RU2486750C2 - Energy saving holdover device for cooling milk - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of cooling of agricultural products, including milk, and can be used in agricultural production, food industry, as well as in processing and storage of liquid products. The proposed system for cooling milk comprises a rechargeable refrigeration machine 1, a control unit 2, a tank-heat exchanger for cooling milk 3 with a stirrer, an insulated tank with coolant 4 with an evaporator 5 located in it, a storage tank of the coolant 6, installed outdoors, water pump 7, a discharge 8, delivery 9, spraying 10 and drain pipes 11 with the valves 12-16 mounted on them, outside air temperature sensor 17 and the coolant 18. The storage tank of the coolant 6, installed outdoors, is made of two sections: with the upper 19 and lower 20 sections, located one above the other. In the housing of the upper section 19 the gridded windows are made, and the upper part of the wall of the lower section 20 is made in the form of a grid 21. The thermally-insulated tank with coolant 4 with an evaporator 5 located in it through the water pump 7, the discharge pipe 8 and the valve 12 is connected to the lower part of the vertical spraying tube 10 with nozzles located above the sprinkler 22 in the upper section 19 of the storage tank of the coolant 6, and through the other valve 13 it is connected to the delivery pipe 9 which, together with the drain pipe 11 connects the thermally-insulated tank with coolant 4 to the central part of the lower section 20 of the storage tank of the coolant 6 which is mounted outdoors, through the insulation layer 23 passing through the outer wall of the building. And the end part of the delivery pipe 9 is made bent and its part is in a vertical position along the axis of the lower section 20 with a closed upper end and on its vertical cylindrical walls with an applied layer of rubber 24 a number of through radial holes is made. In the manufacturing facility a tank 25 is mounted with the level regulator, connected at the upper part through the valve 26 to the farm water supply system and through the inclined pipe 27 to the lower part of the upper section 19 of the storage tank of the coolant 6 which is mounted outdoors, and in the bottom part - to the drain pipe 11. In the upper part of the upper section 19 of the storage tank of the coolant 6 mounted outdoors a ventilator 28 is located, below which the demister 29 is mounted.

EFFECT: invention provides increased reliability, refrigerating capacity, storage capacity under conditions of low outdoor air temperatures.

6 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.

Storage units for cooling agricultural products, in particular milk, are known, containing a refrigeration unit, a housing, an evaporator, a milk bath, a stirrer, a coolant reservoir (TOM-2A reservoir-cooler. Kovalev Yu.M. Dairy equipment of livestock farms and complexes. M: Rosselkhozizdat , 1987, p. 225).

The disadvantages of this device are low storage capacity and high power consumption.

Of the known devices, the closest in technical essence to the proposed invention is a cooling device for farms (RF patent No. 2081564, BI No. 17, 1997). The known device comprises a recharge refrigeration machine, a control unit, a milk heat exchanger tank, a heat insulated coolant tank with an evaporator located in it, an accumulating coolant tank installed outdoors, a water pump, a discharge, supply spray and drain pipe with valves installed on them temperature sensors.

The disadvantages of this device are low reliability, cooling capacity, storage capacity in conditions of low outdoor temperatures.

The task of the invention is to increase reliability, refrigeration capacity, storage capacity in conditions of low outdoor temperatures.

As a result of the use of the present invention, cooling of milk is ensured, the reliability, refrigerating capacity and energy efficiency of the storage unit for cooling milk in the entire range of outdoor temperatures, including low temperatures, without the use of refrigerants with a low freezing point are increased.

The technical result is achieved by the fact that the storage reservoir of the coolant installed in the open air is made two-section with the upper and lower sections located one above the other, and barred windows are made in the upper section housing, and the upper part of the wall of the lower section is made in the form of a lattice, which is heat-insulated a coolant tank with an evaporator located in it through a water pump, a drain pipe and a valve connected to the bottom of a vertical spray pipe with nozzles laid above the sprinkler in the upper section of the storage tank of the coolant, and through another valve connected to the supply pipe, which together with the drain pipe connects the heat-insulating tank of the coolant with the central part of the lower section of the storage tank of the coolant, installed outdoors through a layer of thermal insulation passing through the outer wall of the building moreover, the final part of the feed pipe is made curved and part of it is in a vertical position along the axis of the lower section with the closed the top end, and on its vertical cylindrical walls with a rubber layer applied, a series of through radial holes are made, and in the production room there is a tank with a level regulator connected in the upper part through a valve to the farm's water supply system and through an inclined pipe to the lower part of the upper section of the storage tank refrigerant installed in the open air, and in the bottom with a drain pipe, and in the upper part of the upper section of the storage tank of the coolant, installed Nogo outdoor fan is placed below which is mounted a demister.

On the outer wall of the upper section of the storage tank of the coolant installed in the open air, a casing closed from above and open from below is fixed with a gap, forming a gap with the case of the lower section at the level of the lower edge of the grating of the lower section.

An ice thickness gauge is placed on the wall of the lower section of the storage reservoir of the coolant installed in the open air.

In the central part of the lower section there are heating elements.

The inner and outer surfaces of the lower section of the storage tank of the coolant are ribbed.

The space above the lower section of the storage reservoir of the coolant is connected to the space under the bottom of the lower section of the air-conducting cavities.

The invention is illustrated in the drawing, which shows a General view of an energy-saving accumulation unit for cooling milk. An energy-saving storage unit for cooling milk includes a recharging chiller 1, a control unit 2, a heat exchanger tank for cooling milk 3, a heat-insulated coolant tank 4 (heat-insulated, for example, polyurethane, foam or other similar materials) with an evaporator 5 located inside it, a storage tank refrigerant 6, installed outdoors, a water pump 7, a bypass 8, a supply 9, a spray 10 and a drain 11 pipes, valves 12, 13, 14, 15 installed on them, 16, outdoor temperature sensors 17 and a coolant 18, and the storage tank of the coolant 6, installed in the open air, is made two-section with the upper 19 and lower 20 sections located one above the other, barred windows are made in the upper section housing 19, and the upper part the walls of the lower section 20 are made in the form of a lattice 21, the heat-insulated reservoir for the coolant 4 with the evaporator 5 located in it through the water pump 7, the outlet pipe 8 and the valve 12 are connected vertically to the bottom the spray pipe 10 with nozzles located above the sprinkler 22 in the upper section 19, and through the valve 13 is connected to the supply pipe 9, which together with the drain pipe 11 connects the storage tank of the coolant 4 with the Central part of the lower section 20 of the storage tank of the coolant 6, mounted on an open air, through a layer of thermal insulation 23 (for example, foam or polyurethane foam) passing through the outer wall of the building, and the end part of the supply pipe 9 is made curved and part of it is vertical position along the axis of the lower section 20 with the upper end closed, and a series of through radial holes are made on its vertical cylindrical walls with a layer of rubber 24; moreover, a capacity 25 with a level regulator is installed in the production room, connected in the upper part via a valve 26 to the farm water supply system and through an inclined pipe 27 with the lower part of the upper section 19 of the storage tank of the coolant 6 installed in the open air, and in the bottom part with a drain pipe 11, and in the upper part of the upper section and accumulating refrigerant tank 6 installed outdoors, the fan 28 is placed below the demister 29 is mounted.

On the outer wall of the upper section 19 of the coolant storage tank 6, a casing 30 is closed with a gap, which is closed from above and open from below, forming a gap with the housing of the lower section 20 at the level of the lower edge of the grating 21 of the lower section 20.

In the central part of the lower section 20 there are heating elements (not shown in the drawing).

The inner and outer surfaces of the lower section 20 of the storage tank of the refrigerant 6 are made ribbed.

The space above the lower section 20 of the storage tank of the coolant 6 is connected to the space under the bottom of the lower section 20 of the air-conducting cavities 32.

Energy-saving storage unit for cooling milk works as follows. Milk for cooling during milking enters the tank - a heat exchanger for cooling milk 3 with an agitator, which is in thermal contact with the insulated coolant tank 4 and the evaporator located in it 5. The system is filled with water from the farm's water supply system through valve 26 and a container 25 with in it a level regulator, from which water through the drain pipe 11 enters the heat-insulated coolant tank 4 and through valve 15 into the lower section 20 of the coolant storage tank 6, is located go outdoors.

At positive (near-zero) and negative outside temperatures, the energy-saving accumulation unit for cooling milk works in the mode of using a source of natural cold. Management is carried out from the control unit 2 in manual or automatic modes according to the signals of the outdoor temperature sensors 17, coolant 18 and the thickness of the ice layer 31.

At positive (near-zero) outdoor temperatures, the water pump 7 is turned on, and the coolant (water) through the outlet pipe 8 enters the spray pipe 10 through the valve 12, is sprayed by nozzles located on it, and flows in the form of a film on the surface of the sprinkler 22. The water film is cooled the air flow from the reversible fan 28. Chilled water through an inclined pipe 27 enters the tank 25, and from there into the supply pipe 11. If the valve 15 is closed, then cold water enters the insulated coolant tank 4, about a heat exchanger tank flows for cooling milk with a stirrer 3, cools the milk, enters the water pump 7 and the cycle repeats.

At the same time, water is cooled in the lower section 20 of the refrigerant reservoir 6 by cooling it with cold outside air drawn in or pumped by a reversible fan 28. The air guided by the casing 30 partially blows around the finned walls of the lower section 20 of the accumulation refrigerant reservoir 6 and partially passes through the grill 21 and air-conducting cavities 32 connected to the space under the bottom of the lower section 20, cooling the water in it. During operation of the fan 28 in the discharge mode at a negative outside temperature, the acceleration of ice freezing occurs due to an increase in the surface of ice freezing on the side walls of the air-conducting cavities 32 in the lower section 20 and freezing of the water surface in it. The droplet separator 29 prevents the discharge of coolant (water) when the fan 28 is sucked. The fan 28 is turned off by the signal of the ice thickness sensor 31 or the outdoor temperature sensor from the control unit 2. At negative outdoor temperatures, the water pump 7 is turned off, water flows from the outlet pipe 8, the spray pipe 10 and the upper section 19 through the inclined pipe 27 through capacity 25 into the insulated coolant tank 4, valve 12 closes, valves 13, 14 and 15 open and the water pump 7 turns on.

Water from a thermally insulated coolant tank 4 through a discharge pipe 8, a supply pipe 9 and through a series of through radial holes in this pipe and a rubber layer 24 is supplied to the lower section 20 with pre-frozen ice, it cools and enters the drain pipe 11, from there, with the valve open 15, into the heat-insulating coolant tank 4, cooling the milk in the heat exchanger tank to cool the milk 3. To start the installation after prolonged shutdown in emergency situations, the heating devices can turn on for a short time properties located in the central part of the lower section 20.

At low outside temperatures, ice is pre-frozen in the lower section 20 of the coolant tank 6, which is installed in the open air. The ice can be pre-frozen, including with the fan 28 running, and at night, when the daily temperature is the lowest and the preferential night tariff for electricity is applied.

If the energy-saving accumulation unit for cooling milk does not turn on for a long time, then the lower section 20 is protected from destruction by frozen ice due to deformation of the rubber layer 24.

In the warm season or if there is not enough freezing capacity of the sources of natural cold, a recharging chiller 1 is turned on by the command of the coolant temperature sensor 18 and the ice layer thickness sensor 31, and it cools the coolant through the evaporator 5. At the same time, valves 12, 14, 15 are closed and valve 16. opens. Then the coolant flows from the water pump 7, along the bypass pipe 8 and through the open valve 13 into the supply pipe 9 and into the heat-insulating tank 4. Ice is frozen on the evaporator 5.

To automate the switching of flows, the valves 12, 13, 14, 15, 16 can be performed by valves with an electromagnetic actuator.

Claims (6)

1. An energy-saving storage unit for cooling milk containing a recharging refrigeration machine, a control unit, a tank - a heat exchanger for cooling milk with a stirrer, a heat-insulated coolant tank with an evaporator located in it, an accumulative coolant tank installed outdoors, a water pump, a drain, supply, spray and drain pipes with valves installed on them, outdoor temperature and coolant temperature sensors, characterized in that I accumulate the open refrigerant reservoir is made two-section with the upper and lower sections located one above the other, barred windows are made in the upper section housing, and the upper part of the lower section wall is made in the form of a lattice, the thermally insulated coolant reservoir with accumulator through the water pump, the drain pipe and valve connected to the bottom of the vertical spray pipe with nozzles located above the sprinkler in the upper section accumulate of the refrigerant storage tank, and through another valve connected to the supply pipe, which together with the drain pipe connects the heat-insulating coolant tank with the central part of the lower section of the storage tank of the coolant installed outdoors, through a layer of thermal insulation passing through the outer wall of the building, and the end part of the supply the pipe is made curved and part of it is in a vertical position along the axis of the lower section with the upper end closed, and on its vertical cylindrical wall A number of through radial holes were made in the tanks with a layer of rubber, and a container with a level regulator was installed in the production room, connected in the upper part through a valve to the farm's water supply system and through an inclined pipe with the lower part of the upper section of the coolant storage tank installed in the open air, and in the bottom part - with a drain pipe, and in the upper part of the upper section of the storage tank of the coolant installed outdoors, a fan is placed below which Horn installed a drop eliminator. 2. Installation according to claim 1, characterized in that on the outer wall of the upper section of the storage tank of the coolant installed in the open air, a casing is closed with a gap, closed from above and open from below, forming a gap with the lower section body at the level of the lower edge of the grating of the lower section. 3. Installation according to claim 1, characterized in that on the outer wall of the lower section of the storage reservoir of the coolant installed in the open air, an ice layer thickness sensor is placed. 4. Installation according to claim 1, characterized in that in the central part of the lower section there are heating elements. 5. Installation according to claim 1, characterized in that the inner and outer surfaces of the lower section of the storage reservoir of the coolant are ribbed. 6. Installation according to claim 1, characterized in that the space above the lower section of the storage reservoir of the coolant is connected to the space under the bottom of the lower section of the air-conducting cavities.