RU82945U1 - VERTICAL CONTAINER FOR INSTALLING MEASURING INSTRUMENTS - Google Patents

Abstract

 A vertical container for the installation of instrumentation, which is a rectangular parallelepiped divided vertically into two parts - a base and a lid, the cases of which have an inner layer of heat-insulating material, as well as an inner and outer shell of refractory and chemically stable fiberglass, equipped with metal hinges fastening the lid and base and side locks, characterized in that to facilitate access to the serviced devices in the side walls Corner cutouts are provided.

Description

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.

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.

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 for 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.

A protective cabinet for installing instrumentation is also known (certificate for a utility model of the Russian Federation No. 34843, 2003). The protective cabinet consists of two parts - the base and the cover with a layer of thermal insulation applied to their internal surfaces. A fiberglass layer is molded to the inner surface of the insulation layer.

The closest in technical essence to the claimed device (prototype) is a protective container for the installation of 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 synthesizing polyurethane foam from the starting ingredients directly in this space during the formation of covers and bases.

In cases where there is no possibility of bilateral maintenance of the protective device, or when it is necessary to mount it close to the wall, it is advisable to use a container with a diagonal opening of the lid.

In some cases, it becomes necessary to service the devices installed in the protective device from the side of the container's side surfaces. When using "diagonal" containers, access to devices near the side walls of the device is significantly difficult.

The patented utility model solves the problem of providing reliable protection of the required number of instrumentation and automation of technological processes from environmental influences containing chemically aggressive gases and vapors in a wide temperature range (from + 50 ° С to -50 ° С) by using chemically resistant materials, as well as effective thermal insulation and tightness of the structure.

At the same time, the design of the container provides free access to serviced devices in the frontal and lateral directions.

The utility model is illustrated by the drawing, which shows a General view of the container assembly.

The vertical protective container for instrumentation is a rectangular parallelepiped divided vertically into two unequal parts - the base (1) and the lid (2), fastened in the upper part with metal hinges (3). The lid and base are made in the form of a “sandwich structure” and have an inner and outer shell made of chemically resistant fiberglass. A layer of thermal insulation (4) is enclosed between the shells. The container is equipped with two locks (5) mounted on its side walls.

The main difference between this utility model and the prototype is that the side walls of the bottom have angular cutouts that facilitate access to the devices installed in the container for their maintenance.

A useful model is as follows.

On the four matrices, the outer and inner fiberglass shells of the base and the lid of the container are formed in a contact manner. The hardened outer shell is placed in a foaming matrix, the inner shell is placed on top and a liquid mixture of foaming ingredients is introduced into the space between the shells. The second matrix is pressed from above and the endurance necessary to complete the pricing and hardening of the formed foam is given. Remove the upper matrix, remove the product (base or cover) and subject it 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.

Instruments are placed in a protective container ready for use. To maintain the required temperature, it is possible to install heating elements inside the container.

All necessary mounting holes are performed at the installation site.

Claims (1)

A vertical container for the installation of instrumentation, which is a rectangular parallelepiped divided vertically into two parts - a base and a lid, the cases of which have an inner layer of heat-insulating material, as well as an inner and outer shell of refractory and chemically stable fiberglass, equipped with metal hinges fastening the lid and base and side locks, characterized in that to facilitate access to serviced devices in the side walls Corner cutouts are provided.