SU339677A1 - ALL-UNION-PATENTNO-11 SUSH ^; SCA || - Google Patents

Description

The invention relates to vacuum technology and (Can be applied to create an ultra-high vacuum in the pumped volume.

High vacuum traps for diffusion pumps are known, which include a housing, a freezing device, which is a truncated cone, soldered to a copper core-refrigerant pipe. The freezing device is cooled by placing the lower end of the refrigerant pipe in a Dewar flask with liquid nitrogen. Temperature in the place where the cones are soldered is much higher than the temperature of liquid nitrogen, since the temperature in the cold pipeline along the path is determined by the thermal conductivity of the copper rod. Manufacturing a cold core from a copper rod also increases its inertia.

The purpose of the invention is to reduce the thermal inertia of the cold pipeline.

The goal is achieved by the fact that the coolant tube, the inner walls of which are lined with porous material, is filled with gas (krypton) iodine with a pressure of 2-5 atm, having a vaporization temperature higher than the nitrogen vaporification temperature.

The trap comprises a housing / and a freezing device 2, which is a truncated cone, welded to the super-cool duct 3. The supercooled conductor 3, hermetically welded to the cornea 1, is a thin-walled tube, sealed at both ends. The internal wall of the refrigerant pipe is lined with a porous material 4, for example glass or

wick yarn. The internal cavity of the refrigerant duct is filled with gas under a pressure of 2-5 atm, having a vaporization temperature higher than the vaporization temperature of nitrogen, by 20-50 ° C, for example, krypton.

When the lower end of the tube 3 is cooled with liquid nitrogen, a vacuum is formed inside the tube inside the tube. When the temperature of the wall of the cold end is equal to the temperature of liquid nitrogen, the crinton condenses and gives up its tenlo to the cold walls. Liquid krypton through the capillaries of the porous reservoir rushes to a dry place that has a higher temperature. With copings with thin walls, liquid krynton evaporates, steam under the action of pressure difference rushes to the cold end: the cold line acquires the property of superthermal conductivity. The walls of the tube with the cone are cooled to a temperature in a very short time.

When the wall temperature is equal to the temperature of liquid nitrogen, the superheat conduit of the tube disappears and heat transfer occurs along the walls of the tube. This drastically reduces the consumption of liquid nitrogen.

Subject invention

Claims (2)

1. High vacuum trap for diffusion pumps, comprising a housing, a high living device, a coolant pipe in the form of a thin-walled tube cooled with liquid nitrogen, characterized in that, in order to reduce thermal inertia, the inner walls of the refrigerant pipe are lined with a porous material, and its cavity is filled with gas under pressure of 2-5 atm, having a vaporization temperature higher than the temperature nitrogen generation. 2. A high vacuum MNA trap according to claim 1, wherein krypton is used as the gas filling the refrigerant pipe. KXXX4.