RU2579204C1 - Resource-saving hybrid plant for milk cooling on farms - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: resource-saving hybrid plant for milk cooling on farms includes refrigerating machine, heat insulated impounding reservoir, tank-heat exchanger, fan, a control unit, a heat exchanger to ambient air temperature sensors, milk, milk and coolant. Milk heat exchanger and heat insulated accumulating reservoir is filled with water coolant and additionally provided with cooling jacket, which is located under a layer of heat insulation and filled with environmentally safe fluid with low freezing point. Jacket inlet pipe is connected to upper part of reservoir-heat exchanger, which is in open air and filled with environmentally safe fluid with low freezing point. Lower part of reservoir-heat exchanger is connected with pump and to lower part of cooling jacket. Reservoir-heat exchanger is made as a container with heat-conducting walls between aligned outer and inner cylinders, space between closed bottom while conical cavity, which connects upper edges of external and internal cylinders between which there is a auger-like coolant guide.

EFFECT: invention provides improved cooling capacity and reliability.

2 cl, 1 dwg

Description

The invention relates to the field of cooling agricultural products, including milk, and can be used in agricultural production, the food industry, as well as in the processing and storage of liquid products.

Energy-resource-saving installations for cooling milk on farms and complexes are known, for example, “Farm Cooling Device” containing an accumulating tank, a heat exchanger tank, a pump, spray pipes, a control unit, a drain pipe (RF Patent No. 2081564, BI No. 17 of 20.06 .97).

The disadvantage of this device is the low refrigerating capacity and reliability at low ambient temperatures, high specific metal consumption.

Of the known energy-saving devices for cooling milk on farms, the closest in technical essence to the proposed invention is a refrigeration unit for cooling milk using natural cold, RF patent No. 2340169, BI No. 34 of 12/10/2008.

The known device comprises a refrigerating machine, a top storage tank placed outdoors, a bottom storage tank with a refrigeration machine evaporator, a milk heat exchanger tank with a stirrer, a control unit, outdoor temperature sensors, milk and a coolant.

The disadvantage of this device is the increased operating costs and losses of the coolant - a scarce liquid with a low freezing temperature, low reliability, storage capacity and refrigerating capacity at low outdoor temperatures and high metal consumption.

The objective of the invention is to reduce operating costs and losses of the coolant - a scarce liquid with a low freezing point, increasing reliability, refrigerating capacity, storage capacity of the installation and reducing metal consumption.

As a result of the use of the present invention, a reduction in operating costs and losses of a coolant — a deficient liquid with a low freezing temperature — is ensured, an increase in reliability, a refrigerating capacity, a storage capacity of the installation, and a reduction in metal consumption.

The above technical result is achieved by the fact that the milk heat exchanger and the heat-insulated storage tank with the evaporator of the chiller are filled with a coolant - water and additionally equipped with a cooling jacket, which is under a layer of thermal insulation and filled with an environmentally friendly liquid with a low freezing temperature, for example, eco-salt or propylene glycol and connected by an inlet pipe to the upper part of the heat exchanger tank located in the open air and filled with the same environmentally friendly liquid with a low freezing temperature, the lower part of the heat exchanger tank is connected by the outlet pipe to a pump located in the production room and to the lower part of the cooling jacket of the heat-insulated storage tank, the inner volume of which in the lower part is connected to the pump and the inlet of the heat exchanger coolant section for milk, and its output is connected to the upper part of the internal volume of the insulated storage tank, and the tank The p-heat exchanger is made in the form of a tank with heat-conducting walls between the coaxially located external and internal cylinders, the space between which is closed from below by the bottom, and above by a conical cavity connecting the upper edges of the external and internal cylinders, between which a screw screw-like coolant guide is installed in thermal contact with them and a fan is installed above the conical cavity.

Between the conical cavity and the fan, a tubular heat exchanger is installed, connected to the inlet pipe.

The invention is illustrated in figure 1, which presents a diagram of a resource-saving hybrid installation for cooling milk on farms.

The installation comprises a refrigerating machine 1, a heat-insulated storage tank 2, a heat exchanger tank 3, a fan 4, a control unit 5, a milk heat exchanger 6, outdoor temperature sensors 7, milk 8 and a coolant 9, 10, the milk heat exchanger 6 and a heat-insulated storage the tank 2 with the evaporator of the refrigerating machine 11 located in it is filled with a coolant - water and is additionally equipped with a cooling jacket 12, which is under a layer of thermal insulation and is filled with an environmentally friendly liquid with a low freezing point, for example, eco-salt or propylene glycol, and connected by an inlet pipe 13 to the upper part of the heat exchanger tank 3, which is outdoors and also filled with environmentally friendly liquid with a low freezing temperature, the lower part of the heat exchanger tank 3 is connected by the outlet pipe 14 and a pump 15 located in the production room and with the lower part of the cooling jacket 12 of the heat-insulated storage tank 2, the internal volume of which is in the lower the first part is connected to the pump 16 and the inlet of the coolant section of the milk heat exchanger 6, and its output is connected to the upper part of the internal volume of the heat-insulated storage tank 2, and the heat exchanger tank 3 is made as a container between the heat-insulated walls in the form of coaxially arranged external 17 and internal 18 cylinders , the space between which is closed at the bottom by a bottom, and above - by a cone-shaped cavity 19 connecting the upper edges of the outer 17 and inner 18 cylinders, between which are in thermal contact with it and a screw screw-like guide of the coolant 20 is installed, and a fan 4 is installed above the conical cavity.

Between the conical cavity 19 and the fan 4 is installed a tubular heat exchanger 21 connected to the inlet pipe 13.

Resource-saving hybrid installation for cooling milk on farms works as follows.

A coolant - water is poured into the internal volume of the heat-insulating storage tank 2, and an environmentally safe liquid with a low freezing temperature is poured into the internal volume of the heat exchanger tank 3 between the external cylinder 17, the internal cylinder 18, and also into the cooling jacket 12 of the heat-insulated storage tank 2: ecosol or propylene glycol .

In the cold season, the coolant in the tank of the heat exchanger 3 cools and accumulates cold around the clock. To activate the process of accumulation of cold, at a negative temperature of the outside air, at the signal of the outside temperature sensor 7 and at a higher coolant temperature, at the signal of the coolant temperature sensors 9 and 10, the fan 4 and pump 15 are turned on, the non-freezing coolant begins to circulate through the cooling jacket 12 of the heat-insulated storage reservoir 2, filled with water, cooling and freezing it and additionally accumulating cold. Cooling of the non-freezing coolant circulating through the cooling jacket 12 of the heat-insulated storage tank 2 is carried out in the heat exchanger tank 3 around the clock, both without circulation of the coolant and during its circulation, through the heat-conducting walls of the outer cylinder 17 and the inner cylinder 18, and also through the surface of a screw-like ( spiral) guide during helical rotational movement of the coolant. In this case, the fan 4 pumps the flow of cold air through the through inner cylinder 18, which is in thermal contact with the screw-shaped (spiral) coolant guide 20. If, in the control unit 5, it is detected by the temperature sensors of the coolant 9 and 10 and outside air 7 that the process of cooling the coolant in the heat-insulated storage tank 2 and the heat exchanger tank 3 has slowed down or stopped and the temperature is above normal, then fan 4, pump 15 are turned off. and 1 and the evaporator 11 immersed in water, located in the internal volume of the heat-insulated storage tank 2, starts to work. The accumulation of cold in the form of ice and ice water in a thermally insulated storage tank 3 will continue from the source of artificial cold. Scheduled charging of cold accumulators is mainly carried out from sources of artificial and natural cold during the preferential night tariff for electricity, which provides a significant reduction in costs.

Upon receipt of milk for cooling, the milk heat exchanger 6 during milking receives a command from the control unit 5 to turn on the pump 16 and the cooled coolant is supplied to the milk heat exchanger 6, cools the milk and returns to the top of the heat-insulated storage tank 2, where it is cooled down . Then the cycle repeats.

Between the conical cavity 19 and the fan 4, a tubular heat exchanger 21 is installed for additional cooling of the coolant.

The use of a combination of water and a liquid with a low freezing temperature, storage tanks and heat exchangers 3 as a coolant can reduce operating costs and losses of a scarce coolant with a low freezing temperature, increase the reliability of the cooling system at low outdoor temperatures, the storage capacity and cooling capacity of the installation.

Claims (2)

1. Resource-saving hybrid installation for cooling milk on farms, comprising a refrigeration machine, heat-insulated storage tank, heat exchanger tank, fan, control unit, milk heat exchanger, outdoor temperature, milk and refrigerant temperature sensors, characterized in that the milk heat exchanger and heat-insulated the storage tank with the evaporator of the chiller located in it is filled with a coolant - water and is additionally equipped with a cooling jacket located under the layer m of insulation and filled with an environmentally friendly liquid with a low freezing temperature, for example, ecosol or propylene glycol, and connected by an inlet pipe to the upper part of the heat exchanger tank located in the open air and filled with the same environmentally safe liquid with a low freezing temperature, the lower part of the heat exchanger tank connected by the outlet pipe to the pump located in the production room and to the bottom of the cooling jacket of the insulated battery a heating tank, the inner volume of which in the lower part is connected to the pump and the inlet of the coolant section of the heat exchanger for milk, and its outlet is connected to the upper part of the internal volume of the heat-insulated storage tank, the heat exchanger tank is made in the form of a tank with heat-conducting walls between the coaxially located external and internal cylinders, the space between which is closed from below by the bottom, and from above by a cone-shaped cavity connecting the upper edges of the outer and inner cylinders, between in which a helical screw guide of the coolant is installed in thermal contact with them, and a fan is installed above the conical cavity. 2. Installation according to claim 1, characterized in that a tubular heat exchanger connected to the inlet pipe is installed between the conical cavity and the fan.

Images