The invention relates to the field of transportation and storage of gas cylinders, and specifically to a container for gas cylinders, in particular, cylinders for pressurized or liquefied gas, a method for arranging gas cylinders in the container, in particular, cylinders for pressurized or liquefied gas, and a container with gas cylinders, in particular, cylinders for pressurized or liquefied gas. The container for gas cylinders having an outer diameter ranged from 480 mm to 520 mm and capacity ranged from over 350 l to 430 l comprises a framework and at least one pipeline positioned to be connected with the gas cylinders in the upper part of the framework. The method for arranging gas cylinders in a container, the gas cylinders having an outer diameter ranged from 480 mm to 520 mm and capacity ranged from over 350 l to 430 l, the method comprising the steps of arranging the gas cylinders in a framework of the container; and connecting at least one pipeline is with the gas cylinders in the upper part of the framework. The container with the gas cylinders comprises a framework; at least one gas cylinder having an outer diameter ranged from 480 mm to 520 mm and capacity ranged from over 350 l to 430 l, the at least one gas cylinder arranged in the framework; and at least one pipeline connected with the at least one gas cylinder in the upper part of the framework. The technical effect involves an increase in capacity of a container for gas cylinders when the gas cylinders are arranged in the container, the container having a length from 2,986 mm to 2,991 mm (according to GOST R 53350-2009), width from 2,433 mm to 2,438 mm (according to GOST R 53350-2009) and height from 2,891 mm to 2,896 mm, or length from 6,052 mm to 6,058 mm (according to GOST R 53350-2009), width from 2,433 mm to 2,438 mm (according to GOST R 53350-2009) and height from 2,891 mm to 2,896 mm, or length from 9,115 mm to 9,125 mm (according to GOST R 53350-2009), width from 2,433 mm to 2,438 mm (according to GOST R 53350-2009) and height from 2,891 mm to 2,896 mm (according to GOST R 53350-2009). The capacity of a container is considered as the total capacity of the gas cylinders contained therein.

The invention relates to the field of transportation and storage of gas cylinders, and specifically to a container for gas cylinders, in particular, cylinders for pressurized or liquefied gas, a method for arranging gas cylinders in the container, in particular, cylinders for pressurized or liquefied gas, and a container with gas cylinders, in particular, cylinders for pressurized or liquefied gas. The container for gas cylinders having an outer diameter ranged from 480 mm to 520 mm and capacity ranged from over 350 l to 430 l comprises a framework and at least one pipeline positioned to be connected with the gas cylinders in the upper part of the framework. The method for arranging gas cylinders in a container, the gas cylinders having an outer diameter ranged from 480 mm to 520 mm and capacity ranged from over 350 l to 430 l, the method comprising the steps of arranging the gas cylinders in a framework of the container; and connecting at least one pipeline is with the gas cylinders in the upper part of the framework. The container with the gas cylinders comprises a framework; at least one gas cylinder having an outer diameter ranged from 480 mm to 520 mm and capacity ranged from over 350 l to 430 l, the at least one gas cylinder arranged in the framework; and at least one pipeline connected with the at least one gas cylinder in the upper part of the framework. The technical effect involves an increase in capacity of a container for gas cylinders when the gas cylinders are arranged in the container, the container having a length from 2,986 mm to 2,991 mm (according to GOST R 53350-2009), width from 2,433 mm to 2,438 mm (according to GOST R 53350-2009) and height from 2,891 mm to 2,896 mm, or length from 6,052 mm to 6,058 mm (according to GOST R 53350-2009), width from 2,433 mm to 2,438 mm (according to GOST R 53350-2009) and height from 2,891 mm to 2,896 mm, or length from 9,115 mm to 9,125 mm (according to GOST R 53350-2009), width from 2,433 mm to 2,438 mm (according to GOST R 53350-2009) and height from 2,891 mm to 2,896 mm (according to GOST R 53350-2009). The capacity of a container is considered as the total capacity of the gas cylinders contained therein.

A system and method for transporting and storing post-harvest fruits, vegetables and other perishable commodities under controlled atmospheric conditions is provided. One or more transportable vacuum containers are packed with the perishable commodity. Thereafter, the controlled atmospheric condition is created within the container. The atmospheric condition is maintained while the container is transported from one location to another. Part of the controlled atmospheric condition includes the formation of a vacuum within the container. Internal structure is provided within the container to resist collapse of the container when the vacuum is formed therein. A plurality of containers can be provided. A central control, coupled to each of the containers can be provided to maintain the desired atmospheric condition within each of the containers.

A system and method for transporting and storing post-harvest fruits, vegetables and other perishable commodities under controlled atmospheric conditions is provided. One or more transportable vacuum containers are packed with the perishable commodity. Thereafter, the controlled atmospheric condition is created within the container. The atmospheric condition is maintained while the container is transported from one location to another. Part of the controlled atmospheric condition includes the formation of a vacuum within the container. Internal structure is provided within the container to resist collapse of the container when the vacuum is formed therein. A plurality of containers can be provided. A central control, coupled to each of the containers can be provided to maintain the desired atmospheric condition within each of the containers.

A complementary paper tube adapted to fill a remaining space on a cargo pallet includes sidewall portions, a straight auxiliary tearing line and circular auxiliary tearing lines. The side wall portions are disposed adjacently to each other. The straight auxiliary tearing line surrounds the sidewall portions. The circular auxiliary tearing lines are disposed on the sidewall portions and respectively connected to the straight auxiliary tearing line. A portion of the area surrounded by the circular auxiliary lines is adapted to be torn away, so as to form circular openings. The complementary paper tube is adapted to be torn into an upper tube and a lower tube. In addition, a flat plate adapted to form the complementary paper tube is also mentioned.

A complementary paper tube adapted to fill a remaining space on a cargo pallet includes sidewall portions, a straight auxiliary tearing line and circular auxiliary tearing lines. The side wall portions are disposed adjacently to each other. The straight auxiliary tearing line surrounds the sidewall portions. The circular auxiliary tearing lines are disposed on the sidewall portions and respectively connected to the straight auxiliary tearing line. A portion of the area surrounded by the circular auxiliary lines is adapted to be torn away, so as to form circular openings. The complementary paper tube is adapted to be torn into an upper tube and a lower tube. In addition, a flat plate adapted to form the complementary paper tube is also mentioned.

An example storage chest is provided. The example storage chest may include a box portion and a lid. The box portion may include a front wall, a rear wall, and a floor attached to the front and rear walls to form a primary compartment for storage of items. The lid may include a front panel, a rear panel, and a top panel attached to the front a rear panels. The rear panel may be pivotably coupled to the rear wall of the box portion. The front panel, the rear panel, and the top panel may define a secondary compartment within the lid for storage of items. The secondary compartment may include a lid storage compartment comprising a hingedly affixed door.

An example storage chest is provided. The example storage chest may include a box portion and a lid. The box portion may include a front wall, a rear wall, and a floor attached to the front and rear walls to form a primary compartment for storage of items. The lid may include a front panel, a rear panel, and a top panel attached to the front a rear panels. The rear panel may be pivotably coupled to the rear wall of the box portion. The front panel, the rear panel, and the top panel may define a secondary compartment within the lid for storage of items. The secondary compartment may include a lid storage compartment comprising a hingedly affixed door.

Provided are a lockset and a pallet loading bin having the same. A lock hole is arranged at the pallet loading bin. The lockset comprises a lock bar and a handle. A first end of the lock bar is provided with a hook member for fitting the lock hole to realize locking. A connection portion is provided at the lock bar. The lock bar is rotatably connected, by means of the connection portion, to a bin body of the pallet loading bin. Rotation of the lock bar around the connection portion in a plane parallel to an outer surface of the bin body causes the hook member to extend into or retract from the lock hole, thereby realizing locking or unlocking of the lockset. The handle comprises a connection end. The handle is rotatably connected, by means of the connection end, to a second end of the lock bar opposite to the first end of the lock bar. Rotation of the handle around the connection end causes the handle to be positioned close to or away from the outer surface of the bin body. The lockset has a simple structure and low costs, can be processed and manufactured easily, can be operated flexibly with less effort, and adapts to the small thicknesses of an end wall and a side wall of a pallet loading bin.

Provided are a lockset and a pallet loading bin having the same. A lock hole is arranged at the pallet loading bin. The lockset comprises a lock bar and a handle. A first end of the lock bar is provided with a hook member for fitting the lock hole to realize locking. A connection portion is provided at the lock bar. The lock bar is rotatably connected, by means of the connection portion, to a bin body of the pallet loading bin. Rotation of the lock bar around the connection portion in a plane parallel to an outer surface of the bin body causes the hook member to extend into or retract from the lock hole, thereby realizing locking or unlocking of the lockset. The handle comprises a connection end. The handle is rotatably connected, by means of the connection end, to a second end of the lock bar opposite to the first end of the lock bar. Rotation of the handle around the connection end causes the handle to be positioned close to or away from the outer surface of the bin body. The lockset has a simple structure and low costs, can be processed and manufactured easily, can be operated flexibly with less effort, and adapts to the small thicknesses of an end wall and a side wall of a pallet loading bin.