Fruit cold-chain transportation fresh-keeping method

A technology of cold chain transportation and fresh-keeping method, which is applied in the direction of transportation and packaging, packaging fruits/vegetables, flexible coverings, etc., which can solve the problems of poor thermal conductivity of the protective net, perishable fruits, poor strength of the protective net, etc., to avoid Effects on fruit spoilage, improvement of antifreeze properties, and reduction of crush damage

Inactive Publication Date: 2021-12-31
薛佳成
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this method has many defects, including but not limited to: the thermal conductivity of this type of protective net is poor. When a large number of fruits are piled up and preserved, the temperature of the surface layer of the fruit pile may have reached the refrigeration temperature, and the center of the fruit pile will be frozen for a long time. Maintain a high temperature, so that the fruit in the center of the fruit pile is easy to deteriorate; this kind of protective net needs to reach a certain thickness to achieve the expected protective function, but this will take up more valuable storage space; this kind of protective net is stronger. Poor, easy to break, difficult to reuse, and will cause serious environmental pollution after being discarded

Method used

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  • Fruit cold-chain transportation fresh-keeping method

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Embodiment 1 The cold-chain transportation fresh-keeping method of a kind of strawberry that this embodiment provides is based on figure 1 A protective film is shown. The protective film includes a first flexible heat conduction layer 1 , a second flexible heat conduction layer 3 and a polymer water-absorbent resin layer 2 , and the polymer water-absorbent resin layer 2 is arranged between the first flexible heat conduction layer 1 and the second flexible heat conduction layer 3 .

[0032] Wherein, a plurality of first through holes with a diameter of 0.5 mm are opened on the first flexible heat conduction layer, and the distribution density of the plurality of first through holes on the first flexible heat conduction layer is 5 pcs / cm 2 . The second flexible heat conduction layer is provided with a plurality of second through holes with a diameter of 5 mm, and the distribution density of the plurality of second through holes on the second flexible heat conduction laye...

Embodiment 2

[0043] Embodiment 2 The cold chain transportation fresh-keeping method of a kind of apple that this embodiment provides is also based on figure 1 A protective film is shown. The protective film includes a first flexible heat conduction layer 1 , a second flexible heat conduction layer 3 and a polymer water-absorbent resin layer 2 , and the polymer water-absorbent resin layer 2 is arranged between the first flexible heat conduction layer 1 and the second flexible heat conduction layer 3 .

[0044] Wherein, a plurality of first through holes 3 with a diameter of 1.5 mm are opened on the first flexible heat conduction layer, and the distribution density of the plurality of first through holes on the first flexible heat conduction layer is 1 pc / cm 2 . The second flexible heat conduction layer is provided with a plurality of second through holes 4 with a diameter of 1 mm, and the distribution density of the plurality of second through holes on the second flexible heat conduction l...

Embodiment 3

[0052] Embodiment 3 The cold chain transportation fresh-keeping method of a kind of juicy peach that this embodiment provides is also based on figure 1 A protective film is shown. The protective film includes a first flexible heat conduction layer 1 , a second flexible heat conduction layer 3 and a polymer water-absorbent resin layer 2 , and the polymer water-absorbent resin layer 2 is arranged between the first flexible heat conduction layer 1 and the second flexible heat conduction layer 3 .

[0053] Wherein, the first flexible heat conduction layer is provided with a plurality of first through holes with a diameter of 1 mm, and the distribution density of the plurality of first through holes on the first flexible heat conduction layer is 3 per cm 2 . The second flexible heat conduction layer is provided with a plurality of second through holes with a diameter of 3 mm, and the distribution density of the plurality of second through holes on the second flexible heat conducti...

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Abstract

The invention discloses a fruit cold-chain transportation fresh-keeping method. The method comprises the steps that protective films are provided and comprise first flexible heat-conducting layers, second flexible heat-conducting layers and high-molecular water-absorbent resin layers, the first flexible heat-conducting layers and the second flexible heat-conducting layers are each provided with multiple first through holes and second through holes, and the high-molecular water-absorbent resin layers are exposed outwards from the first through holes and the second through holes; the high-molecular water-absorbent resin layers absorb mixed solutions of water and glycerol through the second through holes, and the volume of the absorbed mixed solutions is smaller than the saturated water absorption capacity of the high-molecular water-absorbent resin layers; a small amount of calcium chloride dry powder is added into the multiple first through holes; and after multiple fruits are packaged by the multiple protective films, the fruits are stacked in refrigeration and fresh-keeping space, and the first flexible heat-conducting layer of each protective film makes contact with the surfaces of the fruits. According to the method, the fruits can be effectively prevented from being physically damaged or rotted in the cold-chain transportation process, and the quality of the fruits is guaranteed.

Description

technical field [0001] The invention relates to a method for cold storage and preservation of fruit, in particular to a method for cold chain transportation and preservation of fruit. Background technique [0002] Fruit is a natural nutritious food, containing a variety of nutrients needed by human life. However, the harvested fruit is still a living organism, and it will also perform complex life activities such as dormancy, water evaporation, and respiration. These activities are closely related to fruit preservation, and affect and restrict the storage life of fruits. The external factors that affect fruit metabolism and storage effects are mainly temperature, gas composition, and humidity. At present, the commonly used method of fruit preservation at home and abroad is cold storage. The principle of preservation is roughly as follows: the method of lowering the temperature (-1°C to +5°C) is used to suppress the respiration of fruits. [0003] When fruit is refrigerated...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B65D81/03B65D85/34B65D81/18B65D81/24B65D81/26B65D65/38
CPCB65D81/03B65D85/34B65D81/18B65D81/24B65D81/264B65D65/44
Inventor 薛佳成刘桂珍
Owner 薛佳成
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