KR20110125452A - A method of package for long-term preservation of the sweet persimmon - Google Patents

Abstract

PURPOSE: A sweet persimmon packing method is provided to pack fruit with a plastic film with pin-hones as unit-package and to gather and pack individually packed sweet persimmons with a plastic film. CONSTITUTION: A sweet persimmon packing method is as follows. A micro hollow of 20~150μm size is formed on polyethylene or polypropylene base film of 0.02~0.08mm. One or three sweet persimmons are contained in unit-package which is thermal fused. The unit is packed and sealed with the polyethylene or the polypropylene base film of 0.05-0.15mm as a fastening hermetic sealing master.

Description

A method of package for long-term preservation of the sweet persimmon}

The present invention relates to a packaging method for maintaining long-term freshness of sweet persimmons inherent in Korea.

Fresh fruits continue to soften, reduce sugar content, decrease nutrient content, and degrade sensory quality due to respiration and lodging during storage. This deterioration may result in undesirable changes even when the ambient humidity is not appropriate. Under low humidity conditions during storage, excessive drying is caused to cause swelling and wrinkles, and under excessive humidity conditions, decay by microorganisms is initiated by condensation of water on the fruit surface. In order to suppress such quality deterioration during the storage and distribution of fruits, it should be stored at low temperature and helped by packaging. When fruits are packaged in a plastic film, the oxygen concentration is lowered inside the package due to the fruit breathing, and the carbon dioxide concentration is reversed. Such changes in gas composition during packaging are influenced together by gas permeation through the plastic film so that the packaging gas composition is determined by the proper combination of the fruit permeation and gas permeation of the packaging film.

In the case of sweet persimmon packaging, Korea has been maintaining its freshness for a long time by packaging sweet persimmon using plastic film. Representatively, 5 units of sweet persimmons are packed in 0.06 ~ 0.08mm thick polyethylene film bags, and stored at 0 ℃, which is an appropriate storage temperature, and shipped and sold. In cold storage, a modified atmosphere (MA) is formed inside such a film package to obtain an oxygen concentration of 1 to 12% and a carbon dioxide concentration of 3 to 8%, which are known to be effective in maintaining the quality of sweet persimmon. Due to its widespread use. The optimum conditions for better quality preservation are known to be in the range of 0.5 ~ 1% oxygen and 4 ~ 15% carbon dioxide. When the oxygen concentration rises above 3%, skin black stools occur, and when the oxygen concentration falls below 0.5%, pulpy browning occurs, which becomes more severe when carbon dioxide is accumulated at a concentration of 15% or more. However, current packaging conditions remain close to proper gas composition during low temperature storage, but when distributed in high-temperature outdoor conditions, respiration of persimmon fruit is excessively increased compared to gas permeation of plastic film. Oxygen is depleted and carbon dioxide concentration exceeds 15%, causing browning, a menstrual disorder. In recent years, there has been a demand for various packaging units from consumers, and the necessity of optimizing packaging conditions for various conditions is raised.

However, until now, there has been no in-depth research and development on the packaging method related to the distribution and sale of sweet persimmon, but the manufacturing method of dried food using sweet persimmon is disclosed only in Korean Patent Registration No. 10-0621160.

As a packaging method for maintaining the freshness of sweet persimmons, preheat the sweet persimmons at 2 ~ 5 ℃, heat-package them in plastic films 2 to 3 times, adsorb potassium permanganate solution to zeolite or perlite minerals, and dry the particles with ethylene gas adsorbent. The method of packing into a package is disclosed in Korean Patent Publication No. 2000-0030480, and the conditions of the low-density polyethylene film as a plastic film for packing persimmons are disclosed in Korean Patent No. 10-0529803, respectively. Are not directly related to technology.

The present invention relates to a plastic film packaging method capable of maintaining long-term freshness of sweet persimmon, and more particularly, to a packaging method for maintaining proper gas composition inside a packaging film in consideration of the storage and distribution steps of sweet persimmon. The present invention presupposes that the persimmon-packed sweet persimmons are harvested, stored in large-scale, and transported to a consumer, and then large-scale packages are dismantled and displayed on a small-scale package at a retail store or consumer.

Accordingly, it is an object of the present invention to provide a packaging method for long-term freshness maintenance of sweet persimmon exhibited and sold in subunit packaging.

The above object of the present invention was achieved by sub-packing a single persimmon with a plastic film (packing), and then, secondary master packing, by investigating and evaluating gas composition, humidity change and physiological disorders during storage.

According to the present invention, a single persimmon is packaged with a pinhole-containing plastic film, and then several packages are collected and sealed with a plastic film for secondary packaging, and when sold, the secondary packaging is disassembled and sold as a small package to maintain freshness for a long time. Has an excellent effect.

1 is a view showing a conceptual diagram of the master packaging containing the present invention small package (packing) sweet.
Figure 2 is a preferred embodiment of the present invention, a graph showing the change over time according to the storage period of the gas composition and humidity according to the packaging method of Example 1 and Example 2.
Figure 3 is a graph showing the change over time by storage period of the hardness and vitamin C content of sweet persimmon according to the packaging method of the present invention. Here, hardness refers to the resistance at the time of penetration with the probe of diameter 3mm.

The present invention consists of a master packaging for packing sweet persimmon in a plastic film in 1 to 3 units and then packaging it in a plastic film in 10 to 20 kg units in a cardboard box. For convenience, the outer 9-20kg unit package is called a master package, and the inner small package is named single package. The concept of the present invention can be explained with FIG. The goal of this two-step packaging in the present invention is to maintain the gas composition in the single package during long-term low-temperature storage near 0 ℃, in the oxygen concentration 1% range, carbon dioxide concentration 4-15% range to suppress the physiological changes of sweet persimmon At the time of retail shipment, the master package is dismantled and distributed in a single package to maintain such gas composition even at the display temperature of 5-15 ° C in supermarkets. Single-packed sweet persimmons have two-stage gas permeation resistance between the single-package film and the master packaging film during cold storage, but in the retail distribution stage, the master packaging is dismantled and exposed to the outside air in a single-packed state. Such a packaging structure provides a proper gas composition inside by limiting gas permeation relatively in comparison with low breathing in low temperature storage near 0 ° C. where the temperature is low. However, in the retail distribution stage, the showcase or the outside air is about 5 to 15 ° C., so the gas permeation must be relatively high to maintain the proper gas composition. Therefore, in the present invention, by appropriately adjusting the permeability of the single package and the master package to maintain the gas composition around the sweet persimmon at the level of long-term storage around 0 ℃ and retail sales step around 5 ~ 15 ℃ to maintain the quality There is a characteristic.

The gas permeability of the single package and the master package should be properly controlled in order to carry out the above-mentioned goals and functions. To this end, the packaging conditions should be designed considering the respiratory characteristics according to the temperature of persimmon and the oxygen and carbon dioxide permeability of the plastic film. do. Based on the respiratory properties of sweet persimmons and gas permeation properties of plastic films grasped by the inventors, the most suitable proper packaging conditions could be set by prediction and experiments by a mathematical packaging design model. First, a single package containing 1 to 3 persimmons must obtain relatively high gas permeability conditions by drilling 1 to 50 micropores of 20 to 150 μm in a polyethylene or polypropylene film having a thickness of 0.02 to 0.08 mm. However, the area of the fine holes is 7 × 10 ^-9 ~ 6 × 10 over the entire area Bunch wrapping film ^- to be maintained the ratio of ^seven. And the single package should be sealed with heat seal. In addition, a master package composed of a single package wrapped with a film may be composed of a total weight of 9 ~ 20kg conditions, and should be heat-sealed or sealed sealed with a polyethylene or polypropylene-based film of 0.05 ~ 0.10mm thick. In addition, during long-term storage in the master packaged state, the persimmon respiration increases due to unexpected temperature changes, such as CaO, zeolite, silica gel, etc. Moisture / carbon dioxide absorbent may be included. The amount of water / carbon dioxide absorbent should be determined in consideration of the respiration and water evaporation rate of sweet persimmon and the method of incorporation. When it is, the most preferred for the humidity control and carbon dioxide concentration control inside the package.

Example  1 and Example  2

210 g of sweet persimmons were placed in a 14 x 15 cm size 0.03 mm thick polypropylene bag and heat sealed. Polypropylene bags were drilled with one fine hole having a diameter of 100 μm to achieve proper gas permeation. 46 of these single-pack persimmons were put in a bag of 0.05 mm polyethylene film having a thickness of 78 x 77 cm and sealed with a mechanical tie. This master-packed sweet persimmons in a agricultural product packaging cardboard box (44 x 32 x 24.5 cm) and stored at -1 ± 1 ℃ (Example 1).

Separately, a package containing three moisture / carbon dioxide absorbents containing 30 g of silica gel and 5 g of zeolite in a polyethylene bag (9 × 9 cm) having a thickness of 0.012 mm in the master package was stored under the same temperature condition (Example 2). As a control, 46 unsweetened persimmons were placed in a 0.05mm thick polyethylene film bag 78 × 77 cm in size and used in a sealed package. All packages of 10kg units were placed in three layers of 31 × 40.5cm of corrugated cardboard so that the persimmons or single-packs were placed on top of them.

Figure 2 shows the change over time during the storage period of the gas composition in the persimmon single packaging in Examples 1 and 2. In Examples 1 and 2 in which the single package was stored in the master package, the gas composition in the single package, which is believed to affect the quality of the sweet persimmon, was deformed faster than that of the control, and oxygen was stored 31 days after storage. The concentration reached around 10% of carbon dioxide concentration. It was only 58 days after storage, which showed a faster gas composition change than that of the control group, where oxygen concentration was near 1% and carbon dioxide concentration near 5%, and the degree of change was greater. Under the influence of the gas composition conditions, the sweet persimmon of Example 1 and Example 2 was able to maintain a significantly superior hardness and vitamin C content compared to the control during storage (Fig. 3). And the effect of the embodiment of the present invention, after storage at -1 ℃, in order to simulate the distribution step, the case of dismantling the package of 10kg units and stored at 10 ℃ was remarkable. That is, the visual quality of sweet persimmons stored at 10 ° C. for 10 days after 58 days of storage at −1 ° C. can be clearly compared in Table 1. The single package separated from the master package is not exposed to the atmosphere (20.9% oxygen, 0% carbon dioxide) like the control, and the inside is maintained as a deformation gas (about 2% oxygen, about 14% carbon dioxide). , Browning was significantly suppressed (Table 1).

In the case of Example 2 included in the package with the moisture / carbon dioxide absorbent, the carbon dioxide concentration in the package was similar to Example 1 which was not, but the relative humidity inside the master package remained relatively 2-3% (FIG. 2). Some humidity removal is thought to have the effect of suppressing internal moisture condensation when there is a temperature change. Relative humidity in the control package was maintained at 99% near saturation after 4 days of storage.

According to the sweet persimmon packaging method of the present invention, since it has the effect of maintaining the freshness for a long time can be used to expand the export of high quality sweet persimmon is a very useful invention for fruit horticulture and storage industry.

Claims (3)

In the packaging method for preservation (pre-cooling) at low temperature in the range of -1 ~ 2 ℃ and long-term freshness of sweet persimmon to be distributed and sold at 5 ~ 15 ℃, it is applied to polyethylene or polypropylene film of 0.02 ~ 0.08mm thickness. 10 ~ 20kg unit consisting of 1 ~ 50 micropores of ~ 150㎛ size, packed in 1 ~ 3 sheets of heat-sealed sealing, and secondary heat with 0.05 ~ 0.15mm thick polyethylene or polypropylene-based film A packaging method for sweet persimmons, characterized in that the master sealing is performed by adhesive sealing or binding sealing.
The packaging method of sweet persimmons according to claim 1, wherein the surface area of the micropores of the single-packed film is maintained at a ratio of 7 x 10 ^-9 to 6 x 10 ^-7 of the total packaging area.
The package of sweet persimmons according to claim 1, wherein the water-carbon dioxide absorbent of at least one of CaO, zeolite, and silica gel is contained in an amount corresponding to 2% or less of sweet persimmon weight in the master package of 10 to 20 kg units. Way.

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