RU2673434C1 - Device for ensuring operation of external blocks of freon climatic systems operating in cold mode with sub-zero outside air temperatures - Google Patents

Abstract

FIELD: ventilation.SUBSTANCE: invention relates to outdoor units of freon climate systems and is intended to ensure their uninterrupted operation at low outdoor temperatures in winter. Technical result is achieved by the fact that the proposed design of the device to ensure the operation of the outdoor units of freon climate systems with vertical or horizontal emission of hot air from the outdoor unit condenser with its axial fan (fans), consisting of a spatial frame, assembled from metal rectangular pipes, which is rigidly fixed on a foundation base, on the side and end sides of the internal volume of the spatial frame are fixed boxes for electric roller shutters, inside of which there are the shutters of the roller shutters, on top of the spatial frame there is a horizontally fixed air valve with a modulating electric drive, electronic control controller and two temperature sensors are installed inside the spatial frame of the device, one installed in the upper part and the other in the lower part of the internal volume of the device, and the outside temperature sensor is installed outside.EFFECT: technical result of the invention is to ensure the operation of the device in a fully automatic mode by regulating the required amount of fresh air and without changing the direction of the air flow generated by the fan, that allows to use the proposed device for various types of outdoor units of freon climate systems.2 cl, 2 dwg

Description

The invention relates to outdoor units of freon climate systems and is intended to ensure their uninterrupted operation at low outdoor temperatures in winter.

The prior art technical solution "Device for conditioning", patent of the Russian Federation for utility model No. 88107, IPC F24F1 / 00, publ. 10/27/2009. The device contains a remote air-cooled compressor and condenser unit with a fan, which is placed in a container with air inlet and outlet windows, which are made with an adjustable passage section and are equipped with louvres with servo drives, the inlet window is located in the lower part of the front wall of the container, and the outlet window located in the upper part of the front wall of the container, while the condensing unit is located vertically in the container - with the fan up.

The disadvantage of this solution is that the use of the device is possible only with a vertical discharge of hot air from the outdoor unit of the freon climate system.

An object of the invention is to provide a device that can be used for any outdoor units of freon climate systems that work on the production of cold, both with vertical and horizontal emission of hot air from the condenser of the outdoor unit.

The technical result of the invention is to ensure the operation of the device in a fully automatic mode by regulating the required amount of fresh air and without changing the direction of the air flow generated by the fan, which allows the use of the inventive device for various types of outdoor units of freon climate systems.

The technical result is achieved by the fact that, in the case of a device for ensuring the operation of outdoor units of freon climate systems with a vertical emission of hot air from the outdoor unit condenser by its axial fan (fans), it consists of a spatial frame assembled from rectangular metal pipes by welding or bolted connections so that the outdoor unit of the freon climate system is completely located in the internal volume of the spatial frame, which is rigidly fixed four baskets of electric roller shutters are fixed on the foundation base, on the sides and end sides of the internal volume of the spatial frame, inside of which roller shutter blinds are located, with the possibility of moving them vertically up and down along the guides mounted on the spatial frame, the air valve is horizontally fixed on top of the spatial frame with continuously variable electric drive, an electronic control controller and two temperature sensors are installed inside the device’s spatial frame ry, one is installed in the upper part, and the other in the lower part of the internal volume of the device. An external temperature sensor is installed outside the spatial frame. Vertical ducts are installed in the angular parts of the spatial frame with the intake of external air from above and its supply to the lower region of the internal volume of the spatial frame. On top of the perimeter of the air valve is fixed a snow / windshield.

The technical result is achieved by the fact that, in the case of a device for ensuring the operation of climate systems with horizontal hot air emission from the outdoor unit condenser by its axial fan (fans), it consists of a spatial frame assembled from rectangular metal pipes by welding or bolting in this way so that the outdoor unit of the freon climate system is completely located in the internal volume of the spatial frame, which is rigidly fixed to the base, for one more three boxes of electric roller shutters are fixed to the first and two end sides of the internal volume of the spatial frame, inside which roller shutter blinds are located, with the possibility of moving them vertically up and down along the rails mounted on the frame, to the second side from the side of the hot air from the outdoor unit to the spatial the frame is vertically fixed to an air valve with a continuously variable electric drive; on top of the spatial frame, an easily removable panel is horizontally fixed, inside The device’s transverse frame is equipped with an electronic control controller and two temperature sensors, one installed in the upper part and the other in the lower part of the internal volume of the device. An external temperature sensor is installed outside the spatial frame. Vertical ducts are installed in the angular parts of the spatial frame with the intake of external air from above and its supply to the lower region of the internal volume of the spatial frame.

On the side of the horizontal hot air discharge from the outdoor unit, an adapter can be installed designed to change the air flow from horizontal to vertical.

The invention is illustrated by drawings, where in FIG. 1 is a structural diagram of a device for ensuring the operation of outdoor units of freon climate systems with vertical hot air emission from an outdoor unit, and FIG. 2 is a structural diagram of a device for supporting operation of outdoor units of freon climate systems with horizontal hot air emission from an outdoor unit.

A device for ensuring the operation of outdoor units of freon climate systems with a vertical exhaust of hot air contains:

1-1 The outdoor unit of the freon climate system.

1-2 Electric roller shutter boxes.

1-3 Blinds shutters.

1-4 Upper air valve with continuously variable servo actuator.

1-5 Space frame.

1-6 Vertical ducts for intake from the top of the outside air.

1-7 Axial fan (fans) of the outdoor unit.

1-8 Electronic control controller.

1-9 Upper temperature sensor.

1-10 Lower temperature sensor.

1-11 Outside temperature sensor.

1-12 Snow / Windshield Air Valve.

1-13 Compressor of the outdoor unit.

1-14 Optional compressor crankcase heater.

1-15 Parking fan heater.

A device for ensuring the operation of outdoor units of freon climate systems with a horizontal emission of hot air contains (Fig. 2):

2-1 The outdoor unit of the freon climate system.

2-2 Boxes with an electric roller shutter.

2-3 Roller blinds.

2-4 Side air valve with continuously variable servo actuator.

2-5 Space frame.

2-6 Vertical ducts for intake from the top of the outside air.

2-7 Axial fan (fans) of the outdoor unit.

2-8 Electronic control controller.

2-9 Upper temperature sensor.

2-10 Lower temperature sensor.

2-11 Outside temperature sensor.

2-12 Upper easily removable panel.

2-13 An adapter designed to change the air flow from horizontal to vertical.

2-14 Compressor of the outdoor unit.

2-15 Optional compressor crankcase heater.

2-16 Parking fan heater.

A device for ensuring the operation of the outdoor units of freon climate systems with a vertical emission of hot air works as follows. When the outdoor temperature measured by the outdoor temperature sensor 1-11 is less, for example, plus 5 degrees, both side roller shutters and one end roller shutter located on the side of the outdoor unit service cover are completely closed. The shutters 1-3 are closed due to the electric drive located in the shutter boxes 1-2. The second end roller shutter is in the fully open position. The top air valve 1-4 is in the fully open position. In this case, the condensation pressure is maintained by the automation of the climate system. In the transition period, when the outdoor temperature measured by the outdoor temperature sensor 1-11 is in the range, for example, from plus 5 to minus 5 degrees, the electronic control controller 1-8, if necessary, smoothly controls the degree of opening / closing of the upper air valve 1-4, giving commands to his servo. In this case, the condensation pressure is maintained by the automation of the climate system. When the ambient temperature measured by the outdoor temperature sensor 1-11 is less, for example, minus 5 degrees, the blinds of the remaining end roller shutter 1-3 are closed for 100%. The roller shutter closes due to the electric drive located in the roller shutter box 1-2. To maintain the temperature inside the device’s volume, the electronic control controller 1-8 smoothly regulates, by issuing commands to its servo drive, the degree of opening of the upper air valve 1-4 depending on the temperature in the upper part of the device’s volume, measured by a temperature sensor 1-9. In this case, the condensation pressure is maintained by the automation of the climate system. The process of controlling the temperature inside the device’s volume is as follows: In winter, when the air temperature at the outlet of the axial fan 1-7 of the outdoor unit 1-1 is higher than the set value (for example +25 h + 35 ° C), according to the signals of the upper temperature sensor 1 -9 the electronic control controller 1-8 sends a signal for the servo-drive to open the blades of the upper air valve 1-4. At the same time, due to the generated pressure of the axial fan 1-7 of the outdoor unit of the freon climate system 1-1 through the vertical duct S 1-6 begins to suck in cold outdoor air, which, passing through the fins of the air condenser of outdoor unit 1-1, cools it. Exiting from the outdoor unit 1-1 in the vertical direction, heated air through the blades of the upper air valve 1-4 is released into the atmosphere. The necessary amount of outside air is sucked into the device’s volume through the vertical air ducts 1-6 installed in the angular parts of the spatial frame with the external air being taken from above and supplied to the lower region of the device’s internal volume and through the lower slit below the space frame 1-5 formed by the device’s frame and the outer dimensions of the outdoor unit 1-1. When the temperature at the outlet of the outdoor unit of the climate system 1-1 drops below the set value by the signal of the upper temperature sensor 1-9, the electronic control controller 1-8 instructs the air valve 1-4 servo to smoothly close the air valve blades. As a result, part or all of the flow (depending on the degree of closure of the air valve 1-4) of the hot air emitted by the fan 1-7 from the outdoor unit of the climate system 1-1 is transferred to the condenser inlet of the outdoor unit of the climate system 1-1. When the air valve 1-4 is completely closed, a recirculation process occurs inside the device when hot air after the fan 1-7 of the outdoor unit 1-1 is completely transferred to the condenser inlet of the outdoor unit. The air passing through the heat exchanger of the outdoor unit’s condenser is heated by 10–20 ° С, due to heat generation during the condensation of freon, thereby ensuring that the temperature inside the device’s volume is maintained at a predetermined level. While the air valve 1-4 is in the closed state, the process of 100% air recirculation inside the device’s volume and its gradual heating are supported. When the temperature in the upper zone of the device is measured, measured by the upper temperature sensor 1–9 and set in the electronic control controller 1–8, the process of regulating the temperature inside the spatial frame is cyclically repeated according to the above-described algorithm taking into account the outdoor temperature and the thermal load on the outdoor unit 1-1 climatic system. If the temperature in the upper zone of the device rises above a predetermined limit during a specified period of time, the electronic control controller 1-8 gives a signal to the electric drive located in the box 1-2 roller shutters for partial opening by 10-30% of one of the end blinds. When the temperature in the upper zone of the device’s volume reaches below a predetermined limit during a given period of time, the electronic control controller 1-8 gives a signal to completely close the previously partially open end blinds 1-3. In the event of an emergency shutdown of the outdoor unit at an air temperature in the lower zone of the device’s volume below, for example, minus 5 ° С measured by a temperature sensor 1-10, an additional crankcase heater 1-14 of the compressor 1-13 of the outdoor unit or installed parking fan heater 1-15. The command to turn off the additional crankcase heater and / or fan heater is given by the electronic control controller 1-8 at a temperature in the lower part of the device’s volume, measured by a temperature sensor 1-10, above for example + 5 ° С. When the ambient temperature measured by the outdoor temperature sensor 1-11 is greater, for example, plus 5 degrees (summer operation), all the shutters and the upper air valve are fully open, while the outdoor unit 1-1 of the freon climate system is operating normally.

To prevent snow falling on the blades of the air valve 1-4, a snow / wind shield 1-12 is installed around its perimeter.

A device for ensuring the operation of the outdoor units of freon climate systems with horizontal emission of hot air works as follows. When the outdoor temperature measured by the outdoor temperature sensor 2-11 is less, for example, plus 5 degrees, the 2nd end rolling shutters 2-3 are closed. The roller shutter closes due to the electric drive located in the roller shutter box 2-2. The side roller shutter is in the fully open position. Side air valve 2-4 is in the fully open position. In this case, the condensation pressure is maintained by the automation of the climate system. During the transition period, when the outdoor temperature measured by the outdoor temperature sensor 2-11 is in the range, for example, from plus 5 to minus 5 degrees, the electronic control controller 2-8, if necessary, smoothly controls the degree of opening / closing of the side air valve 2- 4 giving commands to his servo. In this case, the condensation pressure is maintained by the automation of the climate system. At an ambient temperature measured by an outdoor temperature sensor of 2-11, less, for example minus 5 degrees, the remaining side rolling shutter 2-3 closes for 100%. The roller shutter closes due to the electric drive located in the roller shutter box 2-2. To maintain the temperature inside the device’s volume, the electronic control controller 2-8 smoothly regulates, by issuing commands to its servo drive, the degree of opening of the side air valve 2-4 depending on the temperature in the upper part of the device’s volume, measured by a temperature sensor 2-9. In this case, the condensation pressure is maintained by the automation of the climate system. The process of controlling the temperature inside the device’s volume is as follows: In winter, when the air temperature at the outlet of the axial fan 2-7 of the outdoor unit 2-1 is higher than the set value (for example, +25 h + 35 ° C) according to the signals of the upper temperature sensor 2 -9 electronic control controller 2-8 sends a signal for the servo-driven opening of the blades of the side air valve 2-4. In this case, due to the generated pressure of the axial fan 2-7 of the outdoor unit of the Freon climate system 2-1, the outside cold air starts to be sucked in through the vertical ducts 2-6, which, when passing through the fins of the air condenser of the outdoor unit 2-1, cools it. Exiting from the outdoor unit 2-1 in the horizontal direction, heated air through the blades of the side air valve 2-4 is released into the atmosphere. The necessary amount of outside air is sucked into the device’s volume through the vertical air ducts 2-6 installed in the angular parts of the spatial frame with the external air being taken from above and supplied to the lower region of the device’s internal volume and through the lower slot at the bottom of the space frame formed by the device’s spatial frame 2-5 and the outer dimensions of the outdoor unit. When the temperature at the outlet of the outdoor unit of the climate system 2-1 drops below the set value by the signal of the upper temperature sensor 2-9, the electronic control controller 2-8 instructs the air valve 2-4 servo to smoothly close the air valve blades. As a result, part or all of the flow (depending on the degree of closure of the air valve 2-4) of the hot air emitted by the axial fan 2-7 from the outdoor unit of the climate system 2-1 is transferred to the condenser inlet of the outdoor unit of the climate system 2-1. When the air valve 2-4 is completely closed, the recirculation process occurs inside the device when hot air after the fan 2-7 of the outdoor unit is completely transferred to the condenser inlet of the outdoor unit 2-1. The air passing through the heat exchanger of the condenser of the outdoor unit 2-1 is heated by 10 ÷ 20 ° C due to the release of heat during condensation of freon, thereby ensuring that the temperature inside the volume of the device is maintained at a predetermined level. While the air valve 2-4 is in the closed state, the process of 100% air recirculation inside the space frame and its gradual heating are supported. If the temperature in the upper zone of the device is exceeded, measured by the upper temperature sensor 2–9 and the set temperature in the electronic control controller 2–8, the process of regulating the temperature inside the device’s volume is cyclically repeated according to the above-described algorithm taking into account the outdoor temperature and the heat load on the outdoor unit of the climate system 2-1. In the event of an emergency temperature rise in the upper zone of the device’s volume above a predetermined limit during a given period of time, the electronic control controller 2-8 gives a signal to the electric drive located in the box 2-2 of the roller shutter to partially open 10-30% of one of the end blinds 2- 3. When the temperature in the upper zone of the device’s volume is reached below a predetermined limit for a given period of time, the electronic control controller 2-8 gives a signal to completely close the previously partially open end blinds. In the event of an emergency shutdown of the outdoor unit 2-1 when the air temperature in the lower zone of the device’s volume is lower, for example, minus 5 ° С measured by the lower temperature sensor 2-10, an additional crankcase heater 2-15 of the compressor is switched on by the command of the electronic control controller 2-8 2-14 outdoor unit or installed parking heater 2-16. The command to turn off the additional crankcase heater and / or fan heater is given by the electronic control controller 2-8 at a temperature in the lower part of the device’s volume, measured by the lower temperature sensor 2-10, higher, for example, plus 5 ° С. When the ambient temperature measured by the outdoor temperature sensor is 2-11 more, for example, plus 5 degrees (summer operation), all the roller shutters and the side air valve 2-4 are fully open, while the outdoor unit of the freon climate system 2-1 is working in normal mode.

To exclude the effect on the nearby neighboring outdoor units of hot air emitted from the outdoor unit of the climate system from the side of the horizontal hot air discharge from the outdoor unit, adapter 2-13 can be installed to change the air flow from horizontal to vertical.

On top of the spatial frame 2-5, an easily removable panel 2-12 is horizontally fixed.

Claims (2)

1. A device for ensuring the operation of outdoor units of freon climate systems operating in the cold mode at negative outside air temperatures, characterized in that in the case of a device for supporting the operation of climate systems with a vertical emission of hot air from the outdoor unit condenser by its axial fan (fans), it consists of a spatial frame assembled from rectangular metal pipes by welding or bolting so that the outdoor unit is freon of the limatic system was completely located in the internal volume of the spatial frame, which is rigidly fixed on the foundation base, four boxes of electric roller shutters are fixed on the sides and end sides of the internal volume of the spatial frame, inside of which the roller shutter blinds are located with the possibility of moving them vertically up and down along the guides, fixed on a spatial frame, on top of the spatial frame an air valve with continuously variable electric drive is horizontally fixed In the spatial frame of the device, an electronic control controller and two temperature sensors are installed, one is installed in the upper part and the other in the lower part of the internal volume of the device, and an outside temperature sensor is installed outside the spatial frame, vertical ducts are installed in the corner parts of the spatial frame with external air intake from above and supplying it to the lower region of the internal volume of the spatial frame; snow / windproof is fixed above the perimeter of the air valve Clear screen. 2. A device for ensuring the operation of outdoor units of freon climate systems operating in the cold mode at negative outside air temperatures, characterized in that in the case of a device for ensuring the operation of climate systems with a horizontal emission of hot air from the outdoor unit condenser by its axial fan (fans), it consists of a spatial frame assembled from rectangular metal pipes by welding or bolting so that the outdoor unit is freon of the climate system was completely located in the internal volume of the spatial frame, which is rigidly fixed to the base, three boxes of electric roller shutters are fixed on one side and two end sides of the internal volume of the spatial frame, inside of which there are roller shutter shutters with the possibility of moving them vertically up and down along the guides mounted on the spatial frame, on the second side to the above frame from the side of the ejection of hot air from the outdoor unit vertically closed A lateral air valve with a continuously variable electric drive is insulated, an easily removable panel is horizontally fixed on top of the spatial frame, an electronic control controller and two temperature sensors are installed inside the spatial frame, one is installed in the upper part and the other in the lower part of the internal volume of the device, outside the spatial frame outdoor temperature sensor, vertical ducts are installed in the angular parts of the spatial frame with an intake of outdoor air on top and by supplying it to the lower region of the internal volume of the spatial frame, in order to exclude the influence on the nearby neighboring outdoor units of hot air discharged from the outdoor unit of the climate system from the horizontal hot air outlet from the outdoor unit, an adapter can be installed to change the air flow from horizontal to vertical .

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