KR101529626B1 - Employment defroster in cold storage - Google Patents

Abstract

The present invention relates to a defroster for a cold storage, which not only uniformly and easily maintains humidity in a cold storage by not discharging defrosting water stored inside a cold storage outside and using the gasified defrosting water, but also maintains optimal humidity of foods such as fruits stored in the cold storage by the same to easily prevent drop of product value of foods and degradation of freshness, and especially not only easily supplies filling water in a storage tray through a filling water supply part when a level of the defrosting water stored in the storage tray is low, but also has an effect of easily preventing overflow of defrosting water in the storage tray.

Description

{EMPLOYMENT DEFROSTER IN COLD STORAGE}

The present invention can use the dehydrated water in a vaporized state without discharging the dehydrated water to the outside of the low temperature storeroom so that the humidity in the low temperature storage tank can be maintained more easily and thereby the food such as fruits stored in the low temperature storage tank is optimized It is possible to more easily prevent the drop of the merchandise value and the freshness of the food due to the maintenance of the humidity, and in particular, when the level of the defrost water stored in the storage tray is low, The present invention relates to a low temperature storage and defrosting apparatus capable of more easily supplying a defrosting water to a storage tank, and more easily preventing a fear that the defrost water overflows in the storage tray.

Generally, a refrigerating and refrigeration cycle of a cooling apparatus includes a compressor for compressing refrigerant to a high temperature and a high pressure, a condenser for heat-exchanging the compressed refrigerant with the surroundings for condensing, an expansion valve for expanding the condensed refrigerant to low pressure, And an evaporator for evaporating the refrigerant by heat exchange with the internal air.

 The surface temperature of the evaporator, which cools the storage space through such a cycle, is relatively low compared to the temperature of the storage space, so that the condensed moisture from the relatively high temperature storage space adheres to the surface of the evaporator, thereby depositing the frost.

 The frost deposited on the surface of the evaporator gradually becomes thicker over time, which causes a problem that the heat exchange efficiency of the cool air passing through the evaporator is reduced and excessive power consumption occurs.

 To solve this problem, a defrost heater was installed inside the evaporator and defrosting operation was performed to remove the frost deposited on the evaporator by driving the defrost heater according to the preset time. In recent years, the structure is simple, A defrosting detection apparatus for an evaporator for a cooling system capable of accurately detecting a defrosting operation timing has been proposed in Korean Patent Registration No. 10-1042061. However, the above-mentioned Korean Patent Registration No. 10-1042061 discloses a defrosting apparatus It is possible to greatly improve the cooling efficiency while greatly reducing the power consumption by detecting the point of operation, and there is no description that can maintain the humidity in the low temperature reservoir by using the distilled water.

Korean Patent Registration No. 10-1042061

The present invention can use the dehydrated water in a vaporized state without discharging the dehydrated water to the outside of the low temperature storeroom so that the humidity in the low temperature storage tank can be maintained more easily and thereby the food such as fruits stored in the low temperature storage tank is optimized It is possible to more easily prevent the drop of the merchandise value and the freshness of the food due to the maintenance of the humidity, and in particular, when the level of the defrost water stored in the storage tray is low, And moreover, it is possible to more easily supply the defrosting water, and moreover, it is possible to more easily prevent the overflow of the defrost water in the storage tray.

According to an aspect of the present invention, there is provided a refrigerator including: an evaporator provided in a low-temperature reservoir to generate cold air; And a defrost heater for defrosting the evaporator, wherein the defrost heater is provided at a lower side of the evaporator for storing the defrosted water dropped from the heat exchange fins of the evaporator, A tray; And a replenishing water supply unit for supplying replenishing water to the inside of the storage tray.

Here, it is preferable that an inclined surface inclined downward toward the bottom surface of one side of the storage tray is formed on the other side of the storage tray from the upper side to the lower side.

In addition, it is preferable that a groove is formed in the lower side of the storage tray, and a vaporizer is provided in the groove to vaporize the purified water stored in the storage tray.

Here, it is preferable that the vaporizing portion is made of an ultrasonic vibrator.

A water level sensor for sensing the level of the defrost water stored in the storage tray; And a control unit for controlling the vaporization unit according to a detection signal of the water level detection sensor.

A humidity sensor for sensing the humidity inside the low-temperature reservoir; And a control unit for controlling the vaporization unit according to a detection signal of the humidity sensor.

It is also preferable that a guide plate for guiding the defrost water vaporized in the storage tray to the blowing fan of the evaporator is formed on one side of the storage tray.

It is preferable that an alarm sound output unit for outputting an alarm sound under the control of the control unit according to the detection signal of the water level sensor is provided.

The control unit may include a humidity input unit for inputting a reference humidity value in the low-temperature reservoir, and the control unit may control the vaporization unit by comparing a detection signal of the humidity sensor with a reference humidity value input to the control unit desirable.

The replenishment water supply unit includes a replenishment water storage tank in which replenishment water to be supplied to the inside of the storage tray is stored; A supply line connected to an upper portion of the replenishment water storage tank at a lower portion thereof and supplying supplemental water in the replenishment water storage tank to the storage tray with the lower portion positioned in the upper direction of the storage tray; And an opening / closing valve for opening / closing the supply line.

In addition, it is preferable that a defrost water storage unit for storing defrost water discharged from the storage tray is provided.

Here, the defrost water storage unit may include a defrost water storage tank for storing defrost water discharged from the storage tray; And a discharge line formed between the defrost water storage tank and the storage tray and discharging defrost water in the storage tray to the defrost water storage tank.

The present invention can use the dehydrated water in a vaporized state without discharging the dehydrated water to the outside of the low temperature storeroom so that the humidity in the low temperature storage tank can be maintained more easily and thereby the food such as fruits stored in the low temperature storage tank is optimized It is possible to more easily prevent the drop of the merchandise value and the freshness of the food due to the maintenance of the humidity, and in particular, when the level of the defrost water stored in the storage tray is low, It is possible to more easily supply the water to the storage tray, and to prevent the water from overflowing in the storage tray more easily.

FIG. 1 is a cross-sectional view schematically showing a low-temperature, storage-stable defrost apparatus according to an embodiment of the present invention,
2 is a cross-sectional view schematically showing a state in which replenishing water is supplied within a storage tray,
3 is a block diagram schematically showing a control state of the control unit.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

FIG. 1 is a cross-sectional view schematically showing a low-temperature, stored, defrost apparatus according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view schematically showing a state in which replenishing water is supplied into the storage tray 30.

As shown in FIGS. 1 and 2, the defrost apparatus for low temperature storage, which is one embodiment of the present invention, includes an evaporator 10, a defrost heater (not shown), a storage tray 30 and a replenishment water supply unit 50 .

The evaporator (10) comprises a main body (110); A blowing fan 120 installed at one side of the main body 110; And a heat exchange fin 130 provided on the other side of the main body 110.

Next, the defrost heater (not shown) is provided inside the main body 110 of the evaporator 10 for defrosting the evaporator 10.

The evaporator 10 and the defrost heater (not shown) are well known in the Korean Patent Registration No. 10-1042061, and a detailed description thereof will be omitted.

Next, the storage tray 30 is placed in the lower part of the main body 110 of the evaporator 10 by the operator so as to be positioned below the heat exchange fin 130 of the evaporator 10, And is horizontally provided so as to be drawn out to the outside of the evaporator (10).

In the evaporator 10, the defrost water to be vaporized to fall from the heat exchange fin 130 of the evaporator 10 is stored by the defrost heater (not shown).

3, in order to guide the defrost water dropping from the heat exchange fin 130 of the evaporator 10 toward one side of the storage tray 30, the inside of the storage tray 30 An inclined surface 320 may be formed.

The inclined surface 320 may be inclined downward toward the one bottom surface 311 of the storage tray 30 from the upper side of the inclined surface 320 toward the lower side of the inclined surface 320.

A groove 310 is formed in the lower side of the storage tray 30 and a vaporization unit 40 is provided in the groove 310 to vaporize the purified water stored in the storage tray 30 .

More specifically, the groove 310 is recessed at a predetermined depth in the lower portion of the storage tray 30 from the upper portion of the storage tray 30 on one side bottom surface 311 of the storage tray 30 .

The vaporization unit 40 may be an ultrasonic vibrator or the like.

The dehydrated water in a state of being vaporized by the vaporizing unit 40 which may be formed of an ultrasonic vibrator or the like may be discharged into the low temperature storage tank (not shown) through the blowing fan 120 of the evaporator 10.

Next, the replenishment water supply unit 50 supplies replenish water such as water to the inside of the storage tray 30.

3 is a block diagram schematically showing the control state of the control unit 90. As shown in FIG.

Next, as shown in FIG. 3, a water level sensor 80 and a control unit 90 may be further provided.

The level sensor 80 may be disposed below the inner circumferential surface of one side of the storage tray 30 to sense the level of the defrost water stored in the storage tray 30.

The control unit 90 may be provided at various positions such as the outer circumferential surface of the main body 110 of the evaporator 10 to control the vaporization unit 40 according to a detection signal of the water level detection sensor 80.

When the water level sensor 80 detects the defrost water stored in the storage tray 30, the control unit 90 controls the evaporator 40 to receive power from the power supply unit 910 So that the defrost water stored in the storage tray 30 can be continuously vaporized.

The control unit 90 controls the power supply unit 910 to supply the power to the evaporator 40 and the air blower 40. In the case where the water level sensor 80 does not detect the defrost water stored in the storage tray 30, The supply of power to the fan 120 is cut off, thereby preventing the evaporator 40 from being overheated.

Next, as shown in FIG. 3, the humidity sensor 200 may further be provided.

The humidity sensor 200 may be provided inside the low temperature reservoir (not shown) to sense the humidity inside the low temperature reservoir (not shown).

The control unit 90 may control the vaporization unit 40 according to the reference humidity value input to the controller 90 and the detection signal of the humidity sensor 200.

If the humidity value in the low temperature storage (not shown) sensed by the humidity sensor 200 is equal to or higher than the reference humidity value input to the controller 90, the controller 90 controls the power supply 910 The supply of power to the vaporizing unit 40 and the blowing fan 120 can be cut off, respectively.

If the humidity value in the low temperature storage (not shown) sensed by the humidity sensor 200 is less than the reference humidity value input to the controller 90, the controller 90 controls the power supply 910 Power can be supplied to the vaporizing unit 40 and the blowing fan 120, respectively, so that the vaporizing unit 40 can vaporize the dehydrated water stored in the storage tray 30.

2, a guide plate 60 for more easily guiding the defrost water vaporized in the storage tray 30 to the blowing fan 120 of the evaporator 10 is stored in the storage tray 30, (Not shown).

The guide plate 60 may be inclined upwards in the direction of the blowing fan 120 from the lower side of the guide plate 60 toward the upper side of the guide plate 60.

Next, as shown in FIG. 3, the alarm sound output unit 100 may further be provided.

The alarm sound output unit 100 may be a speaker or the like.

The alarm sound output unit 100 is provided at various positions such as the outer circumferential surface of the main body 110 of the evaporator 10 and can output an alarm sound such as a siren sound under the control of the controller 90.

More specifically, when the water level sensor 80 does not detect the defrost water stored in the storage tray 30, the alarm sound output unit 100 may be controlled by the control unit 90, The sound can be output.

Next, the reference humidity value may be inputted to the controller 90 in advance. However, as shown in FIG. 4, the humidity input unit for inputting the reference humidity value inside the low temperature reservoir (not shown) (300) may be further provided.

The humidity input unit 300 may be provided in various ways such as a push button or a dial button on the controller 90 or the like.

The control unit 90 may control the vaporization unit 40 by comparing the detection signal of the humidity sensor 200 with the reference humidity value input to the control unit 90. [

2, the replenishment water supply unit 50 may include a replenishment water storage tank 510, a supply line 520, and an on-off valve 530. As shown in FIG.

The makeup water storage tank 510 may be provided in the other direction of the evaporator 10 so as to be provided in a low temperature storage tank (not shown) while being exposed to the outside of the main body 110 of the evaporator 10.

The supplementary water such as water to be supplied into the storage tray 30 may be stored in the supplementary water storage tank 510.

The supply line 520 may be a pipe, a hose, or the like.

The upper part of the supply line 520 may be watertightly connected to the lower part of the make-up water storage tank 510.

The lower part of the supply line 520 is located in the upper direction of the other side of the storage tray 30 while horizontally passing the lower side of the other side of the main body 110 of the evaporator 10, The replenishing water can be supplied into the storage tray 30.

The on-off valve 530 may be provided on the supply line 520.

The on-off valve 530 may be an electronic solenoid valve that automatically opens and closes the supply line 520 under the control of the controller 90.

More specifically, when the water level sensor 80 does not sense the defrost water stored in the storage tray 30, the control unit 90 controls the power supply unit 910 to supply the gas to the evaporator 40 And the power supply to the blowing fan 120 is cut off and the alarm sound output unit 100 outputs a warning sound and the opening and closing valve 530 is connected to the supply line of the replenishment water supply unit 50 520 are opened to supply supplemental water such as water into the storage tray 30.

When the water level sensor 80 detects the defrost water stored in the storage tray 30, the control unit 90 controls the power supply unit 910 to supply the gas to the evaporation unit 40 and the air Power is supplied to the fan 120 and the alarm sound output unit 100 is stopped and the opening and closing valve 530 closes the supply line 520 of the replenishment water supply unit 50.

Next, as shown in FIG. 2, a defrost water storage unit 70 may be further provided to store the defrosted water discharged from the storage tray 30.

More specifically, the defrost water storage unit 70 may include a defrost water storage tank 710 and a discharge line 720.

The dehydrated water storage tank 710 may be provided at one side of the evaporator 10 in a state where the dehydrated water storage tank 710 is exposed to the outside of the main body 110 of the evaporator 10 in a low temperature storage tank (not shown).

The defrost water discharged from the storage tray 30 may be stored in the defrost water storage tank 710

The discharge line 720 may be a pipe, a hose, or the like.

The discharge line 720 is horizontally formed between the defrost water storage tank 710 and the storage tray 30 horizontally through one side lower portion of the main body 110 of the evaporator 10, 30 may be drained into the untreated water storage tank 710.

One side of the discharge line 720 may be watertightly connected to an upper portion of the opposite side of the one side of the defrost water storage tank 710.

The other side of the discharge line 720 may be watertightly connected to an upper portion of one side of the storage tray 30 so as to be positioned in an upper direction of the water level sensor 80.

According to the present invention constructed as described above, it is possible to maintain the humidity in the low-temperature reservoir (not shown) more easily by using the purified water in a vaporized state without discharging the purified water to the outside of the low-temperature reservoir Of course, the food such as fruit stored in the low-temperature reservoir (not shown) can maintain the optimum humidity, so that it is possible to more easily prevent the deterioration of the product value and freshness of the food, 30, the replenishing water can be more easily supplied to the storage tray 30 through the replenishment water supply unit 50, and it is possible to more easily supply the replenishing water in the storage tray 30, There is an advantage that it is possible to more easily prevent the possibility of the flow.

10; Evaporator, 30; Storage tray,
50; Replenishment Water Supply Section.

Claims (12)

An evaporator (10) provided inside the low temperature reservoir to generate cold air; And a defrost heater for defrosting the evaporator (10), characterized in that:
The evaporator 10 is disposed inside the evaporator 10. The evaporator 10 is provided inside the evaporator 10 to store evaporative water falling from the heat exchanging fin 130. The evaporator 10 has an inner bottom surface A storage tray 30 having an inclined surface 320 inclined downward in the direction of the arrow 311 and a groove 310 formed in an inner lower side thereof;
A vaporizer 40 which is provided in the groove 310 of the storage tray 30 and comprises an ultrasonic vibrator for vaporizing the purified water stored in the storage tray 30;
A replenishment water storage tank 510 in which replenishing water to be supplied to the inside of the storage tray 30 is stored and an upper portion connected to a lower portion of the replenishing water storage tank 510, A supply line 520 for supplying the replenishment water in the replenishment water storage tank 510 into the storage tray 30 in a state where the replenishing water is stored in the replenishing water storage tank 510, A water supply unit 50;
A guide plate 60 formed on one side of the storage tray 30 and guiding the defrost water vaporized in the storage tray 30 to the blowing fan 120 of the evaporator 10;
A defrost water storage tank 710 for storing defrost water discharged from the storage tray 30 and a defrost water storage tank 710 formed between the defrost water storage tank 710 and the storage tray 30, And a discharge line (720) for discharging a constant to the defrost water storage tank (710);
A water level sensor 80 for sensing the level of the defrost water stored in the storage tray 30;
A humidity sensor (200) for sensing the humidity inside the low temperature reservoir;
A controller 90 for controlling the vaporization unit 40 according to a detection signal of the water level detection sensor 80 and a detection signal of the humidity sensor 200;
An alarm sound output unit 100 for outputting an alarm sound under the control of the control unit 90 according to a detection signal of the water level sensor 80;
And a humidity input unit 300 provided in the control unit 90 for inputting a reference humidity value in the low temperature reservoir. The controller 90 controls the humidity sensor 200 and the controller 90 ) For controlling the vaporization unit (40) by comparing the reference humidity value inputted to the vaporization unit (40). delete delete delete delete delete delete delete delete delete delete delete

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