CS230785B1 - Double bottomed plastic container - Google Patents

Abstract

The invention relates to the construction of plastic containers for chemically aggressive environments and solves the problem of eliminating the risk of cracking the bottom, saving construction material and labor during production. The essence is the doubling of the bottom, with one bottom being movable, the space between the bottoms being filled with foam; its protection by a seal is solved and the necessary relationships between mutual displacement and deformation of the foam layer are defined. It is intended for use in the chemical, food and other industries as storage containers and containers for process technologies.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to containers of raised bottom plastics in which the bottom reinforcement of the foam layer and the auxiliary sliding bottom is provided.

Containers made of plastic for liquids, such as PVC, integral polypropylene, etc., are very sensitive to the way they are laid, as the bottom may crack on an insufficiently flat, for example concrete base, with the possibility of failure increasing due to cold, chemical, in hot water vapor cleaning, transport, and the like. In such containers with bottoms made of straight or few shaped plates, a raised base is usually required so that the spout is positioned at the required height. For example, in rectangular containers, the bottom is reinforced by a grid system of welded vertical ribs. These ribs increase the bottom of the container, their stiffness compensates for uneven effects of the forces on the bottom on an uneven base and limits the maximum spacing of unsupported bottom surfaces according to the bearing capacity of the material used and the load. Their disadvantage is high weight, laboriousness and thus high price of the product. Especially when the vessel is operated at a higher temperature, when the rib system forms a very dense grate and if an inclined bottom is required and the ribs are relatively high, the total cost of the ribbed bottom may be more than a third of the vessel price. Another possibility is to place the containers on a layer of suitably flexible foam. This foam also increases the bottom of the container as necessary and evenly transfers the load to the bottom of the container. A disadvantage of this method is that the foams used have a container in general relative to the filling of the container

230 785

- 2 other, generally lower chemical resistance than the wall of the container, so that the flowing chemicals along the wall will break the foam over time, and even a very high layer of foam will not prevent increased stress or breakage of the container. Especially if an aggressive medium underflows through the foam layer, the container will become uneven and the bottom will crack.

These drawbacks are overcome by the arrangement of the container according to the invention, which is characterized in that the container shell is substantially extended by a rim below the fixed bottom and together with the sliding bottom provided with the rim creates a space in which the foam layer is placed. The thickness of the foam layer is greater than the height of the skirt, such that there is a gap equal to or greater than the product of the thickness of the foam layer and the value of long-term relative deformation between the substrate and the rim of the vessel, used foam under pressure load for vessel operating conditions, ie temperature, specific pressure and expected life of the vessel. In the case of a sloping day or in the case of a conical bottom for round containers, the above condition also applies to the greatest thickness of the foam layer. For better protection of the foam layer, for example against vapors of aggressive media, a seal is inserted between the rim of the sliding bottom and the lower rim of the container. In order to be able to supply and transport the container as a whole, the container is connected to the sliding bottom by means of flexible or movable intermediate pieces, possibly by means of removable clips, for example screws. To prevent the foam layer from being foamed in the space between the fixed and sliding bottom,

3 230 785 for the sake of simplicity of manufacture may be formed from individual pre-formed parts, the mechanical properties of these parts being different from one another. A possible displacement of the bottom rim of the container outwards against the container shell allows the formation of a foam layer under the entire loaded surface of the rigid bottom.

The bottom rim of the container and the sliding bottom with the rim protect the inserted foam layer against the flowing chemicals along the side of the container, against waterlogging and possibly also by means of seals against vapors. This achieves a long service life of the foam insert, there is no local degradation due to the media, and the pressure distribution between the days remains uniform throughout the service life. The specified minimum thickness of the foam layer ensures that the container does not drop over the entire life of the container so that it rests against the bottom edge of the container or the edge of the sliding bottom rests on the fixed bottom, which could result in cracking of the fixed bottom. The connection of the sliding floor to the container by means of spacers or removable clips prevents unintentional distribution of the structure, for example during transport, and thus avoids the possibility of breaking the foam layer. The foam layer can be formed from preformed parts, blocks, and foam, thereby greatly simplifying production and eliminating the need for foaming in the sliding floor area, for example.

The accompanying drawing shows an internal cross-section of an angular vessel with a flat stepped bottom supported on a concrete substrate.

230 785

The foam layer is made of preformed blocks. Foam block J of higher height h is made of foam with a smaller coefficient of relative long-term deformation than blocks of foam of lower height h, so that at a given liquid pressure at the given location the drop of the whole vessel is uniform and not greater than gap H. the bottom flange 4 is designed as a straight continuation of the container wall and is sealed against the flange of the sliding bottom 6 by a gasket 8. On the right side of the figure, the bottom flange 4 is extended such that the foam layer 2 supports the entire loaded surface of the fixed bottom 2. ^for transport connected to the container by means of removable spacers

Claims (4)

Double-bottomed plastic container, characterized in that a foam layer (3) of thickness (h) is interposed between the fixed bottom (2) of the container (1) and the sliding bottom (5), wherein between the substrate (9) and the bottom as well as between the rim of the sliding bottom (6) and the fixed bottom (2), there is a gap (H) which is equal to or greater than the value given by the product of thickness (h) and the value , i.e., temperature, specific pressure, and life expectancy of the vessel. Container according to claim 1, characterized in that a seal (8) · marked (6) and a lower edge (4) is inserted between the edge of the sliding floor (4) Container according to claim 1, characterized in that the container (1) and the sliding bottom (2) are connected by flexible and / or displaceable adapters (7), possibly by means of removable clips. Container according to claim 1, characterized in that the bottom rim (4) extends outwardly against the housing shell (1). 230 78S 5. A container according to claim 1, characterized in that the foam layer (3) is formed from individual parts, the mechanical properties of which may be different from one another.