three samples of 25 cm × 25 cm were prepared, and the weight W0 of each sample was measured. Next, these samples were immersed in distilled water for 10 minutes, after which the samples were taken out, lightly ironed one by one with a glass rod, and the weight W1 was measured again. Based on the above, the water retention rate (%) was determined by the following equation.

Water retention (%) = ((W1−W0) / W0) × 100 (3) Breathability (cc / cm ² · sec) of nonwoven fabric: JI
It was measured according to the Frazier method described in SL-1096A. That is, five 20 × 20 cm sample pieces were prepared, and a Frazier tester (APS-3 manufactured by Daiei Kagaku Seiki Co., Ltd.)
60), the sample piece was attached to one end of the cylinder, and then the suction pump was adjusted so that the inclined barometer indicated a pressure of 1.27 cm of water column, and the pressure indicated by the vertical barometer at that time, Based on the type of air hole used, the value of the air amount was determined from the table attached to the tester, and the average value of the determined air amount was defined as the air permeability (cc / cm ² · sec).

(4) Tensile strength of nonwoven fabric (kg / 5cm
Width): Measured according to the method described in JIS-L-1096A. That is, the sample length is 15 cm and the sample width is 5 cm
10 pieces were made in the machine direction (MD) of the nonwoven fabric,
For each specimen, in the MD direction of the nonwoven fabric, a constant-speed elongation-type tensile tester (Tensilon UTM manufactured by Toyo Baldwin Co., Ltd.)
Using (4-1-100), the sample was stretched at a gripping interval of 10 cm and a tensile speed of 10 cm / min. The average value of the obtained load values at cutting (kg / 5 cm width) was defined as tensile strength (kg / 5 cm width).

(5) Heat insulation performance: The heat insulation performance of the conventional perforated film sheet and that of the nonwoven fabric sheet of the present invention were compared using refrigerated shelves used in stores. That is, the shelves were closed with the installed sheets, the power switch of the refrigerated shelves was turned off, and the temperature rise after 3 hours was measured. And
If the temperature rise was less than 5 ° C, the heat insulation performance was good, and if it exceeded 5 ° C, the heat insulation performance was poor.

Example 1 A heat insulating sheet was formed using a polyester spunbonded nonwoven fabric made of PET. This non-woven fabric is obtained by converting a web into a non-woven fabric by a partial thermocompression bonding method, and the single fiber fineness of the constituent fibers is 3.5 denier.
The basis weight is 50 g / m ² , and the density of the crimping points of the partial thermocompression bonding part is 1
2 points / cm ² , and the compression area ratio was 12%. The water retention rate is 220%, and the air permeability is 150 cc / cm ^2.
sec.

When the opening of the refrigerating shelf was covered with this heat insulating sheet, no dew condensation occurred, sufficient water retention was performed, and the water absorbed by the sheet formed a water film. As for the heat insulation performance, the temperature rise was + 2 ° C., which was good. (Example 2) using the same single yarns as in Example 1, by performing the partial thermocompression bonding process in but the same conditions were varied web forming conditions, to obtain a nonwoven basis weight of 100 g / m ^2. The water retention of this nonwoven fabric is 160%, and the air permeability is 150 cc / cm.
² / sec.

Using a heat insulating sheet obtained from this nonwoven fabric
Then, when the opening of the same refrigerator shelf as in Example 1 was covered,
As described above, there is no condensation, sufficient water retention is performed, and
The moistened water formed a water film. Also about the heat insulation performance
Was good because the temperature rise was + 3 ° C. (Comparative Example 1) Instead of spunbond nonwoven fabric, the water retention rate is
10%, air permeability 100cc / cm ^Two・ Second hole
A heat insulating sheet was formed by a polyethylene film.
Then, using this heat insulating sheet, the same as in Examples 1 and 2
When the refrigerator shelves covered the opening, dew condensation occurred and the refrigerator shelves
The phenomenon of water drops falling inside was confirmed. The sheet is thin
And forming a water film like the sheets of Examples 1 and 2.
Could not. For this reason, the heat insulation performance has a temperature rise of +7.
° C, which was not the object of the present invention.

[0025]

As described above, according to the present invention, the heat-insulating sheet for covering the opening of the refrigerator shelf having a front opening is made of non-woven fabric, so that it has a proper air permeability. In addition, it is possible to absorb water and retain water between the constituent fibers, thus preventing the occurrence of dew condensation on the sheet surface. In addition, since the water film is formed by the water retention, the heat insulation performance corresponding to the water film is formed. And a good refrigeration effect can be expected. Further, since it is a non-woven fabric, it can be constructed at a much lower cost than a woven fabric.

[Brief description of the drawings]

FIG. 1 is a view showing an example in which a heat insulating sheet according to an embodiment of the present invention is used for a refrigerator shelf.

FIG. 2 is a diagram showing a state in which the heat insulating sheet is pulled out of a casing.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Refrigerator shelf 2 Opening 3 Heat insulation sheet

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 3B110 AA10 DA03 3L102 JA04 KB18 KC02 KD07 4L047 AA21 AB03 CA19 CB06 CB07 CB08 CC16

Claims (4)

[Claims] 1. A heat insulating sheet for a refrigerator shelf, which is formed of a nonwoven fabric, for covering the opening of a refrigerator shelf having an open front surface. 2. The heat insulating sheet for refrigerated shelves according to claim 1, wherein a water film can be formed by absorbing moisture and holding it between constituent fibers. 3. The nonwoven fabric having a basis weight of 50 to 100 g / m ² , a gas permeability of 10 to 200 cc / cm ² · sec, and a water retention of 100 to 250%. 2. The heat insulating sheet for a refrigerator shelf according to 2. 4. The heat insulating sheet for a refrigerator according to claim 1, wherein the heat insulating sheet is configured as a roll screen.