RU2613454C1 - Energy saving device for cooling milk with use of artificial and natural cold and ecologically safe coolant with low temperature freezing - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device comprises a receiverof natural cold, located outdoors and provided with the outdoor temperature sensor, coolant temperature sensor with low freezing point, a fan for cooling the intensification of environmentally safe refrigerant with low freezing point. The receiver is connected via a solenoid valve and a bypass channel with an inlet coolant with a low temperature heat exchanger of the first freezing section. Output passage opening is connected to the receiver of the natural cold and forms a second closed loop of a heat exchanger. A temperature sensor of the environmentally safe refrigerant with a low freezing point is set at the outlet passage opening . Solenoid valves, pumps, fans, outdoor temperature sensor, temperature sensors of the environmentally safe refrigerant with a low freezing point are electrically connected to the control unit.

EFFECT: improved the reliability and energy efficiency of the installation.

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-saving installations for cooling milk on farms and complexes are known.

Known cooling device for farms 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 from 06/20/1997).

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

Closest to the technical nature of the present invention is a thermal refrigeration installation for farms, containing a two-section heat exchanger with channels for milk and a coolant, a channel for a coolant of the second section of the heat exchanger, connected in a closed first circuit with receivers-accumulators of artificial cold, mechanical valves, and level sensors, installed in the releaser, pumps for milk and a coolant, milk temperature sensors are electrically connected to the control unit (RF patent No. 2206215, BI, from 20.06 .2003).

The disadvantages of the known installation are the lack of cooling capacity and low reliability in conditions of freezing temperatures.

The objective of the invention is to increase the reliability, energy efficiency and refrigeration capacity of milk cooling systems on farms in conditions of low outdoor temperatures.

As a result of using the present invention, the reliability, energy efficiency and refrigerating capacity of milk cooling systems on farms is increased due to a second closed loop of a heat exchanger filled with an environmentally friendly coolant with a low freezing temperature, consisting of a channel for a coolant in the first section of the heat exchanger, the outlet of which is connected to the inlet through the receiver natural cold outdoors and equipped with a fan for fication cooling environmentally safe refrigerant with a low freezing point and the electromagnetic valve and the bypass, for adjusting the volume flow of environmentally safe refrigerant with a low freezing point.

The technical result is achieved by the fact that the proposed energy-saving installation for cooling milk using artificial and natural cold and an environmentally friendly coolant with a low freezing temperature, including a two-section heat exchanger with channels for milk and a coolant, while the channel for the coolant of the second section of the heat exchanger is connected in a closed first circuit with receivers-accumulators of artificial cold, as well as level sensors electrically connected to the control unit installed in the releaser, a milk pump, milk temperature sensors, contains a natural cold receiver located in the open air and equipped with an outdoor temperature sensor, a coolant temperature sensor with a low freezing temperature, a fan to intensify the cooling of an environmentally friendly coolant with a low freezing temperature, this receiver is connected through an electromagnetic valve and a bypass, which includes an environmentally friendly low temperature coolant pump for freezing and an electromagnetic valve designed to regulate the flow rate of an environmentally friendly coolant with a low freezing temperature, with an inlet channel of an environmentally friendly coolant with a low freezing temperature of the first section of the heat exchanger, and the outlet of the channel is connected to the receiver of natural cold and forms a second closed loop of the heat exchanger, filled environmentally friendly coolant with a low freezing temperature, and at the outlet of the channel A low temperature freezer temperature sensor has been installed, and solenoid valves, a pump, a fan, an outdoor temperature sensor, environmentally friendly low temperature freezing temperature sensors are electrically connected to the control unit, while the cold coming from an environmentally friendly coolant with a low freezing temperature located in the second closed loop of the heat exchanger from the receiver of natural cold is used for pre-cooling milk, and the final cooling of the milk is carried out in the second section of the heat exchanger.

The invention is illustrated in the drawing (Fig. 1), which shows a General diagram of an energy-saving installation for cooling milk using artificial and natural cold and environmentally friendly refrigerant with a low freezing temperature.

Installation comprising a heat exchanger 1, made in the form of two sections: the first 2 and second 3, where the inlet of the milk channel 4 of the first section 2 of the heat exchanger 1 is connected to the releaser 5 through a milk pump 6, and the outlet of the milk channel 4 of the first section 2 of the heat exchanger 1 is connected to the inlet of the milk channel 7 of the second section 3 of the heat exchanger 1, and both openings of the channel for the coolant 8 of the second section 3 of the heat exchanger 1 are connected in a closed first circuit with receivers-accumulators of guaranteed artificial cold a, a level sensors 9 and 10 installed in the releaser 5, a milk pump 6, milk temperature sensors 11 and 12 are electrically connected to the control unit 13, and the releaser 5 is connected to a vacuum pump 14 and fresh milk pipelines 15, contains a natural cold receiver 16, located in the open air and equipped with an outdoor temperature sensor 17, a low temperature freezing temperature sensor 18, a fan 19 for intensifying the cooling of an environmentally friendly low temperature coolant freezing, the receiver 16 is connected through an electromagnetic valve and a bypass, which includes an environmentally friendly refrigerant pump with a low freezing temperature 21 and an electromagnetic valve 22, designed to control the flow rate of an environmentally friendly refrigerant with a low freezing temperature, with an inlet channel of an environmentally friendly refrigerant with low freezing temperature 23 of the first section 2 of the heat exchanger 1, and the outlet of the channel 23 is connected to the receiver natural the ode 16 and forms a second closed loop of the heat exchanger filled with an environmentally friendly refrigerant with a low freezing temperature, and at the outlet of the channel 23 a coolant temperature sensor with a low freezing temperature 24 is installed, and the outdoor temperature sensor 17, environmentally friendly refrigerant temperature sensors with a low freezing temperature 18 and 24, fan 19, solenoid valves 20 and 22, environmentally friendly low-temperature refrigerant pump 21 electric cally connected with the control unit 13.

Energy-saving installation for cooling milk using artificial and natural cold and environmentally friendly refrigerant with a low freezing temperature works as follows.

Release 5 is evacuated by a vacuum pump 14 and freshly milked milk through pipelines 15 enters it. The level sensor 10 of the releaser 5 sequentially turns the milk pump 6 on and off when the milk level 9 is reached. The milk 6 is fed into the milk channel 4 of the first section 2 of the heat exchanger 1, and then to the milk channel 7 of the second section 3 of the heat exchanger 1. Thus , milk through the milk channels 4 of the first section 2 of the heat exchanger 1 and through the channels 7 of the second section 3 of the heat exchanger 1 moves discretely, "pulses". The second closed loop of the heat exchanger 1 is filled with an environmentally friendly refrigerant with a low freezing point, for example, eco-salt.

In the cold season, an environmentally friendly refrigerant with a low freezing temperature, located in the receiver of natural cold 16, cools and accumulates cold around the clock. To activate the process of accumulation of cold at a low outdoor temperature, the signal from the outdoor temperature sensor 17 from the control unit 13 synchronously with the milk pump 6 turns on the environmentally friendly refrigerant pump with a low freezing point (ecosol) 21 and the ecosol enters the channel for an environmentally friendly refrigerant with a low the freezing temperature 23 of the first section 2 of the heat exchanger 1. Moreover, depending on the temperature of the ecosol at the inlet to the channel for an environmentally friendly refrigerant with low freezing temperature 23 of the first section 2 of the heat exchanger 1 according to the temperature sensors of an environmentally friendly refrigerant with a low freezing temperature 18 and 24 from the control unit 13, the fan 19 is turned on to intensify the cooling of the ecosol in the receiver of natural cold 16, and to prevent freezing of milk to the walls of the channel for environmentally friendly safe refrigerant with low freezing temperature 23 sections 2 of the heat exchanger 1 when the temperature of the ecosol drops below 0 ° C, the flow of chilled refrigerant is regulated onositelya low freezing point via a solenoid valve 20 and the bypass solenoid valve 22, and mode changes and supplying milk and Ecosol - produced consistent feed. In the warmer months, milk is cooled only in the second section 3 of the heat exchanger 1. The milk flowing through the milk channel 7 of the second section 3 of the heat exchanger 1 is cooled by the coolant (water) flowing through the coolant channel 8 of the second section 3 of the heat exchanger 1. The cooled coolant enters into this channel (8) from the receiver-battery of guaranteed artificial cold.

Thus, the cold supplied with an environmentally friendly refrigerant with a low freezing temperature, located in the second closed circuit of the heat exchanger 1, from the receiver of natural cold 16 is used to pre-cool the milk. The final cooling of the milk is carried out in the second section 3 of the heat exchanger 1, which is a plate heat exchanger.

The second closed loop of the heat exchanger 1, designed for pre-cooling milk, can be used in milk cooling systems, where subsequent post-cooling is carried out in capacitive heat exchangers.

The use of an environmentally friendly coolant with a low freezing temperature for pre-cooling milk located in the second closed circuit of the heat exchanger 1, consisting of a channel for the coolant 23 of the first section 2 of the heat exchanger 1, the outlet of which is connected to the inlet through the receiver of natural cold 16, the electromagnetic valve 20, the bypass, which includes an environmentally friendly low-temperature refrigerant pump 21 and an electromagnetic valve 22, does not require large spluatatsionnyh costs, improves reliability milk cooling system also increases the energy efficiency and cooling capacity due to reduced use of "a frozen ice" in the second section 3 of the heat exchanger 1 and Production "namorozki ice" at night, when there are reduced tariffs for electricity.

Claims (1)

An energy-saving installation for cooling milk using artificial and natural cold and an environmentally friendly refrigerant with a low freezing temperature, including a two-section heat exchanger with channels for milk and a coolant, while the channel for the coolant of the second section of the heat exchanger is connected in a closed first circuit with receivers-accumulators of artificial cold, valves, as well as level sensors installed in the release, electrically connected to the control unit, milk pumps and x adsorbent, milk temperature sensors, characterized in that it contains a natural cold receiver located in the open air and equipped with an outdoor temperature sensor, a coolant temperature sensor with a low freezing temperature, a fan to intensify the cooling of an environmentally friendly coolant with a low freezing temperature, while the receiver is connected through an electromagnetic valve and bypass, which includes an environmentally friendly low-temperature refrigerant pump and an electromagnetic valve designed to control the flow rate of an environmentally friendly refrigerant with a low freezing temperature, with an inlet channel of an environmentally friendly refrigerant with a low freezing temperature of the first section of the heat exchanger, and the outlet of the channel is connected to the receiver of natural cold and forms a second closed loop of the heat exchanger a safe coolant with a low freezing temperature, and yes is installed on the channel outlet a temperature sensor of a coolant with a low freezing temperature, and solenoid valves, a pump, a fan, an outdoor temperature sensor, temperature sensors of an environmentally friendly coolant with a low freezing temperature are electrically connected to the control unit, while the cold coming from an environmentally friendly coolant with a low freezing temperature, located in the second closed circuit of the heat exchanger, from the receiver of natural cold is used to pre-cool the milk ka, and the final cooling of the milk is carried out in the second section of the heat exchanger.

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