KR0168743B1 - Container - Google Patents

Abstract

The present invention relates to a dangerous goods storage tank which has a stronger tensile strength, impact strength and elongation rate by sheeting a steel sheet tank with a rust preventive agent and glass fiber reinforced plastic, and a polyolefin plate having a predetermined width in a steel sheet tank coated with a rust preventive agent at regular intervals. It is produced by attaching a sheet of glass fiber reinforced plastic on top of it and attaching it on or more.

Description

Dangerous goods storage tank.

The present invention relates to a dangerous goods storage tank, and more particularly, to a dangerous goods storage tank which has a higher tensile strength, impact strength and elongation rate by sheeting a steel sheet tank with a rust preventive agent and a glass fiber reinforced plastic.

Dangerous goods require considerable care in handling and storage in such a way that the fire extinguishing method defines the type and method of handling and storage.

The dangerous goods are classified into first-class dangerous goods and Euljong dangerous goods, and their storage methods include indoor storage, outdoor storage, and underground storage.

Storage tanks generally used in indoor storage, outdoor storage and underground storage are specified in the relevant regulations on the construction and installation method according to the type and characteristics of the dangerous goods and the degree of danger.

In addition, the regulations have been gradually strengthened day by day, and the development of excellent storage tanks under all conditions such as external strength and storage leakage prevention is required for conformity and safer storage. .

Therefore, in an effort to meet these demands, HDPE-Steel tanks in which high-density polyetherene (HDPE: High Desity PolEthylen) is seated in a steel tank structure have been developed.

The HDPE-Steel tank has been found to have a greater effect on strength and leakage prevention than existing steel tanks, according to a study conducted by the Institute of Industrial Technology at Konkuk University.

However, in the conventional storage tank, the storage volume of dangerous goods is in the substitute of the trend, and the external impact factors do not meet the more perfect conditions in the continuous action.

Therefore, the present invention was invented to solve the above problems, by sheeting the steel sheet tank with a rust preventive agent and glass fiber reinforced plastic to increase the tensile strength and impact strength and elongation and to gather in one place when dangerous goods leak The purpose is to provide a storage tank for dangerous goods.

In order to achieve the above object, the present invention, by attaching a steel sheet tank coated with rust preventive two or more polyolefin plates having a predetermined width to maintain a predetermined distance from each other and by adhering a sheet made of glass fiber reinforced plastic on the upper side Dangerous goods storage tank manufactured.

1 is a view for explaining the structure of the dangerous goods storage tank of the present invention,

2 is a step-by-step view showing the structure including the bottom phenomenon of the present invention.

* Explanation of symbols for the main parts of the drawings

1: dangerous goods storage tank 12: steel sheet tank

14 polyolefin plate 16 sheet

18: sensor

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view for explaining the structure of the dangerous goods storage tank (1) of the present invention, the present invention has a polyolefin plate 14 on the surface of the corrosion-resistant steel sheet tank (12) having a volume in which dangerous goods are directly stored. It is completed by attaching a plurality of sheets, and bonding the sheet 16 made of glass fiber reinforced plastic to protect the steel sheet tank 12 from external impact thereon.

In particular, the attachment of the polyolefin plate 14 is intended to create a passage for gathering them in one place when dangerous goods leak, it is about 2 to 3mm thick and has a width of 30 to 70mm and the steel sheet The tank 12 is to have a predetermined interval from each other, but the steel sheet tank 12 so that both ends of the bottom to form a predetermined interval.

In addition, the sheet 16 is to generate high tensile strength, impact resistance, and elongation, and the polyethylene resin and glass fiber have a weight ratio of 9: 1 to 6: 4 and contain about 0.5 phr of paraffin wax. It is.

Next, the polyethylene resin is a mixture of linear low density polyethylene (LLDPE: Linear Low Density PolyEthylen) and high density polyethylene (HDPE) from about 1: 4 to 3: 2, and then r property is measured to measure a conventional HDPE-Steel tank. Compared to the case.

Example 1

The ratio of LLDPE and HDPE was 1: 4, and 60% and 1% of glass fiber and paraffin wax were added to the total weight of the resin, respectively, and melted and kneaded with a twin screw extruder. .

Example 2

The amount of the resin and the wax was the same as in Example 1 and the amount of glass fiber was added 40% to the weight of the resin and then the physical properties of the specimens molded in the same manner as in Example 1 were investigated.

Example 3

The ratio of LLDPE and HDPE was 2: 3, and 40% and 1% of glass fiber and wax were added to the total weight of the resin, respectively, and the properties of the specimens formed in the same manner as in Example 1 were examined.

Example 4

The ratio of LLDPE and HDPE was 3: 2, and 40% and 1% of glass fiber and wax were added to the total weight of the resin, respectively, and the properties of the specimens formed in the same manner as in Example 1 were examined.

Comparative Example 1

As in the prior art, a high density polyethylene (HDPE) resin was used, and no wax was used, and only 60% of the glass fiber was added to the total weight of the resin, and then the physical properties of the specimens molded in the same manner as in Example 1 were investigated.

Comparative Example 2

As in the prior art, using HDPE resin and no wax at all, only 50% of glass fiber was added to the entire resin, and then the physical properties of the specimens molded in the same manner as in Example 1 were investigated.

Comparative Example 3

As in the prior art, using HDPE resin alone and no wax at all, only 40% by weight of glass fiber was added to the entire resin, and then the physical properties of the specimens molded in the same manner as in Example 1 were investigated.

[Comparative Example 4]

As in the prior art, HDPE resin was used, wax was not used at all, and only 3% by weight of glass fiber was added to the entire resin, and then the physical properties of the specimens molded in the same manner as in Example 1 were examined.

The experimental results of the present invention and the comparative examples are as shown in the following table.

As can be seen from the above table, Paraffin wax is used in Examples 1 and 2 and it can be considered that the tensile strength or elongation is increased than in the comparative example, but simply the difference in the values between the two too big.

This is because the addition of LLDPE to HDPE resulted in much better dispersion of glass fiber due to the high viscosity acid energy of HDPE.

Also, considering the impact strength, the effect becomes more apparent. Because from Comparative Example 1 to Comparative Example 4, the higher the glass fiber content, the lower the impact strength, because the added glass fiber was not well dispersed.

In addition, Example 1 and Example 2 shows that the impact strength is much higher than that of the comparative example despite the addition of LLDPE instead of HDPE, which is explained by the fact that the dispersion of the glass fiber is improved as LLDPE is added. Can lose.

Taken together, as shown in Examples 1 and 2, when the appropriate amount of LLDPE is mixed with HDPE, the present invention is improved by improving the dispersion of glass fiber to improve the tensile strength, impact strength and elongation. Sheets are produced that show good mechanical properties for the exterior of the desired dangerous goods storage tank.

2 is for showing the structure of the present invention step by step, the polyolefin plate 14 on the surface of the rust-treated steel sheet tank 12 is spaced apart from each other and each end is maintained at a constant distance from the bottom It is shown that the sensor 18 is mounted on a predetermined portion of the passage formed at a predetermined interval on the bottom surface, and the seat 16 is seated thereon.

Therefore, the steel sheet tank 12 has no fear of corrosion due to the rust preventive agent, and the polyolefin plate 14 when a dangerous material is leaked due to a crack or a defective connection on the steel sheet tank 12 which may occur. It is collected to the bottom through the interval between the, the leakage of the fact that the sensor 18 is detected by the sensor 18 to take appropriate action.

And, when a strong impact is applied from the outside, the sheet 16 protects the steel sheet tank 12 with superior tensile strength, impact strength and elongation.

As described above, the present invention by sheeting the steel plate tank with a rust preventive agent and glass fiber reinforced plastic to increase the tensile strength, impact strength and elongation much stronger than the conventional HDPE-Steel tank and to collect them in one place when dangerous goods leak This has the effect of notifying the user.

Claims (3)

A polyolefin plate 14 having a thickness of about 2 to 3 mm and a width of 30 to 70 mm is attached to the steel sheet tank 12 to which the rust preventive agent is applied while maintaining a constant distance from each other, and both ends maintain a constant distance. And, between the sensor 18 is mounted, the dangerous goods storage tank, characterized in that the upper layer is manufactured by adhering a sheet made of glass fiber reinforced plastic. The dangerous goods storage tank according to claim 1, wherein the sheet (16) comprises polyethylene resin and glass fibers in a weight ratio of 9: 1 to 6: 4, and a certain amount of paraffin wax is added. 3. The dangerous goods storage tank according to claim 2, wherein the polyethylene resin is composed of linear low density polyethylene (LLDPE) and high density polyethylene (HDPE) in a ratio of 1: 4 to 3: 2.