UA23288U - Method to maintain temperature of products in cooled volume of intermediate temperature wall mounting multilevel open refrigerated cases of shop equipment - Google Patents

Abstract

A method to maintain temperature of products in cooled volume of intermediate temperature wall mounting multilevel open refrigerated cases of shop equipment provides for a working period of maintenance of temperature of products in the cooled volume of case by two-step regulation of refrigerant feedin air-cooling unit during all over working cycle and a period of air-cooling unit defrosting under continuous operation of fans with maximal rotation speed. The fans are chosen as two-speed ones, in the work period of products cooling in the moment of stop of refrigerant feed in air-cooling unit the fans are switched on minimal rotation speed up to the next renewal of refrigerant feed to air-cooling unit, after that the fans are switched on maximal speed again.

Description

Description of the invention

The proposed useful model that is claimed relates to commercial refrigeration equipment, and 2 specifically to methods of maintaining the temperature of products in medium-temperature multi-tiered wall-mounted open refrigerated display cases with forced air circulation and an air curtain along the open opening of the display case. These showcases are universal equipment for short-term storage, demonstration and sale of perishable food products pre-cooled to storage temperature.

Predominant use in trade enterprises, in large self-service stores and in supermarkets and 70 tipper markets, where maintenance of set temperatures is provided simultaneously in several windows. The work of the showcases assumes compatibility with a multi-compressor unit with adjustable cooling capacity.

From the sources of scientific and technical and patent information, European models of medium-temperature wall-mounted multi-tiered open showcases are known, such as the K model, SOI O (Poland), the EHROZEK model,

ECAMEK (Italy), models MU..5 1/2 of the firm NOBB5MAMM KOHKA (Spain). 12 Well-known Ukrainian manufacturers of medium-temperature wall-mounted, multi-level open showcases, for example, the company "goss" in Kharkiv, LLC "Aisberg" Ltd., in Odesa. LLC "Aisberg" Ltd. produces models of wall-mounted showcases "Arkadia" and "Meduza" that are widely used in supermarkets and hypermarkets in the cities of Odessa, Mykolaiv, Kyiv,

Kharkiv, Donetsk, Dnipropetrovsk and a number of other cities.

In order to maintain the specified temperature in the volume of the showcase, the cooling capacity of the unit must be equal to the total heat inflows.

However, the amount of heat inflows into the cooled volume of the display case varies widely, so it is possible to ensure a certain temperature in the cooled volume only by adjusting the amount of heat removed. When cooling one display case, the amount of heat removed is achieved by adjusting the cooling capacity of the compressor by periodically stopping it when the specified temperature in the display case is reached and then starting it when the temperature becomes the maximum allowable. When choosing a control method, it is necessary to strive for the fact that the reduction of the cooling capacity of the compressor reduces the power consumption and the consumption of electricity, respectively.

With the simultaneous cooling of several showcases with different temperatures and variable load, which is typical for medium-temperature wall-mounted, multi-tiered open showcases of supermarkets and hypermarkets, it is not possible to ensure the required temperature regime only by adjusting the cooling capacity of the compressor. Maintaining set temperatures simultaneously in several showcases is reduced to regulating the refrigerating capacity of the air cooler by periodically stopping the supply of liquid refrigerant to the air cooler according to the signal of the electronic unit, which closes the solenoid valve on the liquid line until the required temperature is reached in one of the showcases. An increase in temperature in one of the showcases causes the corresponding solenoid valve 325 to open and the supply of cooled air to the volume of the showcase is resumed. Both air cooling and the defrosting period involve continuous blowing of the air cooler with circulating air using fans with maximum rotation speed.

The closest in technical essence to the useful model that is claimed is the method of maintaining the temperature of products in the cooled volume of medium-temperature wall-mounted multi-level open refrigerators of 50 "Medusa" showcases, manufactured by "Aisberg" Ltd. LLC (see TU U 13879991-003- 099 and the "Meduza" Refrigerated Showcase Operation Manual of VKHVP.OO. ROZ). The method provides for the working period of maintaining the temperature of the products in the cooled volume of the display case, by two-position regulation of the refrigerant supply to the air cooler, opening and closing the solenoid valve on the refrigerant supply line to the air cooler during the working cycle, and the defrosting period of the air cooler with 45 continuously operating fans with maximum rotation speed. o The disadvantage of the known method of maintaining the temperature of products in "Meduza" medium-temperature display cases is that when the solenoid valve is closed, the fans supply the same amount of air to the display case at the maximum speed as when the solenoid valve is open. In this regard, there is an accelerated removal of cold air into the trading hall and an accelerated injection of warm air from the trading hall into the air curtain. This leads to an accelerated increase in the temperature of the product in the display case and a reduction in the time the display case is standing when the solenoid valve is turned off. The last circumstance increases the coefficient of working time of the showcase and, as well, the consumption of electricity to maintain the temperature of the products.

The basis of the useful model is the task of reducing energy consumption, reducing the loss of cold in the trading room and stabilizing the storage regime of perishable products.

The set task is achieved by the fact that in the known method of maintaining the temperature of products in the cooled volume of medium-temperature wall-mounted multi-tiered open refrigerating showcases, which provides for the working period of maintaining the temperature of products in the volume of the showcase, by means of two-position regulation of the refrigerant supply to the air cooler and the defrosting period of the air cooler at continuously working fans with the maximum rotation speed, the fans are selected as 60 two-speed and during the product cooling period, when the refrigerant supply to the air cooler is stopped, the fans are switched to the minimum rotation speed until the next renewal of the refrigerant supply to the air cooler, after which the fans are again switched to the maximum rotation speed.

In fig. 1 shows a medium-temperature wall-mounted, multi-tiered open refrigerating showcase, which implements the proposed method: where:

1 - demonstration cooled volume of the showcase, 2 - air intake of the suction channel,

C - two-speed fans, 4 - air cooler, 5 - air cooler surface temperature sensor, 6 - discharge duct, 7 - air temperature sensor leaving the air cooler, 8 - perforated panel of the back wall of the refrigerated volume of the showcase, 70 9 - showcase shelves, - perforated ceiling panel of the discharge channel, 11 - air curtain, 12 - solenoid valve on the refrigerant supply line to the air cooler, 13 - TRV on the refrigerant supply line to the air cooler.

Arrows show the distribution of circulating air in the cooled volume of the showcase.

The method of maintaining the temperature of products in the cooled volume 1 of the medium-temperature open refrigerating display case is carried out as follows.

In the cooling mode, the circulation of cold air over the products located in the cooled volume of the display case 1 is provided by two-speed fans 3. During this circulation, air is sucked in through the air intake 2, and with the help of two-speed fans C is carried to the air cooler 4, where it is also cooled through the discharge channel b one part of the air through the perforated panel 8 of the back wall of the refrigerated volume 1 of the showcase, is distributed along the shelves with products 9, cooling them. Another part of the cold air, passing through the ceiling part of the discharge channel 6, through the perforated ceiling panel 10, goes down the showcase, in the form of a flat vertical jet, forming an air curtain 11. The curtain 11 separates the internal cooled volume 1 of the showcase from the trading hall.

As a result of the mixing of the cold air of the jet of the curtain 11 with the warm air of the trading hall t, its warming occurs. The flow of the curtain 11 returns to the air intake 2, closing the circulating air flow.

The operation of the showcase to maintain the set temperature of the products in the cooled volume is controlled by an electronic unit (not shown in Fig. 1) with two temperature sensors. The sensor 7 monitors the temperature of the air coming out of the air cooler 4 and supplied to the cooled volume 1. When the lower value of the temperature range is reached, the control unit sends a command to close the solenoid valve 12, thereby stopping the supply of refrigerant to the air cooler 4, and at the same time, fans C are switched to the minimum rotation speed. me)

At the moment when the temperature in the showcase reaches the upper value of the temperature range, the electronic unit of the SU opens the solenoid valve 12, the supply of the refrigerant to the air cooler, which is controlled by the TRV 13, is resumed, the fans switch to the maximum rotation speed, and the air cooling process is resumed.

Due to the fact that the refrigerant boils at negative temperatures in the air cooler 4, frost forms on the walls, tubes and ribs of the air cooler 4, which requires periodic defrosting of the air cooler 4. The periodicity and duration of defrosting of the air cooler 4 are also regulated by the electronic control unit, while the frequency of thawing is set as temporary;" parameter, and the termination of defrosting is determined by the temperature of the surface of the air cooler 4, which is monitored by sensor 5. During defrosting, the fans work at maximum speed.

Switching fans to minimum rotation speed when closing the solenoid valve helps

AI reduces air consumption, increases the time the storefront is parked when the solenoid valve is turned off, which leads to a decrease in the operating time coefficient of the refrigeration unit, allows to reduce the loss of cold in the trading hall, by reducing the injection of warm air from the trading hall into the air curtain of the storefront,

GI and thus to a decrease in the necessary cooling capacity, that is, to a decrease in energy consumption.

Evaluation of the efficiency of wall-mounted "Meduza" showcases, equipped with two-speed fans, was carried out on 13 showcases in the "Velyka Kishenya" store (Mykolaiv, City shopping center). c The comparison was made in relation to the "Nominal" mode. In this mode, the speed of rotation of the fans is maximum and constant (1400 min"). In the proposed method, the maximum speed is the same (1400 min", and the minimum speed of rotation of the fans during the period of disconnection of the refrigerant supply to the air cooler was (1000 min"). Direct measurements were made. energy consumption of a multi-compressor unit to which the tested showcases were connected. For this purpose, the unit was equipped with an individual electric meter, and the showcases with a fan mode switch. For about a week, the showcases worked in one of the modes, then they were transferred to another. Such changes were made several times. At the moment of the mode change, the readings of the 60 counters were recorded. Based on the measurement results, the averaged time values of the energy consumption of the multi-compressor unit in each of the modes were determined and the relative value of the observed difference was calculated. In the mode of the proposed method, the electricity saving was 3.5 956 in relation to about the "Nominal" mode, and the average temperature of the air supplied to the cooled volume of the showcase decreased by 12C. At the time of submitting the application, in the described case, the specified saving of electricity leads to an annual saving of funds in the amount of 1156 u.o.

Claims (1)

Shi's invention formula that the Method of maintaining the temperature of products in the cooled volume of medium-temperature wall-mounted multi-tiered open refrigerating showcases of trade equipment, which provides for the working period of maintaining the temperature of products in the cooled volume of the showcase by two-position regulation of the refrigerant supply to the air cooler during the entire operating cycle and the defrosting period of 70 air coolers with continuous working fans with the maximum speed of rotation, which is distinguished by the fact that the fans are selected as two-speed, during the working period of cooling products, at the moment of stopping the supply of refrigerant to the air cooler, the fans switch to the minimum speed of rotation until the next renewal of the supply of refrigerant to the air cooler, after which the fans switch to maximum speed again rotation. » o (ge) (ge) s so se - a ko (95) ko (ee) so 60 65