SU731219A1 - Heat utilizing gas-type refrigerating machine - Google Patents

Description

The invention relates to gas chillers for the production of cold, and using high temperature heat, and more specifically to gas chillers operating on the Vyuleme cycle. Gas chillers are known, working in the Vyuleme cycle, where electric energy is used as a source of heat, and contains hot and cold beds, crankcase, which is an intermediate working cavity, hot and cold regenerators, curvature-shatunnaya mechanism, driven by an electric motor , and an electric heater 1. The disadvantage of such masin is the inefficient use of electrical energy, since the heater placed outside the working cavity has large losses due to a significant difference in temperature between the electric heater and the working gas of the hot expansion cavity. The closest to the technical essence of the described invention is a gas-cooled gas chiller containing hot and cold cylinders with exhausters, and keys to the drive, and an electric heater made of high-resistance wire wound on the sleeve 2. The disadvantage of the known machinia is the large loss of heat power - due to a significant temperature difference between the electric heater and the working gas of the hot expansion cavity, as well as the reduction of the electric heater resource due to the fact that its oxide occurs ix in the air. The aim of the invention is to increase the thermodynamic efficiency of the machine, as well as its operation reliability and resource. The goal is achieved by the fact that the sleeve is located inside a hot cylinder, and on its outer surface are axial strings and a spiral groove, and the electric heater wire is placed in the said groove. FIG. 1 shows a tenloisolysis gas cooler in the section; in fig. 2 - the node of the electric heater, and in FIG. 3 shows section A-A in FIG. 2. A heat-utilizing gas refrigeration machine contains hot 1 and cold 2 cylinders with propellants 3 and 4, respectively, connected to irivod 5, as well as an electric heater 6 from high-resistance wire 7 wound on a sleeve 8. Sleeve 8

located inside the hot cylinder 1, axial grooves 9 and spiral groove 10 are made on its outer surface. Wire 7 of electric heater 6 is placed in groove 10. The machine also contains a crankcase 11, the internal cavity of which is the intermediate working floor of the machine, and regenerators 12 13. The current lead to the electric heater 6 ocyniecT is through the ceramic-metal node 14 installed in the head of the hot-plate 1.

When the displacers 3 and 4 move, the working gas is pushed up from the cold cylinder 2 into the intermediate working cavity of the crankcase 11, then the gas enters the regenerator 12. When the regenerator comes out of this regenerator, the gas flows around the electric heater 6 and heated to the working temperature enters the hot cylinder bottom. 1. The temperature difference between the electric heater 6 and the working gas is minimal, since the temperature of the heater is not lost directly from the wire 7 to the working gas without any losses.

The introduction of an electric heater directly inside the floor reduces the temperature difference between the working gas i; surface of the electric heater, and thereby reduces the consumption of electrical energy. The invention of innovation increases machine efficiency by 15% but compared to heat-using refrigerating machines, in which an electric heater is installed outside of a hot cylinder.

Claims (1)

Invention Formula Heat-freezing gas refrigerant magenta containing hot and cold cylinders with displacer pump connected to the motor and an electric heater made of high resistance wire wound, in order to increase its thermodynamic efficiency, The outer surface is made with axial grooves and a spiral groove, and the electric heater wire is placed in the groove. 7 pipui .r