SU1054571A1 - Bed for testing glandless refrigerant compressor - Google Patents

Abstract

STAND FOR TESTING hermetic refrigeration ShMPRESSrRA to the housing 4 and the valve tsilindpo goloakakv having suction and pumping cavities containing hladonovyh closed circuit in which the compressor side injection included forkondonsator communication with sistema1-1I cooling oil, and a cylinder head, a condenser and a calorimeter This is due to the fact that, in order to increase the accuracy and expand the range of tests, the stand is equipped with second and third forocapacitors, and the cooling system of the heads is connected through the first fork. The condenser is connected to the discharge chamber, and through the second forcondenser to the cooling system of the cylinder, and the latter through the third forcondenser is connected to the oil cooling system, and the condenser is connected through the regulator valve and calorimeter to the compressor case and is connected in series with the oil cooled system.

Description

U1

4 SL H The invention relates to refrigeration equipment, in particular, to stands for testing hermetic refrigeration compressors. A stand is known, a test compressor with a pressure and suction cavities, a closed refrigerant circuit in which a calorimeter with a coil-evaporator, a condenser and a liquid refrigerant receiver l are known. The well-known stand cannot provide sufficient reliability of the obtained results in connection with the fact that it uses water as a heat carrier, supplied from an external source in a constant amount with various operating modes and sizes of compressors. Also known is a stand for testing a hermetic refrigeration compressor with a casing, cylinder and valve heads having suction and discharge cavities, containing a 11 # 1 closed refrigerant circuit in which a condenser is connected to the discharge side of the compressor, the condenser and calorimeter 2 supplied by the oil, head and cylinder cooling systems . This stand does not allow them to influence the effects of temperature factors affecting the operation of the compressor, since the cooling systems are not included in the closed refrigerant circuit. The aim of the invention is to improve the accuracy and expansion of the range of tests. The goal is achieved by the stand for testing a hermetic refrigeration compressor with a housing, a cylinder and valve heads that have suction and discharge cavities containing a closed refrigerant circuit in which the forcondenser connected to the oil cooling systems, heads and cylinder are connected to the discharge side of the compressor, a condenser and a calorimeter, equipped with second and third forma condensers, and the cooling system of the heads is connected through the first forcondenser to the injection cavities, and through the second forco The condenser is cooled to the cylinder cooling system, and the latter through the third forcondenser connects the yen to the oil cooling system, and the condenser is connected through a regulating sensor and calorimeter to the compressor housing and is connected in series with the oil cooling system. The drawing shows the scheme of the proposed stand. Test bench for hermetic refrigeration compressor. 1 with a casing 2, a cylinder 3 and valve heads having suction and discharge cavities 4 and 5 contains a closed refrigerant circuit 6 into which forcondenser 7 connected to systems 8, 9 and 10 is connected to the compressor compressor 1 connected to systems 8, 9 and 10. oil cooling , heads and cylinder, condenser 11 and calorimeter 12. The stand is equipped with second and third forcondensers 13 and 14, and cooling system 9 is connected through the first ford condenser 7 to discharge cavity 5, and through the second forcondenser 1.3 to cylinder cooling 10, and the last through tr This forcondenser 14 is connected to the oil-cooling system 8, and the forcondenser 7 is connected through a control valve 15 and a calorimeter 12 to the casing 2 of the compressor 1 and is connected in series with the oil cooling system B. eend works as follows. Compressor 1 injects refrigerant vapor into the first precondenser 7, where they are cooled and fully liquefied under condensation pressure. Then the liquid refrigerant enters at the condensation temperature, intensively taking away the heat from the injection cavity 5 and the suction cavity 4. The resulting refrigerant vapor from the cooling system 9 is transferred to the second forcondenser 13, where it is again completely condensed. Next, the liquid refrigerant flows through the cylinder cooling system 10, where heat is removed by removing the heat through the cylinder walls from the liquefied gas. The vapor refrigerant is placed in the third precondenser 14 and condenses again at constant pressure. From the third forcondenser 14, liquid refrigerant is supplied to the oil cooling system 8 and evaporates, from where gaseous refrigerant enters the closed loop 6, to the condenser 7, where it is completely liquefied. The proposed bench allows the compressor to be examined with high accuracy and over a wide temperature range.

From SodonpoSoda

Claims (1)

STAND FOR TESTING A SEALED REFRIGERATING COMPRESSOR with a casing, cylinder and valve heads having suction and discharge cavities, containing a closed refrigerant circuit, into which a condenser connected to the cooling systems of oil, heads and cylinder, a calorie condenser are included on the compressor discharge side where, in order to increase the accuracy and expand the test range, the stand is equipped with a second and third pre-condensers, and the head cooling system is connected through the first pre-condenser a compressor to the discharge cavities, and through the second fork condenser to the cylinder cooling system, and the latter through the third fork condenser is connected to the oil cooling system, and the condenser is connected through the control valve and calorimeter to the compressor casing and connected in series with the oil cooling system.