SU920332A1 - Refrigeration unit - Google Patents

Description

(54) REFRIGERATING INSTALLATION

The invention relates to a technique used in refrigeration, namely, refrigeration & chambers consisting of several hollow machines. A refrigeration unit is known, containing the father of a liquid with a snake and two refrigerators of the machine. Each of Kotfykh has a kit for the refrigerant with a series of compressor, a condenser, a regenerative heat exchanger and a vaporizer on it, and the liquid separator is turned on B. The contour of the first refrigeration machine and has thermal contact with the contour of the second refrigeration machine G1}. The disadvantages of this Shutdown are the relatively low thermodynamic efficiency and the impossibility of defrosting evaporators. The purpose of the retina is to increase the thermoshambic efficiency and ensure the thawing of the evaporators. J yka3aHHaH goal is achieved by the fact that the akstan assembly contains a second liquid separator with a coil and an additional receiver is installed in each circuit after the condenser, and the liquid separator with the coil of the first machine is placed after the regenerative heat exchanger and has thermal contact with the circuit of the second machine on the bottom of its evaporator, and the second liquid separator with a coil is very large in the circuit of the second machine after its regenerative heat exchanger and has thermal contact with the circuit of the first machine at the outlet of the evaporator of this The machines. In addition, both machines have bypass lines with solenoid valves, each of which is connected to the corresponding circuit between the inlet to the evaporator and the compressor side, Figure 1 shows the installation diagram contains a liquid separator 1 with a coil, compressors 2 and 3, condensers 4 and 5, regeneration 392 heat exchangers 6 and 7, evaporators 8 and 9, the second jelkosgi 1O ogselgel with snakeBHKofU, receivers II and 12, solenoid valves 13 and 14, thermostatic valves 15 and 16 and the command device 17, Installation works The evaporator 8 and 9 refrigerators are manufactured at different times, and the liquid refrigerant of the first chiller operating in the chill mode is supercooled with boiling refrigerant in the defrosting mode. When the first chiller is turned on in the defrost mode, compressed Compressor 2 hot Pairs are injected through the solenoid valve 13 into the evaporator 8, where heat exchange takes place. The frost (snow splash) on the surface of the evaporator 8 melts, and the freon vapors are cooled and partially condensed. The Freon paronstance mixture sinks into the liquid separator 1, where the liquid of the second machine passing through the serpentine of the liquid separator 1 results in supercooling of the second machine working in cooling mode. At the same time, due to the additional overcooling of the liquid in the liquid separator I, the heat and power indices of the main fuel cell operating in the cooling mode are improved. In addition, the circulating coolant flow rate in the machine operating in the ogtayki mode is increased, and the time required for defrosting the evaporator 8 is reduced. When the second machine is operating in the ejection mode and the first machine in the cooling mode1, the heat and power indices of the first mashine increase and the Maunina’s defrost efficiency improves. Switching on the solenoid valves 13 and 14 to defrost the evaporators 8 and 9 at the same time using the command device 17, t, e, when switching the first chiller to 2, the second defrost mode works in a normal refrigeration cycle and vice versa. The proposed refrigeration unit allows for better cooling and cooling, reduces the time of cake and the time to reach the mode of the machine operating in the defrosting mode of the evaporator. Formula of the invention 1, Refrigeration unit containing a liquid separator with a coil and. two refrigerators, each of which has KOHiyp for a refrigerant with a compressor, a condenser, a regenerative heat exchanger and an evaporator connected in series, the liquid separator with a serpentine included in the circuit of the first refrigeration machine and has thermal contact with This is because, in order to increase thermodynamic efficiency, the installation contains a second liquid separator with a coil and in each circuit after condensate an additional receiver is installed The liquid separator with the coil of the first machine is placed after the regenerative heat exchanger and has thermal contact with KoHiyrom of the second yashina at the outlet of its evaporator, and the second liquid separator with coil is connected to the circuit of the second machine after its regenerative heat exchanger Masks at the outlet of the evaporator of this machine, 2, Installation according to Claims 1, 1, so that in order to provide defrost with an evaporator, both machines have bypass lines with solenoid valves, each which are connected to the appropriate network between the entrance to the evaporator to the pressure side of the icoMnpeccopa. Sources of information taken into account in examination I, Auth. USSR certificate No. 579506, cl, F 25 V 29/00, 1975, 2 6 17 S 10 7 S

Claims (2)

Claim 1. Refrigeration unit containing a liquid separator with a coil and. two chillers, each of which has KOHiyp for refrigerant with a compressor, condenser, regenerative heat exchanger and evaporator connected in series, the liquid separator with a coil included in the circuit of the first chiller and has thermal contact with the circuit of the second chiller, h a torn I am with heme that, in order to increase thermodynamic efficiency, the installation contains a second liquid separator with a coil and in each circuit after the capacitor an additional receiver is installed, etc. than the liquid separator with the coil of the first machine is placed after the regenerative heat exchanger and has thermal contact with the circuit of the second Machine at the outlet of its evaporator, and the second liquid separator with the coil is included in the circuit of the second machine after its regenerative heat exchanger and has thermal contact with the circuit of the first machine at the outlet from the evaporator of this machine. ' 2. Installation according to π. 1, it is noteworthy that, in order to ensure defrosting by the evaporator, both machines have bypass lines with solenoid valves, each of which is connected to the corresponding kangaroo between the inlet to the evaporator and the discharge side of the Compressor. '