RU74438U1 - CONTAINER PROTECTIVE ASSEMBLY FOR CONTROL AND MEASURING EQUIPMENT - Google Patents

Abstract

The utility model relates to the means of protection of instrumentation and automation used in industrial plants from the effects of adverse environmental conditions, including low temperatures in the winter, as well as from the effects of aggressive gases and vapors contained in the atmosphere of enterprises.

Prefabricated protective container for instrumentation consists of a cover (1) and a base (2), fastened in the upper part with metal hinges (3), and a bottom (4). The lid, base walls and bottom are made in the form of a “sandwich structure” and have an inner and outer shell made of chemically resistant refractory fiberglass. A layer of thermal insulation is enclosed between the shells. The container is equipped with side locks (5) and a spacer (6).

The bottom is made separately from the base and attached to it only during the installation of the container on the pipeline.

To assemble the container, holes (7) corresponding to the diameter of the pipeline are cut out in the walls of the base and the bottom, put on the pipeline with the devices installed on it the upper part of the container and press the bottom to it from the bottom, after fixing the seal (8). The connection of the base with the bottom is carried out by means of fixing devices (9), the gaps between the container wall and the surface of the pipeline are closed with a suitable sealant.

Description

The utility model relates to the means of protection of instrumentation and automation devices installed on industrial pipelines from the effects of adverse environmental conditions, including low temperatures in the winter, as well as from the effects of aggressive gases and vapors contained in the atmosphere of enterprises.

A known method of thermal protection of apparatuses and pipelines using multilayer thermal insulation according to RF patent No. 2016348, F16L 59/00, made in the form of a package of the base and alternating layers of discrete heat-insulating elements, in which the base layers are made of alternating layers of fiberglass, stitched in pairs with parallel seams in intersecting directions, and metal foil, and the insulating elements are made of highly porous ceramics.

Such multilayer thermal insulation can provide thermal protection of any volumes, however, significant difficulties will arise when sealing a structure with its use.

There is also a method of protecting existing electronic equipment from environmental influences, namely, that the board with the specified equipment is installed in a housing that contains at least two layers of tear-resistant plastic located on opposite sides of the metal barrier, after which the board is sealed inside specified body. In this case, the body is made in the form of a multilayer structure in which each of the layers of plastic, in turn, contains the outer and inner layers, the first of which is made of polyethylene, and the second is made of polyamide or polyester (application for invention of the Russian Federation No. 96121569/09 , H05K 5/06, 1999).

The layered structure is also used in the implementation of the method of environmental protection of airborne information storage devices installed on aircraft (Mikhailov OI and other Aircraft Instruments and Flight Navigation Systems. Leningrad, OLAG, 1990, pp. 54 - 56 ) According to this method, an emergency information storage device is installed in a ball heat-insulating container of a layered structure having three shells - shockproof and two heat-insulating.

A known method of thermal protection, a layered structure for its implementation and a protective housing from it (RF patent No. 2162189. F16L 59/02, 2001). The invention relates to

means of protecting internal volumes for various purposes. The structure and the protective housing contain at least three layers in series. The outer layer is shockproof and fireproof. The intermediate layer is made of dry refractory porous-fibrous material, and the inner layer is made of porous-fibrous material impregnated with a water-containing component. The thermal protection method includes creating an internal protected volume and forming a protective barrier around it from a layered structure around it.

The above applications of layered structures can be used to protect internal volumes from external influences, however, the described devices are not suitable for accommodating existing instrumentation that require periodic inspection and verification of their operability.

Also known is a protective device suitable for placing measuring equipment in it - a sealed enclosure for electronic circuit boards (application for invention of the Russian Federation No. 2002128691/09, H05K 5/06, 2004). The housing contains a base and a cover made of a thermoplastic polymer material (polybutylene terephthalate) and hermetically connected to each other by means of locking elements.

The latest development does not involve equipping protective devices with thermal insulation.

The closest in technical essence to the claimed device (prototype) is a protective container for installing instrumentation (patent for a utility model of the Russian Federation No. 49380, 2005), which is a cube divided diagonally into two parts - the base and the lid, fastened at the top by metal hinges. The base and cover of the same size are made in the form of a "sandwich - structure" and have an inner and outer shell made of chemically resistant refractory fiberglass. A thermal insulation layer is enclosed between the shells, which is formed by synthesis from the starting ingredients directly in this space during the formation of covers and bases.

In some cases, there is a need to install instrumentation requiring climate protection directly on process pipelines. Moreover, the use of a protective container of the described design requires the manufacture of a special site for its installation.

The patented utility model solves the problem of attaching the protective device directly to the pipeline, ensuring reliable isolation of devices from the environment.

The utility model is illustrated by drawings, which show a General view of the container assembly and the position of the lid in the open state (figure 1) and shows the design of the bottom (figure 2).

Prefabricated protective container for instrumentation consists of a cover (1) and a base (2), fastened in the upper part with metal hinges (3), and a bottom (4). The lid, base walls and bottom are made in the form of a “sandwich structure” and have an inner and outer shell made of chemically resistant refractory fiberglass. A layer of thermal insulation is enclosed between the shells. The container is equipped with side locks (5) and a spacer (6).

The main difference between this utility model and the prototype is that the bottom is made separately from the base and attached to it only during the installation of the container on the pipeline.

A useful model is as follows.

On the appropriate matrices, external and internal fiberglass shells of the base, lid and bottom of the container are formed in a contact manner. The hardened outer shells are bonded to the inner shells and a mixture of ingredients for foam synthesis is introduced into the space between them. They give the shutter speed necessary to complete the hardening of the formed foam and subject the product to mechanical processing and painting. Next, install the necessary metal parts, fix the seal around the perimeter of the lid and connect the base and lid of the container.

To assemble the container, holes (7) corresponding to the diameter of the pipeline are cut out in the walls of the base and the bottom, put on the pipeline with the devices installed on it the upper part of the container and press the bottom to it from the bottom, after fixing the seal (8). The connection of the base with the bottom is carried out by means of fixing devices (9), the gaps between the container wall and the surface of the pipeline are closed with a suitable sealant.

Claims (1)

Prefabricated protective container for instrumentation, consisting of a base, a cover and a bottom, the cases of which have an inner layer of polystyrene foam, as well as an inner and outer shell of refractory and chemically resistant fiberglass, equipped with metal hinges fastening the lid and base, a spacer for holding lids in the open state and side locks, as well as fixed around the perimeter of the lid adjacent to the base, a sealant made of elastic corrosion-resistant and frost-resistant m material, characterized in that the bottom is made separately from the base and attached to it only during installation of the container on the pipeline with devices installed on it.