DE102017213864A1 - Control method for a refrigerator and refrigerator using such a control method - Google Patents

Abstract

The present invention provides a control method for a refrigerator, comprising the steps of: setting a preliminary defrost interval for initiating a next defrosting operation after completion of the preceding defrosting operation depending on the operating state of the refrigerator before completion of the preceding defrosting operation, correcting the provisional defrosting interval depending on the operation and use state of the refrigerator after completion of the preceding defrosting operation to obtain a corrected actual defrosting interval, determining whether the elapsed time after completion of the preceding defrosting operation has reached the corrected actual defrosting interval, and initiating the next defrosting operation if so. Thus, at a time when a defrosting operation is actually required, the refrigerator can initiate a defrosting operation, thereby reducing power consumption and ensuring the refrigeration efficiency of the refrigerator.

Description

Field of the invention

The present invention relates to the field of refrigerators, more particularly to a control method for a refrigerator and a refrigerator using such a control method.

Technical background

In the course of using a household refrigerator, the formation of ice sheets on the evaporator of a refrigerating compartment and freezing compartment is unavoidable, so that a regular switching on a mounted on the evaporator heater for defrosting the evaporator is necessary, the defrost water is discharged through a water drainage line. Accordingly, the operation control of a refrigerator includes a cooling cycle of the storage compartment and a defrost cycle of the evaporator.

In the prior art, the defrosting of a refrigerator usually takes place after a fixed defrost interval. Due to significant differences in the environment of use and the conditions of use of the refrigerators, the actual formation of ice sheets varies considerably. A fixed defrost interval results in the following disadvantages due to the lack of adaptation as a function of the actual formation of ice sheets in different refrigerators: 1. If the defrost interval is too long, defrosting will not take place in time even if thick ice sheets are formed in a refrigerator, thus reducing the cooling efficiency of the refrigerator. and (2) defrosting occurs even with the formation of very thin layers of ice at a short defrost interval, resulting in frequent defrosting of the refrigerator and wasting energy.

Disclosure of the invention

The present invention has for its object to solve the problem in the prior art that an adjustment of the defrost interval depending on the actual use state of the refrigerator is not possible.

According to the invention, the object is achieved by a control method for a refrigerator comprising the steps of: setting a preliminary defrost interval for initiating a next defrosting operation after completion of the preceding defrosting operation depending on the operating state of the refrigerator before completion of the preceding defrosting operation, correcting the preliminary defrosting interval depending on Operation and use state of the refrigerator after completion of the preceding defrosting operation to obtain a corrected actual defrosting interval, and determining whether the elapsed time after completion of the preceding defrosting operation has reached the corrected actual defrosting interval and initiating the next defrosting operation, if so ,

In a further development of the present invention, it is provided that the operating state of the cooling tank before completion of the preceding defrosting operation comprises the operating time of the heating device during the preceding defrosting operation and / or the preceding actual defrosting interval.

In a further development of the present invention, it is provided that the longer the operating time of the heating device during the preceding defrosting operation, the shorter the preset preliminary defrosting interval for initiating the next defrosting operation, the shorter the operating time of the heating device during the preceding defrosting operation, the longer is the preset preliminary defrost interval for initiating the next defrost operation.

In a further development of the present invention, it is provided that the longer the preceding actual defrost interval, the longer the preset preliminary defrost interval for initiating the next defrosting operation.

In a further development of the present invention, it is provided that the provisional defrost interval is corrected as a function of the cumulative door opening time and / or the cumulative number of door opening operations of the compartment after completion of the preceding defrosting operation.

In a further development of the present invention, it is provided that the shorter the time interval between the completion of the preceding defrosting operation and a door opening operation, the more the preliminary defrosting interval is shortened.

In a further development of the present invention, it is provided that the longer the cumulative door opening time and / or the higher the cumulative number of door opening operations, the more the preliminary defrost interval is shortened.

In a further development of the present invention, it is provided that the provisional defrost interval is corrected as a function of the duration of a one-time continuous cooling process of a compartment after completion of the preceding defrosting operation.

In a further development of the present invention, it is provided that the provisional Defrost interval is shortened accordingly, if the duration of a one-time continuous cooling process of a compartment after completion of the previous defrosting process is equal to or greater than a preset cooling time.

In a further development of the present invention, it is provided that the preliminary defrost interval is correspondingly shortened to a preset minimum interval if the door of the compartment is opened at least once during the one-time continuous cooling process.

In a further development of the present invention, it is provided that no further correction of the actual defrost interval takes place depending on the operating and use state of the refrigerator when the corrected actual defrost interval reaches the preset minimum interval.

In a further development of the present invention, it is provided that the provisional defrost interval is set to the operating time of the refrigerator and / or the cumulative cooling time of the compartment after completion of the preceding defrosting operation.

In a further development of the present invention, it is provided that the provisional defrost interval is no longer extended depending on the operating state of the refrigerator before the conclusion of the preceding defrosting operation when the provisional defrosting interval reaches a preset maximum preliminary interval.

In a further development of the present invention, it is provided that the control method for a refrigerator further comprises the steps of: determining whether the refrigerator is running again after a power interruption, detecting the temperature of the evaporator, if so, and resetting the defrost interval in the refrigerator control the original preliminary defrost interval for initiating the next defrost operation when the detected temperature of the evaporator is equal to or greater than a first preset temperature, or taking a time resulting from subtracting a preset power interruption time from a defrost interval stored at power interruption in the refrigerator control, as the preliminary defrost interval for initiating the next defrost operation when the detected temperature of the evaporator is less than the first preset temperature.

In a further development of the present invention, it is provided that the control method for a refrigerator further comprises the steps of: determining whether the refrigerator is to start a freezing mode, determining whether the remaining interval until initiation of the next defrosting operation is equal to or less than a preset interval when the refrigerator starts the freezing mode and initiating a defrosting operation before starting the freezing mode when the remaining interval is equal to or less than a preset interval.

In a further development of the present invention, it is provided that the refrigerator initiates a defrosting operation when a continuous cooling process of a compartment starts from the start of the freezing mode until a first preset operating time has elapsed.

In a further development of the present invention it is provided that it is determined whether the refrigerator is to end the freezing mode, wherein it is determined whether the time of the already made continuous cooling process of the compartment is equal to or greater than a second preset operating time when the refrigerator Completed frozen mode, wherein immediately after completion of the freezing mode, a defrosting operation is initiated when the time of the already made continuous cooling process of the tray is equal to or greater than the second preset operating time.

According to the invention the object is further achieved by a refrigerator comprising a cabinet body with a compartment, a cooling and Abtausystem and a controller for controlling the cooling and Abtausystems, wherein the cooling and Abtausystem a compressor, an evaporator, a fan, a Defrost heater, etc., and the controller includes a temperature sensor for detecting the temperature of the evaporator, wherein the controller controls the operation of the refrigerator according to the above control method.

Advantageously, the present invention is characterized in that the defrosting interval can be conveniently adjusted depending on the actual operating and use condition of the refrigerator, which contributes to a more accurate and intelligent control of the defrosting operation, such that the refrigerator actually defrosts at a time is required to initiate a defrosting operation, thereby performing the task of defrosting as needed, reducing power consumption, and ensuring the refrigeration efficiency of the refrigerator.

Presentation of the pictures

Show it

1 a refrigerator according to an embodiment of the present invention in a schematic longitudinal sectional view,

2 the defrost control according to an embodiment of the present invention in a logic diagram,
where the reference numerals 1 for cabinet bodies, 2 for subject, 3 for compressors, 4 for evaporators, 5 for fans, 6 for evaporator lid and 10 stand for the back wall.

Concrete embodiments

The embodiments of the present invention will now be described in detail and fully with reference to the accompanying drawings in the embodiments according to the present invention, it being understood that the described embodiments represent only selected instead of all embodiments of the invention. All other embodiments obtained by those of ordinary skill in the art from the embodiments of the invention without inventive activities are within the scope of the invention.

How out 1 can be seen, the household refrigerator according to an embodiment of the invention, a cabinet body 1 with a tray 2 , a cooling and defrosting system, and a controller for controlling the cooling and defrosting system. The cooling and defrost system comprises a compressor 3 , an evaporator 4 , a fan 5 , a defrost heater (not shown), etc., and the controller includes a temperature sensor for evaporators for detecting the temperature of the evaporator and a temperature sensor (not shown) for compartments for detecting the temperature of the compartments. In the present embodiment, the tray 2 around a freezer compartment of the refrigerator, the temperature of which is usually set to minus 18 degrees, in other embodiments the compartment 2 Of course, it can also be configured as a refrigerating compartment or a variable temperature compartment. This is the evaporator 4 around one between the back wall 10 of the cabinet body 1 and the evaporator lid 6 arranged freezer compartment evaporator (the space in which the evaporator is accommodated, can be referred to as the evaporator space) and the fan 5 around an evaporator fan arranged above the freezer evaporator and in its vicinity, the vanes of which are arranged horizontally and a small distance from the rear wall 10 of the cabinet body 1 or to the evaporator lid 6 exhibit. The heater can be a conventional heating wire, which is arranged in the vicinity of the fins and coolant line of the evaporator and thus firmly connected. The evaporator temperature sensor may be disposed on the evaporator to detect its temperature, while the fan temperature sensor may be disposed on an inner wall of the freezer compartment to detect the temperature within the freezer compartment, wherein a temperature detected by the two temperature sensors is for processing is fed back to a control board of the controller. Depending on the processing result, the controller sends a corresponding control signal to the compressor 3 , the evaporator 4 , the fan 5 , the heater, etc., to provide a controlled cooling of the freezer and defrost the evaporator 4 to enable.

• 1. Voreinstellen eines vorläufigen Abtauintervalls: Festlegen eines vorläufigen Abtauintervalls zum Einleiten eines nächsten Abtauvorgangs nach Abschluss des vorangehenden Abtauvorgangs in Abhängigkeit des Betriebszustands des Kühlschanks vor Abschluss des vorangehenden Abtauvorgangs,
• 2. Korrigieren des vorläufigen Abtauintervalls: Korrigieren des vorläufigen Abtauintervalls in Abhängigkeit des Betriebs- und Verwendungszustands des Kühlschranks nach Abschluss des vorangehenden Abtauvorgangs, um ein korrigiertes tatsächliches Abtauintervall zu erhalten,
• 3. Einleiten des nächsten Abtauvorgangs nach dem tatsächlichen Abtauintervall: Feststellen, ob die verstrichene Zeit nach Abschluss des vorangehenden Abtauvorgangs das korrigierte tatsächliche Abtauintervall erreicht hat, und Einleiten des nächsten Abtauvorgangs, wenn dies der Fall ist.

There is usually a certain defrost interval between two consecutive defrosts of the refrigerator, and there are many drawbacks due to fixed defrost interval for initiating defrosting in the prior art, such as impaired refrigeration capacity of the refrigerator due to deficient defrost or energy wastage due to frequent defrost, such that an intelligent defrost Adjustment must be made as a function of the actual operating and use state of the refrigerator in order to determine an exact defrost interval for initiating a corresponding defrosting operation. For this purpose, the present invention provides an optimized control logic for defrosting the refrigerator, which, as is apparent from 2 results, especially the following stages:

• 1. presetting a preliminary defrost interval: setting a preliminary defrost interval for initiating a next defrosting operation after completion of the preceding defrosting operation depending on the operating state of the refrigerator before completion of the preceding defrosting operation,
• 2. Correcting the Preliminary Defrost Interval: Correcting the Preliminary Defrost Interval depending on the operating and use condition of the refrigerator after completion of the previous defrost operation to obtain a corrected actual defrost interval.
• 3. Initiate the next defrost operation after the actual defrost interval: determine if the elapsed time has reached the corrected actual defrost interval after the completion of the previous defrost operation, and if so initiate the next defrost operation.

The provisional defrost interval may be the operating time of the refrigerator and / or the cumulative refrigeration duration of the compartment 2 between the completion of the preceding defrosting operation and the initiation of the next defrosting operation. When a time value of the refrigerator operating time or the cumulative cooling time of the refrigerator fold 2 reaches the preliminary defrost interval, the next defrosting process can be initiated.

First, when the preliminary defrost interval is preset, it is provided that the refrigerator controller, after completion of the preceding defrosting operation, sets a preliminary defrost interval for initiating the next defrosting operation depending on the operating state of the refrigerator before completion of the preceding defrosting operation (including the preceding actual defrosting interval and execution of the preceding defrosting operation). set in advance. The magnitude of the provisional defrost time value is influenced primarily by the following two operating states of the refrigerator: 1. the continuous operating time of the heater during the previous defrost cycle, 2. the previous actual defrost interval. The two operating states can influence the value of the preliminary defrost interval both independently of one another and combined with one another.

In one embodiment, it is provided that with a longer operating time of the heater during the previous defrosting control determines the formation of thick ice sheets on the evaporator and assumes that despite long operating time of the heater, the ice sheets are not completely defrosted and accordingly the preliminary defrost interval for initiating shortened more of the next defrosting, so that the complete defrosting of the ice sheets on the evaporator 4 the next defrosting operation will soon be initiated to ensure the cooling line of the refrigerating capacity of the refrigerator, conversely, with a shorter operating time of the heater during the preceding defrosting operation, the controller will thus detect a complete or basically complete defrost of the ice sheets on the evaporator and, accordingly, the preliminary defrost interval extended to initiate the next defrost operation to prevent premature initiation of the next defrost operation. Thus, by avoiding frequent initiation of unnecessary defrosts, power consumption can be saved.

In one embodiment, it is contemplated that, with a longer actual defrost interval, the controller will control the formation of thin layers of ice on the evaporator 4 and, accordingly, longerens the preliminary defrost interval to initiate the next defrost operation to delay the initiation of the next defrost operation.

In one embodiment, the value of the preliminary defrost interval is determined taking into account the approaching operating time of the heater and the approaching actual defrost interval. With a very long actual defrost interval and a very short operating time of the heater during the approaching defrost, the controller controls the formation of very thin layers of ice on the evaporator 4 and, accordingly, lengthens the preliminary defrost interval to initiate the next defrost operation to more delay the initiation of the next defrost operation.

In the above embodiment, the preliminary value of the preliminary defrost interval is subject to a maximum value. If the preliminary defrost interval under combined influence of various operating conditions of the refrigerator reaches a preset maximum provisional interval, the provisional defrost interval is no longer prolonged depending on the operating state of the refrigerator before the completion of the preceding defrosting operation.

In addition, in the correction of the preliminary defrost interval, it is provided that the correction of the preset defrost interval by the operation and use state of the refrigerator after the completion of the preceding defrosting process affects which operating and use state mainly includes two factors, that is, the door opening of the compartment 2 and the duration of a one-time continuous cooling process of the compartment 2 ,

In one embodiment, the tray corrects 2 in the course of operation and use of the refrigerator after completion of the previous defrosting operation at each opening of the door accordingly the provisional defrosting interval, since with the opening of the door of the compartment 2 warm and moist air in the compartment 2 penetrates, reducing the need for cooling the compartment 2 increases and the at the evaporator 4 thickened ice sheets are thickened, therefore, the control of each door opening accordingly shortens the preliminary interval to initiate the next defrosting process earlier. With multiple door openings of the compartment 2 it is envisaged that the shorter the interval between the completion of the preceding defrosting operation and a door opening operation, the more the preliminary defrosting interval is shortened, in other words, since the completion of the preceding defrosting operation, an earlier door opening operation has a greater influence on the formation of ice sheets on the Evaporator 4 exercises and so to more on the evaporator 4 additionally formed ice sheets, while a later door opening operation has less influence on the formation of ice sheets on the evaporator 4 exercises and less to the evaporator 4 additionally formed ice sheets leads.

Thus, with a longer accumulated door open time and / or a higher cumulative number of door open operations, the controller provides for the formation of thicker ice sheets on the evaporator 4 Accordingly, it will shorten the preliminary defrost interval more to initiate the next defrost operation earlier and prevent the cooling performance of the refrigerator from being impaired by forming too thick ice sheets on the evaporator.

In one embodiment, the controller corrects the tentative defrost interval based on the duration of a one-time continuous refrigeration of the bin 2 after completing the previous defrosting process. If the duration of a one-time continuous cooling process of the compartment 2 after completion of the preceding defrosting operation, equal to or greater than a preset cooling period, for example, the duration of a one-time continuous cooling operation of the compartment 2 is equal to or greater than 6 hours, the controller thus provides the formation of thick layers of ice on the evaporator 4 fixed and accordingly shortens the preliminary defrost interval. The default cooling time is a parameter that results from testing and relates to the duration of a continuous cooling operation of the compartment from the beginning of the cooling process to the formation of maximum ice layers on the evaporator. If the duration of a one-time continuous cooling process of the compartment 2 is equal to or greater than a preset cooling time, and during the one-time continuous cooling operation, the door of the compartment 2 The control then determines the formation of maximum ice sheets on the evaporator at least once so that, accordingly, the preliminary defrost interval is shortened to a preset minimum interval, for example, a preset value of 12 hours, and thereafter not shortened.

In one of the above embodiments, the corrected actual defrost interval is subject to a minimum value.

If the corrected actual defrost interval reaches a preset minimum interval, set to, for example, 12 hours, then the actual defrost interval is no longer corrected by the controller depending on the operating and use state of the refrigerator, so that an adequate defrost cycle during operation of the refrigerator ensured and too frequent initiation of defrosting is avoided.

In one embodiment, a power interruption during operation of a refrigerator is inevitable. When the refrigerator starts to run again after a power failure, the temperature of the evaporator first changes 4 detected, wherein at a detected temperature of the evaporator, which is equal to or higher than a first preset temperature, for example, equal to or higher than 8 degrees, the controller thus the formation of basically no ice layers on the evaporator 4 and resets the defrost interval in the refrigerator control to the original preliminary defrost interval for initiating the next defrost operation, the original provisional defrost interval referring to a preliminary defrost interval stored upon initial operation of the refrigerator after power up in the controller, wherein at a sensed evaporator temperature, which is lower than the first preset temperature, for example, lower than 8 degrees, the controller thus controls the presence of the evaporator 4 and accumulates a time resulting from subtracting a preset power interruption time from a defrost interval stored at power interruption in the refrigerator control, as the preliminary defrost interval for initiating the next defrost operation. The preset power interruption time is a preset fixed reference value set to, for example, 2 hours.

In one embodiment, starting a freezer mode during operation of a refrigerator is inevitable. When the refrigerator starts the freezing mode, it is first determined whether the remaining interval until initiation of the next defrosting operation is equal to or less than a preset interval, for example equal to or less than 6 hours, the control thus forming thicker ice sheets on the evaporator 4 determines and initiating a defrost operation for the compartment 2 before the start of the deep-freeze mode, when the remaining interval is equal to or less than 6 hours, thus significantly improving the cooling efficiency of the refrigerator in the deep-freezing mode.

When the time of a continuous cooling process of the subject 2 Thus, from the start of the freezing mode, equal to or greater than a first preset cooling time, for example, equal to or greater than 20 hours, the controller sets the formation of maximum ice sheets on the evaporator 4 fixed and the refrigerator immediately initiates a defrosting, so as to increase the cooling efficiency of the refrigerator during further operation in the freezer mode.

When the refrigerator completes the freezer mode, it is first determined whether the time of the already completed continuous refrigeration of the compartment 2 is equal to or greater than a second preset operating time, for example equal to or greater than 20 hours, wherein the controller controls the formation of maximum ice layers on the evaporator 4 and initiates an immediate initiation of the defrost operation upon completion of the freezer mode when, until the freezing mode is completed, the duration of the continuous refrigeration mode of the compartment 2 is equal to or greater than 20 hours.

The above description of disclosed embodiments enables those skilled in the art to make or use the present invention. Various modifications to such embodiments will be apparent to those skilled in the art, and the general principle defined herein may be implemented without departing from the spirit or scope of the invention, in other embodiments. Therefore, the invention is by no means limited by the illustrated embodiments, but corresponds to the largest scope consistent with the principles and news disclosed.

Claims (18)

A control method for a refrigerator, characterized by comprising the steps of: - setting a provisional defrost interval for initiating a next defrosting operation after completion of the preceding defrosting operation depending on the operating state of the refrigerator before the completion of the preceding defrosting operation, - correcting the preliminary defrosting interval depending on the operation and use state of the refrigerator after completion of the preceding defrosting operation to obtain a corrected actual defrosting interval, - determining whether the elapsed time after completion of the preceding defrosting operation has reached the corrected actual defrosting interval, and initiating the next defrosting operation, if so. A refrigerator controlling method according to claim 1, characterized in that the operating state of the refrigerator before the completion of the preceding defrosting operation includes the operating time of the heater during the preceding defrosting operation and / or the preceding actual defrosting interval. The refrigerator controlling method according to claim 2, characterized in that the longer the operating time of the heater during the preceding defrosting operation, the shorter the preset provisional defrosting interval for initiating the next defrosting operation, the shorter the operating time of the heater during the preceding defrosting operation, the longer the preset preliminary defrost interval for initiating the next defrost operation. A control method for a refrigerator according to claim 2 or 3, characterized in that the longer the preceding actual defrost interval, the longer the preset provisional defrost interval for initiating the next defrosting operation. A control method for a refrigerator according to claim 1, characterized in that the provisional defrost interval is corrected in accordance with the accumulated door opening time and / or the cumulative number of door opening operations of the compartment after completion of the preceding defrosting operation. A refrigerating control method according to claim 5, characterized in that the shorter the interval between completion of the preceding defrosting operation and a door opening operation, the more the preliminary defrosting interval is shortened. A control method for a refrigerator according to claim 5 or 6, characterized in that the longer the cumulative door opening time and / or the higher the cumulative number of door opening operations, the more the preliminary defrost interval is shortened. A control method for a refrigerator according to claim 1 or 5, characterized in that the provisional defrost interval is corrected depending on the duration of a one-time continuous cooling operation of a compartment after completion of the preceding defrosting operation. The control method for a refrigerator according to claim 8, characterized in that the preliminary defrost interval is shortened accordingly when the duration of a one-time continuous cooling operation of a compartment after completion of the preceding defrosting operation is equal to or more than a preset cooling period. A refrigerating control method according to claim 9, characterized in that the provisional defrost interval is appropriately shortened to a preset minimum interval when the door of the compartment is opened at least once during the one-time continuous refrigerating operation. A control method for a refrigerator according to claim 1 or 10, characterized in that no further correction of the actual defrost interval depending on the operation and use state of the refrigerator takes place when the corrected actual defrost interval reaches the preset minimum interval. Control method for a refrigerator according to claim 1, characterized in that the preliminary defrost interval is set to the operating time of the refrigerator and / or the cumulative refrigeration period of the compartment after completion of the preceding defrosting operation. A refrigerating control method according to claim 1 or 3 or 4, characterized in that the provisional defrosting interval is no longer prolonged depending on the operating state of the refrigerator before the completion of the preceding defrosting operation when the preliminary defrosting interval reaches a preset maximum preliminary interval. Control method for a refrigerator according to claim 1, characterized in that it further comprises the following steps: - determining whether the refrigerator is running again after a power interruption, - detecting the temperature of the evaporator, if this is the case, - resetting the defrost interval in the refrigerator control the original preliminary defrost interval for initiating the next defrost operation when the detected temperature of the evaporator is equal to or greater than a first preset temperature, or taking a time resulting from subtracting a preset power interruption time from a defrost interval stored at power interruption in the refrigerator control, as the preliminary defrost interval for initiating the next defrost operation when the detected temperature of the evaporator is less than the first preset temperature. A refrigerator control method according to claim 1, characterized by further comprising the steps of: - determining whether the refrigerator is to start a freezing mode, - determining whether the remaining interval until initiation of the next defrosting operation is equal to or less than a preset interval when the refrigerator starts the freezing mode, - initiating a defrosting operation before starting the freezing mode when the remaining interval is equal to or less than a preset interval. A refrigerator control method according to claim 15, characterized in that the refrigerator initiates a defrosting operation when a continuous refrigeration operation of a compartment is run from the start of the freezing mode to a first preset operating time. A control method for a refrigerator according to claim 15 or 16, characterized in that it is determined whether the refrigerator is to terminate the freezing mode, wherein it is determined whether the time of the already completed continuous cooling operation of the compartment is equal to or greater than a second preset operating time, when the refrigerator completes the freezing mode, immediately after the freezing mode is terminated, a defrosting operation is initiated immediately when the time of the continuous refrigerating operation of the compartment already being made is equal to or greater than the second preset operating time. A refrigerator comprising a cabinet body with a compartment, a refrigeration and defrost system, and a controller for controlling the refrigeration and defrost system, the refrigeration and defrost system comprising a compressor, an evaporator, a fan, a defrost heater, etc., and the controller a temperature sensor for detecting the temperature of the evaporator, characterized in that the controller controls the operation of the refrigerator according to the control method according to one of the preceding claims.

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