SU1758330A1 - Method for manufacture of low-temperature insulation - Google Patents

Abstract

Field of application: in cryogenic technology, in thermal protection means, for example, in vessels, cooling lines and, in particular, in medical cryogenic technology and others. Summary of the invention: for increasing gas permeability and increasing the magnitude of vacuum in interlayer clearances. in the gaskets, holes are made identical to the holes of the shields. Layered layering is carried out by double layers of the screen with a gasket, combining their holes, which are fastened around the perimeters, forming through channels, and throughout the insulation - a network of such channels that are offset from the channels in the adjacent double layers. 2 Il.

Description

The invention relates to cryogenic engineering, in particular, to means of thermal protection of cryogenic products, in particular, vessels, cold pipelines and other objects used, for example, in medical technology using thick paper materials as gaskets for low-temperature screen-vacuum insulation. .

The known method of low-temperature insulation includes layer-by-layer stacking in a package of alternating screens in the form of a perforated PETDA film and gaskets in the form of glass paper from microthin fibers without binding substances (SBSBT), in which the fibers are retained due to self-adhesion forces.

The disadvantage is an increased heat gain through the ISIS package due to the increased contact component due to the contact of neighboring screens in violation of the integrity of the gaskets from the SBSH-T and due to

a decrease in the longitudinal gas permeability during evacuation due to the lint of the surface of the gasket material, and the fragility of their fibers litters the environment.

There is a known method of thermal insulation of cryogenic products, which includes layered layering in a package of polymer-perforated screens and non-perforated cellulose-basalt paper sheet-sheets, which have a high longitudinal gas permeability compared to other gasket materials, for example, glass paper.

This method is not efficient enough because when the screen openings are covered with solid sheets of basalt paper HT-10 or CHT-10, the transverse gas permeability of the mechanical insulation material decreases by half compared to other mechanical ignition technology, such as OA PET, which consists only of perforated screens whose openings are not blocked. and having a rather high specific gas permeability - 8.42 -10 3 l / s-cm2.

The prototype is based on a method of making low-temperature insulation, including layer-by-layer stacking of gaskets and metalized polyester-based screens in a package with the implementation of burning through through channels fastened along the perimeters between them to form a double layer.

The disadvantage of the method is an increased radiant heat flux due to its unimpeded passage through narrow cylindrical channels, as well as the formation of 1 filled cavities during

melting of the edges of a multilayer package in an insulating space that is difficult to evacuate. In addition, the insulation blocks have a rigid, inelastic construction and therefore can only be used on products of simple form.

The aim of the invention is to reduce the radiant heat gain and to expand the field of use.

The goal is achieved in that according to the method of manufacturing low-temperature insulation, including layer-by-layer stacking in a package of gaskets and metalized screens on a polymer base with the performance of through channels connected along the perimeters between them, the through channels are made in double layers of a screen with a gasket and placed into the package by double layers with the formation of a gap between them; at the same time, the through channels of each subsequent layer are displaced relative to the previous one.

FIG. 1 shows a general view of a structure for carrying out the method; in fig. 2 is a section A-A in FIG. one.

The low-temperature insulation contains double layers consisting of alternately laid layers of a perforated screen — a polymer film 1 with two-side aluminizing 2 and a perforated pad of a 3-thin sheet of cellulose-bzaltovoy NT-10 paper. Each double layer in the entire insulation is installed with a gap of 4 relative to each other and has through channels 5 formed by holes made in the screen (2-1-2) and the holes of the strip 3 that are identical to them (in each adjacent screen layer). the holes are aligned and fastened together around the perimeters with, for example, silicate glue 6 (it is also possible by sintering, etc.). image mentioned

channels A over the entire volume of the isolation a network of such channels 5 is formed, displaced in each subsequent double layer relative to the previous one.

This method is used as follows.

in a way.

The panels of the double screened-cushioning material are made, and then the cutting is done from it in accordance with the design of the insulating product. Fabrication of the cloth can be performed, for example, in this way: one by one lay the screen-pad and an additional stencil, then in this

the set of layers is perforated by a stencil, which has holes with specific parameters (pitch, diameter, porosity), after which the holes along the perimeters are covered with silicate glue.

The stencil layer, which can serve as a paper base, is immediately removed, and the screen and the gasket remain glued to each other due to glue around the perimeter of the holes. As a result, through channels are formed in the two-layer material. By assembling such panels into packages, heat insulation of the required thickness is made, which is applied to the insulated product after appropriate cutting, and the pressure in the insulating package decreases from about to a torus.

This will lead to a decrease in the thermal conductivity of the insulation with a packing density of 18-20 screen / cm and a thickness of 30

mm from 0.78 μW / cm-K to 0.67 μW / cm-K, which will contribute to an increase in the autonomy of vessels of type X-34B with claimed insulation by 15-30%, i.e. from 210 to 240 days.

Claims (1)

Invention Formula The method of manufacturing low-temperature insulation, including layer-by-layer ... laying in a package of gaskets and metallized screens on a polymer base with the performance of through channels in them, fastened along the perimeters between each other, characterized in that reducing the radiant heat gain and expanding the area of use, the through channels are made in the double layers of the screen with the gasket and placed in the package in the double layers with the formation of a gap between them, while the through channels are shifted each subsequent double layer relative to the previous one. M part j Jt ./ Y $ v-f $: 4 & L YYWW3ЈЈ3kUSHLZ lx W 12ZSS5222S Ug. IZZZ2ZZZ pffiffiwiffi --- t "xhUhU I am .. BggxviWgi, 3 Ј% u jff-ffif1 1st .-. n1sha1-L - Sh & ZZ Editor .n. Shvydka Tehred M. Morgenthal Order 2985 Circulation Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow. G-35. Raushska nab., 4/5 . five Proof-reader S. Yuusko