KR102270350B1 - Refrigerator temperature maintenance system - Google Patents

Abstract

The refrigerator temperature maintenance system according to the present invention includes a main body unit in which a space is formed therein to accommodate an article, and the inner space is maintained at a low temperature, a supply unit supplying power to the main body unit, and the main body unit and the supply unit It provides a refrigerator temperature maintenance system including a cold air maintenance unit provided between the product to maintain the temperature of the inner space at a low temperature in order to prevent deterioration of the article.

Description

Refrigerator temperature maintenance system {REFRIGERATOR TEMPERATURE MAINTENANCE SYSTEM}

The present invention relates to a refrigerator temperature maintenance system, and more particularly, provides power to the main body unit via a plurality of battery units, and provides power to the main body unit through a charged battery unit in case of a power failure to lower the temperature inside the main unit unit It relates to a refrigerator temperature maintenance system that maintains

Refrigerator is being manufactured by adding various additional functions according to various purposes.

For example, the refrigerator is utilized in various ways, such as manufacturing the refrigerator so that the internal environment can be viewed, or providing a lever for discharging ice to the outside so that ice can be supplied from the outside.

However, in the case of a refrigerator that stores samples to observe cells and cells such as blood, the internal temperature is maintained at a fairly low temperature to prevent deterioration of the sample caused by insufficient oxygen and energy supply at room temperature. Sample deterioration should be minimized.

However, despite such efforts, power is cut off in the refrigerator in a situation such as a power outage in which power supply is abruptly cut off, and the cold air provided to the sample is lost, and thus the items stored therein are deteriorated.

In addition, if AC current is used as long as the internal temperature must be continuously maintained at a low temperature, a moment when the voltage becomes 0 instantaneously due to a change in voltage may occur, and accordingly, power consumption to maintain the temperature of the refrigerator at a low temperature had the disadvantage of being higher.

In order to overcome such a disadvantage, a means for lowering power consumption while continuously maintaining the internal temperature at a low temperature even when the supply of power is limited has been actively devised, and a method capable of solving such problems is required.

The present invention is an invention devised to solve the problems of the prior art, and provides power to the main body unit via a plurality of battery units, and provides power to the main body unit through a charged battery unit in case of a power outage. Keep the temperature at a low temperature.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The refrigerator temperature maintenance system of the present invention for achieving the above object includes a main body unit in which a space is formed therein to accommodate an article, and the inner space is maintained at a low temperature, a supply unit supplying power to the main body unit, and the It is provided between the main body unit and the supply unit, and includes a cold air maintenance unit for maintaining the temperature of the inner space at a low temperature in order to prevent deterioration of the article.

Here, the cold air maintenance unit is detachably provided on the lower part of the main body unit, receives and stores electric power provided from the supply unit, and provides a part of the stored electric power to the main body unit and prevents deterioration of the article. It characterized in that it comprises a control unit for controlling the battery unit to maintain the temperature of the internal space at a low temperature in order to prevent.

At this time, when the plurality of battery units are provided and the power provided from the supply unit is limited, the control unit individually controls each battery unit according to the amount of power remaining in the battery unit to supply power to the main body unit. characterized in that it provides

In addition, the control unit, when the amount of power remaining in the first battery unit receiving power from the supply unit and providing power to the main body unit is lower than a preset value, limits the supply of power to the first battery unit, and from the supply unit Power is provided to the main body unit through a second battery unit that receives and stores power.

Here, the supply unit is characterized in that it provides power toward the main body unit via the battery unit.

In addition, the control unit, when the internal space of the main body unit in the vertical direction is divided into a plurality of compartments according to the importance of the article, the temperature of the plurality of compartments individually in a situation in which the power supply of the supply unit is limited. characterized in that it is controlled by

In this case, the controller determines the amount of power remaining in the battery unit, and sequentially limits the supply of power according to the remaining amount of power.

On the other hand, the cold air maintenance unit, it is provided on one surface of the main body unit, characterized in that it further comprises a refrigerant storage unit accommodating the refrigerant therein so as to provide cold air to the inner space.

Here, the refrigerant storage unit is characterized in that an inlet for injecting the refrigerant and an outlet for discharging the refrigerant are formed so as to replace the refrigerant used for a long period of time.

Meanwhile, the main body unit is characterized in that it receives a driving force for maintaining the temperature of the inner space at a low temperature through a DC motor.

In order to solve the above problems, the refrigerator temperature maintenance system of the present invention provides power to the main body unit via a plurality of battery units, and provides power to the main unit unit through the charged battery unit in case of a power failure to reduce the temperature inside the main unit to a low temperature. has the effect of maintaining it.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

The summary set forth above as well as the detailed description of the preferred embodiments of the present application set forth below may be better understood when read in conjunction with the accompanying drawings. For the purpose of illustrating the invention, there are shown in the drawings preferred embodiments. It should be understood, however, that the present application is not limited to the precise arrangements and instrumentalities shown.
1 is a view showing the overall appearance of a refrigerator temperature maintenance system according to an embodiment of the present invention;
2 is a view for explaining the main unit of the refrigerator temperature maintenance system according to an embodiment of the present invention;
3 is a view illustrating a cold air maintaining unit of a refrigerator temperature maintaining system according to an embodiment of the present invention;
4 is a view for explaining a refrigerant storage unit of the refrigerator temperature maintenance system according to an embodiment of the present invention;
5 is a view for explaining a general operating condition of the refrigerator temperature maintenance system according to an embodiment of the present invention;
6 is a view for explaining a power failure situation of the refrigerator temperature maintenance system according to an embodiment of the present invention; and
7 is a diagram illustrating a situation of controlling an internal space of a refrigerator temperature maintaining system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention in which the object of the present invention can be specifically realized will be described with reference to the accompanying drawings. In describing the present embodiment, the same names and the same reference numerals are used for the same components, and an additional description thereof will be omitted.

First, an overall configuration of a refrigerator temperature maintenance system according to an embodiment of the present invention may be described with reference to FIGS. 1 to 4 .

Specifically, FIG. 1 is a view showing an overall appearance of a refrigerator temperature maintaining system according to an embodiment of the present invention, and FIG. 2 is a view illustrating a main body unit of a refrigerator temperature maintaining system according to an embodiment of the present invention. 3 is a view illustrating a cold air maintaining unit of a refrigerator temperature maintaining system according to an embodiment of the present invention, and FIG. 4 is a view illustrating a refrigerant storage unit of a refrigerator temperature maintaining system according to an embodiment of the present invention It is a drawing shown for

First, as shown in FIG. 1 , the refrigerator temperature maintenance system according to an embodiment of the present invention may include a body unit 100 , a cold air maintenance unit 200 , and a supply unit 300 .

Here, the body unit 100 may be provided such that a space is formed therein to accommodate a plurality of articles, and the internal space 120 is maintained at a low temperature.

In addition, as shown in FIG. 2 , the inner space 120 of the body unit 100 may be partitioned into a plurality of compartments in the vertical direction, and the items are classified and accommodated in the compartments according to the degree of importance in the vertical direction. can do.

In addition, for convenience of explanation, the plurality of compartments partitioned in the vertical direction are divided into a first compartment 122 , a second compartment 124 , and a third compartment 126 from the upper side, which is described as In order to help convenience, the number of the inner space 120 is limitedly limited, but more compartments may be provided according to the intention of the manufacturer or the intention of the consumer.

On the other hand, cold air is provided between the body unit 100 and the supply unit 300 to keep the temperature in the inner space 120 at a low temperature in order to prevent deterioration of the article accommodated in the inner space 120 . It may include a holding unit 200 .

Here, the cold air maintenance unit 200 is provided under the main body unit 100 to receive and store power from the supply unit 300 , and a battery unit 220 for providing the stored power to the main body unit 100 . , a control unit 240 for controlling the battery unit 220 to maintain the temperature of the inner space 120 and a refrigerant inside to provide cool air to the inner space 120 from one surface of the main body unit 100 It may be composed of a refrigerant storage unit 260 accommodated.

At this time, the battery unit 220 may be provided in the lower part of the main body unit 100, and can be replaced in the lower part of the main body unit 100 in order to prevent an increase in power consumption as durability deteriorates due to long-term use. It may be provided detachably to do so.

In addition, the battery unit 220 receives and stores power from the supply unit 300 , and provides the stored power to the main body unit 100 , even when power supply is limited, the main body unit 100 . A plurality may be provided to provide power to the .

In addition, the control unit 240 may control a plurality of the battery units 220 to maintain the temperature of the inner space 120 at a low temperature in order to prevent deterioration of the article, and if necessary, a plurality of the batteries Some of the unit 220 provides power toward the main body unit 100, and some restrict the supply of power to the main body unit 100 to store power transmitted from the supply unit 300. .

At this time, for convenience of explanation, the plurality of battery units 220 are divided into a first battery unit 222 , a second battery unit 224 , and a third battery unit 226 , and if necessary, the battery unit 220 is divided into a first battery unit 222 , a second battery unit 224 , and a third battery unit 226 . It is self-evident that more battery units 220 may be provided accordingly.

In addition, the refrigerant storage unit 260 is provided on one surface of the main body unit 100 to accommodate the refrigerant, and to keep the temperature of the inner space 120 of the main body unit 100 at a low temperature so as to provide cold air. can provide

In addition, the refrigerant storage unit 260 has a lifespan of the refrigerant, that is, an inlet (I) for injecting the refrigerant so as to replace the refrigerant in order to prevent the refrigerant from being provided smoothly while the effect of the refrigerant is reduced. ) and an outlet (O) for discharging the used refrigerant may be formed.

Here, the refrigerant storage unit 260 is a part of the inner space 120 or the outer side of the main body unit 100 so as to be in close contact with the inner space 120 in order to effectively transfer the cold air provided from the refrigerant. It is provided on the wall formed between the inner space 120 to more effectively transmit cold air, and the inlet (I) and the outlet (O) are provided in the body unit 100 to facilitate the injection and discharge of the refrigerant. ) may protrude to the outside.

In addition, although the directions of the inlet (I) and the outlet (O) are shown to be the same, the inlet (I) is open toward the upper side of the body unit 100 so that the refrigerant can be smoothly supplied. In addition, the outlet (O) may be opened toward the lower side of the main body unit 100 to facilitate the discharge of the refrigerant.

In addition, each valve may be provided at the inlet (I) and the outlet (O) to close the inside of the refrigerant storage unit 260 in order to prevent the refrigerant from leaking to the outside in an unexpected situation. .

On the other hand, the supply unit 300 provides power toward the body unit 100 so that the internal space 120 can be maintained at a low temperature by the power provided by the body unit 100, and the supply unit Reference numeral 300 may provide power to the body unit 100 via the battery unit 220 as described above.

In the situation as described above, the body unit 100 receives power from the supply unit 300 via the battery unit 220 , and when AC current is provided to the body unit 100 , the voltage instantaneously increases. Cold air may not be provided smoothly in the zero section, and using AC current may have a disadvantage that it may directly damage the body unit 100 because the voltage strength is not constant and continuously changes. have.

Therefore, the main body unit 100 may be provided with a DC motor capable of using a DC current, and the power consumption of the main body unit 100 may be minimized by using the DC motor.

In addition, in the case of the battery unit 220, the power received from the supply unit 300 must be stored, and in order to store power in a situation where AC current is supplied due to the nature of the current, it must be converted into DC current and stored. Since there is a disadvantage in that loss is generated in the conversion process and power consumption is increased due to power loss, the supply unit 300 for supplying power supplies DC current, and the battery unit 220 has to store the current. Using a battery, the motor attached to the body unit 100 can be used as a DC motor because it must be operated through DC current transmitted through the battery unit 220 .

However, the supply unit 300 uses AC current, and it can be utilized even when the battery unit 220 is used through a DC battery. However, when AC and DC are mixed and used in this way, AC is converted to DC. Since loss occurs as described above in the process of converting and storing, it may be suitable to be used as a component using a DC current, respectively.

In addition, in the case of a DC motor using DC current, since the strength of the voltage is constant, damage to the product is minimized, and when the supply unit 300 is used using DC power, the battery unit 220 Because it is easy to store power in the device, it can effectively store and supply power.

In addition, the DC motor may have advantages in that the configuration of the control circuit is simpler than that of the AC motor, and the output efficiency is good, which is advantageous for torque fluctuations.

Based on the above-described configuration, in order to provide an overall description of the refrigerator temperature maintenance system of the present invention, FIGS. 5 to 7 may be additionally used to describe in more detail.

Specifically, FIG. 5 is a diagram illustrating a general operating condition of the refrigerator temperature maintaining system according to an embodiment of the present invention, and FIG. 6 is a diagram illustrating a blackout state of the refrigerator temperature maintaining system according to an embodiment of the present invention. 7 and 7 are diagrams for explaining a situation of controlling the internal space of the refrigerator temperature maintaining system according to an embodiment of the present invention.

First, as shown in FIG. 5 , in a situation in which power is supplied smoothly from the supply unit 300 , the supply unit 300 may supply power to the main body unit 100 via the cold air maintenance unit 200 . .

In more detail, the power provided by the supply unit 300 passes through the battery unit 220 , and the control unit 240 controls some of the plurality of battery units 220 toward the body unit 100 . Power is provided, and a portion except for this may stand by in a state in which the power provided by the supply unit 300 is stored.

This is to solve the problem of using the stored power in a situation where the power supply is limited, and continuously charging the battery due to the characteristics of the battery that is discharged after a certain period of time.

On the other hand, in a situation in which the control unit 240 is smoothly supplied with power from the supply unit 300 , the first battery unit 222 stores the power supplied from the supply unit 300 and saves a portion of the stored power. Control is provided to the main body unit 100 , and the second battery unit 224 and the third battery unit 226 may store power provided from the supply unit 300 .

If the time for providing power to the main body unit 100 by using the first battery unit 222 lasts longer than a preset time, the durability of the first battery unit 222 may be deteriorated. Therefore, the control unit 240 can cyclically use the battery unit 220 every preset period.

For example, as shown in FIG. 5 , the second battery unit 224 and the third battery unit 226 are connected to each other while providing power to the body unit 100 through the first battery unit 222 . The first battery unit 222 controls to store power when a preset time elapses while controlling to store the power provided by the supply unit 300 using the second battery unit 224, and uses the second battery unit 224 to store the power. Power may be provided to the body unit 100 .

That is, the first battery unit 222 to the third battery unit 226 sequentially provide power to the main body unit 100 by the control unit 240, and may be cycled every preset cycle. .

This may have the effect of improving durability by minimizing damage to the battery unit 220 while preventing an overload that is generated while the battery unit 220 stores power and supplies power at the same time.

On the other hand, in a situation in which the power provided by the supply unit 300 is limited, that is, in a situation in which a power outage occurs, the control unit 240 first determines whether the power provided from the supply unit 300 is limited, When it is determined to be limited, power may be continuously provided by using the battery unit 220 that has provided power to the body unit 100 among the plurality of battery units 220 .

For example, if power is being supplied to the main body unit 100 using the first battery unit 222 in a power failure situation, the control unit 240 controls the power supply based on the time when the power is limited. Power may be provided to the body unit 100 by utilizing the first battery unit 222 .

In addition, the control unit 240 may utilize the second battery unit 224 or limit the power supplied to the main body unit 100 according to the remaining amount of power of the first battery unit 222 .

That is, the control unit 240 may control a plurality of the battery units 220 and the main body unit 100 based on a plurality of conditions, and the first battery providing power to the main body unit 100 . When the amount of power of the unit 222 reaches a preset condition, the supply of power to the first battery unit 222 may be limited, and power may be provided through the second battery unit 224 .

When this condition is set as the first condition, when the amount of power of the first battery unit 222 is about 50%, the control unit 240 determines that the first condition is reached and the first battery unit 222 ), and provides power to the main body unit 100 through the second battery unit 224, and similarly, when the second battery unit 224 meets the first condition, the first The operation of the second battery unit 224 may be limited and the third battery unit 226 may be operated to provide power.

If the third battery unit 226 achieves the first condition to limit the operation of the third battery unit 226 , power is supplied to the body unit 100 through the first battery unit 222 . In the case of providing, the controller 240 may re-determine the remaining amount of power in a state where the first condition is satisfied.

For example, similarly to the first condition, when it is determined that the remaining power of the first battery unit 222 is about 20% to 50%, assuming the second condition, the control unit 240 controls the second In the second condition similar to the first condition, the battery unit 220 may be circulated and power may be provided to the main body unit 100 .

However, when power is not provided from the supply unit 300 even though the third battery unit 226 is utilized by using the second condition, the control unit 240 controls the first condition and the second condition. Alternatively, the battery unit 220 may be controlled.

For example, if the power supply is not smooth even though the second condition is used, the third condition, that is, if the remaining power of the battery unit 220 is all less than about 20%, as shown in FIG. 7 , It is possible to reduce power consumption by limiting the supply of power to the first compartment 122 located on the upper side on the inner space 120 of the main body unit 100 .

That is, in the third condition, power is provided to the main body unit 100 until the amount of power of the first battery unit 222 is completely exhausted, but the power of some of the compartments of the internal space 120 is limited. so that it can be maintained for a long time.

In addition, the battery unit 220 is provided under the main body unit 100, may be provided along the lower periphery of the main body unit 100, and thus delivered toward the upper side of the main body unit (100) Since excessive power consumption may occur as the power consumption increases, the power provided to the first compartment 122 by the control unit 240 may be cut off.

In addition, the first compartment 122 to the third compartment 126 are arranged from the upper side to the lower side according to their importance, and the third compartment 126 is a place where cold air is provided for the longest time under the third condition. The most important items can be accommodated.

Accordingly, even if a long-term power outage occurs, it is possible to effectively prevent deterioration of the article, and since the power supply is sequentially cut off from the first compartment 122 to the third compartment 126, the third compartment 126 There may be an advantage in that the cold air provided to the product can be maintained for the longest time, thereby minimizing the deterioration of the article of high importance.

In addition, since the additional cold air is provided through the refrigerant storage unit 260 as described above, even if the supply of power to the first compartment 122 is limited, the deterioration of the article accommodated in the first compartment 122 is prevented. can be minimized

In addition, when a preset time elapses from the time when a power outage occurs or the time when the refrigerant is injected into the refrigerant storage unit 260, the control unit 240 may generate various notifications to replace the refrigerant, Accordingly, even in a power failure situation, the control unit 240 can maintain the temperature of the internal space 120 as much as possible.

That is, the control unit 240 may determine the replacement timing of the refrigerant storage unit 260 while controlling the battery unit 220 through the first to third conditions.

Accordingly, the refrigerator temperature maintenance system according to the present invention maintains the temperature of the internal space 120 at a low temperature through the cold air maintenance unit 200 , and increases the durability and quality of the battery unit 220 through the control unit 240 . Efficiency can be improved and power consumption can be minimized.

In addition, even in a power failure situation, the temperature of the inner space 120 is maintained at a low temperature for a long time to minimize the deterioration of the article accommodated in the inner space 120, and the degree of importance from the upper side to the lower side of the body unit 100 is The battery unit 220 is the battery unit 220 so as to cope with changes due to deterioration of the durability of the battery unit 220 while minimizing economic loss by preventing deterioration of the items of high importance because the items are stored separately. It is detachably coupled to the lower part of the body unit 100 to maintain the temperature inside the body unit 100 for a long period of time.

In addition, it has been described that the battery unit 220 is provided between the supply unit 300 and the main body unit 100 using only the first battery unit 222 to the third battery unit 226 above. The extra battery unit 220 in preparation for a prolonged power outage. When these are referred to as fourth to sixth battery units, the first battery unit 222 to the third battery unit 226 are the third Before limiting the power provided to the first compartment 122 at the time when the condition is reached, since the fourth to sixth battery parts can also be replaced, the temperature of the inner space 120 can be maintained at a low temperature for a longer period of time. can

In addition, the control unit 240 reaches the third condition and continuously provides the power provided to the first compartment 122 without interrupting it for a predetermined time before cutting off the power of the first compartment 122 . A warning sound may be generated to provide time for replacing the first battery unit 222 to the third battery unit 226 with the fourth to sixth battery units.

In addition, in order to replace the first battery unit 222 with the fourth battery unit, the control unit 240 controls the second battery unit ( ) to prevent power from being limited while the first battery unit 222 is replaced. 224) is used to continuously provide power, and while the second battery unit 224 is being exchanged, power is provided through the third battery unit 226, and the third battery unit 226 is replaced. In this case, power may be provided to the body unit 100 by utilizing the fourth battery unit.

Accordingly, the control unit 240 determines the remaining power of the newly replaced fourth to sixth battery units and controls the battery unit 220 from the first condition so that the power supplied to the body unit 100 is continuously maintained. can be maintained as

Through this, while the cold air provided to the inner space 120 is continuously maintained, deterioration of the article can be minimized.

In addition, the control unit 240 is operated through the power provided through the supply unit 300 before the power outage, and is operated after the power outage, so that the control unit 240 and the supply unit 300 are operated between the control unit 240 and the supply unit 300. The battery unit 220 may be provided to continuously control the battery unit 220 and the body unit 100 .

As described above, preferred embodiments according to the present invention have been described, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope of the present invention in addition to the above-described embodiments is one of ordinary skill in the art. It is obvious to them. Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description, but may be modified within the scope of the appended claims and their equivalents.

I: inlet
O: outlet
100: body unit
120: inner space
122: first compartment
124: second compartment
126: third compartment
200: cold air maintenance unit
220: battery unit
222: first battery unit
224: second battery unit
226: third battery unit
240: control unit
260: refrigerant storage unit
300: supply unit

Claims (10)

a body unit that divides the inner space into a plurality of compartments, individually accommodates the items in each compartment according to the importance of the items, and receives a driving force through a DC motor so that the compartments are independently maintained at a low temperature;
a supply unit for supplying power toward the main body unit; and
A refrigerator temperature maintenance system comprising a cold air maintenance unit provided between the main body unit and the supply unit and maintaining the temperature of the internal space at a low temperature to prevent deterioration of the article,
The cold air maintenance unit,
A battery unit detachably provided under the main body unit, receiving and storing electric power provided from the supply unit, and converting a part of the stored electric power into DC to provide driving force to the DC motor of the main body unit and the article A control unit for controlling the battery unit to maintain the temperature of the inner space at a low temperature to prevent deterioration of the
When the power provided from the supply unit is limited, the control unit selects a compartment in which the low temperature should be maintained until all the power of the battery unit is consumed based on the importance of the article and the remaining power of the battery unit,
However, power is supplied to the main body unit by individually controlling the plurality of battery units so that only the selected compartment maintains a low temperature until the limited power provided by the supply unit is normally provided,
The article is arranged so that the compartment adjacent to the battery unit has high importance to prevent power consumption from increasing as the distance from the battery unit increases, thereby limiting the supply of power from the compartment relatively far from the battery unit. characterized in that
Refrigerator temperature maintenance system.
According to claim 1,
The control unit is
When the remaining power amount of the first battery unit receiving power from the supply unit and providing power to the main body unit falls below a preset value, the power supply of the first battery unit is limited, and power is supplied from the supply unit and stored characterized in that for providing power to the main body unit through a second battery unit that
Refrigerator temperature maintenance system.
According to claim 1,
The supply unit is
Characterized in that the power is provided toward the body unit via the battery unit,
Refrigerator temperature maintenance system.
According to claim 1,
The cold air maintenance unit,
It is provided on one surface of the main body unit, characterized in that it further comprises a refrigerant storage unit accommodating the refrigerant therein so as to provide cool air to the inner space,
Refrigerator temperature maintenance system.
5. The method of claim 4,
The refrigerant storage unit,
An inlet for injecting the refrigerant and an outlet for discharging the refrigerant are formed so as to replace the refrigerant that has been used for a long time,
Refrigerator temperature maintenance system.
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