Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
  • F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
  • F25D29/00—Arrangement or mounting of control or safety devices
• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
  • F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
  • F25D2700/00—Means for sensing or measuring; Sensors therefor
  • F25D2700/12—Sensors measuring the inside temperature
  • F25D2700/123—Sensors measuring the inside temperature more than one sensor measuring the inside temperature in a compartment

Definitions

• the present invention relates to a cooling device comprising one or more compartments wherein the temperature fluctuations are decreased.
• the compressor operates or stops depending on the thermostat value of the freezer compartment.
• the evaporator fan of the freezer compartment is generally activated together with the compressor and is deactivated when the compressor stops.
• the evaporator fan of the fresh food compartment operates or stops depending on the thermostat value of the freezer compartment. While an effective cooling is maintained in the freezer compartment, high temperature fluctuations occur in the fresh food compartment wherein the fan operates at long intervals. The temperature fluctuations being high in the fresh food compartment causes the temperature of the foods stored in the said compartment to also change and the quality of the food to be adversely affected.
• the aim of the present invention is the realization of a cooling device wherein the temperature variability is reduced in the fresh food compartment.
• the cooling device of the present invention comprises a fresh food compartment, a freezer compartment, a compressor, a fresh food compartment evaporator and a freezer compartment evaporator connected in series to each other, a fresh food compartment fan and a freezer compartment fan that blows air separately to each compartment and a control unit that regulates the operation of the compressor and the fans such that both of the compartments are kept within a certain temperature range.
• the control unit by controlling the temperature value detected by the fresh food compartment sensor when the compressor is activated by the freezer compartment sensor as being actuated, provides the fresh food compartment fan to operate together with the freezer compartment fan if the temperature detected by the fresh food compartment sensor is equal to or greater than a first threshold temperature which is smaller than the activation temperature of the fresh food compartment and greater than the deactivation temperature of the fresh food compartment.
• a first threshold temperature which is smaller than the activation temperature of the fresh food compartment and greater than the deactivation temperature of the fresh food compartment.
• the control unit furthermore, stops the fresh food compartment fan when the temperature detected by the fresh food compartment sensor reaches the second threshold temperature value that is greater than the fresh food compartment deactivation temperature.
• the fresh food compartment fan is not expected to operate until the upper cut-in temperature and hence, the increase of temperature fluctuations in the fresh food compartment are prevented.
• the first threshold temperature that determines the criteria for the fresh food compartment fan to operate together with the freezer compartment fan is approximately 1 0 C lower than the lower cut-off temperature of the fresh food compartment.
• the first threshold temperature that determines the criteria for the fresh food compartment fan to operate together with the freezer compartment fan is equal to half the sum of the maximum temperature value and the minimum temperature value detected by the fresh food compartment sensor in the previous refrigeration cycle.
• the second threshold temperature that determines the criteria for the fresh food compartment fan to be stopped is lower than the last return temperature, which is the temperature value whereat the temperature changes from the upward trend to the downward trend, detected by the fresh food compartment sensor in the previous refrigeration cycle, by as much as temperature value determined by the producer,.
• the deactivation temperature of the fresh food compartment fan is determined in accordance with the conditions specified at previous cycles. Thus, as the temperature fluctuations in the fresh food compartment are decreased, energy consumption is provided not to increase.
• FIG. 1 is the schematic view of the cooling device.
• Figure 2 - is the graphic showing the operation of the compressor with respect to time.
• Figure 3 - is the graphic showing the operation of the freezer compartment fan with respect to time.
• Figure 4 - is the graphic showing the change in the temperature detected by the fresh food compartment sensor with respect to time.
• Figure 5 - is the graphic showing the operation cycle of the fresh food compartment fan with respect to time.
• Figure 6 - is the flow chart of an embodiment of the control method.
• the elements illustrated in the figures are numbered as follows:
• the cooling device (1) comprises: • a fresh food compartment (2) wherein the foods are stored therein for cooling,
• a fresh food compartment fan (7) which provides to activate the cold air in the vicinity of the fresh food compartment evaporator (5) and blow into the fresh food compartment (2)
• a freezer compartment fan (8) which provides to activate the cold air in the vicinity of the freezer compartment evaporator (6) and blow into the freezer compartment (3)
• a control unit (11) that provides to keep the temperatures of the fresh food compartment (2) and the freezer compartment (3) within certain temperature ranges by controlling the activation and/or deactivation of the compressor (4), the fresh food compartment fan (7) and/or the freezer compartment fan (8) depending on the temperature values detected by the fresh food compartment sensor (9) and/or the freezer compartment sensor (10) ( Figure 1).
• TFF The temperature detected by the fresh food compartment sensor (9)
• TFRZ The temperature detected by the freezer compartment sensor (10)
• TFFcut-in the activation temperature of the fresh food compartment (2) predetermined by the producer wherein the compressor (4) is operated for cooling the fresh food compartment (2).
• TFFcut-out the deactivation temperature of the fresh food compartment (2) predetermined by the producer wherein the compressor (4), operated depending on the activation temperature (TFFcut-in) of the fresh food compartment (2), is stopped.
• TFRZcut-in the activation temperature of the freezer compartment (3) predetermined by the producer wherein the compressor (4) is operated for cooling the freezer compartment (3).
• TFRZcut-out the deactivation temperature of the freezer compartment (3) predetermined by the producer wherein the compressor (4), operated depending on the activation temperature (TFRZ) of the freezer compartment (3), is stopped.
• LRT the maximum temperature value detected by the fresh food compartment sensor (9), saved in the cycle wherein the compressor (4) is activated by the freezer compartment sensor (10) after the last cycle wherein the compressor (4) is actuated by the fresh food compartment sensor (9).
• T1 The first threshold temperature that is lower than the activation temperature (TFFcut-in) of the fresh food compartment (2) and greater than the deactivation temperature (TFFcut-out) of the fresh food compartment (2).
• T2 The second threshold temperature that is greater than the deactivation temperature (TFFcut-out) of the fresh food compartment (2).
• the temperature of the fresh food compartment (2) is measured by the fresh food compartment sensor (9) and the temperature of the freezer compartment (3) is measured by the freezer compartment sensor (10).
• the control unit (11) activates the compressor (4) by evaluating whether any one of the compartments (2, 3) require cooling according to the temperature values (TFF or TFRZ) detected by the fresh food compartment sensor (9) or the freezer compartment sensor (10).
• the compressor (4) is operated and stopped periodically when a cooling requirement occurs in the fresh food compartment (2) or the freezer compartment (3) ( Figure 2). In the graphics, time is shown with T(min), and with 0-1 , activation and deactivation of the compressor (4), fresh food compartment fan (7) and the freezer compartment fan (8) are shown.
• the compressor (4) is operated by the control unit (11) when the temperature (TFF) detected by the fresh food compartment sensor (9) is equal to or greater than the activation temperature (TFFcut-in) of the fresh food compartment (2).
• the compressor (4) is stopped by the control unit (11) when the temperature (TFF) detected by the fresh food compartment sensor (9) is equal to or lower than the deactivation temperature (TFFcut-out) of the fresh food compartment (2).
• the compressor (4) is operated by the control unit (11) when the temperature (TFRZ) detected by the freezer compartment sensor (10) is equal to or greater than the activation temperature (TFRZcut-in) of the freezer compartment (3).
• the compressor (4) is stopped by the control unit (11) when the temperature (TFRZ) detected by the freezer compartment sensor (10) is equal to or lower than the deactivation temperature (TFRZcut-out) of the freezer compartment (3).
• the control unit (11) compares the temperature (TFF) detected by the fresh food compartment sensor (9) with the first threshold temperature (T 1) when the compressor (4) is actuated to operate by the freezer compartment sensor (10).
• the control unit (11) enables the fresh food compartment fan (7) to operate together with the freezer compartment fan (8) when the temperature (TFF) detected by the fresh food compartment sensor (9) is greater than the first threshold temperature (T1) ( Figure 2, Figure 3, Figure 4 and Figure 5).
• the freezer compartment fan (8) is also activated a short while after the start of the compressor (4) operation period regardless of the temperature (TFRZ) detected by the freezer compartment sensor (10) and operates until the deactivation temperature (TFRZcut-out) of the freezer compartment (3) is detected in the freezer compartment sensor (10).
• the control unit (11) compares the temperature (TFF) detected by the fresh food compartment sensor (9) with the first threshold temperature (T1).
• the fresh food compartment fan (7) is also operated when the temperature (TFF) detected by the fresh food compartment sensor (9) is greater than the first threshold temperature (T1) ( Figure 2, Figure 3, Figure 4 and Figure 5).
• the control unit (11) furthermore stops the fresh food compartment fan (7), when the temperature (TFF) detected by the fresh food compartment sensor (9) reaches the second threshold temperature (T2) value. In this case, it will be unnecessary to operate the fresh food compartment fan (7) until the fresh food compartment (2) upper cut-out temperature (TFFcut-out) is detected by the fresh food compartment sensor (9) and will cause the thermal fluctuation of the fresh food compartment (2) to increase.
• the response of the fresh food compartment sensor (9) to the temperature change in the fresh food compartment (2) comes with a certain lag and the downward trend of the temperature (TFF) detected by the fresh food compartment sensor (9) continues even after the fresh food compartment fan (7) stops. Therefore, when the compressor (4) is actuated by the freezer compartment sensor (10), the deactivation temperature of the fresh food compartment fan (7) is made equal to a second threshold temperature (T2) that is greater than the upper cut-out temperature (TFFcut-out) of the fresh food compartment (2).
• T2 second threshold temperature
• T2 the upper cut-out temperature
• the first threshold temperature (T1) is approximately 1 0 C lower than the activation temperature (TFFcut-in) of the fresh food compartment (2).
• the difference between the first threshold temperature (T1) and the activation temperature (TFFcut-in) of the fresh food compartment (2) is determined depending on the targeted temperature fluctuation in the fresh food compartment (2) and the operation frequency of the fresh food compartment fan (7).
• the first threshold temperature (T1) is equal to half the sum of the maximum temperature (TFFmax) value and the minimum temperature (TFFmin) value detected by the fresh food compartment sensor (9) in the previous refrigeration cycle.
• the compressor (4) when the compressor (4) is activated depending on the activation temperature (TFRZcut-in) of the freezer compartment (3) detected in the freezer compartment sensor (10), after the last cycle wherein the compressor (4) is actuated by the fresh food compartment sensor (9), the second threshold temperature (T2) is correlated with the last return temperature (LRT) which is the value whereat the temperature (TFF) detected in the fresh food compartment sensor (9) changes from the upward trend to the downward trend.
• the fresh food compartment fan (7) is stopped when the temperature (TFF) detected by the fresh food compartment sensor (9) is equal to a temperature that is lower than the saved last return temperature (LRT) by as much as temperature difference ( ⁇ T) determined by the producer.
• ⁇ T is approximately 0.1 0 C.
• the compressor (4) is generally activated according to the activation temperature (TFRZcut-in) of the fresh food compartment (2) detected in the freezer compartment sensor (10).
• TFRZcut-in the activation temperature of the fresh food compartment (2) detected in the freezer compartment sensor (10.
• the last return temperature (LRT) is updated and saved depending on the amount of increase in the thermal load received into the fresh food compartment (2).
• the deactivation temperature of the fresh food compartment fan (7) is determined according to the updated last return temperature (LRT). Since the deactivation temperature of the fresh food compartment fan (7) determined according to the updated last return temperature (LRT) and the activation temperature at the start of the compressor (4) operation period is limited by the activation temperature (TFFcut-in) of the fresh food compartment (2), the value of the average temperature with low fluctuation inside the fresh food compartment (2) does not change too much.
• the control unit (11 ) of the cooling device (1 ) of the present invention operates according to the following method ( Figure 6):
• the compressor (4) is controlled whether it is actuated by the fresh food compartment sensor (9) or the freezer compartment sensor (10) (104),
• freezer compartment (3) is controlled whether or not it is cooled (108),
• the freezer compartment (3) is controlled whether or not it is cooled (108),
• the temperature fluctuations inside the fresh food compartment (2) are decreased by enabling the control unit (11) to carry out a control algorithm that varies depending on the thermal load in the fresh food compartment (2).
• the storage conditions of the foods stored in the fresh food compartment (2) are improved and hence, they are provided to last for a longer period of time.

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• Engineering & Computer Science (AREA)
• Chemical & Material Sciences (AREA)
• Combustion & Propulsion (AREA)
• Physics & Mathematics (AREA)
• Mechanical Engineering (AREA)
• Thermal Sciences (AREA)
• General Engineering & Computer Science (AREA)
• Devices That Are Associated With Refrigeration Equipment (AREA)
• Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)

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• 2009
  • 2009-12-17 EP EP09799616A patent/EP2370769B1/de active Active
  • 2009-12-17 WO PCT/EP2009/067374 patent/WO2010076229A2/en not_active Ceased
  • 2009-12-17 CN CN200980153368.9A patent/CN102272543B/zh not_active Expired - Fee Related

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