ES2431805T3 - Heated cooling device to prevent frosting - Google Patents

Abstract

Refrigeration device (1) comprising - at least one refrigeration compartment (2) and at least one freezer compartment (3), - an insulating intermediate wall (4) separating the compartments (2 and 3) from each other - at least one evaporator (5) that provides cooling for the air that circulates in compartments (2 and 3), - a compressor (6) that compresses the refrigerant that passes through the evaporator (5) and that circulates in the cycle of refrigeration, - a channel (7) through which the return air passes from the refrigeration compartment (2) to the volume (H) containing the evaporator (5), - a fan (8) that blows the refrigerated air towards the compartments (2 and 3), and characterized by - a defrost heater (9) located in the evaporator (5) and - a control unit (10) that detects the operation time (t7a) of the fan (8), the time stop (t7b) of the fan (8), the temperature (T2) of the refrigeration compartment (2) and the temperature (T5) of the evaporator (5), in which the control unit (10) operates the fan (8) if the ratio (Γw) of the operating time (t7a) of the fan (8) with respect to the total times of operation and stoppage (t7a+t7b) of the fan (8) is less than a predetermined limit operation ratio (Γwt), the temperature (T2) of the refrigeration compartment (2) being less than a predetermined activation temperature (T2t) of the compressor (6), and the temperature (T5) of the evaporator (5) being greater than a predetermined temperature (T5t), - and in which the control unit (10) operates the defrost heater (9) if the ratio ( Γw) of the operation time (t7a) of the fan (8) with respect to the total of the operation and stop times (t7a+T7b) of the fan (8) is less than a predetermined limit operation ratio (Γwt), being the temperature ( T2) of the refrigeration compartment (2) less than a predetermined activation temperature (T2t) a of the compressor (6), and the temperature (T5) of the evaporator (5) being no greater than a predetermined temperature (T5t).

Description

Heated cooling device to prevent frosting

Description

The present invention relates to a cooling device that is heated to prevent frosting and to a method of operating said device. A cooling device according to the preamble of claim 1 is known, for example, from WO-A1-2006 / 092759.

In refrigeration devices, at least two compartments maintained at different temperatures are provided, generally one being the refrigeration compartment and the other the freezing compartment. The refrigeration compartment is reserved for foods such as fruits and vegetables and the food is cooled to be stored for a few weeks. Foods that need to be stored for a longer period of time are placed in the freezing compartment that cools more.

In this type of refrigeration devices, the cooling of the compartments is carried out by different procedures. According to one procedure, the air is cooled by passing it over the evaporator by means of a fan and then circulating inside the freezing compartment and the cooling compartment. The air reaches the evaporator again by passing through the channel located in the intermediate wall that separates the freezing and cooling compartments. The moisture in the hot air delivered from the cooling compartment condenses and freezes over the air duct and the evaporator. In order to maintain the necessary performance, the ice sheets accumulated on the air channel and the evaporator are defrosted at certain intervals. The defrosting process is predominantly carried out by electric defrosting heaters and therefore the defrosting process carried out frequently greatly increases energy consumption.

In the state of the art of the international patent application No. W02006092759, a cooling device is explained in which the outside ambient temperature is detected and if this temperature is determined to cause frosting, then the fan and the defrosting heater They are operated to avoid frosting.

In the state of the art of US Patent Application No. US6266966, a cooling device comprising a heat transfer plate located in the air channel is explained.

In the state of the art of US patent application No. US2007033956, a cooling device is explained comprising a control unit that operates the evaporator defrosting fan and heater by checking the sensor on the outside surrounding when the compressor in the cooling compartment is off.

In embodiments of the prior art, sensors for frost detection are used and defrost heaters are used for frost prevention. Although the use of a plurality of defrost heaters is an expensive solution, the appropriate time and conditions must be determined to supply the hot air heated by the evaporator defrost heater to the air channel by means of the fan.

The object of the present invention is the realization of a cooling device comprising a control unit for the prevention of frosting.

The cooling device made in order to achieve the object of the present invention is explained in the appended claims.

The cooling device cools the food by means of the refrigerant circulating through the compressor that cools the ambient air in the evaporator and the cooled air is distributed between the compartments by means of a fan. The fan is operated when the coolant is circulated and stops at other times. The cooled air passes through the channel located in the intermediate wall as it passes from the cooling compartment to the freezing compartment. The humidity freezes in cold places, particularly in the evaporator, as a result of a very hot outdoor environment or that the door is opened frequently. In order to eliminate this, the evaporator is heated by a defrosting heater at a time when the refrigerant does not pass through it.

The cooling device further comprises a control unit that operates the fan, if the fan operating ratio, the temperatures of the compartment and the evaporator are within predetermined intervals. The operating ratio of the fan determines the operating ratio of the compressor which is the need for cooling. Accordingly, it is detected whether or not moisture accumulates inside the cooling device. If moisture accumulation is detected, then compartment temperatures are controlled to determine whether or not frosting has occurred. The defrost heater temperature is checked in order to eliminate frosting and the evaporator temperature is checked to detect

fan operating conditions. If all conditions are favorable, frost is removed by fan operation. In one embodiment of the present invention, the defrost heater is used in order to maintain the evaporator temperature.

In another embodiment of the present invention, the cooling device has three compartments and the compartments are cooled by different evaporators in order to have different temperature values. The evaporators can be controlled separately by means of at least one valve, the compressor is also used while the fan is running during the defrosting process, not delivering the refrigerant to the evaporator to defrost.

By means of the present invention, frosting is detected from operating relationships of the fan and the fan is activated in order to take advantage of the heat of the defrosting heater for defrosting. Consequently, frosting is detected effectively and energy is saved with the fan by delivering hot air to the evaporator and the channel in which frosting is detected.

The cooling device made in order to achieve the object of the present invention is illustrated in the attached figures, where:

Figure 1 is the schematic side view of a cooling device.

Figure 2 is the schematic side view of a refrigeration device comprising three compartments.

Figure 3 is the control unit algorithm in an embodiment of the present invention.

The elements shown in the figures are numbered as follows:

one.

Cooling device

2.

Cooling compartment

3.

Freezing compartment

Four.

Intermediate wall

5.

Evaporator

6.

Compressor

7.

Channel

8.

Fan

9.

Defrosting heater

10. Control unit The cooling device (1) comprises

-

at least one refrigeration compartment (2) and at least one freezing compartment (3),

-

an intermediate insulating wall (4) that separates the compartments (2 and 3) from each other,

-

at least one evaporator (5) that provides cooling of the air circulating inside the compartments

(2 and 3),

-

a compressor (6) that compresses the refrigerant that passes through the evaporator (5) and circulates in the refrigeration cycle, - a channel (7) through which the air passes back from the refrigeration compartment (2) to the volume

(H) containing the evaporator (5), -a fan (8) that blows the cooled air into the compartments (2 and 3) and -a defrost heater (9) located in the evaporator (5) (figure 1).

The cooling device (1) further comprises a control unit (10) which - detects the operating time (t7a) of the fan (8), the stopping time (t7b) of the fan (8), the temperature (T2) of the cooling compartment (2) and the temperature (T5) of the evaporator (5), and operating the fan (8)

-

if the ratio (Tw) of the operating time (t7a) of the fan (8) to the total operating and stopping times (t7a + t7b) is less than a predetermined limit operating ratio (Γwt),

-

if the temperature (T5) of the evaporator (5) is higher than a predetermined temperature (T5t),

-

if the temperature (T2) of the refrigeration compartment (2) is lower than a predetermined activation temperature (T2t) of the compressor (6) (figure 1).

When the compressor (6) operates, the refrigerant is circulated in the refrigeration cycle and cools the environment while passing through the evaporator (5). When the environment reaches the desired temperature (T 2t T3t), additional cooling of the environment is prevented by stopping the compressor (6). If the environment heats up again, the compressor (6) is run again and the refrigeration cycle continues. During cooling, frosting can occur in the evaporator (5) due to humidity in the environment. Frosting occurs predominantly due to the frequent opening of the door of the cooling device (1) or the high temperature of the external environment. When these conditions are met, the temperatures (T2, T3) of the compartments (2 and 3) also fall and the compressor (6) operates without interruption for a long period of time. When the refrigeration cycle operates for a long time, frosting occurs in the evaporator (5) and the channel (7). When the operating time of the compressor (6) is long, it indicates that the operating time of the fan (8) is also high. The control unit (10) controls the operating time (t8a) of the fan (8) and the stopping time (t8b) of the fan (8). If the ratio (Γw = t8a / (t8b + t8b)) of the fan's operating time (t8a) with respect to the total stop and operating times (t8b + t 8b) of the fan (8) is less than an operating ratio predetermined limit (Γwt) then the appearance of frosting is detected. In an embodiment of the present invention, the relationship between the minimum operating time (Γwtmin) is recorded in the memory of the control unit (10) and the relation of the operating time (Γw) of the fan is prevented ( 8) is made lower than the ratio between the minimum operating time (Γw tmin) by fan operation (8). The control unit (10) operates the defrost heater (9) in order to defrost the evaporator (5). During the operation of the defrost heater (9), the refrigerant does not pass through the evaporator (5) therefore the evaporator (5) defrosts rapidly without condensation on it. The use of evaporator heat (5) to defrost other places can only be achieved if the cooling air is not circulated in other places. Because the hot air must not be mixed in the refrigeration cycle and increase the temperature (T2 or T3) of the compartments (2 and 3). In order to detect this, the temperature (T2) of the refrigeration compartment (2) is measured and, if the refrigeration compartment (2) is sufficiently cold (<T2t) then it follows that the refrigeration cycle, i.e. The compressor (6) is not working. The control unit (10) provides hot air to be delivered to other frosty places by operating the fan (8) if the evaporator (5) is hot enough and the cooling compartment (2) is cold enough. For this process, when the fan (8) is operated, the time (t8) as the operating time (t8t) is not calculated.

In an embodiment of the present invention, the control unit (10) prevents frosting of the channel (7) by operating the fan (8). The control unit (10) eliminates the additional use of a heating unit to defrost the channel (7) by operating the fan (8) to supply the evaporator heat (5) to the channel (7). Therefore, frosting is avoided both in the evaporator (5) and in the channel (7) by means of a single defrost heater (9) (figure 1).

In an embodiment of the present invention, if the temperature (T5) of the evaporator (5) is lower than the determined temperature (T5t), the control unit (10) operates the defrost heater (9) until it is reached the determined temperature (T5t) and the fan operates (8) upon reaching the determined temperature (T5t).

In one embodiment of the present invention, the cooling device (1) comprises more than one cooling compartment (2, 102) and a separate evaporator (5, 105, 205) in each of the compartments (2, 102 and 3) and at least one valve (not shown in the figures) that controls the refrigerant delivered to the evaporators (5, 105, 205). The cooling device (1) further comprises the control unit (10) that operates the defrost heater (9) and the evaporator fan (8) of the evaporators (5, 105 or 205), whose valve closes and operates defrost heaters (9) and fans (8) of the other evaporators (105, 205), whose valves are open. Consequently, while the evaporator (5, 105 or 205) closed by the valve is heated, compressor stop (6) is not required and the other compartments (2, 102 or 3) continue to cool. Meanwhile, the air channel outlets (7) are closed in the compartments (2, 102 or 3) where the defrost heater (9) operates so that the hot air does not mix in the refrigeration cycle. Consequently, the channel (7) is also defrosted without delivering heated air to the other compartments (2, 102 or 3) (Figure 2).

The cooling device (1) is operated according to the following procedure in an embodiment of the present invention:

-

start the refrigeration cycle (1000),

-

ask if the fan (8) has stopped or not (1001),

-

if the fan (8) operates then continue the cycle (1000),

-

ask if the operating ratio (Γw) of the fan (8) is, or not, less than the limit operating ratio (Γwt) if the fan (8) has stopped (1002), 5-continue checking the operating ratio (Γw) if the operating ratio (Γw) of the fan (8) is not less than the limit operating ratio (Γwt) (1001),

-

ask if the temperature (T2) of the cooling compartment (2) is, or not, lower than the 10 activation temperature (T2t) of the compressor (6) if the operation ratio (Γw) of the fan (8) is lower that the limit operating ratio (Γwt) (1003),

-

If the temperature (T2) of the cooling compartment (2) is not lower than the activation temperature (T2t) of the compressor (6), then operate the compressor (6) (2003), 15

-

If the temperature (T2) of the cooling compartment (2) is lower than the activation temperature (T2t) of the compressor (6), then ask if the temperature (T5) of the evaporator (5) is, or not, higher than the defrost temperature value (T5t) (1004),

20 -if the evaporator temperature (T5) (5) is higher than the defrost temperature value (T5t), then operate the fan (8) (3004),

-

if the temperature (T5) of the evaporator (5) is not higher than the value of the defrost temperature (T5t) then operate the defrost heater (9) (2004), 25 - ask if the temperature (T5) of the evaporator ( 5) is, or is not, higher than the defrost temperature value (T5t) (1005),

-

If the temperature (T5) of the evaporator (5) is higher than the defrost temperature value (T5t), then return to step 1003, and

-

If the temperature (T5) of the evaporator (5) is not higher than the defrost temperature value (T5t), then operate the defrost heater (9) (2004) (Figure 3).

By means of the control unit (10) operating the refrigeration device (1) in accordance with this procedure, the detection of frosting and the start of the defrosting process is guaranteed in the condition that the refrigeration cycle is not forced to be operated.

By means of the control unit (10) of the present invention, it can be detected effectively whether frosting has occurred or not by monitoring the operating relationship of the fan (8). On the other hand, the air heated by the defrost heater (9) used to defrost the evaporator (5) can be sent to other places that could have frosting problems, for example the channel (7), by means of the fan (8 ). In

Consequently, the use of additional heating units is not required and cost and energy savings are provided.

It should be understood that the present invention is not limited to the embodiments disclosed above and a person skilled in the art can easily introduce different embodiments within the scope of the protection postulated by the claims of the present invention.

Claims (4)

1. Refrigeration device (1) comprising

-

at least one refrigeration compartment (2) and at least one freezing compartment (3),

-

an intermediate insulating wall (4) that separates the compartments (2 and 3) from each other,

-

at least one evaporator (5) that provides cooling of the air circulating in the compartments (2 and 3),

-

a compressor (6) that compresses the refrigerant that passes through the evaporator (5) and circulates in the refrigeration cycle,

-

a channel (7) through which the air passes back from the cooling compartment (2) to the volume (H) that contains the evaporator (5),

-

a fan (8) that blows the cooled air into the compartments (2 and 3), and

characterized by

-

a defrost heater (9) located in the evaporator (5) and

-

a control unit (10) that detects the operating time (t7a) of the fan (8), the stopping time (t7b) of the fan (8), the temperature (T2) of the cooling compartment (2) and the temperature (T5) of the evaporator (5), in which the control unit (10) operates the fan (8) if the ratio (Γw) of the operating time (t7a) of the fan (8) with respect to the total time of operation and stop (t7a + t7b) of the fan (8) is less than a predetermined limit operating ratio (Γwt), the temperature (T2) of the cooling compartment (2) being less than a predetermined activation temperature (T2t) of compressor (6), and the temperature (T5) of the evaporator (5) being greater than a predetermined temperature (T5t),

-

and in which the control unit (10) operates the defrost heater (9) if the ratio (Γw) of the operating time (t7a) of the fan (8) with respect to the total operating and stopping times (t7a + T7b) of the fan (8) is less than a predetermined limit operating ratio (Γwt), the temperature (T2) of the cooling compartment (2) being less than a predetermined activation temperature (T2t) of the compressor (6), and the temperature (T5) of the evaporator (5) being not greater than a predetermined temperature (T5t).

2.

Cooling device (1) according to claim 1, characterized in that the control unit (10) that operates the defrost heater (9) until the temperature (T5) of the evaporator (5) reaches the determined temperature (T5t) if the temperature (T5) of the evaporator (5) is lower than the determined temperature (T5t).

3.

Cooling device (1) according to claim 1 or 2, comprising more than one cooling compartment (2, 102), a separate evaporator (5, 105, 205) in each of the compartments (2, 102 and 3), a fan (8) associated with each of said evaporators (5, 105, 205) and at least one valve that controls the refrigerant delivered to the evaporators (5, 105, 205) and characterized in that the control unit ( 10) which operates the defrost heater (9) and the evaporator fan (8) of the evaporators (5, 105 or 205), whose valve is closed and does not operate the defrost heaters (9) and fans (8) of the other evaporators (105, 205), whose valves are open.

Four.

Operation procedure of a refrigeration device (1) according to any one of the preceding claims, said process comprising the following steps:

-

start the refrigeration cycle (1000),

-

ask if the fan (8) has stopped (1001) or not,

-

if the fan (8) operates, then continue the cycle (1000),

-

If the fan (8) has stopped (1002), then ask if the ratio (Γw) of the operating time (t7a) of the fan (8) with respect to the total operating and stopping times (t7a + t7b) of the fan (8) is smaller or not that the limit operating ratio (Γwt) continues to control the operating ratio (Γw) if the operating ratio (Γw) of the fan (8) is not less than the limit operating ratio (Γwt ) (1001),

-

ask if the temperature (T2) of the cooling compartment (2) is, or not, lower than the activation temperature (T2t) of the compressor (6) if the operating ratio (Γw) of the fan (8) is less than the limit operating ratio (Γwt) (1003),

-

If the temperature (T2) of the cooling compartment (2) is not lower than the activation temperature (T2t) of the compressor (6), then operate the compressor (6) (2003),

-

If the temperature (T2) of the cooling compartment (2) is lower than the activation temperature (T2t) 5 of the compressor (6), then ask if the temperature (T5) of the evaporator (5) is, or not, higher than defrost temperature value (T5t) (1004),

-

If the temperature (T5) of the evaporator (5) is higher than the defrost temperature value (T5t), then operate the fan (8) (3004),

-

If the temperature (T5) of the evaporator (5) is not greater than the value of the defrost temperature 10 (T5t) then operate the defrost heater (9) (2004),

-

ask if the temperature (T5) of the evaporator (5) is, or not, higher than the defrost temperature value (T5t) (1005),

-

If the temperature (T5) of the evaporator (5) is higher than the defrost temperature value (T5t) then return to step 1003,

15 -if the evaporator temperature (T5) (5) is not greater than the defrost temperature value (T5t) then operate the defrost heater (9) (2004).