SU964224A1 - Sorption pump - Google Patents

Description

(54) SORPTION PUMP

The invention relates to vacuum. equipment, namely, the device of vacuum sorption pumps. Known sorption pump containing. A housing with an inlet pipe and a vessel located in the case for a refrigerant, on the inner surface of which the sorbent cartridge is located. A disadvantage of the known pump is its low efficiency due to the use of an excessive amount of sorbent and the associated coolant flow rate associated with it. The purpose of the invention is to increase efficiency. This goal is achieved by the fact that the sorbent layer has a variable thickness that decreases with distance from the inlet. The thickness of the layer in each desired cross section of the vessel is determined by the formula:, g is the density of the gas to be pumped out, the flow in the inlet nozzle, molecules 1 cm in 1 s; p) is the gas application coefficient on the sorbent layer; the current distance from the inlet to the desired section, cm; fc - time of pump operation before regeneration, s; P is the permissible capacity of the sorbent, which ensures the maintenance of the rapidity of action of molecules per gram; T is the sorbent density, 3 is the diameter of the inlet, see. The drawing shows the pump, longitudinal section. The orbital pump contains a housing with 1 single pipe 2 and a refrigerant vessel 3 located at Pus 1, on the surface of which sorbent 4 is placed, the latter having a variable thickness, which is removed as it moves away from the inlet 2. The pump works as follows. Gas from the evacuated volume through the inlet 2 enters the internal cavity of the vessel 3 for the refrigerant n and is absorbed by the sorbent 4, which decreases as the sorbent layer thickens away from the inlet nozzle and ensures sorbent uniform saturation and more economical use. Formula and 3 obre n and 1, The sorption pump containing. a housing with an inlet nozzle and a vessel in the housing for a coolant on the inner surface of which a sorbent layer is placed is distinguished by the fact that, in order to improve efficiency, the sorbent layer has a variable thickness decreasing with distance from the inlet nozzle. 2. Pump according to claim 1, that is, the thickness of the layer in each is96 4 m section of the vessel is determined by the hub -ifb7i | at t4% | bi is the density of the pumped gas stream at the inlet nozzle, molecules per cm 1 s; coefficient of gas application on the sorbent layer; the current distance from the inlet to the desired section, cm; pump operation time before regeneration, s ;. the permissible capacity of the sorbent is to maintain the rapidity of action of molecules per 1 g; f is the sorbent density, of is the diameter of the inlet, see. Sources of information taken into account during the examination. USSR author's certificate 41155, cl. F04 B 3.7 / 02,.

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Claims (3)

1. A sorption pump containing. a casing with an inlet pipe and a vessel for refrigerant located in the casing, on the inner surface of which a sorbent layer is located, I distinguish it by the fact that, in order to increase economy, the sorbent layer has a variable thickness, which decreases with distance from inlet pipe. 2. The pump according to π. 1, with the fact that the layer thickness in each desired section of the vessel is determined by the formula where ξΓ is the density of the pumped gas stream in the inlet pipe, · molecules per 1 cm * in 1 s; ’Β is the gas utilization coefficient on the sorbent bed; Zj is the current distance from the inlet to the desired section, cm; • t - pump operating time before regeneration, s; Q is the allowable capacity of the sorbent, ensuring the maintenance of the speed of action of molecules per 1 g; 'Y'-density of the sorbent, g / cm3; 3 - diameter of the inlet pipe, see