JP3920637B2 - Defrost control device for refrigerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a defrost control device for a refrigerator that defrosts frost attached to a cooler of a refrigeration apparatus.
[0002]
[Prior art]
In refrigerators, the moisture in the cabinet becomes frost and adheres to and accumulates on the cooler of the refrigeration system. However, this frost contains a large amount of air, so the thermal conductivity is extremely poor, and the cooler cools the interior of the cabinet. Worsens the effect.
[0003]
As a method for defrosting frost adhered to the cooler, there is a method for defrosting the frost by naturally thawing the frost while the refrigeration apparatus is turned off. That is, in this defrosting method, the frost adhering to the cooler is naturally warmed by the ambient temperature or the like while the refrigeration apparatus is turned off, and is thawed and removed.
[0004]
In this natural defrosting method, the cooler is not heated compared to a method of defrosting by sending a high temperature gas sent from the compressor of the refrigeration apparatus to the cooler or a method of defrosting by heating the cooler with a heater. Therefore, the excessive rise in the internal temperature associated with the defrosting operation can be suppressed, and the cost of the refrigerator can be reduced by the amount that it is not necessary to provide a structure or heater for sending high-temperature gas to the cooler. become.
[0005]
[Problems to be solved by the invention]
In the natural defrosting method, when a large amount of frost is attached to the cooler, the cooler frost cannot be completely removed unless the refrigeration apparatus is turned off for a long period of time. In this case, the state in which the internal temperature is high is prolonged as long as the refrigeration apparatus is turned off for a long period of time, and the internal cooling state cannot be maintained properly.
[0006]
The objective of this invention is obtaining the defrost control apparatus of the refrigerator which can maintain the cooling state in a store | warehouse | chamber appropriately while being able to remove the frost of a cooler reliably.
[0007]
[Means for Solving the Problems]
The refrigerator defrost control device targeted by the present invention includes a cooling means 2 for cooling the inside 1a by the cooler 2a, a temperature setting means 5a for presetting a set value D0 of the inside temperature D, and the inside temperature. Temperature detecting means 3 for detecting D, and control means 6 for controlling on / off of the cooling means 2 so that the internal temperature D is maintained within a temperature range determined according to the set value D0, The frost adhering to the cooler 2a is defrosted during the off period of the cooling means 2.
[0008]
The present invention includes frost detection means 4 for detecting frost adhering to the cooler 2a. If the frosting detection means 4 detects frost in the cooler 2a when the inside temperature D reaches the upper limit value D2 of the temperature range by turning off the cooling means 2, the control means 6 Even if D exceeds the upper limit value D2, the cooling means 2 is kept off, and the frost detection means 4 continues to detect frost in the cooler 2a, so that the internal temperature D is higher than the upper limit value D2. When reaching the above, the cooling means 2 is turned on.
[0009]
In addition, when the internal temperature D reaches the regulation value D3 by continuously detecting the frost in the cooler 2a, the counter 6 is provided with a counting unit 6a. The control unit 6 counts the count number of the counting unit 6a. When K reaches a predetermined number of times K0 set in advance, the cooling means 2 can be kept off until frost in the cooler 2a is not detected.
[0010]
Further, the control means 6 continues to turn off the cooling means 2 until the frost in the cooler 2a is not detected when a predetermined time T0 elapses after the inside temperature D reaches the regulation value D3. It can be made. Here, if the frost of the cooler 2a is not detected during a period from when the internal temperature D reaches the regulation value D3 until a predetermined time T0 (for example, 24 hours) elapses, the timing operation is reset. In addition, the case where the frost of the cooler 2a is not detected until the predetermined time T0 has elapsed includes, for example, the case where the timing operation is continued even if there is about 1 to 2 hours.
[0011]
When the ON period of the cooling unit 2 exceeds a predetermined ON period set in advance, the control unit 6 may turn off the cooling unit 2 until frost in the cooler 2a is not detected.
[0012]
[Effects of the invention]
When the frost in the cooler 2a is detected when the internal temperature D reaches the upper limit value D2 of the temperature range determined according to the set value D0, Even if D exceeds the upper limit value D2, the cooling means 2 is kept off so that the defrosting action of the frost deposited on the cooler 2a is promoted by the cooling means 2 being kept off. The deterioration of the cooling effect of 2a is reliably reduced.
[0013]
When the frost in the cooler 2a continues to be detected and the internal temperature D reaches the regulation value D3, the cooling means 2 is forced even if the frost attached to the cooler 2a is not completely defrosted. By turning on automatically, it is reliably prevented that the cooling means 2 is turned off for a long period of time, and the internal temperature becomes too high, and the cooling state of the internal 1a can be maintained appropriately.
[0014]
The case where the internal temperature D reaches the regulation value D3 by continuously detecting the frost in the cooler 2a is counted, and when the count number K reaches the predetermined number K0, the cooling means 2 continues until the frost is not detected. When the turning-off is continued, frost is prevented from remaining on the cooler 2a for a long time. Therefore, it is reliably prevented that the cooling action of the cooler 2a is deteriorated due to the frost, and the cooling state of the interior 1a can be more appropriately maintained.
[0015]
Further, when a predetermined time T0 has elapsed since the inside temperature D reached the regulation value D3, for example, frost is generated in the cooler 2a by continuing to turn off the cooling means 2 until frost in the cooler 2a is not detected. Even when it remains attached for a long period of time, the cooling effect of the cooler 2a is reliably prevented from being deteriorated by the frost, and the cooling state of the interior 1a can be more appropriately maintained.
[0016]
When the ON period of the cooling means 2 exceeds the predetermined ON period, the cooling means 2 is turned off until the frost in the cooler 2a is no longer detected. Can be reliably prevented from adhering for a long period of time, and the cooling action of the cooler 2a can be reliably prevented from deteriorating, and the cooling state of the interior 1a can be maintained more appropriately.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
1 and 2 illustrate a defrost control device for a refrigerator according to the present invention. As shown in FIG. 1, a refrigerator 1 a of a cooling device (cooling means) 2, An internal temperature sensor (temperature detecting means) 3 for detecting the internal temperature, a frosting sensor (frosting detecting means) 4 for detecting frost adhering to the cooler 2a, and the like are arranged. The refrigerator 1 corresponds to a refrigerated storage for chemicals or a refrigerated showcase.
[0018]
The cooling device 2 includes a compressor 2b, a condenser 2c, the cooler 2a, and the like, and the inside of the warehouse 1a is cooled by the cooler 2a as the refrigerant circulates in the pipe line 2d connecting them. As shown in FIG. 2, an operation panel 5 having an operation switch (temperature setting means) 5 a for presetting the internal temperature, a display unit 5 b for displaying the internal temperature, and the like are provided on the front surface of the refrigerator 1. In the refrigerator 1, a control unit (control means) 6 for controlling the compressor 2b of the cooling device 2 and the like are arranged.
[0019]
The controller 6 has an internal temperature detected by the internal temperature sensor 3 within a temperature range determined according to the set value of the internal temperature set by the operation switch 5a, for example, ± 1 ° C. with respect to the set value. The cooling device 2 is controlled to be turned on / off so that the internal temperature is maintained within the temperature range. That is, the controller 6 turns on the cooling device 2 when the internal temperature reaches a temperature (upper limit value) higher than the set value by, for example, 1 ° C., and the internal temperature is lower by 1 ° C. than the set value, for example. When the temperature (lower limit) is reached, the cooling device 2 is turned off.
[0020]
The controller 6 controls the cooling device 2 so that the off period of the cooling device 2 becomes longer when the frost attached to the cooler 2a is detected by the frost sensor 4 when the internal temperature reaches the upper limit. Then, the frost defrosting (defrosting) action by turning off the cooling device 2 is promoted. When the frost sensor 4 detects that the temperature of the cooler 2a is lower than 4 ° C., for example, the control unit 6 determines that frost is attached to the cooler 2a.
[0021]
Further, the control unit 6 increases a counter 6a (FIG. 2) that counts the number of times when the control unit 6 has reached a regulation value that is higher by, for example, 2 ° C. than the upper limit value by extending the off period of the cooling device 2. Have. The regulation value is determined according to the set value. The control unit 6 includes a timer 6b (FIG. 2) that turns on the timing operation when frost is attached to the cooler 2a even when the regulation value is reached.
[0022]
Next, the control operation of the refrigerator 1 by the control unit 6 will be specifically described with reference to the flowchart of FIG. 3 and the timing chart of FIG. Note that the set value D0 of the internal temperature is set in advance by the operation switch 5a, and the timer 6b and the counter 6a are reset when the operation of the refrigerator 1 is started.
[0023]
When the operation of the refrigerator 1 is started, the cooling device 2 is turned on (step S1), and the internal temperature D is lowered when the cooling device 2 is turned on. Then, the ON state of the cooling device 2 continues until the internal temperature D detected by the internal temperature sensor 3 reaches the lower limit value D1 (NO in step S2).
[0024]
When the internal temperature D reaches the lower limit value D1 (YES in step S2), the cooling device 2 is turned off in step S3 (time point t1). Until the inside temperature D rises and reaches the upper limit value D2 due to this turn-off (NO in step S4), the cooling device 2 remains off. In addition, in the off period of this cooling device 2, the frost adhering to the cooler 2a is naturally thawed and defrosted by the ambient temperature or the like.
[0025]
When the internal temperature D reaches the upper limit value D2 (YES in step S4), it is determined in step S5 whether or not the frost sensor 4 has detected frost adhering to the cooler 2a, and the frost is not detected. (NO in step S5) After the timer 6b and the counter 6a are reset in step S6, the process returns to step S1 and the cooling device 2 is turned on (time point t2). This on / off control of the cooling device 2 is repeated until frost in the cooler 2a is detected.
[0026]
When the internal temperature D reaches the upper limit value D2 (time point t3), when frost in the cooler 2a is detected (YES in step S5), the cooler 2a is in the off period of the cooler 2a. Since the adhering frost was not completely defrosted, the cooling device 2 is kept off even when the internal temperature D exceeds the upper limit value D2.
[0027]
Then, in step S7, it is determined whether or not the internal temperature D has reached a regulation value D3 that is higher than the upper limit value D2. If the frost in the cooler 2a is not detected (NO in step S8) before the internal temperature D reaches the regulation value D3 (NO in step S7), the timer 6b and the counter 6a are reset in step S9. Returning to step S1, the cooling device 2 is turned on.
[0028]
On the other hand, when the frost in the cooler 2a continues to be detected (YES in step S8), when the internal temperature D reaches the regulation value D3 (YES in step S7), the time counting operation of the timer 6b is turned on in step S10. In step S11, the count number K of the counter 6a is incremented by one. Note that the timer 6b continues to measure time until it is reset.
[0029]
In step S12, it is determined whether or not the time T measured by the timer 6b has reached a predetermined time T0 (for example, 24 hours) set in advance. If the time T has not reached the predetermined time T0 (NO in step S12). It is determined whether or not the count number K has reached a predetermined number of times K0 set in advance (step S13). If the count number K has not reached the predetermined number K0 (NO in step S13), even if the frost attached to the cooler 2a is not completely defrosted, the process returns to step S1 and the cooling device 2 is turned on ( Time t4). Thereby, it is prevented that the cooling device 2 is turned off for a long time and the internal temperature becomes too high.
[0030]
Even if the cooling device 2 is repeatedly turned on and off, the frost adhering to the cooler 2a is not completely defrosted, and when the time T reaches the predetermined time T0 (YES in step S12), the cooler In order to prevent frost from adhering to 2a for a long time, the cooling device 2 is kept off until frost in the cooler 2a is not detected (YES in step S14). When frost in the cooler 2a is no longer detected (NO in step S14), the timer 6b and the counter 6a are reset in step S15, and then the process returns to step S1 to turn on the cooling device 2.
[0031]
Even if the time count T does not reach the predetermined time T0 (NO in step S12), for example, when the count number K reaches the predetermined number K0 at time t5 (YES in step S13), the cooler is determined in step S14. Until the frost of 2a is no longer detected, the cooling device 2 is kept off (YES in step S14). Also in this case, if frost in the cooler 2a is not detected (NO in step S14), the counter 6a is reset in step S15, and then the process returns to step S1 to turn on the cooling device 2.
[0032]
Only when the count number K of the counter 6a reaches the predetermined number K0 without providing the timer 6b, the cooling device 2 may be forcibly continued in the off state until no frost is detected in the cooler 2a. Only when the timer 6b reaches the predetermined time T0 without providing the counter 6a, the off state of the cooling device 2 may be forcibly continued until frost in the cooler 2a is not detected.
[0033]
In addition, the cooling device 2 is turned on for a long period of time due to a large amount of items stored in the warehouse 1a or the ambient temperature becoming high, and the on period is set to a predetermined on period ( For example, if frost adhering to the cooler 2a is detected at that time, the cooling device 2 is forcibly turned off even if the internal temperature D does not reach the lower limit value D1. Then, the off state of the cooling device 2 may be forcibly continued until frost in the cooler 2a is no longer detected.
[Brief description of the drawings]
FIG. 1 is a block configuration diagram of a refrigerator according to the present invention.
FIG. 2 is a block configuration diagram of a defrosting control device.
FIG. 3 is a flowchart showing the operation of the refrigerator.
FIG. 4 is a timing chart for explaining the operation of the refrigerator.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Refrigerator 1a Chamber 2 Cooling device 2a Cooler 3 Chamber temperature sensor 4 Frosting sensor 5a Operation switch 6a Counter 6b Timer D Chamber temperature D0 Set value D1 Lower limit D2 Upper limit D3 Restriction value K Count number K0 Predetermined number T0 Predetermined time

Claims (4)

Cooling means 2 for cooling the interior 1a by the cooler 2a, temperature setting means 5a for presetting the set value D0 of the interior temperature D, temperature detecting means 3 for detecting the interior temperature D, and the set value D0 Control means 6 for controlling on / off of the cooling means 2 so that the internal temperature D is maintained within a temperature range determined according to
In the refrigerator where the frost attached to the cooler 2a is defrosted during the off period of the cooling means 2,
Frosting detection means 4 for detecting frost adhering to the cooler 2a is provided,
If the frosting detection means 4 detects frost in the cooler 2a when the inside temperature D reaches the upper limit value D2 of the temperature range by turning off the cooling means 2, the control means 6 Even if D exceeds the upper limit value D2, the cooling means 2 is kept off, and the frost detection means 4 continues to detect frost in the cooler 2a, so that the internal temperature D is higher than the upper limit value D2. The defrosting control device for a refrigerator is characterized in that the cooling means 2 is turned on when the temperature reaches the value. When the internal temperature D reaches the regulation value D3 by continuously detecting the frost in the cooler 2a, the counter 2a is provided with a counting unit 6a that counts it.
2. The control means according to claim 1, wherein when the count number K of the counting means 6a reaches a preset predetermined number K0, the cooling means 2 continues to be turned off until frost in the cooler 2a is no longer detected. Defrost control device for refrigerator. The control means 6 continues the turning off of the cooling means 2 until the frost of the cooler 2a is not detected after a predetermined time T0 has passed since the inside temperature D reaches the regulation value D3. The defrost control device for a refrigerator according to claim 1 or 2. 4. The refrigerator according to claim 1, wherein the control means 6 turns off the cooling means 2 until the frost of the cooler 2a is not detected when the ON period of the cooling means 2 exceeds a predetermined ON period set in advance. Defrost control device.

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