KR100577124B1 - Apparatus and method of preventing to make dew at front plate for a refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator having an intermediate wall partitioning a freezer compartment and a refrigerator compartment, and a hot pipe extending from a condenser, which is a component of a refrigeration cycle, and disposed inside the front plate of the intermediate wall. Front heater installed separately from the pipe; An outside air temperature sensor for sensing an outside air temperature around the refrigerator; An outside air humidity sensor for detecting outside air humidity around the refrigerator; And the front plate heater to prevent dew from forming on the front plate when the outside air temperature sensed by the temperature sensor is higher than a preset reference temperature and the outside air humidity sensed by the humidity sensor is higher than a preset reference humidity so that dew condensation is satisfied. And a control unit for driving.

The present invention prevents dew condensation by using a heater embedded in the front plate of the middle wall, thereby eliminating the existing defect that caused the dew to flow to the consumer, and when the compressor is turned on, the operating time of the heater is shortened and consumed. This can improve the reliability of the product, such as saving power.

Description

Apparatus and method of preventing to make dew at front plate for a refrigerator}

1 is a cross-sectional view showing the internal configuration of a refrigerator according to the prior art,

Figure 2 is a perspective view schematically showing a refrigeration cycle of the refrigerator according to the prior art,

3 is a block diagram of a front plate dew preventing apparatus of the refrigerator according to the present invention;

4a and 4b are views showing an example of a refrigerator to which the present invention is applied;

5 is an operation flowchart showing a front plate dew condensation prevention method of a refrigerator according to the present invention;

Explanation of symbols on the main parts of the drawings

51: high temperature sensor 52: function selector

53: outside temperature sensor 54: outside humidity sensor

55 control unit 56 compressor driving unit

57: compressor 58: cooling fan drive unit

60: front heater driving unit 61: front heater

62: display unit

The present invention relates to a device for preventing dew condensation on the front side of a refrigerator, and more particularly, to detect dew and condensation under high temperature and humidity operating conditions by sensing a temperature and humidity around a refrigerator and driving a heater embedded in the front side of the refrigerator. The present invention relates to a front plate dew preventing device of a refrigerator and a method thereof.

In general, the refrigerator circulates the cold air generated by the refrigeration cycle to control the internal temperature of each chamber to keep the food stored in the refrigerator fresh. The internal structure of the refrigerator will be described with reference to FIG. 1.

As shown in FIG. 1, the conventional refrigerator includes a main body 10 having a freezing compartment 14 and a refrigerating compartment 15 in which food is stored, and the freezing compartment 14 and the refrigerating compartment 15 are The upper and lower spaces are provided to be partitioned by the intermediate wall 16. One side of the main body 10 is provided with a freezing compartment door 17 and a refrigerating compartment door 18 for opening and closing the freezing compartment 14 and the refrigerating compartment 15. The back wall of the main body 10 is provided with an evaporator 13 which is a component of a refrigeration cycle, and one side of the evaporator 13 is blown cold air heat exchanged in the evaporator 13 to the freezing chamber 14 and the refrigerating chamber 15. Cooling fan 12 for cooling the inside of the refrigerator is provided. In addition, a guide duct 21 is formed inside the wall to guide the cold air forced by the cooling fan 12 to the freezing chamber 14 and the refrigerating chamber 15, and divides the freezing chamber 14 and the freezing chamber 15. The intermediate wall 16 is provided with a guide duct 22 so that the cold air passing through the freezing chamber 14 and the refrigerating chamber 15 is returned to the evaporator 13.

In addition, a conventional refrigerator constitutes a refrigeration cycle connected to each other by a refrigerant pipe as shown in FIG. 2, wherein the compressor 20 compresses the refrigerant in the lower rear side of the main body 10 and the refrigerant compressed in the compressor 20. A condenser 23 is installed to exchange heat into a refrigerant in a liquid state, and a cooling fan 24 is installed between the compressor 20 and the condenser 23 to blow air to cool the compressor 20. do. Further, a capillary tube 19c which expands the refrigerant passing through the condenser 23 on the upper side of the main body 10 and an evaporator which exchanges heat with the internal air of the main body 10 by evaporating the refrigerant passing through the capillary tube 19c ( 13) is installed. In addition, a coolant pipe 19 bent a plurality of times is attached to the inner wall of the case of the main body 10. The coolant pipe 19 has a high-temperature, high-pressure refrigerant that has passed the condenser 23. The heat exchange can be made while circulating along.

The refrigerant pipe 19 is divided into a cluster pipe 19a and a hot pipe 19b, and the cluster pipe 19a circulates through both side walls 11c and the top surface 11a and is hot pipe ( 19b) traverses the front surface 11b. Here, the hot pipe 19b is the edge of the freezer compartment 17 and the refrigerating compartment door 18 provided on the front surface 11b to prevent dew from forming due to a temperature difference between the inside and the outside of the refrigerator, and the freezer compartment 14 and It is circulated along the front plate 16a of the intermediate wall 16 which defines the refrigerating compartment 15.

However, in the related art, when the cooling operation for the freezer compartment and the refrigerating compartment of each chamber is performed under operating conditions of high temperature and humidity around the refrigerator, the front plate where the cold cold inside the refrigerator contacts the outside air due to the door opening and closing of the front part of the refrigerator ( Dew condensation occurred frequently in 16a).

Furthermore, when the internal temperature is low or when the operation of the compressor 20 is stopped to perform the defrosting operation, the heat exchange efficiency of the refrigerant flowing through the hot pipe 19b is suddenly lowered due to the operation stop of the compressor 20. Therefore, the frequency of dew condensation on the front plate 16a increases. As described above, if the dew formed on the front plate 16a of the refrigerator front 16 flows down the edge of the door side, consumers may feel aesthetically filthy images, and thus adversely affect the reliability of the product.

The present invention is to solve the above problems, an object of the present invention by using a heater embedded in the front plate of the refrigerator front dew of the refrigerator to efficiently prevent dew condensation even under high temperature and humidity operating conditions An apparatus and a method for preventing the same are provided.

An object of the present invention as described above in the refrigerator having an intermediate wall partitioning the freezer compartment and the refrigerating compartment, and a hot pipe extending from the condenser which is one component of the refrigeration cycle and disposed inside the front plate of the intermediate wall. A front heater installed separately from the hot pipe on the inner side of the heater; An outside air temperature sensor for sensing an outside air temperature around the refrigerator; An outside air humidity sensor for detecting outside air humidity around the refrigerator; And the front plate heater to prevent dew from forming on the front plate when the outside air temperature sensed by the temperature sensor is higher than a preset reference temperature and the outside air humidity sensed by the humidity sensor is higher than a preset reference humidity so that dew condensation is satisfied. It is achieved by the driving control unit.

An object of the present invention as described above comprises the steps of sensing the ambient temperature around the refrigerator and comparing it with a preset reference temperature; Detecting outside air humidity around the refrigerator and comparing it with a preset reference humidity; Determining whether the dew condition is higher than the reference temperature and the detected outside humidity is higher than the reference humidity. And driving the front plate heater installed separately from the hot pipe inside the front plate if the dew condensation condition corresponds to the determination result of the step.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a front plate dew preventing apparatus of the refrigerator according to the present invention, the internal configuration of the refrigerator applied to the present invention will be described with reference to the symbols in FIGS.

As shown in the drawing, the present invention includes a function selection unit 521 for setting respective operation functions of the refrigerator, an internal temperature sensor 51 for detecting internal temperatures of the freezer compartment 14 and the refrigerating compartment 15, An outdoor air temperature sensor 53 for detecting an outside air temperature around the refrigerator and an outdoor air humidity sensor 54 for detecting an external air humidity around the refrigerator are provided. The high temperature sensor 51 is installed in a duct for introducing cold air into the air.

The outside air temperature sensor 53 and the outside air humidity sensor 54 may be installed at a portion capable of accurately detecting a temperature and humidity around the refrigerator, but installed at a position away from an external heat source. In an embodiment, an outside air temperature sensor 53 and an outside air humidity sensor 54 are mounted on a main circuit board of an electric equipment box (not shown) provided at the top of the refrigerator to sense temperature and humidity around the refrigerator.

In addition, the present invention is provided with a controller 55 for controlling the internal temperature according to the internal temperature detected by the internal temperature sensor 51 and the internal temperature set by the function selection unit 52, the controller 55 When the cooling operation is performed, the compressor driving unit 56 is controlled to drive the compressor 20, and the cooling fan driving unit 58 is controlled to drive the cooling fan 12.

The controller 55 displays the operation state of the refrigerator and the setting state of the function through the display unit 62.

In addition, the controller 55 according to the present invention drives the front plate heater 61 by controlling the front plate heater driver 60 so that dew does not form on the front plate 16a of the intermediate wall 16.

The front plate (16a) is provided with a hot pipe (19b), the hot pipe (19b) is the intermediate between the freezer compartment 17 and the refrigerating chamber door 18, the partition between the freezer compartment 14 and the refrigerating compartment (15). It is circulated along the front plate 16a of the wall 16.

Therefore, the front plate heater 61 is embedded in the front plate 16a of the intermediate wall 16 that divides the freezer compartment 14 and the refrigerating compartment 15, but the front plate heater is between the front plate 16a and the hot pipe 19b. It is preferable to embed (61). For example, in the type (top mount type) in which the interior space of each chamber is divided up and down as shown in FIG. 4A, the front plate arrange | positioned in the horizontal direction located between the freezer door 17 and the refrigerating chamber door 18 is shown. In the type (side-by-side type) in which the interior space of each chamber is partitioned from side to side as shown in FIG. 4B and buried immediately inside 16a, the space between the freezer door 17 and the refrigerating chamber door 18 is shown. It is embedded just inside the front plate 16a arranged in the longitudinal direction.

In addition, the front plate heater 61 is to be installed continuously one heater heating wire from one side to the other side in the lateral direction as shown in Figure 4a or in the longitudinal direction as shown in Figure 4b, but partially in consideration of the reduction in manufacturing cost It can be understood that it can be installed even without specific explanation.

The controller 55 determines that the outside air temperature detected by the outside air temperature sensor 53 is higher than the reference temperature and the outside air humidity detected by the outside air humidity sensor 54 is higher than the reference humidity, that is, in the front plate 16a. When the dew condensation condition is met, the front plate heater driving unit 60 is controlled to drive the front plate heater 61. As such, when the front plate heater 61 is driven, the controller 55 drives the front plate heater 61 for a heater driving time set according to whether the compressor 20 is operated. That is, when the compressor 20 is turned on and the high temperature refrigerant passes through the condenser 23 and the heat exchange efficiency in the hot pipe 19b is high, the controller 55 may be a preset first reference time, for example, 1-2 minutes. If the front heater 61 is driven while the compressor 20 is turned off and the heat exchange efficiency in the hot pipe 19b is not high, the second reference time is set longer than the first reference time. The front plate heater 61 is driven for a minute.

The control unit 55 displays the driving state of the front plate heater 61 through the display unit 62, through which the user can check whether the front plate heater 61 is driven.

Hereinafter, a method of preventing dew condensation on the front of the refrigerator according to the present invention will be described with reference to the operation flowchart of FIG. 5.

First, the high temperature sensor 51 detects the high temperature inside the freezing chamber 14 and the refrigerating chamber 15 and outputs the high temperature detection signal according to the high temperature control signal to the controller 55. The internal temperature of the will be recognized (S101).

Subsequently, the controller 55 determines the driving conditions of the compressor 20 and the cooling fan 12 by comparing the detected internal temperature of each chamber with a preset internal preset temperature, and according to the determination result, the compressor driver 56 ) And the cooling fan driver 58 to perform a cooling operation. That is, the controller 55 performs the cooling operation to lower the internal temperature by driving the compressor 20 and the cooling fan 12 when the high internal temperature is higher than the high preset temperature, while the high temperature is not higher than the high preset temperature. The compressor 20 and the cooling fan 12 are driven to stop the cooling operation (S102).

As such, while the controller 55 performs the cooling operation for each chamber according to the sensed internal temperature, the outside air temperature sensor 53 and the outside air humidity sensor mounted on the main circuit board provided in the electronic box at the top of the refrigerator. (54) detects the outside air temperature and the outside air humidity around the refrigerator and outputs the outside air temperature detection signal and the outside air humidity detection signal to the control unit 55, the control unit 55, respectively, the outside air temperature and outside air humidity around the refrigerator It is recognized (S103).

Subsequently, the controller 55 determines whether the dew condensation condition that dew forms on the front plate 16a corresponds, which is the current detected by the controller 55 through the outside air temperature sensor 53. It is determined whether the outside air temperature (Tc) is higher than the predetermined reference temperature (Tref) (S104), the other is the current outside air humidity (Hc) detected by the controller 55 through the outside air humidity sensor 54 It is determined whether is higher than the predetermined reference humidity (Href) (S105).

As a result of the determination in steps S104 and S105, the front plate 16a when the current outside air temperature Tc is not higher than the reference temperature Tref or the present outside air humidity Hc is not higher than the reference humidity Href. Since it does not correspond to the dew condensation condition at), the flow returns to step S102 to continue the cooling operation for each room according to the high internal temperature.

On the other hand, as a result of the determination in step S104 and step S105, the front plate 16a when the current outside air temperature Tc is higher than the reference temperature Tref and the present outside air humidity Hc is higher than the reference humidity Href. The controller 55 controls the front wave heater driving unit 60 to drive the front heater 61, and the control unit 55 controls the front plate heater through the display unit 62. The driving state of 61 is displayed (S106).

Subsequently, the controller 55 determines whether the compressor 20 is turned on to perform the cooling operation according to the internal temperature (S107). As a result of the determination in step S107, when the heat exchange efficiency in the hot pipe 19b is high as the high temperature inside the high temperature is higher than the high setting temperature, the controller 55 drives the front heater 61. It is determined whether the time has reached a preset first reference time, for example, 1-2 minutes (S108), whereas, as a result of the determination in step S107, since the internal temperature of the refrigerator is not higher than the high preset temperature, the compressor 20 is turned off. When the heat exchange efficiency in the hot pipe 19b is not high, the controller 55 determines whether the time for driving the front plate heater 61 reaches 2-5 minutes as a second reference time set longer than the first reference time. It is determined (S109).

When the driving time of the front plate heater 61 does not reach the first reference time as a result of the determination in step S108 or when the driving time of the front plate heater 61 does not reach the second reference time as a result of the determination in step S109 Step S107 It returns to and continues heater operation.

On the other hand, when the driving time of the front plate heater 61 reaches the first reference time or the driving time of the front plate heater 61 reaches the second reference time as a result of the determination in step S108. The controller 55 controls the front plate heater driver 60 to stop driving the front plate heater 61 and displays the driving stop state of the front plate heater 61 through the display unit 62. (S110).

The present invention as described above detects the outside air temperature and the humidity outside the refrigerator, and if the detected outside temperature and outside humidity is higher than the reference value dew condensation conditions embedded in the front plate of the middle wall partitioning the interior space of the freezer compartment and the refrigerating compartment By driving the front heater, dew condensation can be prevented, thereby effectively eliminating the existing defects that caused the dew to flow to the floor and give consumers a dirty image. Furthermore, when the compressor is turned on and the heat exchange efficiency in the hot pipe is high, it is possible to improve the reliability of the product by reducing the power consumption by setting the driving time of the front heater short.

Claims (6)

delete delete delete Sensing outside air temperature around the refrigerator and comparing it with a preset reference temperature; Detecting outside air humidity around the refrigerator and comparing it with a preset reference humidity; Determining whether the dew condition is higher than the reference temperature and the detected outside humidity is higher than the reference humidity. And Driving the front plate heater installed separately from the hot pipe inside the front plate of the refrigerator when the determination result of the step corresponds to the dew formation condition; Driving the front plate heater Determining whether the compressor is on; driving the front plate heater for a preset first reference time when the compressor is on; and for a second reference time longer than the first reference time when the compressor is off. The front plate dew condensation prevention method of the refrigerator comprising the step of driving the front heater. delete 5. The method of claim 4, wherein the first reference time is set to about 1-2 minutes, and the second reference time is set to about 2-5 minutes.

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