RU2009130467A - TRANSPORT REFRIGERATING UNIT AND METHOD OF CONTROL OF TRANSPORT REFRIGERATING INSTALLATION (OPTIONS) - Google Patents

Abstract

 1. Transport refrigeration unit (20), including a container (24) equipped with a chamber (26), a generator system (30, 32), a refrigeration system (34), electrically connected to the generator system (30, 32) and thermally connected to the container (24), while the refrigeration system (34) comprises a compressor (120) with an electric drive, a condenser (128) located below the compressor in the direction of the refrigerant flow, a throttling device (144) located below the compressor in the direction of the refrigerant flow, an evaporator (148 ) located below the throttle about the device in the direction of the refrigerant flow, and the controller (100) connected to the throttling device and controlling the throttling device, while the controller is configured to control the overheating of the evaporator through the throttling device and to obtain a relatively high value of the first set temperature (Ts) for transporting not frozen perishable goods and the relatively low value of the second value of the set temperature for the transportation of frozen goods while maintaining a minimum overheating at the compressor inlet. ! 2. The installation according to claim 1, in which the controller is configured to control the first set value of the superheat temperature (T1) by acting on the throttling device at the first value of said set temperature, control the second set value of the superheat temperature (T2), which is lower than the first set value overheating, by acting on the throttling device at a second value of said set temperature, which is lower than the first and at

Claims (13)

1. Transport refrigeration unit (20), including a container (24) equipped with a chamber (26), a generator system (30, 32), a refrigeration system (34), electrically connected to the generator system (30, 32) and thermally connected to the container (24), while the refrigeration system (34) comprises a compressor (120) with an electric drive, a condenser (128) located below the compressor in the direction of the refrigerant flow, a throttling device (144) located below the compressor in the direction of the refrigerant flow, an evaporator (148 ) located below the throttle of the device in the refrigerant flow direction, and a controller (100) associated with a throttling device and a control throttle device, wherein the controller is arranged to overheat the evaporator control through the throttle device and obtaining a relatively high value of the first value of the set temperature (T _s) to carry no frozen perishable goods and the relatively low value of the second value of the set temperature for the transportation of frozen goods while supporting mini slight overheating at the compressor inlet. 2. The installation according to claim 1, in which the controller is configured to control the first set value of the superheat temperature (T ₁ ) by acting on the throttling device at the first value of said set temperature, control the second set value of the superheat temperature (T ₂ ), which is lower than the first the set value of the superheat, by acting on the throttling device at the second value of the said set temperature, which is lower than the first and at the value of the superheat at the compressor inlet Chez threshold value, the control value of the third predetermined overheating temperature which is higher than the second predetermined value of superheat, by acting on the throttling device at a second said set temperature, which is lower than the first value and when the value of superheat at the compressor inlet is not above the threshold. 3. The installation according to claim 2, in which the second value of the set superheat temperature is lower than the first and third values of the set superheat temperature by at least minus 15 ° C. 4. The installation according to claim 2, in which the first and third values of the set superheat temperature are the same. 5. The installation according to claim 1, in which the controller is configured to receive from the sensor the values of the temperature of the evaporator and the pressure in the evaporator, and determine the said value of the superheat of the evaporator by means of the above-mentioned values of the temperature of the evaporator and the pressure in the evaporator. 6. The installation according to claim 1, in which the controller is configured to obtain the values of said set temperature, entered by the user. 7. The apparatus of claim 1, wherein the generator system comprises a diesel engine. 8. Installation according to claim 1, in which the container is a trailer body. 9. A method for controlling a transport refrigeration unit, comprising determining a predetermined chamber temperature, obtaining a relatively high superheat value by acting on a throttling device at a relatively high set temperature value, and obtaining a relatively low superheat value by acting on a throttling device at a relatively low set temperature value, wherein maintain minimal overheating at the compressor inlet. 10. The method according to claim 9, wherein said relatively high superheat value and a relatively low superheat value are superheat values in the outlet of the evaporator. 11. The method according to claim 9, in which additionally measure the temperature and pressure in the outlet of the evaporator, determine the overheating in the outlet of the evaporator by means of the temperature and pressure in the outlet of the evaporator, measure the temperature and pressure at the inlet of the compressor and determine the overheating at the inlet of the compressor by values of temperature and pressure at the compressor inlet. 12. A method of controlling a transport refrigeration unit, including obtaining a predetermined temperature value in the chamber, determining the sufficiency of overheating at the compressor inlet, affecting the throttling device to achieve a relatively high superheat temperature with a relatively high value of said set temperature and a relatively low value of said set temperature in combination with insufficient overheating at the compressor inlet and obtaining a relatively low superheat temperature through the effect on the throttling device at a relatively low value of the specified set temperature with sufficient overheating at the compressor inlet. 13. The method according to item 12, in which when determining the sufficiency of overheating, measure the temperature and pressure at the inlet of the compressor and using the above temperature and pressure at the inlet of the compressor determine the superheat at the inlet of the compressor.