DK200800115U3 - Shelter Construction - Google Patents

Description

1DK 2008 00115 U3

Shelter Construction

The field of production

The present invention relates to a roofing structure for a tank, preferably a slurry tank of the type used in large scale agriculture in manure storage, ie. preferably liquid stools from livestock production.

The background of the creation

It is generally known to use slurry storage tanks during periods when the slurry is not allowed to spread as fertilizer in the fields, and environmental requirements have required that these slurry tanks must be covered to prevent evaporation of the slurry and to prevent odor nuisance. in greater style to the surrounding environment.

Thus, a wide variety of different types of roofing systems have been developed, of which a widespread type uses a PVC cloth spread over the tank with a certain arrow height, so that rainwater and snow can run off the cover where the PVC cloth is relatively resistant in its chemical composition. for the effects of the fumes from the gold and the degradation of the sun's rays.

This type of cover is typically held firmly along the top edge of the tank and the arrow height is created by placing a pillar at the center of the tank a height higher than the edges of the tank, so that from the center of the tank there will be falls to the sides.

Purpose of production In the usual designs, columns of fiberglass, steel or wood are used. Fiberglass can be used immediately, but is relatively expensive to manufacture, just as each mast requires its own mold unless standard size tanks are used. Wood must be very resistant to the environmental impacts inside the tank, so it is necessary to use relatively noble types of wood that are relatively expensive and are becoming more and more rare. Steel structures must be surface protected to avoid corrosion and degradation, and typically this is done by galvanizing. However, this type of surface treatment is not long-term durable in the very aggressive environment, just as steel 2 2DK 2008 00115 U3 prices have increased significantly, which has meant that this solution is also relatively expensive.

It is thus the object of production to provide a cheap, strong, and long-lasting solution.

Description of the production

The overlay construction according to the present invention is characterized in that the overlay construction comprises a standard longitudinal concrete column, one end of the column being placed on a reinforcement at the bottom of the tank, and at the opposite end of the column a bracket is secured, which bracket has means for attaching a covering cloth, which cloth along the top of the tank is also fixed with suitable means.

By using standard concrete columns, significant financial savings are achieved by producing the columns at a fixed, given length and then adjusting the individual tank by cutting away larger or smaller portions of the column so that the column delivered to the roof structure is adapted to the specific tank. The cross sections of the columns are selected from standard dimensions and will in many cases tend to be oversized, but given the large cost savings achieved by the use of standard columns, this is less significant.

It is known to use columns of wood, fiberglass or steel for these types of structures, but due to increased raw material prices, the use of concrete columns made as standard columns has proved to be an economically advantageous solution.

In a further preferred embodiment of the construction, the concrete column is a standard pilot pole which is cut to the desired length for the current construction. Pilot piles are manufactured in large style for the foundation of buildings in areas where the sustainability of the soil is not sufficient to support the construction in question. Thus, there is a great tradition of producing pilot piles which, in addition to being able to absorb the static load from the building placed on top of the foundation, are also able to absorb the dynamic influences associated with 3 3DK 2008 00115 U3 location of the pole. Thus, these poles are fully defensible for use in structures of the type mentioned above.

Furthermore, these piles are constructed in standard lengths from 9 m to approx. 13 m or more where they have a cross-sectional dimension of typically 35 x 35 cm. As most slurry tanks do not have a depth of more than 6-8 m, the piles will by default have a length which makes them immediately usable, so that the production price of standard piles can be significantly reduced.

The use of concrete also avoids the use of more expensive resources, such as for example. hard azo trees, which originate from the rain forests, but are largely used for columns of this type. The same applies to steel columns which, in addition to the raw material, must have a surface treatment so as not to corrode in the very aggressive environment present in the slurry.

In a further preferred embodiment, reinforcement is provided at the bottom of the tank, which is made in situ, and a reinforcement having a cross-section slightly larger than the cross-section of the pile may optionally be provided. Thus, by equipping the very bottom of the tank with a reinforced area around the place where the pile is to be placed, and possibly providing a recess that can absorb lateral forces that may affect the column, a good distribution of power in transition from column to bottom of the tank is ensured. , as well as ensuring that the column is raised stably. Furthermore, it is relatively simple to construct such a recess, thereby further reducing the cost of the tank itself.

In a further embodiment, where reinforcement at the bottom of the tank is carried out in situ, an elevation may optionally be provided encircling a region of reinforcement slightly larger than the cross-section of the pile. In contrast to the recess, an elevation will also create a cavity in which the column can be placed, thereby obtaining the advantages mentioned above corresponding to the embodiment in which a recess is used.

Advantageously, as indicated in a further embodiment of the structure, a reinforcement at the bottom of the tank can be provided in the form of a separate element, and the element may optionally be provided with a recess having a cross-section slightly greater than the cross-section of the pile, and / or an elevation may be provided encircling an area of the reinforcement slightly in cross-section greater than the cross-section of the pile. Thus, in this embodiment, it is possible to post-cover the cover structure in pre-existing tanks without requiring significant interference with the structure of the tank itself.

In the upper part of the column, in a further preferred embodiment, a stainless steel bracket is provided, which bracket comprises means for fastening to the top of the column. Due to the strong environment in the storage of the slurry, the bracket is made of acid-resistant stainless steel, so that corrosion and thus degradation of the structure is completely avoided.

In a further preferred embodiment, the column is provided with an acid-resistant, stainless steel fastening bracket at the lower end of the column, for securing it to the bottom of the tank.

This embodiment is particularly advantageous where it is not possible to provide either a recess or a clay around the bottom end of the column so that it is retained by acid-resistant stainless steel fasteners capable of absorbing the horizontal forces that may arise in the slurry tank.

In order to protect the concrete column and thus extend the service life, the concrete column in a further preferred embodiment can be surface protected at least on the upper half, where the surface protection protects against acid attack. Surface protection of at least the upper half protects the oxygen-contacting part of the column, which typically causes acidic attack on the concrete, which can cause corrosion of the reinforcement and eventually degrade the concrete. The overlay coating can typically consist of an epoxy paint, a silane treatment or the like.

5 5DK 2008 00115 U3

drawing Description

An embodiment of the invention will now be explained with reference to the accompanying drawings, in which

Figure 1 illustrates a cross section through a manure tank according to the invention

Firgur 2 and 3 show different embodiments of the column-bottom transition

Figure 4 shows a detail of the top of the column.

Thus, Figure 1 illustrates a cross-section through a typical manure tank, where the manure tank consists of an outer wall 1 and a bottom 2, the wall 1 and the bottom 2 together restricting the volume of the tank 3. A reinforcement 4 is provided in the center 2 of the bottom. will be further described with reference to Figure 2. On the reinforcement 4 arranged centrally in the tank is placed a standard pilot pile 5, which pile is adapted to length so that the slope from the top 6 of the pile above the top of the tank wall 7 causes a reasonable drop .

Between the top 6 of the pile and the top edge of the wall 7 of the tank is a PVS tab 8 which, as mentioned above, serves to prevent the evaporation and spread of odor genes from the slurry.

Fig. 2 illustrates a detail of how the column 5 is placed on top of the tank bottom 2 in the reinforcement 4.1. In this embodiment, the reinforcement 4 is provided with an elevation 9 which thus partly helps to position the column correctly with respect to the reinforcement 4 and partly to absorb any horizontal forces which may affect column 5. It should be mentioned in this connection that the elevations 9 are not required but provide an additional security.

A similar detail is illustrated with reference to Figure 3, wherein the reinforcement 4 'is a separate element located on top of the base 2 so that the forces arising from the cover structure are distributed over a larger portion of the base 2.

6 6GB 2008 00115 U3

The element 4 'is thus advantageously used in connection with the post-installation of a covering structure according to the present invention, where the bottom is not provided with a reinforcement as described in connection with Figure 2. The reinforcement segment 4' may be provided with a recess, so that the column 5 as illustrated at the dashed line 10 is held horizontally in the reinforcing element 4 '. Of course, as was the case for the embodiment described with reference to Figure 2, it is clear that the depression illustrated by 10 is not necessary, but that the pile as such can be placed directly on top of the reinforcing element 4 'or directly on the bottom 2 as described above.

Referring to Figure 4, there is illustrated one embodiment in which it is illustrated how the PVC tablecloth 8 can be secured to the top of the column by means of a bracket 11. The acid-resistant stainless bracket 11 is provided with means 12 which will typically attach reinforcements. either made of fiberglass or kevlar webs in the PVC tablecloth 8 to the stainless bracket 11, whereby the fastening structure 13, which mechanically engages the top of the column 6, provides for holding the PVC tablecloth 8 to the column 5. it is mentioned that the bracket 11 can be attached to the top of the column 6 in numerous ways, e.g. by direct craning of bolts through the acid-resistant stainless bracket 11 and into the top of the column 6, or as illustrated in Figure 4 by means of a judgment 14 drilling the top of the column 6.

Claims (7)

7 7GB 2008 00115 U3 A tank overlay construction, preferably a slurry tank, wherein the overlay construction comprises a standard longitudinal concrete column, one end of the column being placed on a reinforcement at the bottom of the tank, and at the opposite end of the column a bracket is secured, which bracket has means for fastening. of a covering cloth, which cloth along the top of the tank is also secured by suitable means. A roofing structure according to claim 1 which is new in that the concrete column is a standard pilot pole which is cut to the desired length for the current construction. A roofing structure according to claim 1, which is new in that the reinforcement at the bottom of the tank is made in situ and that in the reinforcement an indentation having a cross-section slightly larger than the cross-section of the pile may be provided. A roofing structure according to claim 1 which is new in that the reinforcement at the bottom of the tank is made in situ and that in the reinforcement an elevation may be provided optionally encircling an area of the reinforcement slightly larger than the cross-section of the pile. The roofing structure of claim 1, which is new in that the bracket is made of acid-resistant stainless steel and comprises means for fastening to the top of the column. A roofing structure according to claim 1 which is new in that the reinforcement at the bottom of the tank is a separate element and that the element can optionally be provided with a recess having a cross-section slightly larger than the cross-section of the pile and / or a raised encircling may be provided. a cross-sectional area slightly larger than the pole cross-section. Covering structure according to one or more of the preceding claims, new in that the column is provided with an acid-resistant, stainless steel fastening bracket at the lower end of the column for fastening it to the bottom of the tank. DK 2008 00115 U3 8 Covering structure according to one or more of the preceding claims, new in that the column is surface protected at least on the upper half, where the surface protection protects against acid attack.