SU823740A1 - Heat-protection arrangement - Google Patents

Description

one

This invention relates to heat shielding of low temperature machines and apparatus.

A device for thermal protection of low-temperature apparatuses is known, containing multilayer insulation with alternating layers of reflective and cushioning materials enclosed in a vacuum-tight sheath. 2D.

However, the insulation layers in such devices have a tight fit of the joint layers and their joints, which prevents the rapid evacuation of gases from under the dense layers of reflective material and significantly delays the process of thermal insulation evacuation, the integrity of the insulation layers is also disturbed during backfires in the vacuum line, which leads to a decrease in the efficiency of thermal insulation.

The purpose of the invention is to ensure the speed of pumping gases and preserve the integrity of the insulation when pumping gases.

This goal is achieved by the fact that the insulation layers are equipped with gateways made in the form of bundles of. a porous low-heat conductive material having openly pores, and the wiring is routed with the intersection of all

insulation layers and have access to a vacuum cavity communicated with a vacuum source, while immediately before the insulation layers adjacent to the entrance of the main vacuum source, a safety device is installed, made in the form of a glass with side nozzles directed tangentially to

o the top layer of insulation to refract the flow of gases at the back shock.

The drawing shows the device of thermal protection.

five

The thermal protection device consists of vacuum multilayer insulation 1 applied, for example, to the surface of a low-temperature vessel 2 and enclosed in a vacuum-tight envelope 3. Vacuum multi-insulation insulation 1 contains alternating layers of heat reflecting material 4 made, for example, of polyethylene terephthalate film , aluminum mined from two sides, and layers of the cushioning material 5, made, for example, from glass-wool or glass-paper. Insulation layers 1 are fitted with gateways 6, made in

0 as a bundle 7 of porous low-heat conductive material having open pores, for example, glass fiber. The harnesses 7 are laid with the intersection of all layers of insulation 1 and have an output of 8 ° into the vacuum cavity 9, which is connected to a vacuum source, for example, with a vacuum pump, by means of a vacuum line 10. Directly before the layers of insulation 1 adjacent to the entrance 11 of highway 10 , a safety device (device 12, made in the form of a glass 13 with side nozzles 14 directed tangentially to the top layer 15 of the insulation 1, is installed to refract (change the direction) of the gas flow during a back shock, for example, when the vacuum hose is broken mag 10, when atmospheric air with a force rushes into the vacuum cavity, which without the presence of the device 12 leads to the destruction (breakdown) of the insulation layers 1 adjacent to the inlet 11 of the 10j highway The presence of the device 12 ensures the reception of the main force of the return shock to the bottom 16 of the cup 13 and changes the direction of gas flow, directing it through nozzles 14 tangentially to insulation 1, and also prevents the insulation layers from being drawn into the pipeline 10 during evacuation, thereby ensuring its initial integrity.

When pumping gases from the vacuum cavity 9, vacuuming of interlayer cavities filled with porous gasket material 5 takes place. The speed of pumping gas molecules from under the dense layers of reflective material 4 is provided by gateways 6, which shorten the path for the gas molecules and reduce the resistance to their passage. In addition, the presence of gateways 6, made in the form of bundles 7, provides a uniform vacuum c. cavity, which increases the effect of vacuum-multilayer insulation 1.

The proposed thermal protection device ensures the speed of the evacuation of gases and maintains the integrity of the insulation when evacuating.

The technical solution in terms of the weight of the sluice, made in the form of harnesses, crossing all the layers from. The installation of a safety device directly in front of the insulation layers ensures the speed of the evacuation of gases and preserves the integrity of the insulation when evacuating gases from the vacuum cavity, which is confirmed by tests of prototypes.

Claims (1)

1. QUA Patent 1 3.489.311, cl. 220-9, 1970. L