JP2022031973A - Method for repeating discharge and injection of content using container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a container transportation method for preventing a damage of a bulk liner 1 in discharging contents by tilting the container.

SOLUTION: In a container transportation method for laying a laying material 2 between a bulk liner 1 including contents to be transported and a container floor surface and storing and transporting the bulk liner 1, the coefficient of static friction between the bulk liner 1 and the laying material 2, and the coefficient of static friction between the laying material 2 and the container floor surface are equal to or greater than 0.40.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2022,JPO&INPIT

Description

The present invention relates to a method for transporting a powdered or pelletized substance such as a chemical substance, a synthetic resin, or a food product in a container. Regarding the container transportation method that is less likely to be damaged.

As an example of a method for transporting powdered or pelletized chemical substances, synthetic resins, and foods (sugar, grains, etc.), they are placed in a bulk liner made of a resin film, and the bulk liner is housed in a container and transported. , There is a so-called container transportation method. Bulk liners are usually manufactured by an inflation molding method of synthetic resin.

As a method of discharging the powdery or pelletized contents from the container, for example, there is a method of discharging the contents from the discharge port of the bulk liner by inclining the container. It is also known to add a slip agent or an anti-blocking agent to the resin film constituting the bulk liner so that the powdery or pellet-like contents are quickly discharged at the time of this discharge.

Patent Document 1 discloses a film for a bulk liner made of a specific polyethylene film. Then, it is explained that the slip agent may be appropriately blended in this polyethylene film.

Patent Document 2 discloses an inner bag (bulk liner) of a transport container manufactured from a synthetic resin film containing a slip agent. Then, it is explained that by adding a slip agent, the entire amount of pellets filled inside can be discharged only by inclining at an inclination angle of less than 30 degrees.

Patent Document 3 discloses an inner bag (bulk liner) for a container in which a highly rigid bottoming sheet is also laid on the inner bottom surface. It is explained that the bottoming sheet improves the durability and discharge workability of the inner bag.

Japanese Unexamined Patent Publication No. 10-329844 Japanese Unexamined Patent Publication No. 6-41327 Japanese Unexamined Patent Publication No. 2009-241936

However, a bulk liner made of a resin film containing a slip agent or an anti-blocking agent may be damaged when the container is tilted and the contents are discharged. The present invention has been made to solve such a problem. That is, an object of the present invention is to provide a container transportation method in which the bulk liner is less likely to be damaged when the container is tilted and the contents are discharged.

As a result of diligent studies to solve the above problems, the present inventors have found that it is very effective to set the coefficient of static friction between the bulk liner and the lining material and the coefficient of static friction between the lining material and the floor surface of the container within a specific range. The headline has led to the completion of the present invention. That is, the present invention is specified by the following matters.

[1] In a container transportation method in which a laying material is laid between a bulk liner containing contents to be transported and a container floor surface, and the bulk liner is housed and transported, the coefficient of static friction between the bulk liner and the laying material. A container transportation method, wherein the static friction coefficient between the laying material and the container floor surface is 0.40 or more.

[2] The container transportation method according to [1], wherein the film constituting the bulk liner does not contain a slip agent and an anti-blocking agent.

[3] The method according to [1] or [2], wherein the lining material is a polyethylene sheet.

[4] The method according to any one of [1] to [3], wherein the content contained in the bulk liner is powder or pellets.

[5] The method according to [4], wherein the content contained in the bulk liner is powder.

[6] The method according to [5], wherein the powder is high-purity terephthalic acid (PTA).

[7] A laying material is laid between the bulk liner containing the contents and the floor surface of the container, and the contents are discharged from the discharge port of the bulk liner by inclining the container containing the bulk liner. A method for discharging contents, characterized in that the static friction coefficient between the bulk liner and the lining material and the static friction coefficient between the laying material and the container floor surface are 0.40 or more.

[8] In a container unit that internally houses a bulk liner containing the contents and a laying material laid between the bulk liner and the container floor, the bulk liner and the static friction coefficient of the laying material, and A container unit characterized in that the coefficient of static friction between the lining material and the floor surface of the container is 0.40 or more.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a container transportation method in which the bulk liner is less likely to be damaged when the container is tilted and the contents are discharged.

It is a perspective view which shows one Embodiment of the bulk liner and the laying material used in this invention. It is a schematic cross-sectional view for demonstrating the operation and effect of this invention.

FIG. 1 is a perspective view showing an embodiment of a bulk liner and a bedding material used in the present invention. In the embodiment shown in FIG. 1, the laying material 2 is laid on the entire bottom surface of the bulk liner 1. Further, on one side surface of the bulk liner 1, an injection port 3 for injecting the contents, an exhaust port 4 for discharging the contents, an exhaust port 5, and a reinforcing cloth 6 are provided. The bulk liner 1 is formed by sealing a resin film folded in a gusset.

FIG. 2 is a schematic cross-sectional view for explaining the action and effect of the present invention. When the container 7 is tilted, the load applied to the bulk liner 1 includes a downward slope downward load A and a slope upward load capacity B as shown in FIG. The pull-down load A is a load (static load) on which the content 8 in the bulk liner 1 acts downward on the slope, and an impact load (dynamic load) when the content 8 slides down the slope. The load capacity B is the frictional force between the bulk liner 1 and the laying material 2, the frictional force between the laying material 2 (conventional corrugated cardboard or the like) and the floor surface of the container 7, and the tensile strength of the bulk liner 1 itself. According to the findings of the present inventors, the bulk liner 1 tends to be damaged when the withstand load B is smaller than the pull-down load A.

For example, when the angle of repose of the content 8 is large, the remaining amount of the content 8 is large, the inclination angle of the container 7 is large, and the content 8 and the bulk liner 1 are not slippery, the pulling load A becomes large. There is a tendency. Further, when the residual amount of the content 8 is large and the frictional force between the bulk liner 1 and the lumber 2 and the frictional force between the lumber 2 and the floor surface of the container 7 are large, the load capacity B tends to be large. Therefore, the load capacity B can be increased by increasing the frictional force between the bulkliner 1 and the flooring material 2 and the frictional force between the flooring material 2 and the floor surface of the container 7, thereby suppressing damage to the bulkliner 1.

In the present invention, the static friction coefficient between the bulk liner 1 and the laying material 2 and the static friction coefficient between the floor surface of the laying material 2 and the container 7 are 0.40 or more, preferably 0.43 or more and 1 or less. By setting each friction coefficient to a specific value or more in this way, damage to the bulk liner 1 can be remarkably suppressed. This static friction coefficient is a value measured in accordance with the inclination method of JIS P8147-1994 "Friction coefficient test method for paper and paperboard". Specific measurement conditions are as described in Examples described later.

The method for keeping the coefficient of static friction between the bulk liner 1 and the lumber 2 and the coefficient of static friction between the floor surface of the bulk liner 2 and the container 7 within the scope of the present invention is not particularly limited, and for example, the film constituting the bulk liner 1 Each coefficient of static friction can be made relatively large by appropriately selecting and using the material composition and the type of the litter 2. In particular, using a film (preferably a polyethylene film) that does not contain additives (slip agents, anti-blocking agents, etc.) that increase slipperiness as the film constituting the bulk liner 1 in addition to relatively increasing the coefficient of static friction. This is the preferred method. Further, it is also a preferable method to use a film (preferably polyethylene film) containing no additive (slip agent, anti-blocking agent, etc.) for increasing slipperiness as the laying material 2 instead of the conventional corrugated cardboard. be. However, the present invention is not limited to these methods, and any method may be used as long as each static friction coefficient is within the range of the present invention.

<Bulk liner 1>
The bulk liner 1 used in the present invention is typically an inner bag made of a resin film. The type of the resin film is not particularly limited, and for example, a polyolefin film and a polyolefin-polyester welded film can be used. Of these, polyolefin films are preferred. Specific examples of the polyolefin film include polyethylene film and polypropylene film, but polyethylene film is particularly preferable. The film constituting the bulk liner 1 preferably does not contain additives (slip agents, anti-blocking agents, etc.) that increase slipperiness.

The bulk liner 1 can be obtained, for example, by inflation molding the desired resin described above. However, in the present invention, the method for producing the bulk liner 1 is not limited to the inflation molding method.

<Laying material 2>
The laying material 2 used in the present invention is a member laid between the bulk liner 1 and the floor surface of the container 7. The type of the lining material 2 is not particularly limited, and for example, a resin film or sheet, corrugated cardboard, or a rubber sheet can be used. Of these, a resin film or sheet is preferable, a polyethylene film, an ethylene-vinyl acetate copolymer film, and a polypropylene woven sheet are particularly preferable, and a polyethylene film is most preferable. When a resin film or sheet is used as the bedding material 2, it is preferable that the resin film or sheet does not contain additives (slip agent, anti-blocking agent, etc.) that increase slipperiness, as in the case of bulk liner 1. ..

<Contents 8>
In the present invention, the content 8 is a substance contained in the bulk liner 1, for example, a chemical substance such as high-purity terephthalic acid (PTA) and bisphenol A, and a synthetic resin such as alumina, polyethylene, polypropylene and polyethylene terephthalate. It is a powder or pellet typified by foods such as wheat flour, sugar and grains. In the past, there was a risk of damage to the bulk liner 1 in either the case of powder or pellets, but it is considered that the possibility is particularly high in the case of powder such as PTA. This is because the powder has a larger angle of repose than the pellet, and the pulling load A described with reference to FIG. 2 tends to be larger. Therefore, it can be said that the present invention is very effective especially when the content 8 is a powder.

The container transportation method of the present invention described above can also be applied to a container not intended for transportation, for example, a container intended only for storage. For example, the discharge method of the present invention is a method of discharging the contents from the discharge port of the bulk liner by inclining the container, and in this case, it is not always necessary to aim at transportation. Further, the container unit of the present invention is the container unit itself for accommodating the bulk liner and the lining material described above, and it is not always necessary for the purpose of transportation in this case as well.

Hereinafter, the present invention will be further described with reference to Examples.

(Stiction coefficient)
The coefficient of static friction in Examples and Comparative Examples was measured according to the inclination method of JIS P8147-1994 "Method for testing friction coefficient of paper and paperboard". Specifically, a material to be measured (film or the like) was attached to the floor surface of the measuring instrument and the weight side of 1 kg and tilted, and the angle (θ) at which the slip started was measured. Then, the value calculated by tan θ was taken as the static friction coefficient.

<Example 1>
A polyethylene bulk liner containing no additives to increase slipperiness was filled with 21.5 tons of high-purity terephthalic acid (PTA). Then, a polyethylene sheet containing no additive to increase slipperiness was laid between the bulk liner and the container floor, and stored in the container. The coefficient of static friction between the container floor and the polyethylene sheet was 0.44, and the coefficient of static friction between the bulk liner and the polyethylene sheet was 0.44 or more. Then, the container was gradually tilted to 45 degrees to discharge the PTA in the bulk liner. This ejection operation was repeated many times, but no damage to the bulk liner occurred.

<Comparative Example 1>
A polyethylene bulk liner containing an additive to increase slipperiness was filled with 21.5 tons of high-purity terephthalic acid (PTA). Then, a polyethylene sheet containing no additive to increase slipperiness was laid between the bulk liner and the container floor, and stored in the container. The coefficient of static friction between the bulk liner and the polyethylene sheet was 0.33. Then, when the operation of gradually tilting the container to 45 degrees and discharging the PTA in the bulk liner was repeated, the bulk liner was damaged and normal discharge could not be performed.

In the container transportation method of the present invention, the bulk liner is less likely to be damaged when the container is tilted and the contents are discharged. Therefore, for example, a container for powdered or pelletized substances such as chemical substances, synthetic resins, and foods. Useful in transportation.

1 Bulk liner 2 Laying material 3 Injection port 4 Outlet port 5 Exhaust port 6 Reinforcing cloth 7 Container 8 Contents A Pull-down load B Load capacity

The present invention relates to a method for transporting a powdered or pelletized substance such as a chemical substance, a synthetic resin, or a food product in a container. The present invention relates to a method of repeatedly discharging and injecting contents using a container that is less likely to be damaged.

However, a bulk liner made of a resin film containing a slip agent or an anti-blocking agent may be damaged when the container is tilted and the contents are discharged. The present invention has been made to solve such a problem. That is, an object of the present invention is to provide a method of repeating discharging and injecting the contents by using a container in which the bulk liner is less likely to be damaged when the container is tilted and the contents are discharged.

[1] A laying material is laid between the bulk liner containing the contents to be transported and the floor of the container, the bulk liner is accommodated , and the contents are provided with an inlet and an outlet, an exhaust port and a reinforcing cloth. , Discharge and injection of contents using a container in which the static friction coefficient between the bulk liner and the laying material is 0.40 or more, and the static friction coefficient between the laying material and the container floor surface is 0.40 or more and 1 or less. And how to repeat .

[2] The method according to [1], wherein the film constituting the bulk liner does not contain a slip agent and an anti-blocking agent.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a method of repeating discharging and injecting the contents by using a container in which the bulk liner is less likely to be damaged when the contents are discharged by tilting the container.

The method of repeating the discharge and injection of the contents using the container of the present invention described above can also be applied to a container not intended for transportation, for example, a container intended only for storage. For example, the discharge method of the present invention is a method of discharging the contents from the discharge port of the bulk liner by inclining the container, and in this case, it is not always necessary to aim at transportation. Further, the container unit of the present invention is the container unit itself for accommodating the bulk liner and the lining material described above, and it is not always necessary for the purpose of transportation in this case as well.

In the method of repeating the discharge and injection of the contents using the container of the present invention, the bulk liner is less likely to be damaged when the container is tilted and the contents are discharged. Therefore, for example, chemical substances, synthetic resins, foods, etc. It is useful in container transportation of powdery or pelletized substances such as.

Claims (8)

In a container transportation method in which a laying material is laid between a bulk liner containing contents to be transported and a container floor surface and the bulk liner is housed and transported, the coefficient of static friction between the bulk liner and the laying material is 0. A container transportation method comprising 40 or more and having a coefficient of static friction between the bedding material and the floor surface of the container of 0.40 or more and 1 or less. The container transportation method according to claim 1, wherein the film constituting the bulk liner does not contain a slip agent and an anti-blocking agent. The method according to claim 1 or 2, wherein the lining material is a polyethylene sheet. The method according to any one of claims 1 to 3, wherein the content contained in the bulk liner is powder or pellets. The method according to claim 4, wherein the content contained in the bulk liner is powder. The method according to claim 5, wherein the powder is high-purity terephthalic acid (PTA). In a discharge method in which a laying material is laid between the bulk liner containing the contents and the floor surface of the container, and the contents are discharged from the discharge port of the bulk liner by inclining the container in which the bulk liner is housed. A method for discharging contents, characterized in that the static friction coefficient between the bulk liner and the lining material is 0.40 or more, and the static friction coefficient between the laying material and the container floor surface is 0.40 or more and 1 or less. .. In a container unit that internally stores a bulk liner containing the contents and a laying material laid between the bulk liner and the container floor, the coefficient of static friction between the bulk liner and the laying material is 0.40 or more. A container unit having a coefficient of static friction between the bedding material and the floor surface of the container of 0.40 or more and 1 or less.

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