KR101679001B1 - The energy-saving device and method for refrigeration freezer - Google Patents

Abstract

The present invention relates to an energy saving device and method for a refrigerating freezer that can save energy without deteriorating cooling performance through control of an evaporator fan when a compressor stops, and more particularly, to an energy saving device and method thereof for controlling a power saving function. A door detecting unit for detecting a door state; A controller for controlling the operation of the evaporator fan based on the door detection signal detected by the door detection unit and the evaporator fan control program when the power saving function is set by the operation unit; And a fan driving unit for driving or stopping the evaporator fan for circulating cool air according to the control of the control unit. By implementing the energy saving device of the freezing freezer, energy can be saved without deteriorating cooling performance.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator freezer,

[0001] The present invention relates to energy saving of a freezing freezer, and more particularly, to an energy saving device for a refrigerator freezer that can reduce energy without deteriorating cooling performance through control of an evaporator fan when the compressor stops, And a method thereof.

Generally, the freezer and the refrigerator are installed in a home, a restaurant, a convenience store, a mart or the like and used for storage of food. In such a freezer and a refrigerator, the food is stored in the inside, but the refrigerator and the refrigerator As shown in Fig.

Such a freezer and a refrigerator are separately constituted separately from each other in a restaurant, a convenience store, or a shopping mall. In the case of an adult, the freezer forms a freezer at a height up to the waist When the user opens the ice tray, the upper opening and closing door of the freezer is opened and used.

In the case of an adult, a refrigerator is formed at a height up to the head portion of the refrigerator for storing fresh beverages, and a door is opened on the front of the refrigerator. When the user takes out the beverage, the refrigerator is opened and opened.

A showcase for displaying merchandise in a showroom to allow the merchandise in the showroom to be opened without opening the door can also be referred to as a refrigerated freezer and various types of refrigerated freezers such as refrigerators, freezers, and open doors without doors.

These various refrigerated freezers are classified into an indirect cooling type in which an evaporator is installed outside the storage room to cool the storage room by forcibly circulating the cold air through a fan, and a direct cooling type in which the storage room is surrounded by the evaporator to cool the storage room by conduction and natural convection.

Among them, the compressor control of the cold-freezer freezer compares the high-temperature set temperature set by the operator with the current warm-up temperature, and controls the operation of the compressor by controlling the operation of the compressor.

In addition, the evaporator fan control for circulating the cold air is operated in the normally on state when power is supplied regardless of the compressor driving, or the evaporator fan is stopped after a predetermined time elapses when the compressor is stopped by the setting. Here, the reason why the cold air is circulated to the evaporator fan is to suppress the occurrence of the frosting to prevent deterioration of the cooling performance.

BACKGROUND ART [0002] Conventional techniques for a show case and a freezing freezer are disclosed in Patent Document 1, Korean Patent Laid-Open Publication No. 10-2009-0053727 (published on May 27, 2009) and Korean Patent Laid- No. 0061345 (published on June 11, 2013), Korean Utility Model Registration No. 20-0191863 (Registered on May 30, 2000) and Patent Document 4 (Korean Patent Publication No. 10-2013-0096564) ).

The prior art disclosed in Patent Document 1 has a control device for controlling a plurality of show cases for illuminating a showroom for displaying goods with an LED lighting device, And an illumination sensor for sensing an approach of a person, and illuminates the illumination of the LED illumination devices of all of the plurality of show cases when the human detection sensor detects a human approach. As a result, the LED illumination device capable of ensuring a predetermined illuminance even in a low-temperature environment realizes appropriate illumination with high effect of directing.

The conventional art disclosed in Patent Document 2 includes a human body sensing unit for sensing a human body located in the vicinity of a display unit, a lighting unit provided on a rim of the display unit, and a lighting control unit for allowing light to follow the movement path of the customer And when the customer approaches the interaction showcase, it lights according to the customer's movement route so that the light follows the customer's movement route.

In addition, the conventional art disclosed in Patent Document 3 has a configuration in which a plurality of accommodating spaces are built up by one compressor, so that a large number of commodities or foodstuffs can be displayed and sold using one refrigeration showcase.

In addition, in the prior art disclosed in Patent Document 4, a freezing storage room such as an ice tray and a refrigeration storage room for maintaining the freshness of a beverage are provided in the freezing refrigerator, respectively, in a store such as a supermarket, And the LED lamp is operated when the opening / closing door is opened or closed, so that the inside can be identified.

Korean Patent Publication No. 10-2009-0053727 (Published on May 27, 2009) Korean Patent Publication No. 10-2013-0061345 (published on June 11, 2013) Korea Registered Utility Model Registration No. 20-0191863 (Registered May 30, 2000) Korean Patent Publication No. 10-2013-0096564 (published on Aug. 30, 2013)

However, since the conventional refrigeration freezer and conventional refrigeration refrigerator as described above controls the evaporator fan by always driving the evaporator fan irrespective of the driving of the compressor or stopping the evaporator fan after a certain time after the compressor is stopped according to the setting, Resulting in waste and deterioration of cooling performance.

That is, in the method of always driving the evaporator fan regardless of the compressor driving, power dissipation occurs, and the method of stopping the evaporator fan after a certain time after stopping the compressor accelerates the congestion and causes the deterioration of the cooling performance.

Accordingly, it is an object of the present invention to solve the above-mentioned problems encountered in the conventional freezing cold freezers and related arts, and it is an object of the present invention to provide a refrigerator freezer, The present invention provides an energy saving device and a method thereof for a refrigerator freezer.

According to an aspect of the present invention, there is provided an energy saving device for a cold storage freezer, including: an operation unit for setting a power saving function; A door detecting unit for detecting a door state; A control unit for controlling the power saving function by controlling driving of the evaporator fan based on the door detection signal sensed by the door sensing unit and the evaporator fan control program when the power saving function is set by the operation unit; And a fan driving unit for driving or stopping the evaporator fan for circulation of cool air according to the control of the control unit.

In this case, when the compressor is turned off during the power saving function, the controller repeatedly controls the evaporator fan on and off according to the set time.

The controller includes a compressor state detection module for detecting an operation state of the compressor; A door state detecting module for detecting an opening or closing state of the door; A function setting detecting module for detecting whether or not the power saving function is set; And a power saving control module for controlling driving of the evaporator fan according to an operation state of the compressor and an opening or closing state of the door when the power saving function is selected through the function setting detection module.

The power saving control module controls the evaporator fan on / off based on the power saving period of the evaporator fan when the compressor is stopped. When the door is opened in the evaporator fan off period in the power saving period of the evaporator fan, the evaporator fan off state is maintained When the opened door is closed in the evaporator fan-off period, the evaporator is turned on for a preset time after a predetermined time delay, and then the power-saving control is performed to return to the power-saving period.

The power saving control module turns off the evaporator fan when the door is opened in the evaporator fan on period and controls the evaporator fan on when the door is closed during the evaporator fan on period, And the evaporator fan is controlled based on the power saving period after turning on the evaporator fan for a set time after the delay.

In the power saving control module, when the evaporator fan off time is set to "0 ", the evaporator fan is normally turned on except when the door is opened.

According to an aspect of the present invention, there is provided a method of reducing energy in a refrigerating freezer according to the present invention includes the steps of: (a) performing initialization when power is supplied and confirming whether a power saving function is set; (b) if the power-saving function is not set as a result of the checking in the step (a), controlling the evaporator fan according to a previously set evaporator fan control method; (c) confirming the set fan-off time when the power-saving function is set as a result of the checking in the step (a); (d) controlling the operation of the evaporator fan according to the door state when the fan-off time is set to "0 " (e) detecting a driving state of the compressor when the fan-off time is not "0 " as a result of the checking in the step (c), and controlling driving of the evaporator fan according to the door state when the compressor is on; (f) detecting the driving state of the compressor in the step (e) and controlling the driving of the evaporator fan by entering the evaporator fan power saving control mode when the compressor is in the OFF state.

In the step (f), when the compressor is turned off during the power saving control function, the evaporator fan is repeatedly turned on and off according to the set time.

In the step (f), when the compressor is stopped, the evaporator fan is turned on / off based on the power saving period of the predetermined evaporator fan. When the door is opened in the evaporator fan off period in the power saving period of the evaporator fan, When the opened door is closed in the evaporator fan-off period, the evaporator fan is turned on for a predetermined set time after a predetermined time delay, and then the power-saving control is performed to return to the power-saving period.

In the step (f), when the door is opened in the evaporator fan-on period, the evaporator fan is turned off in a state where the evaporator fan is controlled based on the power saving period of the evaporator fan. When the door is closed in the evaporator fan- And the evaporator fan is controlled based on the power saving period after the evaporator fan is turned on for a set time after a time delay.

In the step (f), when the evaporator fan-off time is set to "0 ", the evaporator fan is normally turned on except when the door is opened.

According to the present invention, the driving of the evaporator fan is controlled in an on-off manner at the time of stopping the operation of the compressor, so that the energy consumption can be reduced by reducing the power consumption without reducing the cooling performance.

1 is a block diagram of an energy saving device of a refrigerating freezer according to a preferred embodiment of the present invention;
FIG. 2 is a block diagram of an embodiment of the control unit of FIG. 1;
FIG. 3 is a timing chart of the evaporator fan control in the power saving function according to the present invention,
4 is a flow chart illustrating a method of energy saving of a refrigerating freezer according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an energy saving apparatus and method for a refrigerating freezer according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an energy saving device of a refrigerating freezer according to a preferred embodiment of the present invention.

The apparatus for saving energy of a cold storage freezer according to a preferred embodiment of the present invention includes an operation unit 101, a temperature detection unit 102, a power supply unit 103, a control unit 104, a door detection unit 105, a fan driving unit 106, A driving unit 107, a memory 108, and a timer 109. [

The operating unit 101 means an input device for the operator to set a power saving function, set a temperature, or set a time.

The door sensing unit 105 senses an opening or closing state of the door. In order to detect a door, it is preferable to provide a door switch at a portion for detecting opening and closing of the door.

The temperature detector 102 detects the internal temperature and transmits the detected temperature to the controller 104, and it is preferable to use a conventional temperature sensor.

The power supply unit 103 serves to supply driving power to the controller 104 and other parts requiring power.

The fan driving unit 106 operates or stops the evaporator fan under the control of the controller 104. The compressor driving unit 107 drives or stops the compressor according to the control of the controller 104, .

The memory 108 stores a control program for power saving control. The timer 109 generates a time clock for time information and provides the time clock to the control unit 104. Based on this time clock, the control unit 104 generates the control timing diagram.

When the power saving function is set by the operation unit 101, the control unit 104 controls the operation of the evaporator fan based on the door detection signal detected by the door detection unit 105 and the evaporator fan control program, And the like. The control unit 104 preferably uses a controller such as a controller, a microprocessor, a microcomputer, and a central processing unit. The control unit 104 preferably repeatedly controls the evaporator fan on and off according to the set time when the compressor is turned off during the power saving function.

As shown in FIG. 2, the control unit 104 includes a compressor state detection module 111 for detecting an operation state of the compressor; A door state detection module 112 for detecting an opening or closing state of the door; A function setting detection module 113 for detecting whether or not the power saving function is set; And a power saving control module 114 for controlling driving of the evaporator fan according to the operation state of the compressor and the opening or closing state of the door when the power saving control function is selected through the function setting detection module 113.

The power saving control module 114 controls on / off of the evaporator fan based on the power saving period of the evaporator fan when the compressor is stopped. When the door is opened in the evaporator fan off period in the power saving period of the evaporator fan, And when the door opened in the evaporator fan-off period is closed, the evaporator fan is turned on for a predetermined set time after a predetermined time delay, and then the power-saving control is performed so as to return to the power-saving period.

The power saving control module 114 controls the evaporator fan based on the power saving period of the evaporator fan. When the door is opened in the evaporator fan-on period, the evaporator fan is turned off. In the evaporator fan- It is preferable to control the evaporator fan based on the power saving period after turning on the evaporator fan for a set time after a certain time delay.

In addition, when the evaporator fan off time is set to "0 ", the power saving control module 114 preferably controls the evaporator fan at all times except when the door is opened.

The operation of the energy saving device of the refrigerating freezer according to the preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3. FIG.

First, when the operation power is supplied by the power supply unit 103, the control unit 104 performs initialization, searches through the operation unit 101 for the temperature and the power saving function set by the administrator, And controls the driving to perform the power saving function.

Here, the method of controlling the driving of the compressor and the driving of the evaporator fan according to the internal temperature set by the manager is a control method of a general refrigerator freezer, and a detailed description for controlling the refrigerating freezer will be omitted.

On the other hand, when the power saving function is set by the administrator, the function setting detection module 113 of the control unit 104 detects that the power saving function is set and transmits the detected power saving function to the power saving control module 114.

The compressor state detection module 111 detects the operation state of the compressor and transmits the detected state to the power saving control module 114. The door state detection module 112 detects the door state and controls the power saving control module 114, .

When the power saving function is set, the power saving control module 114 controls the power saving function by controlling the operation of the evaporator fan based on the compressor operation state, the door state, and the evaporator fan control program.

For example, the power saving control module 114 controls driving of the evaporator fan using an evaporator fan control program based on the evaporator fan control timing (hereinafter abbreviated as "power saving period") as shown in FIG. Here, the power-saving period basically has a timing at which the evaporator fan is turned on for a predetermined time (Fn) and the evaporator fan is turned off for a predetermined time (FF). It is preferable that the time for turning on and off the evaporator fan is set through a lot of experiments for optimum efficiency. In the present invention, in the present invention, for example, the turning on time is 1 minute, the off time is 420 seconds, The turn on time was set to 40 seconds and the off time to 420 seconds.

The initial evaporator fan is turned on (Fn) for the set time by the power saving period, and then turned off (FF) for the set time after the evaporator fan on time elapses. When the compressor is driven as indicated by "A" in FIG. 3 during the control of the evaporator fan by the power saving period, the evaporator fan is turned on immediately without ignoring the power saving period.

Next, when the driving of the compressor is stopped again, the evaporator fan is controlled based on the power saving period. During the control of the evaporator fan through the power saving period of the evaporator fan, When the door is opened in the off period, the evaporator fan off state is maintained. When the door opened in the evaporator fan off period is closed as shown in "C & Possible) After the delay, turn on the evaporator fan for the preset time, then return to the power saving cycle.

3, when the door is opened in the evaporator fan-on period, the evaporator fan is turned off and the "E" is turned on. When the evaporator fan is turned on, When the door is closed in the evaporator fan-on period, the evaporator fan is turned on for a set time (for example, 3 seconds, which can be changed by the administrator for a predetermined time) Controls the fan.

Further, as shown in "F" of FIG. 3, when the compressor is driven, the evaporator fan is always turned on except for the door opening. In performing the power saving control function, if the fan sets the fan-off time (Ff) to "0", the evaporator fan is unconditionally operated except for the door opening.

As described above, according to the present invention, when the compressor is stopped, the evaporator fan is controlled according to the power saving period implemented in the on-off repetition mode, so that the deterioration of the frost formation can be suppressed to prevent the deterioration of the cooling performance. By shortening the driving time, the power consumption can be reduced and the energy can be saved.

FIG. 4 is a flowchart illustrating a method of reducing energy of a freezer according to the present invention, wherein S represents a step.

The energy saving method of a freezer refrigerator according to the present invention includes the steps of: (a) performing initialization when power is supplied, and confirming whether a power saving function is set (S101 to S103); (b) if it is determined in the step (a) that the power-saving function is not set, controlling the evaporator fan according to the established evaporator fan control method (S104); (c) a step (S105) of checking the set fan-off time when the power saving function is set as a result of the checking in the step (a); (d) controlling the operation of the evaporator fan according to the door state when the fan-off time is set to "0 " (S106 to S108); (e) if the fan-off time is not "0" as a result of the checking in the step (c), detecting the driving state of the compressor and controlling the driving of the evaporator fan according to the door state when the compressor is on (steps S109 and S111 ~ S113); (f) detecting a driving state of the compressor in the step (e), and when the compressor is off, entering the evaporator fan power saving control mode to control driving of the evaporator fan (S110).

In the step (f), it is preferable that the evaporator fan is repeatedly turned on and off according to the set time when the compressor is turned off during the power saving function. Preferably, the evaporator fan is turned on / off based on the power- Off state of the evaporator when the door is opened in the evaporator fan off period in the power saving period of the evaporator fan, and when the door is closed in the evaporator fan off period, It is more preferable to perform the power saving control so as to return to the power saving period thereafter.

In the step (f), the evaporator fan is turned off when the door is opened in the evaporator fan-on period in a state where the evaporator fan is controlled based on the power saving period of the evaporator fan. When the door is closed in the evaporator fan- After the evaporator fan is turned on for a set time after a certain time delay, the evaporator fan is controlled based on the power saving period. When the evaporator fan off time is set to "0 ", the evaporator fan is normally turned on except for opening the door.

The energy saving method of the refrigerating freezer according to the preferred embodiment of the present invention will be described in detail as follows.

First, when the operation power is supplied by the power supply unit 103 in step S101, the control unit 104 performs initialization in step S102. In step S103, whether or not the temperature and the power saving function set by the administrator are selected through the operation unit 101 Based on which the driving of the evaporator fan is controlled to perform the power saving function.

Here, the method of controlling the driving of the compressor and the evaporator fan according to the internal temperature set by the manager is a control method of a general refrigerator freezer, so that a detailed description of controlling the refrigerating freezer based on this is omitted (S104).

On the other hand, when the power saving function is set by the administrator, the function setting detection module 113 of the control unit 104 detects that the power saving function is set and transmits the detected power saving function to the power saving control module 114. The compressor state detection module 111 detects the operation state of the compressor and transmits the detected state to the power saving control module 114. The door state detection module 112 detects the door state and controls the power saving control module 114, .

When the power saving function is set, the power saving control module 114 controls the power saving function by controlling the operation of the evaporator fan based on the compressor operation state, the door state, and the evaporator fan control program.

For example, the power saving control module 114 moves to step S105 in the power saving function to check whether the evaporator fan off time is set to "0 ", and if the evaporator fan off time is set to" 0 & Check that the door state is open. If it is determined that the door is in the open state, the operation proceeds to step S108 to turn off the evaporator fan irrespective of the drive of the compressor. Otherwise, if the door is closed, the operation proceeds to step S107 to control the evaporator fan to be in the normally on state.

On the other hand, if it is determined in step S105 that the fan-off time Ff is not 0, the evaporator fan control program based on the evaporator fan control timing (hereinafter abbreviated as "power saving period" And controls the driving of the fan. Here, the power-saving period basically has a timing at which the evaporator fan is turned on for a predetermined time (Fn) and the evaporator fan is turned off for a predetermined time (FF).

The evaporator fan is controlled using the power saving period, and the operating state of the compressor is first checked as in step S109. At this time, if the operating state of the compressor is on, the process goes to step S111 to check whether the door is open. If it is determined that the door is open, the process proceeds to step S113 to turn off the evaporator fan. Otherwise, if the door is closed, the operation proceeds to step S112 to control the evaporator fan to be normally on.

If it is determined in step S109 that the compressor is in the stopped state, the flow advances to step S110 to control the evaporator fan by the power saving period. For example, the initial evaporator fan is turned on (Fn) for the set time by the power saving period, and then turned off (FF) for the set time after the evaporator fan on time elapses. When the compressor is driven as indicated by "A" in FIG. 3 during the control of the evaporator fan by the power saving period, the evaporator fan is turned on immediately without ignoring the power saving period.

Next, when the driving of the compressor is stopped again, the evaporator fan is controlled based on the power saving period. During the control of the evaporator fan through the power saving period of the evaporator fan, When the door is opened in the off period, the evaporator fan off state is maintained. When the door opened in the evaporator fan off period is closed as shown in "C & Possible) After the delay, turn on the evaporator fan for the preset time, then return to the power saving cycle.

3, when the door is opened in the evaporator fan-on period, the evaporator fan is turned off and the "E" is turned on. When the evaporator fan is turned on, When the door is closed in the evaporator fan-on period, the evaporator fan is turned on for a set time (for example, 3 seconds, which can be changed by the administrator for a predetermined time) Controls the fan.

Further, as shown in "F" of FIG. 3, when the compressor is driven, the evaporator fan is always turned on except for the door opening.

As described above, according to the present invention, when the compressor is stopped, the evaporator fan is controlled according to the power saving period implemented in the on-off repetition mode, so that the deterioration of the frost formation can be suppressed to prevent the deterioration of the cooling performance. By shortening the driving time, the power consumption can be reduced and the energy can be saved.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

The present invention is applied to a technique for controlling an evaporator fan when a compressor stops operating in a cold freezer.

101:
102:
103:
104:
105: door detection unit
106: Fan drive
107:
108: Memory
109: Timer

Claims (11)

An operation unit for setting a power saving function;
A door detecting unit for detecting a door state;
A controller for controlling the operation of the evaporator fan based on the door detection signal detected by the door detection unit and the evaporator fan control program when the power saving function is set by the operation unit; And
And a fan driving unit for driving or stopping the evaporator fan for circulation of cool air under the control of the control unit,
Wherein the controller controls the evaporator fan to repeatedly be turned on and off according to the set time when the compressor is turned off during the power saving function,
Wherein the controller includes a power saving control module that controls driving of the evaporator fan according to an operation state of the compressor and an opening or closing state of the door when the power saving function is selected,
Wherein the power saving control module controls the evaporator fan on / off based on a power saving period of the evaporator fan when the compressor is stopped, maintains the evaporator fan off state when the door is opened in the evaporator fan off period, The evaporator fan is turned on for a preset time after the lapse of a predetermined time and then the power saving control is performed so as to return to the power saving period,
The evaporator fan is turned off when the door is opened in the evaporator fan-on period, and the evaporator fan is controlled based on the power saving period after turning on the evaporator fan for a set time after a predetermined time delay when the door is closed in the evaporator fan- Of the refrigerating freezer.
delete The system of claim 1, wherein the controller comprises: a compressor state detection module for detecting an operation state of the compressor; A door state detecting module for detecting an opening or closing state of the door; And a function setting detection module for detecting whether the power saving function is set or not.
delete delete The energy saving device of claim 1, wherein the power saving control module controls the evaporator fan to be always on except when the evaporator fan off time is set to "0 ".
(a) performing initialization when power is supplied, and confirming whether a power saving function is set;
(b) if the power-saving function is not set as a result of the checking in the step (a), controlling the evaporator fan according to a previously set evaporator fan control method;
(c) confirming the set fan-off time when the power-saving function is set as a result of the checking in the step (a);
(d) controlling the operation of the evaporator fan according to the door state when the fan-off time is set to "0 "
(e) detecting a driving state of the compressor when the fan-off time is not "0 " as a result of the checking in the step (c), and controlling driving of the evaporator fan according to the door state when the compressor is on; And
(f) detecting the driving state of the compressor in the step (e) and controlling the driving of the evaporator fan by entering the evaporator fan power saving control mode when the compressor is off,
In the step (f), when the driving of the compressor is turned off during the power saving function, the evaporator fan is repeatedly turned on and off according to the set time,
The evaporator fan-off period may be controlled based on a power-saving period of the evaporator fan when the compressor is stopped. In the evaporator fan-off period, the evaporator fan- The evaporator fan is turned on for a preset time after the lapse of a predetermined time and then the power saving control is performed so as to return to the power saving period,
The evaporator fan is turned off when the door is opened in the evaporator fan-on period, the evaporator fan is turned on during a set time after a predetermined time delay when the door is closed in the evaporator fan-on period, and then the evaporator fan is controlled based on the power- A method for energy saving of a freezer.
delete delete delete [7] The method of claim 7, wherein in the step (f), when the evaporator fan off time is set to "0 ", the evaporator fan is normally turned on except when the door is opened.

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