RU2706336C1 - Method of manufacturing, storage and application of mobile portable module for repair of damages in transported containers with toxic materials - Google Patents

Abstract

FIELD: storage.

SUBSTANCE: group of inventions relates to safe methods of storage and transportation of hazardous materials. Method of portable module manufacturing for damage repair includes initial separate arrangement of reagents in individual sealed volumes for storage of delayed interaction reactants. Individual sealed volumes are polymer containers. Containers are sealed by shutoff elements. They are fixed between walls of sleeve by means of welded seam. Portion of the granular filler is placed in the zone located in the opposite side of the sleeve. Sleeve is sealed. Separate arrangement of reagents is carried out in individual volumes, in form of polymer, tightly packed by shutting off the neck of the shutoff element. There is also a method of using a portable module for repairing damages in transported containers with toxic materials.

EFFECT: group of inventions provides higher reliability of storage and reduces risks of mutual movement of components.

2 cl, 2 dwg, 1 tbl, 2 ex

Description

The present invention relates to the field of technologies for providing safe methods of storage and transportation of environmentally hazardous materials in sealed volumes and can be used to repair damage in transportation equipment.

From the prior art, a method is known as an analogue (RF patent No. 2518159, IPC G21F 5/008, publ. 06/10/14) transporting and storing environmentally hazardous materials, including filling an environmentally hazardous material in a cylindrical container with nests provided with a removable socket, formed during welding of two half-shells, on each face of which fluoroplastic overlays are installed.

The disadvantages of the analogue include the lack of the possibility of long-term (over 2 years) storage of the module for repairing damage to transported environmentally hazardous material.

The task of the inventors is to develop a method for the manufacture, storage, effective and efficient use of a mobile portable module for repairing damage in transported containers with toxic materials.

A new technical result provided by the use of the present invention is to provide increased storage reliability and increased durability of separately stored components, reduced risk of mutual movement of components, ensuring operational use and movement of the module to repair damage, as well as reducing the influence of atmospheric and climatic factors.

An additional technical result is to increase the duration and reliability of the separate storage of the module components for repairing damage.

These tasks and a new technical result are ensured by the fact that, in contrast to the known method of manufacturing, storage and use of a portable portable module for repairing damage in transported containers with toxic materials, including the initial separate placement of reagents in individual sealed volumes for storing reagents of delayed interaction with the formation of predetermined point in time of the expandable polymer composition for repair, followed by movement of the components of the It is natural in the total sealed volume for delayed reaction according to the invention, as individual sealed volumes for separate storage of delayed reaction fluid reagents, use polymeric, hermetically sealed by closing the mouth of the shut-off element, containers made of a polymeric material, the mechanical strength of which is greater than that of the material sealed volume for delayed interaction, which is used as a sleeve of polymer elas of egg material, these containers are hermetically sealed with locking elements and placed in the extreme zone of the elastic sleeve, they are fixed between the walls of the sleeve by means of a weld formed along the contact line of the containers with the formation of enclosing cell clamps, and placed in the area located on the opposite side of the sleeve weighed granular filler, then the sleeve is sealed, and at a given point in time the use of a mobile portable module to repair damage in the transported x containers with toxic materials open locking elements that block the access of each of the reagents for delayed interaction from each individual container into the total sealed volume, without removing the container from the clamp cells, the individual liquid reagents are poured into the total volume by tipping containers in the opposite zone of the sleeve and mix granular-filled reagents to form a foamable composition, then open the sleeve for flowing the resulting foamable composition and fill they reveal the local damage zone in the transported container.

In addition, in the method of manufacturing and storing a mobile portable module for repairing damage in transported containers with toxic materials, vessels with screw caps are used as polymer hermetically sealed containers, each of which is made of one polymer material with a threaded part length of at least 30 mm, or from heterogeneous polymeric materials characterized by different stiffness.

In addition, component A, a mixture of polyester and special additives (a foam regulator based on an organosilicon compound, a catalyst based on amines, a blowing agent based on amines, a blowing agent based on an hydroxyl-containing liquid, and a stabilizer based on an organic phosphorus salt, is used as individual components for delayed reaction) acid), as component B - polyisocyanate, and as a granular filler - polystyrene granules of expandable type PSV-C, with the following general ratios of components, mass. hours: component A - 100, component B - 120-130, granular filler - 30-40.

The proposed method is illustrated as follows.

In FIG. 1 shows a General view of the device for implementing the inventive method, where 1 is a sleeve for delayed reacting of reagents, 2 is the mass of granular filler, 3, 4 are individual containers for separate storage of reagents A and B, 5 is a weld, 6, 7 are cells - clamps, 8, 9 - covers for overlapping the necks of individual containers.

In FIG. 2 shows a view of the device at the time of connection of the reagents with each other and with granular filler.

Initially, separate placement of reagents A and B in individual sealed containers 3.4 is carried out to store delayed interaction components with the formation of a foaming polymer composition at a given point in time to repair damage, followed by placement together in a common sealed volume (sleeve) 1 for delayed response. As individual sealed volumes for separate storage of components for delayed interaction, polymer seals are used that are hermetically sealed by closing the necks with shut-off elements 8, 9 and containers made of a material having a mechanical strength greater than that of a sealed total volume polymeric material for delayed reaction. These containers are placed in the extreme zone of the elastic sleeve, they are fixed between the walls of the sleeve by means of a weld 5 formed along the line of contact of the containers with the formation of enclosing cells-clamps 6, 7.

In a zone located on the opposite side of the sleeve, a sample of a granular filler is placed, which is used as polystyrene granules of the expandable PSV-S type.

After loading all the components in this way into the total volume, the sleeve is sealed.

At a given point in time, the use of a mobile portable module for repairing damage in transported containers with environmentally hazardous and toxic materials, a locking element that blocks the access of components for delayed response from individual containers to the total sealed volume 1 is opened without removing them from the clamp cells. The individual components are transferred to the total volume by tipping the containers into the opposite zone of the sleeve for connection with the granular filler and mixing until a foaming composition is formed.

Then the total volume is opened and the damage zone is filled with a foamable composition. It has been experimentally shown that it is with such placement and separate storage of reagents that their reliable isolation from each other and their constant readiness for authorized interaction are ensured.

In the proposed method, vessels with screw caps are used as polymer hermetically sealed containers, each made of one of the same polymeric material with a threaded part length of at least 30 mm, or of heterogeneous polymeric materials of different stiffness.

In the proposed method, component A, a mixture of polyester and special additives (a foam regulator based on an organosilicon compound, a catalyst based on amines, a blowing agent based on amines, a blowing agent based on an hydroxyl-containing liquid, and a stabilizer based on an organic phosphorus salt, are used as individual components for delayed reaction) acid), as component B - polyisocyanate, and as a granular filler - polystyrene granules of expandable type PSV- With the following ratios of components, mass. including: component A - 100, component B - 100-120, granular filler - 30-40.

Experimental testing of the proposed method confirmed the high reliability of the separate storage of reagents for delayed interaction in the proposed module for at least 36 months, which, compared with the prototype, is significantly greater.

Thus, when using the proposed method, a new technical result is provided, which consists in improving storage reliability and increasing the viability of separately stored components, reducing the risk of mutual movement of components, ensuring operational use and moving the module to repair damage, as well as reducing the impact of atmospheric and climatic factors. An additional technical result is to increase the duration and reliability of the separate storage of the module components for repairing damage.

The possibility of industrial implementation of the invention is confirmed by the following examples.

Example 1

In laboratory conditions, the proposed method is implemented as follows.

In a separate container, a sample of component A-240-2 is taken, in an amount of 400 g, and the container is hermetically sealed with a lid. In another separate container, a sample of component B is taken - a standard grade polyisocyanate, in the amount of 480 g, and is also hermetically sealed with a lid. Then the resulting two hermetically sealed containers are placed in the lower part of the polyethylene sleeve, excess air is released and the sleeve is welded from above.

At a given point in time, the lid from the container containing component A is removed, the package is turned over, and component A is drained down, then the cover from the container containing component B is removed, and the contents of the containers are also poured into the lower part of the polyethylene sleeve, where they are mixed into no more than 30 seconds. Then the angle of the sleeve is cut off or pierced with a sharp object, and the resulting composition is poured into a fixing volume.

Example 2

In a separate container, a sample of component A-240-2 is taken, which is a mixture of polyester and special additives in an amount of 400 g, and the container is sealed with a lid. In another separate container, a sample of component B is taken - a standard grade polyisocyanate, in the amount of 480 g, and is also hermetically sealed with a lid. The resulting two hermetically sealed containers are placed in the lower part of the polyethylene sleeve. A portion of the filler, PSV-S granules, in the amount of 155 g, is introduced into the other part of the sleeve. Then, excess air is discharged and the sleeve is welded.

At a given point in time, the lid from the container containing component A is removed, the bag is turned over, and component A is poured down the sleeves containing PSV-S granules. Then, component A and granules are mixed until the latter are completely wetted. Next, the lid from the container containing component B is removed and the contents of the container are poured into the lower part of the polyethylene sleeve containing a mixture of component A and PSV-S granules, where all components are mixed for no more than 30 seconds. Then the angle of the sleeve is cut off or pierced with a sharp object, and the resulting composition is poured into a fixing volume.

As examples of implementation have shown, the use of the proposed method allows to increase the reliability of storage and increase the duration of the preservation of the viability of separately stored components, reduce the risk of mutual movement of components, the possibility of operational use and movement of the module to repair damage, as well as reduce the impact of atmospheric and climatic factors.

Claims (2)

1. A method of manufacturing a portable module for repairing damage in transported containers, including the initial separate placement of reagents in individual sealed volumes for storing delayed interaction reagents until the subsequent movement of the components together in a common sealed volume for delayed interaction, characterized in that as individual sealed volumes for separate storage of fluid reactants delayed interaction using poly measuring containers, containers are hermetically sealed with locking elements and placed in the extreme zone of the elastic sleeve, fasten them between the walls of the sleeve by means of a weld formed along the contact line of the containers with the formation of enclosing cell clamps, and a hinge is placed in the area located on the opposite side of the sleeve granular filler, then the sleeve is sealed, and the separate placement of the reagents is carried out in individual volumes, which use polymer, germ the partially packaged by overlap container neck locking element of polymeric material mechanical strength of which is greater than the volume of sealing material for the delayed interaction, which is used as a polymeric sleeve of elastic material. 2. A method of using a portable module for repairing damage in transported containers with toxic materials, comprising reacting the reagents originally placed in individual containers at a predetermined time point of use of the said mobile portable module, characterized in that shut-off elements are opened to bring the reactants into contact, blocking the access of each of the reagents for delayed interaction from each individual container into the total sealed volume without removing the containers from the clamp cells, the individual liquid reagents are poured into the total volume by tipping the containers into the opposite zone of the sleeve and mix the reagents with granular filler to form a foamable composition, then open the sleeve for flowing the resulting foamable composition and fill it with the local damage zone in the transported container.

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