UA25036U - Defrosting system of refrigerated case of trade refrigeration equipment - Google Patents

Abstract

Defrosting system of refrigerated case of trade refrigeration equipment includes air cooler of direct cooling by cold agent, condenser unit, sources of heat supply as two supplementary sections, discharge pipeline, electromagnetic valves, defrosting line with heat accumulator, circuit for circulation and heating of heat carrier, pump, recuperation heat exchanger, compressor and condenser.

Description

Description of the invention

The utility model refers to refrigeration equipment, namely to defrosting systems of refrigerating showcases with 2 direct cooling devices, mainly low-temperature commercial refrigerating equipment with low-freezing coolants.

Predominant use - in large super- and hypermarkets, where simultaneous defrosting of several shop windows is provided.

From the sources of scientific and technical and patent information, a number of methods and systems for defrosting the heat-transfer surface of direct cooling devices of low-temperature commercial refrigeration equipment are known: with electron heaters, hot refrigerant vapors, low-freezing coolants, for example, salt solutions, glycol, organosilicon, organofluorine coolants (see Dossat Roy J. Fundamentals of refrigeration technology. Translated from English. - M.: Light and food industry, 1984. - pp. 448-455. Zelikovsky, I. Kh.. Kaplan, L. G. Small refrigeration machines and installations: Reference book. - 3 -th ed., revised and supplemented - M.: Agropromizdat. 1989. - pp. 473-482; A. A. Gogolyn, Y. N. Koloty Ottayivanie air coolers. M. TsniytzymMyasomolprom. 1972; Ottayivanie vozduhoohladiteley. - In the collection "Refrigeration industry and transport". Moscow, TsnytzymMyasomolprom, 1969, vpp. 8).

Analyzing analogs from the above-mentioned sources, the following can be noted. Defrosting of low-temperature refrigerating showcases of commercial refrigerating equipment is, in most cases, carried out by hot vapors of the refrigerant or electric heaters 1. The simplest method of defrosting tubular-finned air coolers with hot vapor of the refrigerant injected by the compressor into the air cooler is to connect the discharge pipeline and the air cooler with a bypass line with an electromagnetic valve When the solenoid valve opens, hot steam bypasses the condenser and enters the air cooler. Defrosting is carried out by 22 hot refrigerant vapor, which gives its heat to the cold air cooler and condenses. This method of thawing has a number of disadvantages. During defrosting, the amount of hot vapor supplied by the compressor is limited, as much of the liquid in the evaporator condenses and remains, while a smaller amount of refrigerant is returned to the compressor for recirculation. A more serious drawback is that liquid refrigerant can get into the compressor and cause its damage. To prevent this, heat is added to the liquid using powerful electric heaters or heat accumulators. The disadvantages of the system are also the difficulty of manufacturing the heat accumulator. 2. In low-temperature showcases, defrosting of finned air coolers is carried out with the help of electric heaters. Not only the heat exchange surface of the air cooler is heated, but also the bottom of the display case and the drain pipe. Tubular electric heaters are built into the holes of the ribs, in the pipes

From the air cooler or placed next to them. The defrost cycle begins when the solenoid valve on the liquid pipeline closes, as a result of which the air cooler is emptied, and then the compressor stops. At the same time, the electronic heating elements of the air cooler, the bottom and the drain pipe are turned on. The fans are turned off so that warm air does not enter the space that is being cooled. After complete defrosting of the air cooler, the bottom and the drain pipe, the electric heaters are turned off, the solenoid valve on the liquid pipe opens, the compressor, fans are turned on, and the unit switches to cooling mode.

From" Z. To thaw frost from cooling devices in brine systems (with an intermediate heat carrier) with a temperature in the cooling devices of about -409C, low-freezing heat carriers are used - salt solutions, glycolic, organosilicon fluorine liquids. Defrosting systems from the side of the intermediate coolant 75 are mainly performed closed, with air coolers of the closed type, in which the coolant does not come into contact with the air. When using a low-freezing heat carrier for defrosting, it is placed in a heat-insulated 1 container with heating elements, and if there is a 24-hour source of heat (hot water, steam) at the facility, instead of heating elements, coils are installed in the container with the heat carrier, in which hot water or steam circulates. The heat carrier, heated to a temperature of 30...40C, is pumped by the pump into the batteries to be thawed, or fed into the pipes (95) 50 of the air cooler | see Chervyakov S. S., Kulakovsky A. I. Basics! Refrigeration: Textbook. allowance for

F SPTU-2nd ed., revised. and additional - M.: Viessh. Shk., 1988. - pp. 54, 62, as well as V. I. Kantorovich, B. K. Yavnel.

Design, operation, installation and repair of refrigerating units Textbook: - M.: Izd. trade literature, 1960., pp. 204-206).

To defrost frost from cooling devices in brine systems, a separate closed 59 circuit is used with the same coolant as in the main cold transfer circuit. The coolant of a separate circuit c is heated with the help of a special heater (boiler) and a small centrifugal pump, which pumps the hot coolant through the system of batteries to be thawed, bypassing the evaporator. Due to the good thermal contact between the surface of the batteries and the heated coolant, the defrosting time is reduced to a minimum.

In defrosting systems of low-temperature showcases, where air coolers are used for direct cooling, it is impossible to make direct use of defrosting of the air cooler by pumping heated coolant through its sections. These sections are occupied by the refrigerant, and mixing of the refrigerant with the coolant is inadmissible. Therefore, defrosting of low-temperature showcases is carried out by heating elements.

Such refrigerated showcases are used everywhere in supermarkets and hypermarkets.

LLC "Aisberg Ltd" has developed, manufactures and supplies to supermarkets and hypermarkets low-temperature open refrigerated showcases "NAUTYLUS" (see the attached Руководство по зксплуатаций ВХОН. 00О РЗ "nautilus" open refrigerated showcase). This defrosting system of this showcase was chosen by us as prototype.

In the display case "NAUTYLUS", in the air cooler, the refrigerant boils at a low temperature, a snow coat forms on the walls and edges of the tubes of the air cooler, and melt water freezes on the bottom and drain pipe of the display case, which requires their periodic thawing. For this purpose, three tubular electric heating elements (TENAs) are installed in the upper part of the air cooler, and two more TENAs are installed in the bottom and near the drain pipe of the display case.

The disadvantage of defrosting by heating elements is their poor thermal contact with the tubular surface of the air cooler (mainly point thermal contact). In this regard, the defrosting time should be 20-30 minutes for 7/0, despite the high heating temperature of heating elements (150-2002С). As a result, during thawing, the temperature in the cooled volume increases significantly, which, in turn, leads to relatively long processing of frozen products with warmed air. In addition, there are additional costs of electricity, which is consumed both by heaters for heating during defrosting, and by a refrigerating unit for further cooling of the working volume.

The proposed useful model solves the problem of reducing defrosting time and energy consumption during defrosting of low-temperature showcases, counters of commercial refrigeration equipment of supermarkets and hypermarkets.

The task is solved as follows. The defrosting system of the refrigerating showcase of commercial refrigerating equipment includes an air cooler of direct cooling with an evaporating refrigerant and supplied by a compressor-condenser unit, separate sources of heat supply to the 2o tubular-ribbed heat exchange surface of the air cooler, the bottom of the showcase and the drain pipeline, electromagnetic valves. Separate sources of heat supply are made in the form of two additional sections, one of which is installed in the air cooler and is in thermal contact with its heat exchange surface, and the other section is installed in the bottom of the display case and next to the drain pipe, and both sections are connected by a defrost line to a heat accumulator, in which there is a low-freezing heat carrier, and the heat accumulator is equipped with a circulation and heating circuit of the heat carrier, which includes a pump and a recuperative heat exchanger installed between the compressor and the condenser. WITH

The drawing shows the defrosting system of the refrigerating showcase, where: -1 - compressor, -2 - recuperative heat exchanger, Ge) -3 - low-freezing coolant circulation pump, -4 - heat accumulator with low-freezing coolant, o -5 - condenser, o -6 - receiver, -i - thermostatic control valve, o -9 - sections of the heat exchange surface of the air cooler, Ha -10 - one additional section of the air cooler, -11 - another additional section of defrosting the bottom and drain pipeline. -12, 13, 14,15 - electromagnetic valves, -16 - defrosting line of the heated coolant. "

Usually, when automating the process of defrosting the shop windows of commercial refrigerating equipment, defrosting is carried out alternately at equal time intervals according to the signal of the electronic units according to the given program. y Defrosting of the refrigerating showcase of low-temperature commercial refrigerating equipment according to the proposed system is carried out as follows.

In the cooling mode, the electronic unit (not shown in the drawing) turns on the compressor 1 of the refrigeration unit, opens the electromagnetic valves 12 and 15 with the continuously operating pump Z. The compressed vapor of the refrigerant is fed by the compressor 1 to the recuperative heat exchanger 2, where the steam gives off heat to the low-freezing coolant supplied by pump C from the heat accumulator 4 through the open electromagnetic valve 13. The heated solution from the heat exchanger 2 through the open electromagnetic valve 14 is returned to the heat accumulator 4. The refrigerant from the heat exchanger 2 goes to the condenser 5 and then to the receiver 6. In the process of cooling on a snow coat forms in the sections 9 of the air cooler 8, and the bottom of the showcases and the drain pipe become covered with ice.

Ф During the thawing of the snow coat, the electronic unit turns off the compressor 1, fans, closes valves 13, 14, opens valves 12 and 15, and the heated solution from the thermal accumulator 4 flows through the defrosting line 16 into additional sections 10 and 11. The snow coat melts due to heat exchange between sections 9 and 10 due to the high thermal conductivity of the evaporator fins. Thaw water is discharged into the sewer. Section 11 heats the bottom of the display case and the drain pipe, preventing the freezing of melt water. The defrosting time is 6-1 hours. When the temperature of the heat exchange surface 9, sections 10 and 11 rises to 4...59C, the electronic unit turns off the valves 12, 15, turns on the compressor 1, fans, opens the valves 13, 14, and the display case goes into the cooling mode again.

The following sequence of actions is repeated. The proposed defrosting system can be used in direct cooling systems of medium-temperature commercial refrigerating equipment, both with an individual compressor-condenser unit and a multi-compressor unit.

The proposed window defrosting system allows you to significantly reduce the defrosting time to 6-10 minutes. and reduce energy consumption due to the use of internal heat of the system for heating 65 low-freezing coolant and relatively low power consumption of the pump.

Claims (1)

The formula of the invention is the defrosting system of the refrigerating showcase of commercial refrigerating equipment, which contains 2 air coolers of direct cooling with a refrigerant that evaporates and is supplied by a compressor-condenser unit, separate sources of heat supply to the heat exchange surface of the air cooler, the bottom of the showcase and the drain pipeline, electromagnetic valves, which is distinguished by the fact that its separate heat supply sources are made in the form of two additional sections, one of which is located in the air cooler in thermal contact with its heat exchange surface, and the other section is installed in the bottom 70 of the showcase next to the drain pipe, both sections are connected by a defrost line to a heat accumulator with low-freezing coolant, equipped with a circuit for its circulation and heating, containing a pump and a recuperative heat exchanger installed between the compressor and the condenser. z z (Se) (ze) «c) IF) p - and? name) 1 («c) (95) 4) 60 b5