NO301270B1 - Container and a system of a number of containers - Google Patents

Description

The present invention relates to a container and a system of a number of containers which can be assembled into a unit of preferably four individual containers. The container can be mounted on wheels for local handling and movement, and the container units can be locked together for storage, transport etc.

For storing liquid products, such as e.g. oil, it is the traditional steel barrel that has the largest application area. The traditional steel barrel as it appears today is the largest unit that a single man can handle alone. The steel barrel has retained its size and shape, while e.g. the bag during this century has been reduced from 70 kg to 25 kg as standard. The steel barrel requires large resources in manufacturing and has expensive recycling properties. In Norway alone, it is estimated that well over 200,000 barrels are used in the oil industry alone per year. year. The chemical engineering and food industries are also major consumers of steel barrels.

The steel drum is exposed to corrosion which contributes to unforeseen consequences during long-term storage or placement in exposed and/or aggressive environments. The steel barrel requires a lot of space and gives a poor degree of utilization during transport and storage. It is not very functional, as the construction makes it difficult to empty. It is estimated that 2% of the contents remain in the packaging, i.e. approx. 4 liters of oil, when the drum pump starts to draw air. Newer constructions have helped to reduce this, but used as single-use packaging, it causes a double environmental burden when the barrel is clamped together and/or left in nature.

Local movement of the steel barrel is carried out by placing the barrel on its side and rolling it. However, it has to be lifted to empty, and even a strong man gets a "ground lift" which puts an unfavorable strain on the back.

Due to the steel barrel's cylindrical shape, when several barrels are stored, space will be formed between the barrels, which results in a relatively poor use of space. In addition, the barrels are difficult to handle, and the barrels must be placed on a pallet before e.g. a truck can lift and move these.

U.S. patent no. 3369658 and no. 3976228 both deal with a container with a mainly square cross-section which enables a number of corresponding containers to be assembled into a unit, where the container's paired opposite side walls are arranged with at least one male part and a corresponding number of complementary female parts, each male part being in form of a longitudinally outward projection and each female part is in the form of an inward slit. The design and interconnection system according to these publications provides a significantly better use of space compared to the steel barrel described above. With regard to the handling of the containers according to the above-mentioned U.S. patents, then these suffer from the same disadvantages as the steel barrel described above. The containers are difficult to handle and must be placed on, for example, a pallet for further movement using a truck or similar.

The present invention therefore aims to solve the above-mentioned problems. The container according to the invention preferably has a square cross-sectional design which is ideal with regard to space utilization and handling. The design of the container facilitates easy manual movement of it using attached wheels, trolley, jack trolley etc. Handling of one or more containers is also carried out in a simple way using standardized and easily accessible handling/transport aids, such as a truck etc. The container or unit can be lifted and moved without the use of pallets etc., as is required when handling oil drums.

The container is designed so that e.g. four random containers can be assembled together according to a tongue-and-groove principle, thus forming a stable and compact unit.

The container's lower part and top part also have a complementary design, so that containers or container units can be safely and stably stacked on top of each other. The stacked composite units can also be locked together, whereby transport security is achieved when several units are to be transported at height over longer distances.

The container is designed in such a way that by placing containers against each other, extensive utilization of the entire area or space between the containers is enabled. This provides optimal use of space for storage and transport.

The design of the container's bottom part and dimensions are such that four composite units correspond to the pallet standard and thereby rationalize away a pallet. Adapted equipment such as a jack trolley, forklift etc. can thereby be used without relying on a pallet.

The filling and draining point of the container is placed shielded in recesses, so that the risk of damage during handling will be reduced to a minimum. In addition, the draining point is located at the lowest point so that when draining, a complete emptying of the container is achieved.

The above-mentioned advantages are achieved according to the invention by a container with a square cross-sectional design which enables a number, preferably four, of corresponding other containers to be assembled together into a unit, where the container's paired opposite side walls are respectively arranged with at least one male part and a corresponding number of complementary female parts , each male part being in the form of two longitudinally outward projections and each female part being in the form of an inward slit, characterized by the bottom part of the container having a pallet design, and the top part of the container having a complementary depression for receiving the bottom part of the other containers.

In the following, the invention will be explained in more detail by means of an embodiment, and with reference to the attached figures, where: Fig. 1 shows the top part of the container with filling device and tongue-and-groove system,

fig. 2 shows the side wall of the container seen from section A-A,

fig. 3 and 4, fig. 5 and 6, fig. 7 and 8 are corresponding views as fig. 1 and 2, but respectively rotated 90°, 180° and 270° in relation to fig. 1 and 2,

fig. 9 shows two container units, where one unit is being placed by means of a truck on the other unit,

fig. 10 shows local movement of the container mounted on wheels,

fig. 11 shows local movement of the container with a trolley,

fig. 12 shows, seen from above, four containers assembled into a unit,

fig. 13 and 14 show the unit in fig. 12, seen from

respectively the narrow and wide side of the container, and

fig. 15 and 16 show stacked units seen from the narrow and wide sides of the containers, respectively.

Fig. 1 shows the top part 6 of a container 1 according to the invention. The tongue-and-groove system is shown by the outward projection 3 and complementary inward slot 4, respectively. The container's filling lid 16 and drainage recess 14 are also shown in the figure. Fig. 2 shows the container 1 according to fig. 1, seen from the side through section A-A, and the longitudinal extent of the slit 4 is shown here. In addition, the bottom part 5 of the container with a pallet design including locking hole 7 is shown. A recess 18 including a draining device 19 is also shown in the lower part of the container 1. This tapping point is integrated in the container 1 and well shielded from external stresses. At the upper corners of the container, the side walls are drawn slightly above the top surface, whereby lugs 17 are formed which, among other things, function as supports when placing the bottom part 5 of a container on the top surface. The shown side wall ears 17 are further arranged with locking holes 7. When stacking the containers, the locking holes 7 in the top part and bottom part of the containers will match, so that these can be locked together by means of a bolt 8 shown in fig. 15. Around the middle part of the container 1, there is a slot 9 for inserting a strap 10 (shown in Fig. 9) for connecting a container unit 2. Fig. 4 is a corresponding section as fig. 2, but the container is now turned 90°. The design of the inward slot 4 here has a wider design and the upper ears of the side wall are provided with grip holes 13. The pallet part 5 of the container is shown here with slots 11 which facilitate the installation of transfer wheels 12 shown in fig. 10. Figs 6 and 8 show the two remaining sides of the container with the outward projections 3. The outward projections 3 consist of two separate projections 3 on each of the sides and their width is adapted to the width of the side surface. As shown in fig. 6 and 8, these sides also include the same details, such as locking groove 9, locking hole 7 and gripping hole 13. Fig. 9 shows how container units 2 are connected

placed on top of each other using a truck 20.

In fig. 10, the container 1 according to the invention is shown arranged with transfer wheels 12, which means that a person 21 can easily move the container 1. Fig. 11 shows the transfer of the container 1 with the help of a trolley 22. The container's center of gravity and grip hole 13 facilitate easy handling of this.

In fig. 12, 13 and 14 is a container unit 2 consisting of four containers 1 shown respectively in plan, elevation of the narrow side and the wide side. The strap 10 is here inserted into the groove 9 and tightened around the unit 2 to hold it together.

Fig. 15 and 16 show the stacking of container units 2 respectively seen from the narrow side and wide side of the containers. In fig. 15, a bolt 8 is shown for locking the units through locking holes 7.

As previously mentioned, a filling point is located in a recess 14 in the top of the container 1, so that the risk of damage during handling will be reduced to a minimum. The recess 14 is designed with drainage so that liquid accumulation caused by spillage, outdoor moist storage or the like should not occur. The container's filling device 15 includes a filling nozzle which is molded with external threads adapted to a top cap 16 which is screwed directly onto the filling nozzle.

The container 1 according to the invention stores and transports the contents hygienically by the fact that the incoming air during draining is filtered through built-in instrumentation in the top cap 16 itself. Defective instrumentation can be quickly replaced and sealed by replacing the top cap 16, even if the container 1 is filled.

The draining point of the container 1 is located at the lowest point and formed in a recess 18 at the bottom. The recess 18 is designed with a view to preventing damage to the coupling or valve system which is mounted on the draining point.

The container 1 can be manufactured/cast in various types of materials, e.g. plastic material, which facilitates tailoring, for the transport and storage of various types of liquids. Here, the aim is in particular to prevent liquids in petrochemicals and foodstuffs from being able to react with different types of forms of packaging materials over time.

The container 1 is intended to function as return packaging approximately 50-100 times. The size of the screwed-on cylinder head 16 is designed with regard to easy access for cleaning and inspection. The reuse value will offset the costs of return transport, and thus reduces the environmental impact of splashes and destruction of empty goods. At the end of its useful life, the container 1 can be painted up and cast again.

Claims (4)

1. Container (1) with a square cross-sectional design which enables a number, preferably four, corresponding other containers to be assembled together to form a unit (2), where the opposite side walls of the container (1) are arranged in pairs with at least one male part and a corresponding number of complementary female parts, each male part being in the form of two longitudinally outward projections (3) and each female part being in the form of an inward slit (4), characterized in that the container's bottom part (5) has a pallet design, and the container's top part (6 ) has a complementary recess for receiving the bottom part of the other containers (5) . 2. Container (1) according to claim 1, characterized in that the container's bottom part (5) and top part (6) near the corners are provided with complementary locking holes (7) for locking with bolts (8) a number of the other containers (1) via their locking holes. 3. Container (1) according to claim 2, characterized in that the container's bottom part (5) near each corner is provided with a slot (11) which extends normally to the locking holes (7) for mounting one or two sets of transfer wheels (12). 4. Container (1) according to claims 2-3, characterized in that the top part (6) of the container near each corner and normal to the locking holes (7) is provided with gripping holes (13).