HU224889B1 - Increased safety storage stucture for environmental purpose and procedure making thereof - Google Patents

Abstract

Field of the Invention The present invention relates to improved safety, environmental protection and use of recovery pools and pools. The construction according to the invention is characterized in that the amedence (1) is provided with a self-supporting, tightly sealing insulating basin (2), optionally including a protective layer (3) and one or more collecting wells (4) formed in the pool (1). ) has a bulkhead insulating box sealing box (2a), which is optionally provided with a collecting well (3a), and optionally with one or more holding members (5) in the basin (1), which is provided with an insulating box for the entire surface (7) and, if desired, said holding bracket is provided with a protective layer (8) and the rim of the insulating box (2a) of the collecting shaft (2) of the insulating pool (2) and the insulating box (7) of the support member are secured. The invention also relates to a method for producing the above design. HE

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a storage device, such as a dam and a basin, which can also be used for environmental protection purposes, and to a method for its construction.

From the point of view of the environment, the storage of hazardous substances and liquids is a serious problem, so that it is ensured that the dangerous substances cannot be released into the soil or the environment in any way.

This problem arises especially when we want to make an existing storage system, which in many cases has been worn out over the years, to be perfectly safe from an environmental point of view.

There are known solutions in which the basin, the damper is provided with an insulating layer.

This insulating layer is usually a plastic film or geotextile.

Application No. 1672 discloses an environmental artwork for transformers in which the pool is insulated with an elastic foil or sheet and a fluid-permeable, perforated layer is applied thereto.

The fluid-permeable, perforated layer is formed of gravel and / or crushed stone and / or a plastic lattice structure.

A disadvantage of the known solutions is that the liquid impermeable layer formed in the reservoir and the pool is vulnerable.

In the event of damage to the fluid barrier, it no longer provides perfect security and hazardous material may leak into the environment.

Our goal is to develop a construction that provides perfect safety from an environmental point of view.

The essence of our solution is a pool-in-pool design.

The above construction is achieved by placing a self-supporting insulation pool in an existing or new pool.

The insulation pool is prefabricated or assembled from site-specific side panels.

The pool can preferably be made of concrete, reinforced concrete, brick, soil, metal, etc., i.e. any material.

The material of the self-supporting insulating basin is preferably a hard plastic sheet, an associated sheet, a sheet of metal, a sheet containing silicate and the like.

The hard plastic sheet is preferably a polyethylene or polypropylene sheet.

Preferably, the bonded sheet is a resin bonded with a plastic film or a resin bonded with a plastic or fiberglass fabric, but a fiberglass reinforced polyester or epoxy resin board may also be used.

In the construction according to the invention, the pool preferably also comprises a manhole, which is fitted with a manhole seal box which fits over the entire surface.

If necessary for environmental protection, apply another protective layer to the manhole box.

Preferably, the design of the pool also includes one or more brackets to accommodate a pump or other technological device.

The support is also provided with a support box insulating over the entire surface and, if necessary, an additional protective layer is provided.

The present invention therefore relates to a storage device, such as a damper or a swimming pool, which can be used for environmental protection purposes.

The construction according to the invention is characterized in that the basin is provided with a self-supporting, tight-seated insulating basin, optionally provided with a protective layer, with one or more manhole-insulated manhole insulating boxes arranged in the basin, and optionally a manhole shielding layer is provided and optionally one or more support members provided with a full-surface support barrier insulating box are provided in the basin and, if desired, a support barrier layer is provided for the self-supporting insulating pool the insulating box and the insulating box are fixed to it.

Preferably, the method of attachment may be by gluing or welding.

The invention further relates to a process for making the above construction. The process is characterized by pre-fabricating the pool to be placed in the pool, or prefabricating it on site after sizing, inserting the pool into the pool with a smoothed surface and securing the wall to the pool at one or more points, and providing a pre-fabricated or with a prefabricated pan-sealing collector box and, if desired, a protective layer or collector-shell layer on the collector shaft sealing box surface of the basin, and on the one or more supporting members optionally formed in the basin with a pan-collar a support layer is applied, and the collar of the collector shaft and optionally the edge of the holder is sealed to the insulating basin.

An embodiment of the embodiment of the present invention without a supporting member is shown in Figure 1, while Figure 2 is a sectional view B-B and sectional view A-A of Figure 3.

Fig. 4 shows a construction with a bracket, while Fig. 5 is a section B-B and

Figure 6 is a sectional view A-A thereof.

Figure 1 shows the pool 1, which may be an existing pool or a newly built pool.

In the basin 1 there is a tightly fitting insulating basin 2 on which a protective layer 3 is applied.

At the bottom of pool 1 are the 4 manholes. The manhole 4 serves for cleaning purposes and allows the material 6 to be discharged.

The stored material 6 may be a solid, liquid or dispersion.

HU 224 889 Β1

The manhole 4 is provided with a manifold insulating box 2a which fits snugly over the entire surface, while the manhole shield layer 3a is provided.

Figures 2 and 3 are sectional views illustrating the location of the manhole 4.

The material of the collector shaft insulating box 2a may be the same as that of the insulating basin 2 and its flange is fixed to the insulating basin 2.

The method of fastening may preferably be by gluing or welding.

The protective layer 3 and the collecting pit 3a are used only when desired, when the pool is subjected not only to hydrostatic but also to mechanical stress.

Preferably, the protective layers are made of a synthetic or fiberglass reinforced polymeric film, fiberglass, fiberglass, synthetic or natural textile or any other geotextile.

Figure 4 shows a basin 1 with a bracket 5.

In the basin 1 is located the insulating basin 2, on the surface of which the protective layer 3 is placed.

The bracket 5 is used to accommodate pumps and other technological equipment.

The bracket 5 is provided with a bracket insulating box 7 which fits over the entire surface.

The material of the insulating box 7 is also preferably the same as the material of the insulating basin 2, and its flange is secured to the insulating basin 2 by attachment.

On the carrier insulating box 7 there is provided a carrier protective layer 8.

The material of the protective layer 8 is of the same quality as that of the protective layer 3 and the collecting shaft 3a.

In the process of the invention, the dimensions of the basin 1, the collector shaft 4 and the support member 5 are taken and accordingly the selected sidewall material, which may be a plastic sheet or an associated sheet, is cut and assembled on site, i.e. by gluing or welding. the insulating basin 2, the collector shaft insulating box 3a and the holding piece insulating box 7.

The insulating basin 2 is formed by making a cutout corresponding to the surface of the collecting shaft 4 and the base of the support 5 on the respective side wall of the insulating basin 2.

If necessary, the unevenness of the side wall of the basin 1, the collector shaft 4 and the support element 5 is first eliminated by trimming or smoothing.

The insulating basin 2 is then inserted into the basin, the wall of which is fixed at one or more points.

Then, the collector shaft insulating box 2a, which fits over the entire surface, is inserted into the collector shaft 4 and secured to the insulating basin 2.

The support piece insulating box 7, which fits over the entire surface, is placed on the support piece 5 and then secured to the insulating pool.

Thereafter, if desired, the surface of the insulating basin 2 is provided with a protective layer 3, the surface of the collector shaft insulating box 2a with a collector protection layer 3a and the surface of the containment insulating box 7 with a protective layer 8.

It is also possible to fasten the collector shaft insulating box 2a to the insulating basin 2 and the holding box insulating box 7 before insertion into the basin 1.

In such a case, a pressure test can be performed prior to insertion to verify the fluid tightness of the construction.

The bonding of the basin 1 and the insulation basin 2 at one or more points is preferably done by gluing.

While the insulating basin 2, the manhole insulating box 2a and the holding box insulating box 7 are fastened to each other, it is advantageous to glue or weld.

Of course, the embodiment will vary in the case of insulating the basin 1 without the bracket 5 or insulating the basin 1 in which one or more brackets 5 are located.

The construction and process of the present invention are illustrated but not limited to the following examples.

Example 1

We would like to make the existing 1 basin suitable for the storage of oily waste environmentally safe, perfectly liquid and oil tight.

Pool 1 is equipped with 4 collecting shafts and 5 holding structures.

At the site, the pool 1, the manhole 4 and the support 5 are dimensioned.

Cut the sides of the insulating basin 2 from tar paper laminated with polyethylene foil and glue the sides together.

Of course, an opening is provided on the respective side wall for the corresponding surface of the collecting shaft 4 and the support 5.

Prior to the insertion of the self-supporting insulating basin 2, the side walls of the basin 1 are smoothed.

Then, the insulating basin 2 is inserted into the basin 1 and the latter is secured to the basin 1 by gluing it at several points.

Then, the side walls of the manhole insulating box 2a are cut from the tar paper laminated with polyethylene foil, which is glued together and then inserted into the manhole 4. If necessary, the walls are smoothed with concrete.

The sidewall of the manhole insulating box 2a is glued to the sidewall of the manhole 4 at several points.

The collar of the collector shaft insulating box 2a is then glued to the insulating basin 2.

The side walls of the insulating box 7 are also cut from tar paper laminated with polyethylene foil, the side walls are glued together and placed on the support 5.

HU 224 889 Β1

The edge of the insulating box 7 is glued to the insulating basin 2.

The 'pool in the pool' design thus provides perfect fluid sealing and allows the recycling of an already used concrete pool in full compliance with environmental regulations.

Example 2

In each case, the same procedure as in Example 1 was used, but the material of the containment basin 2, the manhole insulating box 2a and the holding box insulating box 7 was made of hard polypropylene sheet.

The material of the exemplary basin 1 is the soil itself and the manhole 4 and the support 5 are made of concrete.

Before insulating the basin 2, the basin 1 is leveled.

The advantages of our construction according to the invention are as follows.

It can be used in a very wide range of applications, such as solving the problems of insulation of industrial pools, especially in oil and energy supply, industrial and drinking water supply, but also for agricultural use.

The construction can be used in all areas where hazardous substances must be prevented from entering the environment.

The design is suitable for improving the environmental protection of existing, used pools as well as newly built pools.

By using our design, the existing pools will only be out of use for a short period of time, since according to the invention, the normal operation can be restored in a very short period of time, with increased environmental protection.

We can always choose the material of the structure and its thickness according to the given operating and environmental conditions.

The self-supporting insulating basin 2, the self-supporting manhole insulating box 2a and the self-supporting insulating box 7 can be prefabricated or can be formed on site after size reduction.

Our design provides a much higher level of environmental protection, ie liquid tightness and mechanical strength, than simple foil or geotextile wrapping of hazardous material pools.

The construction according to the invention can be used indoors or outdoors.

Claims (7)

PATENT CLAIMS Container structure for improved safety, which can be used for environmental purposes, for example, a dam or a basin, characterized in that the basin (1) is provided with a self-supporting, tight-lying insulating basin (2), optionally provided with a protective layer (3), and the one or more manholes (4) formed in the basin (1) having a manifold insulating box (2a) fitted over the entire surface, optionally provided with a manhole protection layer (3a) and optionally in the basin (1) or a plurality of brackets (5) provided with a bracket insulating box (7) that fits over the whole surface and, if desired, a bracket barrier layer (8) located thereon, and the collar (2) of the collector box insulating flange (2) and the insulating box (7) is attached thereto. Container according to Claim 1, characterized in that the self-supporting insulating basin (2) and the collecting pit insulating box (2a) and the holding section insulating box (7) are made of hard plastic sheet or plastic film or plastic or fiberglass material, It is made of tar paper or fiberglass reinforced polyester or epoxy resin board. Container according to Claim 1, characterized in that the self-supporting insulating basin (2) and the collecting pit insulating box (2a) and the holding profile insulating box (7) are made of metal sheet. 4. Storage structure according to claims 1 to 3, characterized in that the basin (1) is made of brick, concrete, reinforced concrete, soil. 5. Container according to one of Claims 1 to 3, characterized in that the insulating basin (2) and the collecting pit insulating box (2a) and the holding section insulating box (7) are bonded together. 6. Container according to one of Claims 1 to 3, characterized in that the insulating basin (2) and the collector shaft insulating box (2a) and the holding section insulating box (7) are welded together. 7. A process for producing a storage container of high security, which can be used for environmental purposes, for example, a dam or basin, characterized in that the insulating basin (2) to be placed in a basin (1) is prefabricated or made on site and inserted into the smoothed basin (1) securing the insulating basin (2) and its wall to the basin (1) at one or more points, and then providing the manhole (4) in the basin (1) with a prefabricated or on-site, complete surface-sealing basin insulating box (2a). ) and then, if desired, a protective layer (3) or collector layer (3a) on the surface of the insulating basin (2a) and / or manhole insulating box (2a), on one or more supporting members (5) optionally formed in the basin (1). ) also holds the insulating box (7) which fits over the entire surface and holds on it placing an anti-barrier layer (8) and securing to the insulating basin (2) the collar of the collector shaft insulating box (2a) and, optionally, the edge of the insulating box insulating box (7).