RU182468U1 - PROTECTIVE BIO DESTROYABLE PLUG - Google Patents

Abstract

The technical solution relates to the field of construction, and in particular to means of protection of machined ends of cylindrical hollow metal or polymer bodies during loading and unloading, transportation or storage. The technical result is the intensification, after a given service life of the plug, its destruction under the influence of natural external influences, including atmospheric, natural ultraviolet irradiation, due to the organization of foci of destruction, mainly in places of its minimum thickness or in places of changing the shape of the surface of the plug having the form cups with double walls, forming from the side of its bottom an annular cavity open around the perimeter from the outside. This is achieved by the fact that the protective biodegradable plug on the end face of a hollow cylindrical body with a diameter of 57-1720 mm is made of an extrusion sheet of a biodegradable thermoplastic polymer material based on a polyolefin modified with a biodegradable filler having a biodegradation activator by microorganisms due to oxidation and the action of natural ultraviolet radiation, and made in the form of a glass with double walls, forming from the side of its bottom open around the perimeter from the outside to ring cavity, and has a deviation of the thickness of the material of the polymer plug within ± 0.5 mm, as well as the created relief along the thickness of the bottom on part of its surface. The biodegradation activator can be placed on the surface of the biodegradable filler or in its body. It is possible to place the biodegradation activator both on the surface of the biodegradable filler and in its body. At the same time, solid organic waste from the agro-industrial complex in granular or powder form can be used as a biodegradable filler, preferably ground grain cleaning wastes, and nanoparticles of metals of variable valence from the Cu, Fe, Co, Ni, Sn groups are used as biodegradation activators. Cr or their oxides. 6 c.p. f-ly, 2 ill.

Description

The technical solution relates to the field of construction, and in particular to means of protection of machined ends of cylindrical hollow metal or polymer bodies during loading and unloading, transportation or storage.

Known plug for protecting a pipe or pipe connecting piece, made as a whole of a polymeric material containing an external cylinder, the inner diameter of which is equal to the external diameter of the protected pipe or pipe connecting piece, an inner cylinder located coaxially in the cavity of the outer cylinder, an end ring connecting one from the ends of the outer cylinder with one of the ends of the inner cylinder, and the bottom located on the other end of the inner cylinder, the inner cylinder is made with shnim diameter equal to the inner diameter of the pipe to be protected or the connection piece of the pipeline, as a whole plug is formed with a wall thickness of 2-4 mm, and as the polymeric material is a polyethylene treated with fire retardant and UV stabilizer (RU 144 296 U1, 20.08.2014).

Also known is a protective device for pipe ends, made in the form of a cap or plug, containing, depending on use, a body of elastomeric material in the form of a cap or plug and a sleeve-like casing in the form of an outer or inner ring, the body of elastomeric material is made together with a sleeve-like casing without the possibility of disassembling the device (RU 33422 U1, 10.20.2003).

The closest is a protective cap on the end face of a hollow cylindrical body with a diameter of 57-1420 mm, made of an extrusion sheet of a thermoplastic polymer material with a conditional tensile strength of at least 13 MPa and a loss of strength of no more than 10% when tested for frost resistance in the form formed by vacuum molding with cooling plugs on the gauge of a monolithic body in the form of a glass with double side walls, open along the perimeter from the side of its bottom, between which there is an annular section, conjugated to the side walls, and the bottom is made on its greater surface, different from the flat shape (RU 167422 U1, 01/10/2017).

All known technical solutions involve the implementation of these products (plugs) from a material including a UV stabilizer, which eliminates their destruction under the influence of natural factors, even when the function performed by the product is completed and the product is outside the protected cylindrical body. Often, such products fall into the ground when performing earthwork at the facility, which leads to an increase in the period of their destruction due to the lack of access to natural UV radiation. The process of natural destruction of the product, in particular, lost during work at the facility, takes an unacceptably long time and reaches 100 years, even with a small amount of UV stabilizer or in its absence, which leads to pollution of the work site and to the violation of the ecological balance of the environment .

The problem to be solved is the prevention of environmental pollution by creating a design of protective plugs that have the form of a glass with double walls, forming an annular cavity open around the perimeter from the outside, and providing for the acceleration of their destruction within a specified design period of 5-10 years under the influence of natural environmental influences, which include the natural effects of air oxygen, natural ultraviolet radiation, temperature factors, humidity and action of microorganisms of the environment.

Technical result: intensification, after a given service life of the plug, its destruction under the influence of natural external influences, including atmospheric, natural ultraviolet irradiation, due to the organization of foci of destruction, mainly in places of its minimum thickness or in places of changing the shape of the surface of the plug having the form cups with double walls, forming from the side of its bottom an annular cavity open around the perimeter from the outside.

This is achieved by the fact that the protective biodegradable plug on the end face of a hollow cylindrical body with a diameter of 57-1720 mm is made of an extrusion sheet of a biodegradable thermoplastic polymer material based on a polyolefin modified with a biodegradable filler having a biodegradation activator by microorganisms due to oxidation and the action of natural ultraviolet radiation, and made in the form of a glass with double walls, forming from the side of its bottom open around the perimeter from the outside to the ring cavity and has a deviation of the thickness of the material of the polymer plug within ± 0.5 mm, as well as the created relief along the thickness of the bottom on part of its surface. The relief in the thickness of the bottom is a protrusion on one of its surfaces and a corresponding depression in shape on the other. The biodegradation activator can be placed on the surface of the biodegradable filler or in its body. It is possible to place the biodegradation activator both on the surface of the biodegradable filler and in its body. At the same time, solid organic waste from the agro-industrial complex in granular or powder form can be used as a biodegradable filler, preferably ground grain cleaning wastes, and nanoparticles of metals of variable valence from the Cu, Fe, Co, Ni, Sn groups are used as biodegradation activators. Cr or their oxides.

A causal relationship between the features of the independent claim and the technical result, confirming their materiality, is ensured by the fact that the form of the protective biodegradable plug used to close the end of a hollow cylindrical body with a diameter of 57-1720 mm requires its destruction into separate parts, which then decompose more intensively than a monolithic structure, which has double walls connected by the bottom, restricting access to external environmental influences. The choice of material is determined, first of all, by the product performing its working functions for a given time of operation and with the possibility of its destruction into separate parts after the expiration of this time. For this, an extrusion sheet based on a polyolefin is used as having the thickness necessary for the operational functions of the product, which at the same time provides the specified time for degradation biodegradation of the product of the specified shape. For this, the sheet material is modified with a biodegradable filler, including an activator of biodegradation by microorganisms due to oxidation and the action of natural ultraviolet radiation, humidity and temperature. And the plug made of such material has a predetermined thickness deviation within ± 0.5 mm, as well as the created relief along the thickness of the bottom of the plug on a part of its surface, which ensures uneven biodegradation over the entire surface and the disintegration of the product into parts at the places of intense biodegradation that occurs in places of thinning of the material or in places of artificially created relief along the thickness of the bottom. Thus, the relationship of the essential features of the independent claim of the utility model formula is established, ensuring the achievement of the specified technical result.

In FIG. 1 shows one example of a plug in its cross section with protrusions and depressions of artificially created relief;

In FIG. 2 shows another example of a plug in its cross section with protrusions and depressions of artificially created relief.

A biodegradable protective plug is installed on the end face of a hollow cylindrical body with a diameter of 57-1720 mm. The cap is made of a thermoplastic polymer material based on a polyolefin, which can be a material from the group: PE, EVA, PP and their blocks and copolymers. The plug has the shape of a glass with double walls 1 and 2, which are integral (when forming) connected by an annular bridge 3, forming from its bottom 4 side an annular cavity open around the perimeter from the outside. The bottom 4 has artificially created, for example, by vacuum forming the stub, relief 5 along the thickness of the bottom on part of its surface. The shape of embossing along the thickness of the bottom on a part of its surface can be combined with giving it the specified functionality, for example, an inscription, logo, etc. The material of the plug has a deviation of the thickness of the material of the polymer plug within ± 0.5 mm. The indicated limits and relief lead to uneven biodegradation of a biodegradable thermoplastic polymer material based on a polyolefin, the decay of the plug into separate parts, the intensity of further destruction of which is much higher than the destruction of the entire plug as a whole. The choice of material is determined, first of all, by the requirement that the plug fulfill its operational functions under specified operating conditions, and then by its destruction in a timely manner. For this, an extrusion sheet modified with a biodegradable filler having a biodegradation activator by microorganisms due to oxidation and the action of natural ultraviolet radiation, humidity and ambient temperature was used. The biodegradation activator is placed, for example, by sputtering, on the surface of the biodegradable filler or in its body, for example by incorporation, which contributes to the occurrence of foci of destruction. Solid organic waste from the agro-industrial complex in granular or powder form was used as a biodegradable filler, preferably ground grain cleaning wastes, and nanoparticles of metals of variable valence from the Cu, Fe, Co, Ni, Sn, Cr groups or their oxides were used as biodegradation activator. .

This embodiment allows you to combine the specified functional properties of the stub with the requirement of compliance with environmental standards.

Claims (7)

1. Protective biodegradable plug on the end face of a hollow cylindrical body with a diameter of 57-1720 mm, made of an extrusion sheet of a biodegradable thermoplastic polymer material based on a polyolefin, modified with a biodegradable filler having a biodegradation activator by microorganisms due to oxidation and the action of natural ultraviolet radiation, and the plug is made in the form cups with double walls, forming from the side of its bottom an annular cavity open around the perimeter from the outside and and EET thickness deviation polymeric material plugs within ± 0,5 mm and the thickness created by embossing the bottom part of its surface. 2. Protective biodegradable plug according to claim 1, characterized in that the relief along the thickness of the bottom is a protrusion on one of its surfaces and a corresponding depression in shape on the other. 3. Protective biodegradable plug according to claim 1, characterized in that the biodegradation activator is placed on the surface of the biodegradable filler. 4. Protective biodegradable plug according to claim 1, characterized in that the biodegradation activator is located in the body of the biodegradable filler. 5. Protective biodegradable plug according to claim 1, characterized in that the biodegradation activator is placed both on the surface of the biodegradable filler and in its body. 6. Protective biodegradable plug according to claim 1, characterized in that the solid organic waste produced by the agro-industrial complex in granular or powder form is used as a biodegradable filler, preferably ground grain cleaning waste. 7. Protective biodegradable plug according to claim 1, characterized in that nanoparticles of metals of variable valence from the group Cu, Fe, Co, Ni, Sn, Cr or their oxides are used as an activator of biodegradation.

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