JP2015087060A - Cold storage sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain temperature variation around a cooling object with a simple manner when the cooling object is kept cool by using a cold storage material.SOLUTION: A cold storage sheet 1 holds a cold storage material and is for keeping a cooling object cool by the cold storage material. One surface of a base sheet 10 composed of a heat insulation material is provided with accommodation pockets 21a-21d for accommodating cold storage materials. A temperature-indicating agent 27a which changes its color at a predetermined temperature is attached to faces of the accommodation pockets 21a-21d on which the cooling object is placed.

Description

  The present invention relates to a cold storage sheet for holding a cold storage material.

  In recent years, in a logistics system, a service for transporting goods at a low temperature is provided for both land transportation and air transportation. In the case of transporting an article at a low temperature, for example, it is conceivable that a cold storage material is installed in a container for storing the article and the article is transported while being kept at a low temperature by the cold air of the cold storage material. In addition, when storing an article in a warehouse at a low temperature, it is conceivable to install a cold storage material in the warehouse and store the article at a low temperature by the cold air of the cold storage material.

  Here, Patent Document 1 discloses a cold storage plate capable of storing a plurality of cold storage materials. The cool storage plate is provided with a plurality of pockets for storing the cool storage material by sealing a part of the two synthetic resins superimposed. By using this cool storage plate, it becomes possible to install many cool storage materials at once without taking time and effort to containers and warehouses.

Japanese Utility Model Publication No. 57-24985

  Usually, the temperature change in the storage area of the article such as the container or the warehouse as described above is caused by mixing the cold air coming out of the cold storage material and the air in the storage area of the article. Therefore, the performance and amount of the regenerator material are selected so that the temperature of the storage area is maintained in a predetermined temperature zone after the temperature of the storage area of the article is changed.

  However, even if the performance and quantity of the regenerator material are selected, it is difficult to easily grasp the temperature distribution in the storage area where the temperature change occurs after the regenerator material is attached to the storage area such as a container or warehouse. For this reason, the temperature of the storage area is not a temperature suitable for the stored article due to the temperature change, and the article may be adversely affected.

  The present invention has been made in view of the problems of the conventional techniques as described above, and in the case of keeping a cold object using a cold storage material, the temperature change around the cold object can be easily simplified. It aims at providing the sheet | seat for cool storage which can be grasped | ascertained by the method.

In order to achieve the above object, the present invention provides:
A regenerator sheet for holding a regenerator material and for refrigerating a cold object with the regenerator material,
A storage pocket for storing the cold storage material is provided on one surface of the base sheet made of heat insulating material,
A temperature indicating agent that causes a color change at a predetermined temperature is attached to at least a part of a surface of the storage pocket on which the cold object is disposed.

  In the present invention configured as described above, when the temperature of the cold storage material stored in the storage pocket rises, the ambient temperature of the cold object rises and reaches a predetermined temperature. A color change occurs in the temperature indicating agent adhering to at least a part of the surface on which the object to be cooled is arranged, and the temperature change around the object to be cooled can be grasped by this color change.

  In addition, a plurality of temperature indicating agents that change in color in different temperature zones are attached to different positions on the surface of the storage pocket where the object to be cooled is disposed, or the object to be cooled in the storage pocket is disposed. It is possible to grasp the change in the temperature around the object to be cooled in multiple stages.

  In addition, if the storage pocket has a window part on at least a part of the surface of the storage pocket on which the object to be cooled is disposed, a storage medium containing a temperature indicating agent that changes color at a predetermined temperature is stored. Along with the color change of the temperature indicating agent in the pocket, the color change of the cold storage material can be used to grasp the temperature change around the object to be cooled in multiple stages.

  The storage pocket is formed by stitching or joining a pocket sheet disposed on the one surface side of the base sheet to the base sheet at a part thereof, and the pocket sheet is mesh-shaped. If there is, it is possible to easily transmit the cool air of the regenerator material to the surroundings of the object to be cooled, and the frictional resistance is reduced when the regenerator material is taken in and out of the storage pocket, so that the regenerator material can be easily taken in and out of the storage pocket. .

  According to the present invention, the temperature indicating agent that causes a color change at a predetermined temperature is attached to at least a part of the surface on the side where the cold storage object of the storage pocket for storing the cold storage material is disposed, By the color change of the temperature indicating agent, it is possible to grasp the temperature change around the object to be cooled by a simple method.

  In addition, a plurality of temperature indicating agents that change in color in different temperature zones are attached to different positions on the surface of the storage pocket where the object to be cooled is disposed, or the object to be cooled in the storage pocket is disposed. It is possible to grasp the change in the temperature around the object to be cooled in multiple stages.

It is a figure which shows 1st Embodiment of the sheet | seat for cold storage of this invention, (a) is a surface view, (b) is the side view seen from the arrow C direction shown to (a), (c) is ( The side view seen from the arrow D direction shown to a), (d) is the side view seen from the arrow E direction shown to (a), (e) is the side view seen from the arrow F direction shown to (a). (F) is AA 'sectional drawing shown to (a), (g) is a reverse view, (h) is BB' sectional drawing shown to (g). It is a figure for demonstrating the holding method of the cool storage material in the sheet | seat for cool storage shown in FIG. It is a figure for demonstrating the installation method to the container of the sheet | seat for cold storage shown in FIG. 1, (a) is a figure which shows the attachment method to a container, (b) is the sheet | seat for cold storage attached in the container. It is a figure which shows a state. It is a figure for demonstrating the characteristic of the temperature indicating agent adhering to the sheet | seat for pockets shown in FIG. It is a figure which shows the change of the color which the temperature indicator shows by the ambient temperature in the sheet | seat for cold storage shown in FIG. It is a figure for demonstrating the taking-out method of the cool storage material from the storage pocket of the sheet | seat for cool storage shown in FIG. It is a figure which shows 2nd Embodiment of the sheet | seat for cold storage of this invention, (a) is a surface view, (b) is the side view seen from the arrow C direction shown to (a), (c) is ( The side view seen from the arrow D direction shown to a), (d) is the side view seen from the arrow E direction shown to (a), (e) is the side view seen from the arrow F direction shown to (a). (F) is AA 'sectional drawing shown to (a), (g) is a reverse view, (h) is BB' sectional drawing shown to (g). It is a figure for demonstrating the characteristic of the temperature indicating agent adhering to the sheet | seat for pockets shown in FIG. It is a figure which shows the change of the color which the temperature indicator shows by the ambient temperature in the sheet | seat for cold storage shown in FIG. It is a figure which shows 3rd Embodiment of the sheet | seat for cold storage of this invention, (a) is a surface view, (b) is the side view seen from the arrow C direction shown to (a), (c) is ( The side view seen from the arrow D direction shown to a), (d) is the side view seen from the arrow E direction shown to (a), (e) is the side view seen from the arrow F direction shown to (a). (F) is AA 'sectional drawing shown to (a), (g) is a reverse view, (h) is BB' sectional drawing shown to (g). It is a figure for demonstrating the characteristic of the temperature indicating agent adhering to the sheet | seat for pockets shown in FIG. It is a figure which shows the change of the color which the temperature indicator shows by the ambient temperature in the sheet | seat for cold storage shown in FIG. It is a figure which shows 4th Embodiment of the sheet | seat for cold storage of this invention, (a) is a surface view, (b) is the side view seen from the arrow C direction shown to (a), (c) is ( The side view seen from the arrow D direction shown to a), (d) is the side view seen from the arrow E direction shown to (a), (e) is the side view seen from the arrow F direction shown to (a). (F) is AA 'sectional drawing shown to (a), (g) is a reverse view, (h) is BB' sectional drawing shown to (g). It is a figure which shows the change in the use condition of the sheet | seat for cold storage shown in FIG.

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

(First embodiment)
FIG. 1 is a diagram showing a first embodiment of a cold storage sheet according to the present invention, where (a) is a front view, (b) is a side view seen from the direction of arrow C shown in (a), c) is a side view seen from the direction of arrow D shown in (a), (d) is a side view seen from the direction of arrow E shown in (a), and (e) is the direction of arrow F shown in (a). (F) is an AA ′ cross-sectional view shown in (a), (g) is a back view, and (h) is a BB ′ cross-sectional view shown in (g).

  As shown in FIG. 1, the present embodiment is a cold storage sheet 1 in which four storage pockets 21 a to 21 d are provided side by side in the longitudinal direction of the base sheet 10 on one surface of a rectangular base sheet 10. is there.

  The base sheet 10 is made of a heat insulating material. For example, the base sheet 10 is made of foamed polyethylene and an aluminum-deposited PET film, is made of foamed polyethylene, a polyethylene non-woven fabric and an aluminum-deposited film, or is made of a polyester quilted fabric and an aluminum-deposited film. Can be used, those to which heat-insulating glass wool is attached, silica fiber sheets to which porous silica is attached, those made of airgel, and the like. The base sheet 10 corresponds to each of the storage pockets 21a to 21d, and has openings 24a to 24d (only 24a shown) serving as storage ports for storing the cold storage material in the storage pockets 21a to 21d, and the storage pockets 21a to 21d. The lids 23a to 23d are provided so as to open to the opposite side to the side 21d and cover the openings 24a to 24d. Further, on the side of the base sheet 10 opposite to the storage pockets 21a to 21d, a belt-shaped hook-and-loop fastener 11 is attached over the storage pockets 21a to 21d. The opening portions 24a to 24d and the lid portions 23a to 23d and the surface fastener 11 are provided with the opening portions 24a to 24d and the lid portions 23a to 23d on one end side in the short direction of the base sheet 10, and the surface on the other end side. A fastener 11 is attached.

  The storage pockets 21a to 21d are formed by stitching the pocket sheet 20 arranged on one surface side of the base sheet 10 with the base sheet 10 at the border between the peripheral edge and the storage pockets 21a to 21d. Each has a gusset corresponding to the size of the cold storage material and the thickness of the cold storage material. Therefore, there are stitched portions 22a to 22c in which the pocket sheet 20 and the base sheet 10 are stitched at the boundaries of the storage pockets 21a to 21d, and the storage pockets 21a to 21d are in the longitudinal direction of the base sheet 10. It is in the state arranged without gaps via the stitching portions 22a to 22c. The pocket sheet 20 is made of, for example, a mesh-like sheet, and makes it easy to transmit cold air from the cold storage material stored in the storage pockets 21a to 21d from the pocket sheet 20 side to the outside of the storage pockets 21a to 21d. Further, by making the pocket sheet 20 made of a mesh sheet, the frictional resistance is reduced when the cold storage material is taken in and out of the storage pockets 21a to 21d, and the cold storage material is taken in and out of the storage pockets 21a to 21d. It becomes easy. The pocket sheet 20 need not be a mesh-like sheet, but preferably has a lower heat insulating property than the base sheet 10. In addition, a temperature indicating agent 27a that causes a color change at a predetermined temperature is attached to the pocket sheet 20. The temperature indicating agent 27a is attached to at least the surface of the pocket sheet 20 opposite to the base sheet 10, that is, the surface on which the object to be cooled is disposed by printing or the like, and thereby the storage pocket. The colors 21a to 21d change as the ambient temperature changes. The method of attaching the temperature indicating agent 27a to the pocket sheet 20 is not limited to printing, and the pocket sheet 20 is dyed with the temperature indicating agent 27a, or the temperature indicating agent 27a is applied to the pocket sheet 20 by spraying. 27a may be kneaded into the pocket sheet 20. In the present invention, a reversible temperature indicating material is preferably used as the temperature indicating material constituting the temperature indicating agent 27a. As a reversible thermostat, what is comprised from three components of an electron-donating color-forming organic compound, an electron-accepting compound, and a polar organic compound is mentioned, for example. The temperature at which the color changes can be controlled by these types and the like.

  The peripheral edges of the base sheet 10 and the pocket sheet 20 are covered with an edge cover 30. Of the region covered by the edge cover 30, the base sheet 10, the pocket sheet 20, and the edge cover 30 are provided on the end sides of the base sheet 10 where the openings 24a to 24d and the lids 23a to 23d are provided. Are formed at predetermined intervals.

  Below, the usage method of the sheet | seat for cold storage comprised as mentioned above is demonstrated.

  First, a method for holding the cold storage material in the cold storage sheet 1 shown in FIG. 1 will be described.

  FIG. 2 is a view for explaining a method for holding the regenerator material in the regenerator sheet 1 shown in FIG. 1.

  In the cold storage sheet 1 shown in FIG. 1, the cold storage material is held by storing the cold storage material in the storage pockets 21a to 21d. 2A to 2C show a method for storing the regenerator material in the storage pocket 21a, but the storage method for the regenerator material in the storage pockets 21b to 21d is the same.

  When the cold storage material is stored in the storage pocket 21a, first, as shown in FIG. 2A, the lid portion 23a provided on the base sheet 10 is lifted.

  Next, as shown in FIG.2 (b), the cool storage material 2 is accommodated in the storage pocket 21a from the opening part 24a. At this time, since the two slits 26a extending to the opposite side of the lid portion 23a are formed at both ends of the opening 24a, the region sandwiched between the two slits 26a of the base sheet 10 is stored. The cool storage material 2 can be stored in the storage pocket 21a by opening the opening 24a greatly by turning to the opposite side of the pocket 21a.

  When the cold storage material 2 is completely stored in the storage pocket 21a, the lid portion 23a returns to the original state as shown in FIG. 2C, and the opening portion 24a is closed by the lid portion 23a.

  In this way, the cold storage material 2 is stored in each of the storage pockets 21a to 21d, and the four cold storage materials 2 are held in the cold storage sheet 1 as shown in FIG. Become. At this time, the storage pockets 21a to 21d are arranged in the longitudinal direction of the base sheet 10 via the stitching portions 22a to 22c without gaps, and have a size corresponding to the cold storage material. Thus, the cold storage materials 2 stored in the storage pockets 21a to 21d are in close proximity to each other.

  Next, the installation method of the sheet | seat 1 for cold storage to the container used as the storage area in which articles | goods are accommodated is demonstrated.

  3A and 3B are diagrams for explaining a method of installing the cold storage sheet 1 shown in FIG. 1 in a container, wherein FIG. 3A is a diagram showing a method of attaching the container to the container, and FIG. 3B is a diagram for storing cold in the container. It is a figure which shows the state in which the sheet | seat 1 was attached.

  As shown to Fig.3 (a), while the protrusion 103 is provided in the inner wall 104 of the container in which an article | item is accommodated in this form at predetermined intervals, the hook_and_loop | surface fastener 102 is attached to the downward direction. The relative positions of the protrusion 103 and the hook-and-loop fastener 102 on the inner wall 104 correspond to the relative positions of the hole 31 and the hook-and-loop fastener 11 of the cold storage sheet 1 shown in FIG.

  Therefore, as illustrated in FIG. 3A, the protrusions 103 provided on the inner wall 104 are provided with the hole portions 31 of the regenerator sheet 1 such that the side opposite to the storage pockets 21 a to 21 d of the base sheet 10 faces the inner wall 104. The cold storage sheet 1 can be attached to the inner wall of the container and installed by joining the hook and loop fastener 11 of the cold storage sheet 1 and the hook and loop fastener 102 of the inner wall 104. At this time, since the hole 31 is provided on the edge of the region covered with the edge cover 30 of the cold storage sheet 1 on the side where the openings 24a to 24d and the lids 23a to 23d are provided, As shown to Fig.3 (a), the side in which the opening parts 24a-24d and the cover parts 23a-23d were provided will be located upwards, and, thereby, the cool storage material 2 accommodated in the storage pockets 21a-21d It is in the state where it is hard to drop off from openings 24a-24d. Moreover, when it attaches to the inner wall 104 of a container by setting the opposite side to the storage pockets 21a-21d of the base sheet 10 as an attachment surface in this way, openings 24a-24d for storing the regenerator material 2 in the storage pockets 21a-21d. And the cover parts 23a-23d cannot be exposed and the appearance does not deteriorate. This also makes it difficult for the regenerator material 2 to fall off.

  In this way, the cold storage sheet 1 can be attached to the entire inner wall 104 of the container 100 as shown in FIG. At this time, the storage pockets 21a to 21d are arranged in the longitudinal direction of the base sheet 10 via the stitching portions 22a to 22c without gaps, and have a size corresponding to the cold storage material. Therefore, since the cool storage materials 2 stored in the storage pockets 21a to 21d are in a state of being close to each other, more cool storage materials 2 can be attached to a limited space. Further, by attaching the cold storage sheet 1 to the inner wall 104 of the container 100 without a gap, the inner wall 104 of the container 100 can be almost covered with the cold storage material 2.

  When the cold storage object is stored in the container 100 in which the cold storage sheet 1 is attached to the inner wall 104 in this manner, the cold storage object is disposed on the storage pockets 21a to 21d side of the cold storage sheet 1. Thus, the inside of the container 100 is kept cool by the cold air of the regenerator material 2 stored in the storage pockets 21a to 21d, and the cold-accommodated object stored in the container 100 can be stored and transported at a low temperature.

  Next, the effect | action by the sheet | seat 1 for cold storage is demonstrated.

  As described above, the temperature indicating agent 27 a is attached to the pocket sheet 20. Therefore, the temperature change in the container 100 can be grasped by the color change indicated by the temperature indicating agent 27a.

  FIG. 4 is a view for explaining the characteristics of the temperature indicating agent 27a adhering to the pocket sheet 20 shown in FIG. FIG. 5 is a diagram showing a change in the color indicated by the temperature indicating agent 27a depending on the ambient temperature in the cold storage sheet 1 shown in FIG. In FIG. 5, the state in which the temperature indicating agent 27 a indicates blue is indicated by a diagonal line that rises to the right, and the state in which the temperature indicating agent 27 a indicates white is indicated by no oblique line.

  As shown in FIG. 4, the temperature indicating agent 27a adhering to the pocket sheet 20 shown in FIG. 1 shows blue when the ambient temperature is 10 ° C. or lower, and the ambient temperature is higher than that at 10 ° C. When it gets higher, it turns white.

  When such a temperature indicating agent 27a is used, the cold storage material 2 is stored in the storage pockets 21a to 21d in a state of being kept at, for example, 0 ° C., and the cold storage sheet 1 is installed in the container 100 as described above. In the initial state, since the regenerator material 2 has not changed much from 0 ° C., the ambient temperature of the storage pockets 21a to 21d is 10 ° C. or less, and the storage pockets 21a to 21d are respectively shown in FIG. It has a blue color.

  When time elapses from this state, the temperature of the regenerator material 2 rises, and when the ambient temperature of the storage pockets 21a to 21d rises and exceeds 10 ° C., as shown in FIG. The color change occurs at 27a, and the storage pockets 21a to 21d become white.

  Thereby, it becomes possible to grasp whether the ambient temperature of the storage pockets 21a to 21d is 10 ° C. or lower or exceeds 10 ° C. For this reason, by using a temperature indicating agent that causes a color change at a temperature corresponding to an appropriate temperature for storing the cold object stored in the container 100, the temperature change in the container 100 adversely affects the cold object. It can be avoided in advance. For example, if the appropriate temperature for storing the object to be cooled stored in the container 100 is 10 ° C. or lower, the color indicated by the temperature indicating agent 27a is used using the temperature indicating agent 27a that changes color at 10 ° C. as described above. What is necessary is just to give measures, such as replacing | exchanging the cool storage material 2, when blue changes from blue to white. At this time, the ambient temperature of the storage pockets 21a to 21d and the ambient temperature of the cold object stored in the container 100 are slightly different depending on how the cool storage material 2 is transmitted. It is considered that the ambient temperature of the object to be cooled is grasped according to the correlation. For example, when the temperature of the central portion of the container 100 is about 2 ° C. higher than the ambient temperature of the storage pockets 21a to 21d in which the regenerator material 2 is stored, the color indicated by the temperature indicating agent 27a changes from blue to white. When it changes, it is possible to grasp | ascertain that the ambient temperature of the to-be-cooled object accommodated in the container 100 is about 12 degreeC instead of 10 degreeC.

  Thereby, the change of the ambient temperature of the to-be-cooled object accommodated in the container 100 can be grasped by a simple method of visually confirming the colors of the storage pockets 21a to 21d.

  Moreover, when only the cool storage material 2 stored in the storage pocket 21b among the cool storage materials 2 stored in the storage pockets 21a to 21d is deteriorated, only the ambient temperature of the storage pocket 21b increases. Therefore, as shown in FIG. 5C, only the storage pocket 21b changes from blue to white, thereby grasping that only the regenerator material 2 stored in the storage pocket 21b is deteriorated. Can do. In this case, it is possible to prevent the temperature in the container 100 from becoming non-uniform or the temperature in the container 100 from being easily raised by performing a procedure for exchanging only the cold storage material 2 stored in the storage pocket 21b. it can.

  Thus, it is set as the structure which has several storage pockets 21a-21d, and when the color change by the temperature indicator 27a arises in each of the storage pockets 21a-21d, many cool storage materials 2 can be installed in the container 100. Although it is possible, only the regenerator material 2 having deteriorated cooling performance can be replaced.

  Next, a method for taking out the cold storage material 2 from the storage pockets 21a to 21d will be described.

  FIG. 6 is a view for explaining a method of taking out the cold storage material 2 from the storage pockets 21a to 21d of the cold storage sheet 1 shown in FIG. In addition, in FIG. 6, although the taking-out method of the cool storage material 2 from the storage pocket 21a is shown, the taking-out method of the cool storage material 2 from the storage pockets 21b-21d is also the same.

  When taking out the cool storage material 2 from the storage pocket 21a, first, as shown in FIG. 6A, the lid 23a provided on the base sheet 10 is lifted up.

  And as shown in FIG.6 (b), the cool storage material 2 is taken out from this opening part 24a. At this time, the region sandwiched between the two slits 26a of the base sheet 10 is turned to the opposite side of the storage pocket 21a, so that the opening 24a is largely opened and the cold storage material 2 is taken out from the storage pocket 21a.

  In this way, the lids 23a to 23d are lifted to open the openings 24a to 24d so that the cool storage material 2 is taken out from the openings 24a to 24d, so that they are stored in the storage pockets 21a to 21d. The cold storage material 2 can be made difficult to drop off from the openings 24a to 24d.

(Second Embodiment)
FIG. 7 is a view showing a second embodiment of the cold storage sheet of the present invention, where (a) is a front view, (b) is a side view seen from the direction of arrow C shown in (a), c) is a side view seen from the direction of arrow D shown in (a), (d) is a side view seen from the direction of arrow E shown in (a), and (e) is the direction of arrow F shown in (a). (F) is an AA ′ cross-sectional view shown in (a), (g) is a back view, and (h) is a BB ′ cross-sectional view shown in (g).

  In this embodiment, as shown in FIG. 7, a color change occurs in the pocket sheet 120 in each of the storage pockets 121a to 121d in different temperature zones, as shown in the first embodiment. The only difference is that each of the temperature indicating agents 127a and 127b is adhered.

  The temperature indicating agents 127a and 127b are attached in a stripe pattern in the direction in which the storage pockets 121a to 121d are arranged for each of the storage pockets 121a to 121d. That is, the temperature indicating agents 127a and 127b are attached to different positions in each of the storage pockets 121a to 121d.

  Also in the cool storage sheet 101 configured as described above, as in the first embodiment, the cool storage material 2 is stored in the storage pockets 121a to 121d and installed in the container 100. Will be used.

  Below, the effect | action by the sheet | seat 101 for cold storage is demonstrated.

  As described above, two temperature indicating agents 127a and 127b are attached to the pocket sheet 120 for each of the storage pockets 121a to 121d. Therefore, the temperature change in the container 100 can be grasped by the color change indicated by the temperature indicating agents 127a and 127b.

  FIG. 8 is a view for explaining the characteristics of the temperature indicating agents 127a and 127b attached to the pocket sheet 120 shown in FIG. Moreover, FIG. 9 is a figure which shows the change of the color which the temperature indicators 127a and 127b show by the ambient temperature in the sheet | seat 101 for cool storage shown in FIG. In FIG. 8, the state in which the temperature indicating agent 127a is blue is indicated by a diagonal line rising to the right, the state in which the temperature indicating agent 127b is red is indicated by a diagonal line rising to the left, and the temperature indicating agents 127a and 127b are white. The state is shown without diagonal lines.

  As shown in FIG. 8, the temperature indicating agent 127a adhering to the pocket sheet 120 shown in FIG. 7 is similar to the temperature indicating agent 27a shown in the first embodiment when the ambient temperature is 10 ° C. or less. Blue is shown, and changes to white when the ambient temperature becomes higher than 10 ° C. as a boundary. Further, the temperature indicating agent 127b attached to the pocket sheet 120 shown in FIG. 7 shows red when the ambient temperature is 20 ° C. or less, and changes to white when the ambient temperature becomes higher than 20 ° C. To do.

  When such temperature indicating agents 127a and 127b are used, the cold storage material 2 is stored in the storage pockets 121a to 121d in a state of being kept at, for example, 0 ° C., and the cold storage sheet 101 is shown in the first embodiment. When installed in the container 100 in the same manner as the above, in the initial state, since the regenerator material 2 has not changed much from 0 ° C., the ambient temperature of the storage pockets 121a to 121d becomes 10 ° C. or less, and FIG. As shown, the storage pockets 121a to 121d are in a state where blue and red are aligned in the direction in which the storage pockets 121a to 121d are arranged.

  When time elapses from this state, the temperature of the regenerator material 2 rises, and when the ambient temperature of the storage pockets 121a to 121d rises and exceeds 10 ° C., as shown in FIG. Although no color change occurs in 127b, a color change occurs in the temperature indicating agent 127a, and the storage pockets 121a to 121d are in a state where white and red are aligned in the direction in which the storage pockets 121a to 121d are arranged.

  Thereafter, when the temperature of the regenerator material 2 further rises, and the ambient temperature of the storage pockets 121a to 121d rises and exceeds 20 ° C., the color change also occurs in the temperature indicator 127b as shown in FIG. 9C. And the storage pockets 121a to 121d are white.

  Thereby, it becomes possible to grasp whether the ambient temperature of the storage pockets 121a to 121d is 10 ° C. or lower, 10 ° C. or higher and 20 ° C. or lower, or 20 ° C. or higher. . For this reason, by using a temperature indicating agent that causes a color change at a temperature corresponding to an appropriate temperature for storing the cold object stored in the container 100, the temperature change in the container 100 adversely affects the cold object. It can be avoided in advance. For example, if the appropriate temperature for storage of the object to be cooled stored in the container 100 is 10 ° C. or more and 20 ° C. or less, as described above, the color changes at the temperature indicating agent 127a and 20 ° C. where the color change occurs at 10 ° C. Using the temperature indicating agent 127b that changes, after the color indicated by the temperature indicating agent 127a changes from blue to white, the object to be cooled is stored in the container 100, and then the color indicated by the temperature indicating agent 127b changes from red to white. In such a case, a measure such as replacing the cold storage material 2 may be performed. At this time, similarly to the one shown in the first embodiment, the ambient temperature of the storage pockets 121a to 121d and the ambient temperature of the cold object stored in the container 100 are the cold air of the regenerator 2. Since it differs slightly depending on how it is transmitted, it is conceivable that a correlation between these temperatures is taken in advance and the ambient temperature of the object to be cooled is grasped according to the correlation.

  Thereby, the change of the ambient temperature of the to-be-cooled object accommodated in the container 100 can be grasped in multiple stages by a simple method of visually confirming the colors of the storage pockets 121a to 121d.

(Third embodiment)
FIG. 10 is a view showing a third embodiment of the cold storage sheet of the present invention, where (a) is a front view, (b) is a side view seen from the direction of arrow C shown in (a), c) is a side view seen from the direction of arrow D shown in (a), (d) is a side view seen from the direction of arrow E shown in (a), and (e) is the direction of arrow F shown in (a). (F) is an AA ′ cross-sectional view shown in (a), (g) is a back view, and (h) is a BB ′ cross-sectional view shown in (g).

  In this embodiment, as shown in FIG. 10, two types of temperature indicating agents that cause color changes in different temperature zones are mixed with the pocket sheet 220 in contrast to the one shown in the first embodiment. The only difference is that the temperature indicating agent 227c is attached. Even if the two types of temperature indicating agents are overlapped with each other, the same effect as in the case where they are mixed as in the present embodiment occurs. Therefore, the two types of temperature indicating agents are also mixed in the configuration in which the two types of temperature indicating agents are mixed. It is defined that the agent is attached to the pocket sheet 220 so as to overlap.

  Also in the cool storage sheet 201 configured as described above, the cool storage material 2 is stored in the storage pockets 221a to 221d and installed in the container 100 in the same manner as in the first embodiment. Will be used.

  Below, the effect | action by the sheet | seat 201 for cold storage is demonstrated.

  As described above, the temperature indicating agent 227c obtained by mixing two types of temperature indicating agents is attached to the pocket sheet 220. Therefore, the temperature change in the container 100 can be grasped by the color change indicated by the temperature indicating agent 227c.

  FIG. 11 is a view for explaining the characteristics of the temperature indicating agent 227c attached to the pocket sheet 220 shown in FIG. Moreover, FIG. 12 is a figure which shows the change of the color which the temperature indicating agent 227c shows by the ambient temperature in the sheet | seat 201 for cool storage shown in FIG. In FIG. 12, the state in which the temperature indicating agent 227c shows purple is indicated by a cross diagonal line, the state in which the temperature indicating agent 227c indicates red is indicated by a left-upward oblique line, and the state in which the temperature indicating agent 227c indicates white. Shown without diagonal lines.

  As shown in FIG. 11, the temperature indicating agent 227c adhering to the pocket sheet 220 shown in FIG. 10 is a mixture of the temperature indicating agent 127a and the temperature indicating agent 127b shown in the second embodiment. . Therefore, when the ambient temperature is 10 ° C. or less, the temperature indicator 227c shows a purple color by mixing the blue color of the temperature indicating agent 127a and the red color of the temperature indicating agent 127b, and the ambient temperature becomes higher than that at 10 ° C. At 20 ° C. or lower, the white of the temperature indicating agent 127a and the red color of the temperature indicating agent 127b are mixed, whereby the temperature indicating agent 227c shows a red color. When the ambient temperature becomes higher than 20 ° C. as a boundary, the temperature indicating agent 127a , 127b change to white, the temperature indicating agent 227c becomes white.

  When such a temperature indicating agent 227c is used, the cold storage material 2 is stored in the storage pockets 221a to 221d, respectively, in a state of being kept at 0 ° C., for example, and the cold storage sheet 201 is shown in the first embodiment. When installed in the container 100 in the same manner, the ambient temperature of the storage pockets 221a to 221d is 10 ° C. or lower because the cold storage material 2 has not changed much from 0 ° C. in the initial state, and is shown in FIG. Thus, each of the storage pockets 221a to 221d has a purple color by mixing the blue color of the temperature indicating agent 127a and the red color of the temperature indicating agent 127b.

  When time elapses from this state, the temperature of the regenerator material 2 rises, and when the ambient temperature of the storage pockets 221a to 221d rises and exceeds 10 ° C., the temperature of the temperature indicating agents 127a and 127b constituting the temperature indicating agent 227c is increased. Among them, the color change from blue to white occurs only with the temperature indicating agent 127a, and as shown in FIG. 12B, the storage pockets 221a to 221d are mixed with the white temperature indicating agent 127a and the red color indicating the temperature indicating agent 127b, respectively. It turns red.

  Thereafter, when the temperature of the regenerator material 2 further rises and the ambient temperature of the storage pockets 221a to 221d rises and exceeds 20 ° C, the color of the temperature indicating agent 217b constituting the temperature indicating agent 227c also changes from red to white. As shown in FIG. 12C, the storage pockets 221a to 221 are white.

  Thereby, it becomes possible to grasp whether the ambient temperature of the storage pockets 221a to 221d is 10 ° C. or less, 10 ° C. or more and 20 ° C. or less, or 20 ° C. or more. . For this reason, by using a temperature indicating agent that causes a color change at a temperature corresponding to an appropriate temperature for storing the cold object stored in the container 100, the temperature change in the container 100 adversely affects the cold object. It can be avoided in advance. For example, if the appropriate temperature for storage of the object to be cooled stored in the container 100 is 10 ° C. or more and 20 ° C. or less, as described above, the color changes at the temperature indicating agent 127a and 20 ° C. where the color change occurs at 10 ° C. After the color indicated by the temperature indicating agent 227c changes from purple to red after using the temperature indicating agent 127b mixed with the temperature indicating agent 127b in which the change occurs, the object to be cooled is stored in the container 100, and then the temperature indicating agent 227c is What is necessary is just to give measures, such as replacing | exchanging the cool storage material 2, when the color to show changes from red to white. At this time, similarly to the one shown in the first embodiment, the ambient temperature of the storage pockets 221a to 221d and the ambient temperature of the object to be cooled stored in the container 100 are the cold air of the regenerator 2. Since it differs slightly depending on how it is transmitted, it is conceivable that a correlation between these temperatures is taken in advance and the ambient temperature of the object to be cooled is grasped according to the correlation.

  Thereby, the change of the ambient temperature of the to-be-cooled object accommodated in the container 100 can be grasped in multiple steps by a simple method of visually confirming the colors of the storage pockets 221a to 221d.

(Fourth embodiment)
FIG. 13 is a view showing a fourth embodiment of the cold storage sheet of the present invention, where (a) is a front view, (b) is a side view seen from the direction of arrow C shown in (a), c) is a side view seen from the direction of arrow D shown in (a), (d) is a side view seen from the direction of arrow E shown in (a), and (e) is the direction of arrow F shown in (a). (F) is an AA ′ cross-sectional view shown in (a), (g) is a back view, and (h) is a BB ′ cross-sectional view shown in (g).

  In this embodiment, as shown in FIG. 13, the interior of the storage pockets 321a to 321d can be visually recognized on the pocket sheet 320 with respect to each of the storage pockets 321a to 321d, as shown in the first embodiment. The only difference is that the window portions 328a to 328d are provided.

  Also in the cool storage sheet 301 configured as described above, the cool storage material is stored in the storage pockets 321a to 321d and installed in the container 100, as in the first embodiment. Will be used.

  Below, the effect | action by the sheet | seat 301 for cold storage is demonstrated.

  FIG. 14 is a diagram illustrating a change in the usage state of the cold storage sheet 301 illustrated in FIG. 13. In FIG. 14, the state in which the temperature indicating agent 327a is blue is indicated by a diagonal line rising to the right, and the state in which the temperature indicating agent 327a is white is indicated without a diagonal line. In the present embodiment, the regenerator material 302 stored in the storage pockets 321a to 321d includes the temperature indicating agent 127b shown in the second embodiment, and the temperature indicating agent 127b is red. The state shown is indicated by a left-upward oblique line.

  The temperature indicating agent 327a adhering to the pocket sheet 320 shown in FIG. 13 is blue when the ambient temperature is 10 ° C. or lower, like the temperature indicating agent 27a shown in the first embodiment. It turns white when the ambient temperature is higher than that at ℃. Further, the temperature indicating agent 127b contained in the cold storage material 302 stored in the storage pockets 321a to 321d shown in FIG. 13 shows red when the ambient temperature is 20 ° C. or lower, and the ambient temperature is higher than that at 20 ° C. It turns white when the temperature rises.

  In such a configuration, the cold storage material 302 is stored in the storage pockets 321a to 321d, respectively, in a state of being kept at, for example, 0 ° C., and the cold storage sheet 301 is a container similar to that shown in the first embodiment. When installed in 100, in the initial state, since the regenerator material 302 has not changed much from 0 ° C., the ambient temperature of the storage pockets 321a to 321d becomes 10 ° C. or lower, and as shown in FIG. Each of the pockets 321a to 321d is blue. In addition, the cold storage material 302 stored in the storage pockets 321a to 321d is visible from the windows 328a to 328d provided in the storage pockets 321a to 321d, respectively. The color indicated by the agent 127b is red, whereby red is visually recognized from the window portions 328a to 328d.

  When time elapses from this state, the temperature of the regenerator material 302 rises, and when the ambient temperature of the storage pockets 321a to 321d rises and exceeds 10 ° C., as shown in FIG. Although the color change does not occur in the temperature indicating agent 127b contained in 302, the color change occurs in the temperature indicating agent 327a, and the storage pockets 321a to 321d change to white.

  Thereafter, when the temperature of the regenerator material 302 further rises and exceeds 20 ° C., as shown in FIG. 14C, a color change occurs in the temperature indicating agent 127b, and the colors visually recognized from the window portions 328a to 328d respectively. It turns white.

  Thereby, it becomes possible to grasp whether the ambient temperature of the storage pockets 321a to 321d is 10 ° C. or lower, exceeds 10 ° C. and is 20 ° C. or lower, or exceeds 20 ° C. . For this reason, by using a temperature indicating agent that causes a color change at a temperature corresponding to an appropriate temperature for storing the cold object stored in the container 100, the temperature change in the container 100 adversely affects the cold object. It can be avoided in advance. For example, if the appropriate temperature for storing the object to be cooled stored in the container 100 is 10 ° C. or higher and 20 ° C. or lower, the temperature indicating agent 327a that causes a color change at 10 ° C. is attached to the pocket sheet 320 as described above. In addition, after the temperature change agent 127b that causes a color change at 20 ° C. is contained in the cold storage material 302, and the color indicated by the temperature indication agent 327a changes from blue to white, the object to be cooled is stored in the container 100, and then What is necessary is just to take measures, such as replacing | exchanging the cool storage material 302, when the color which the cool storage material 302 shows changes from red to white. At this time, similarly to the one shown in the first embodiment, the temperature of the cold storage material 302, the ambient temperature of the storage pockets 221a to 221d, and the ambient temperature of the cold object stored in the container 100 are: Since it will be slightly different depending on how cold air is transmitted through the cold storage material 302, it is conceivable to correlate these temperatures in advance and to grasp the ambient temperature of the object to be cooled according to the correlation.

  Thereby, the simple method of visually confirming the change in the ambient temperature of the object to be cooled stored in the container 100 with the color of the storage pockets 221a to 221d and the color visible from the windows 328a to 328d. Can be grasped in multiple stages.

  In the second to fourth embodiments, two types of temperature indicating agents that cause color changes in different temperature zones are used, but it goes without saying that three or more temperature indicating agents may be used.

  In the above-described embodiment, the temperature indicating agent is attached to the entire surface of the pocket sheet. However, if the temperature indicating agent is attached to at least a part of the pocket sheet, it is possible to grasp the change in the ambient temperature of the storage pocket. it can.

  In the above-described embodiment, a configuration having four storage pockets has been described as an example. However, the number of storage pockets may be one instead of a plurality. For example, instead of providing a storage pocket by stitching a pocket sheet to one surface of the base sheet as in the above-described embodiment, two sheets of aluminum or the like are overlapped and sealed around them Thus, it is conceivable to form a storage pocket and store the cold storage material in the storage pocket. Even in such a case, the temperature indicating agent is attached to at least a part of the surface of the storage pocket where the object to be cooled is arranged.

1, 101, 201, 301 Cold storage sheet 2,302 Cold storage material 10, 110, 210, 310 Base sheet 11, 102, 111, 211, 311 Surface fastener 20, 120, 220, 320 Pocket sheet 21a-21d, 121a ˜121d, 221a˜221d, 321a˜321d Storage pockets 22a˜22c, 122a˜122c, 222a˜222c, 322a˜322c Suture portions 23a˜23d, 123a˜123d, 223a˜223d, 323a˜323d Lids 24a, 124a, 124a, 124a Openings 26a-26d Slits 27a, 127a, 127b, 227c, 327a Temperature-indicating agents 30, 130, 230, 330 Edge covers 31, 131, 231 and holes 100 Container 103 Protrusion 104 Inner wall 3 8a~328d window

Claims (3)

A regenerator sheet for holding a regenerator material and for refrigerating a cold object with the regenerator material,
A storage pocket for storing the cold storage material is provided on one surface of the base sheet made of heat insulating material,
A cold storage sheet in which a temperature indicating agent that causes a color change at a predetermined temperature is attached to at least a part of a surface of the storage pocket on which the cold object is disposed. In the cold storage sheet according to claim 1,
A cold storage sheet in which a plurality of temperature indicating agents that cause color changes in different temperature zones are attached to different positions on the surface of the storage pocket on which the cold object is disposed. In the cold storage sheet according to claim 1,
A cold storage sheet in which a plurality of temperature-indicating agents that cause color changes in different temperature zones are attached so as to overlap each other on the surface of the storage pocket on which the cold object is disposed.

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