SE1950607A1 - Container support system for reinforcement of ground surfaces for container handling - Google Patents

Abstract

The invention relates to a container support system to protect paved ground surfaces from damage during container handling. The container support system comprises one or more container supports (20), each of which has a buryable base part (22) and a top part (21) arranged on top of the base part, the top part being made of a steel sheet. The container support is arranged to be sunk into the ground so that the top part is level with the surrounding ground and the base part is embedded in ground material. The invention also relates to a method for mounting such a container support system.

Description

TECHNICAL FIELD The present invention relates to a container support system for reinforcing ground surfaces for container handling, such as for preventing damage to paved surfaces where containers are erected.

Background technology At terminals where goods placed in containers are to be transhipped between different vehicles, the containers need to be stored at a transhipment site. A common example is a port where containers are unloaded from ships and placed in a parking lot waiting to be loaded onto trucks for onward transport to the final destination. The parking space is usually a large-scale asphalted floor where the containers often have specific places and often four or more are placed on top of each other. The weight of the substrate becomes considerable and within a relatively short time the substrate, ie. the asphalt, damaged. Asphalting a single parking space is costly both in terms of materials and work effort and in terms of the problems of taking care of the containers during ongoing renovation work.

SUMMARY OF THE INVENTION An object of the invention is to reduce the cost of maintaining a storage space for containers. At least said object is achieved with a container support system and respectively a method for mounting a container support system according to the appended claims.

According to an aspect of the invention, there is thus provided a container support system comprising a container support having a buryable base portion and a top portion arranged on top of the base portion, the top portion being a steel plate. The container support is arranged to be lowered into the ground so that the top part is level with the surrounding ground and the base part is embedded in ground material. By placing a plurality of such container supports with adapted distances between them in a parking space for containers, so that the containers' feet can be placed on the container supports, it is possible to considerably extend the durability of the substrate and thus the time between maintenance of the substrate. The environmental impact that arises during possible asphalting is significantly reduced, which gives the product an attractive environmental aspect. The service life of asphalt surfaces where the container support system is used is expected to be 4-6 times longer than asphalt surfaces without the system.

According to an embodiment of the container support system, the base portion comprises a frame portion projecting horizontally outside the periphery of the top portion, the upper side of the top portion being located some distance above the upper portion of the frame portion. This simplifies the paving work as the ground cover, for example asphalt, can be laid over the frame section up to the periphery of the top section.

According to an embodiment of the container support system, the base portion comprises elongate angle irons which are connected to each other at their ends to form a collar, each angle iron comprising double elongated legs, which are constituted by an upper and a lower leg which meet at an angle, the lower legs sliding out laterally, and wherein the frame portion comprises the lower legs of the angle irons. This is a light but still stable and durable construction that is also easy to assemble.

According to an embodiment of the container support system, the base portion comprises a central column portion with substantially the same horizontal extent as the top portion, the column portion projecting above the top of the upper frame portion.

According to an embodiment of the container support system, the reinforcing plate comprises a reinforcing plate, which is arranged to be placed under the container support and which has a horizontal extent which is greater than the horizontal extent of the container support. The reinforcing plate is advantageous in case of doubtful bearing capacity of the substrate material.

In accordance with an embodiment of the container support system, the frame portion has a width of at least 10 mm and at most 100 mm.

According to an embodiment of the container support system, the base portion consists of a carrier material which comprises at least some of concrete and rubber.

In accordance with one embodiment of the container support system, the base portion includes reinforcement.

In accordance with an embodiment of the container support, the steel plate has a thickness of at least 6 mm and at most 20 mm. An advantageous type of steel sheet is so-called tear-patterned floorboard. This reduces the risk of slipping for pedestrians, cyclists and other vehicles.

In accordance with another aspect of the invention, there is provided a method of reinforcing the ground for carrying a container, comprising: - forming a recess in the ground; - lowering the base portion of a container support into the recess; and - applying material around the container support so that the material embeds the base portion, and so that the material extends to the periphery of the top portion.

The method is applicable both to build a new parking space for containers and to repair or improve an existing parking space. In the latter case, it is possible to avoid large costs for reinforcing ground surfaces which do not have sufficient bearing capacity. With this method point, the ground is reinforced exactly where the highest load and ground pressure arise. It is possible to perform this method while retaining most of the original ground cover.

Brief description of the drawing In the following, embodiments of the container support and the method, respectively, will be described in more detail with reference to the drawing, in which: Fig. 1 is a perspective view of a first embodiment of a container support included in a container support system according to the invention; Fig. 2 is a sectional view of the container support of Fig. 1 in mounted position; Figs. 3 and 4 are top views of a plurality of container supports according to Fig. 1 mounted in the ground in different configurations; Fig. 5 is a perspective view of a second embodiment of a container support according to the invention; Fig. 6 is a sectional view of the container support of Fig. 5; Fig. 7 is a sectional view of a container support according to the second embodiment in mounted position; and Fig. 8 is a perspective view of a third embodiment of a container-supported invention.

DESCRIPTION OF EMBODIMENTS Referring to Figs. 1 and 2, a first embodiment of the container support system comprises several container supports 1, each having a base portion 2 and a top portion 3 disposed on top of the base portion 2. The base portion 2 is buried and comprises a frame portion 4 projecting horizontally outside the top portion 3 periphery. 5. The upper side 6 of the top portion 3 is located a distance above the upper side of the frame portion 4. The frame portion 4 thus forms a frame around the top portion 3. The base portion 2 comprises a central pillar portion 7 with substantially the same, and in the shown embodiment exactly the same, horizontal extent as the top portion 3, the pillar portion 7 projecting above the top of the frame portion 4. The frame portion 4 is part of a bottom portion 8 of the base portion 2. The bottom portion 8 is the part of the base portion 2 which has the greatest horizontal extent and constitutes the majority of the base portion 2. The top portion 3 consists of a steel plate, preferably of a rust release having good wear resistance and long life. A tear-patterned floorboard is particularly preferred because it provides a certain amount of slip protection for road users. The base portion 2 consists of a carrier material, which is, for example, concrete or rubber. The carrier material has a good strength and gives the container support a freight stability. When using concrete, it should be reinforced with rebar 9. The container support 1 can have optional dimensions in terms of its general extent, as well as any shape in a horizontal cross section, but it should of course be practical to set down a container so that each foot of the container with a good margin ends up on the periphery of the top batch 3 without overworked precision work by the person moving the container to the parking space. It must be quick and efficient to place the container. To give a suitable example, it is assumed that the most common type of container, ie a 20-foot container of standard type, should be set up. It is further assumed that the horizontal cross-section of the container support 1 is rectangular, and more precisely square, as it simplifies manufacture. The top portion 3 should then have a minimum width b of at least 0.5 m. If it is circular, the same applies to its diameter. As shown in Fig. 3, a total of four container supports 1 are placed out of a 20-foot container 12, which are shown in broken lines. Container supports 1 for different containers are placed as close to each other as possible, but so that it is easy to place and lift away the containers 12. It is also possible to design the container supports 1 and their placement so that two, or even four containers standing next to each other share each container support 1 In the case of four containers 12 which share a container support 1, they thus stand with each foot on the same container support 1, as shown in Fig. 4. The measurement of the top part 3 is chosen differently depending on whether a single container foot or several container feet are to be accommodated there. that is, its height H, is at least about 50 mm and at most about 0.5 m. The actual plate thickness t is at least 6 mm and at most 20 mm. The container support 1 has a total width B of at least approximately 0.7 m. It should be pointed out that the stated dimensions are only examples that serve to give an idea of the approximate size of the container support. Depending on the conditions of the installation site, the person skilled in the art can adapt the measurements on the basis of this description. The container support 1 is arranged to be lowered into the ground so that the upper side of the top portion 3 is level with the surrounding ground, as shown in Figs. An embodiment of the method of reinforcing the ground for carrying an encontainer, comprises the following steps. A recess is formed in the ground. The most common situation is that a parking space for containers is crowded because the ground cover 11, usually asphalt, has been worn apart by the container feet. The asphalt 11 is then removed on a surface which slightly exceeds the largest horizontal cross-sectional area of the container support and the underlying filling material is excavated. A container support 1 is lowered into the recess. Then filler material 10 is applied, around the container support 1, and more specifically around the bottom portion 8. Finally, ground cover 11, i.e. usually asphalt, is applied so that it reaches the periphery of the top portion 3. The ground cover 11 thus projects over the upper side of the frame portion 4 up to the edge of the pillar portion 7 and the steel plate 3. The base portion 2 is thus completely embedded. Furthermore, an edge portion of the ground cover 11 receives a good support of the underlying frame portion 4, which increases the service life of the ground cover. In the case of existing ground cover, the thickness of which can often amount to 30 cm or more, the ratio may arise that the container support 1 is lower than the ground cover thickness. The entire recess is then designed in the ground cover and only ground cover is used in the backfilling, ie the above-mentioned filling material consists of the ground cover material.

According to a second, presently preferred, embodiment of the container support system, it comprises several container supports with the structure shown in Figs. 5 and 6. The container support 20 in this embodiment comprises a top portion in the form of a steel plate 21, preferably tear-patterned floorboard, such as the first embodiment, and a base portion 22 which are constructed angle irons 23, which are attached, for example by welding, to the steel plate 21 on its underside, at its periphery. The angle irons 23 are elongate and connected to each other at their ends to form a collar. Each angle iron 23 comprises two elongate legs 24, 25, which consist of an upper leg 24 and a lower leg 25 which meet at an angle. The lower legs 25 project laterally, more specifically horizontally when this embodiment of the container support 20 is mounted, and the upper legs 24 extend vertically. Other angles are also possible. In this embodiment, the frame portion 26 includes the lower legs 25 of the angle irons 23. The space delimited by the upper legs 24 and the top portion 21 is filled with concrete 32, which is reinforced with a reinforcing mat 31 extending between the insides of the upper legs 24 just below the half height of the upper legs 24. The angle irons 23 can be given increased strength with triangular stiffening plates 29, which are arranged on a vertical edge at the corners of the container support 20 at a 45 degree angle, so that they follow the joint the intermediate angle irons 23, and in the middle of the respective angle irons 23. The centrally located stiffening plates 29 are provided with holes 30. lifting hooks.

The container support 20 according to this embodiment is particularly suitable for use when the ground cover at the container stand does not need to be replaced completely but only needs to be reinforced by means of the container support 20. The height of the base portion 22 can then be kept rather low, for example 50-100 mm. When the container support 20 according to the second embodiment in such a case is to be mounted on a stand, see Fig. 7, a recess is formed, for example by milling away asphalt, so that the recess 27 extends in a square whose dimensions substantially correspond to the dimensions of the collar formed by the angle iron 23 . The width of the recess 27 must of course be slightly greater than the distance between the edges of the lower legs 25, and its depth must correspond to the height of the base portion 22, etc., as will be appreciated by those skilled in the art. The container support 20 is then placed so that the base portion 22, i.e. the recess 27 and rests against the bottom of the recess 27. The upper side of the top portion 21 is flush with, or slightly higher than, the upper side of the surrounding ground cover. New ground cover, for example asphalt, is applied in the recess 27 so that it fills in and so that the ground cover reaches the periphery of the top portion 21, i.e. outer edge, and embeds the base portion 22. Preferably the ground cover 28 is applied so that its upper side, at least to the top portion 21, lies in the same level as the top of the top portion 21, as shown by dotted lines in Fig. 8, but this is not necessary as the steel plate thickness in this context is relatively small.

If the ground on which the container support is placed has too low a bearing so that the container support risks sinking under repeated loading of heavy containers, a third embodiment of a container support system can be used. This third embodiment comprises a first part in the form of a separate reinforcement plate 33, preferably of concrete, and a second part in the form of a container support 20 according to the second embodiment. The first part, i.e. the reinforcing plate 33, is placed as a base for the second part, i.e. the container support 20, as exemplified in Fig. 8, and constitutes a pressure distribution element. The first part 33 has a horizontal extent which is considerably larger than the extent of the container support, for example the dimensions of the 2-4 times the container support 20. In this case, the method comprises forming a recess which also accommodates the additional reinforcement plate 33, after which the first part 33 is lowered and the second part 20 is placed on top of the first part 33, and fastened therein, for example by means of fastening means 34, which extend through the lower the legs 25 and engages with the underlying reinforcing plate 33. Then the filling material is applied, i.e. for example asphalt or gravel and on top of the asphalt.

When required, the method may also comprise providing the recess with adequate filling masses, for example blasting stones of different fractions. This is to achieve sufficient bearing capacity. The container support is then placed on the filling masses.

Claims (1)

A container support system comprising a container support (20), which container support comprises a buryable base portion (22) and a top portion (21) arranged on top of the base portion, the top portion being a steel plate, the container support being arranged to be lowered into the ground so that the top portion is level with the surrounding ground and the base portion are embedded in soil material. A container support system according to claim 1, wherein the base portion (22) comprises a frame portion (26) projecting horizontally outside the periphery of the top portion (21), and wherein the top side of the top portion is located a distance above the top frame portion. Container support system according to claim 2, wherein the base portion (22) comprises elongate angle irons (23) which are connected to each other at their ends to form a collar, each angle iron comprising double elongate legs (24, 25), which consist of an upper and a lower leg which meet each other at an angle, the lower limbs projecting laterally, and the frame portion (26) including the lower limbs (25) of the angle irons. Container support system according to claim 2, wherein the base portion (2) comprises a central column portion (7) with substantially the same horizontal extent around the top portion (3), the column portion projecting above the top of the frame portion (4). Container support system according to any one of claims 2 to 4, wherein the frame portion (4, 26) has a width of at least 10 mm and at most 100 mm. Container support system according to any one of the preceding claims, wherein the base portion (2) comprises a carrier material comprising at least some of concrete and rubber. Container support system according to any one of the preceding claims, wherein the base portion (2) comprises reinforcement. Container support system according to one of the preceding claims, wherein the steel plate (21, 3) has a thickness of at least 6 mm and at most 20 mm. Container support system according to any one of the preceding claims, comprising a reinforcing plate, which is arranged to be placed under the container support and which has a horizontal extent which is greater than the horizontal extent of the container support. A method of mounting a container support system according to any preceding claim, the method comprising: - forming a recess (27) in the ground, - lowering the base portion (2, 22) of a container support (1, 20) according to any one of the preceding requirements in the recess; and 10 - applying material (10, 11, 28) around the container support so that the material embeds the base portion, and so that the material extends to the periphery of the top portion.