RU2407961C2 - Refrigerating and/or freezing plant - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: plant includes the space for arrangement of cooled or frozen products, fan moving the air from the space, supplying the air to the space or providing air circulation in the space, and control unit connected to the fan and controlling the fan in order to influence temperature distribution so that the fan rotates in one direction in the first operating condition and in the opposite direction - in the other operating condition.

EFFECT: air supply directly to the required area and prevention of fan stop before the specified cooling degree of chambers is reached.

16 cl, 1 dwg

Description

The invention relates to refrigerators and / or freezers, containing a space for accommodating chilled or frozen products, a fan for entering or removing air from the specified space, or for ensuring air circulation in this space and a control unit connected to the fan.

The fans of such refrigeration and / or freezing units serve various purposes depending on the design of the unit. Known installations in which fans are used to establish the most uniform temperature distribution in the space of the refrigerator or freezer and maintain such a distribution. In addition, there are known installations containing several chambers operating at different temperatures, in which fans serve to maintain these temperature differences. This is achieved as follows: with the help of a fan, the air cooled by the evaporator is first directed to the chilled products storage chamber through the chilled air channel and cools this chamber to a temperature lower than the temperature of the refrigerating chamber into which air enters after passing through the chilled food storage chamber. Then, with the help of a fan, air is again sent from the refrigerating chamber to the chilled air channel and from there to the chilled food storage chamber.

A control unit is installed to control the operation of the fan.

A disadvantage of the known installations is that in them the fan stops depending on the operating condition before the desired degree of cooling of the chambers is achieved. Thus, the fan can be turned off, despite the fact that the actual value of the chamber temperature does not correspond to the set temperature value or the indicated temperature does not lie in the set temperature range.

An object of the present invention is to further improve a refrigeration and / or freezer of the type indicated above to improve the establishment of temperature values or the establishment of a temperature distribution.

This problem is solved in the walking and / or freezer, corresponding to claim 1 of the claims. The control unit controls the fan in order to influence the temperature distribution so that the fan rotates in one direction in the first operating state and in the other direction in the second operating state. Thus, according to the invention, the direction of rotation of the fan is reversed, and if necessary, in the cooled air, cold air can be pumped directly into the desired area. Under the direction of rotation of the fan is understood, for example, the direction of rotation of the fan pulley or the direction of discharge of any other discharge element.

For example, you can change the direction of rotation of the fan to the opposite for a certain period of time or depending on the measured values, in particular, the measured temperature values. For example, a fan can operate in one direction of rotation in an installation containing a refrigerated chamber and a chilled food storage chamber, where the air cooled by the evaporator is not pumped into the chilled food storage chamber, but is pumped into the refrigerated chamber, provided that the actual temperature of the refrigerating chamber exceeds the limit value.

Of course, it is also possible to control a fan different from the one indicated.

In a preferred embodiment of the invention, there is at least one temperature sensor necessary for determining the actual temperature value when choosing the operating state, i.e. when choosing the direction of rotation of the fan, depending on the actual temperature value, in particular on the actual temperature value of the space in which placed chilled and / or frozen foods. Also, one or more temperature sensors can be located in various places of installation. For example, one temperature sensor may be located on the evaporator or in an area adjacent to the evaporator, one temperature sensor may be located in the refrigerating chamber and one temperature sensor may be located in the refrigerated food storage chamber or in the area in front of the refrigerated food storage chamber.

As indicated above, the space can be divided into several chambers, with at least one temperature sensor located in one, several or in all chambers. In general, all cameras can operate at the same temperature. Thus, all the chambers of the electrical appliance can be made, for example, in the form of refrigeration chambers or chambers for storing chilled products. Likewise, an embodiment of the invention is possible in which the entire space of the refrigerator or freezer is a single chamber. However, an embodiment of the invention is preferred in which the installation comprises two or more temperature zones in which different temperatures are set during operation.

In this regard, one temperature zone can be formed by one or more refrigeration chambers, and another temperature zone can be formed by one or more refrigerated food storage chambers. In a preferred embodiment of the invention, the chamber (s) for storing chilled products is located (located) under the refrigerating chamber (s). In another embodiment of the invention, the control unit is designed so that the fan is controlled depending on several actual temperature values, in particular, depending on the actual temperature values in several chambers. For example, a temperature sensor can be installed both in the refrigerator compartment and in the storage chamber of chilled products, and the direction of rotation of the fan is selected depending on both actual temperature values.

The control unit may be configured so that the direction of rotation changes when the temperature exceeds a predetermined value, and / or falls below a predetermined temperature, and / or when the temperature falls within a predetermined temperature range, and / or leaves it. If the actual temperature is within the specified range, the control unit may turn off the fan.

In addition, the invention relates to a method of operating a refrigeration and / or freezer, which comprises a space for accommodating refrigerated or frozen products and a fan that moves air from the space, or pumps air into this space, or circulates air in this space, wherein fan rotation may be different in order to influence the temperature distribution.

In this regard, the fan can rotate in one or the other direction for a certain period of time, or the choice of the direction of rotation may depend on the measured value, in particular, at least one measured temperature value. In a preferred embodiment of the invention, the direction of rotation depends on the actual value of the temperature of the space used to house the chilled and / or frozen products.

As indicated above, it is preferable to use the present invention in installations with multiple cameras. Therefore, the choice of the direction of rotation of the fan may depend on the actual temperature in one, several or all chambers. In particular, it is advisable that the installation contains at least one refrigerating chamber and at least one refrigerated food storage chamber, and the direction of rotation of the fan depends on the actual temperature value measured in the refrigerating chamber and / or in the refrigerated food storage chamber.

In a preferred embodiment of the invention, the control unit is programmed so that it is possible to flexibly set the fan modes, that is, turn off, operate in the first operating state or work in the second operational state when specific states are reached. In addition, the control unit can control not only the direction of rotation of the fan, but also the speed of its rotation depending on the measured values or depending on a given degree of cooling.

The control unit can control the fan in various ways depending on the measured parameters. For example, the direction of rotation of the fan can be set so that when the temperature of the chilled food storage chamber exceeds the limit value, air is pumped from the evaporator into the chilled food storage chamber, and when the temperature of the refrigeration chamber exceeds the limit value, air is pumped from the evaporator into the refrigerator. In addition, it is possible that when the temperature limits of the chilled food storage chamber and the refrigerating chamber increase, the direction of rotation of the fan is first set so that air is pumped from the evaporator into the chilled food storage chamber or into the refrigeration chamber, and when the temperature of this chamber reaches a predetermined value or range preset values, the direction of rotation of the fan was reversed, so that cold air was pumped directly into another chamber.

Other features and advantages of the invention will be described in detail with reference to an embodiment of the invention shown in the drawing, which shows a section of a refrigeration unit with two temperature zones.

The refrigeration unit comprises an inner case that defines the space 10, and the front side of which is configured to be closed by the door 11. The space 10 is divided into a refrigerating chamber 12, as well as two chambers 14, 16 for storing chilled products. As shown in the drawing, the refrigerating chamber 12 is located in the upper installation area, below the upper dividing food storage chamber 14 is located below the horizontal dividing wall 70, and the second refrigerated food storage chamber 16 is located below the intermediate shelf.

In the refrigeration part 12, the average temperature is from 2 ° C to 9 ° C, in the chilled food storage chamber 14, the average temperature is from 0 ° C to 3 ° C, and in the chilled food storage chamber 16, the average temperature is from 0 ° C to 3 ° C.

As indicated above, the bottom of the refrigerator 12 is bounded by a horizontal dividing wall 70. The rear border of the refrigerator 12 is formed by a vertical dividing wall 60. Both dividing walls 60, 70 are thermally insulated.

In the upper end region, the vertical dividing wall 60 contains a cutout in which the fan 20 is located. The chilled air channel 120, in which the evaporator 50 is freely suspended, is located in the area between the vertical dividing wall 60 and the rear wall of the appliance. The evaporator 50 is attached to the rear wall of the appliance.

In addition, the appliance comprises a compressor 90 as well as a capacitor 80 on the outside of the rear wall of the appliance. These devices are components of the refrigeration circuit.

Shelves for chilled products are located in the refrigerating chamber 12. In addition, a shelf is located between the chambers 14 and 16 for storing chilled products, and, for example, drawers are placed in said chambers. As shown in the drawing, another drawer is located in the refrigerator 12.

Reference numerals 30, 32, 34 indicate temperature sensors, wherein the temperature sensor 30 is located at the evaporator 50, the temperature sensor 32 is located in the transition region between the chilled air channel 120 and the chilled food storage chambers 14 and 16, and the temperature sensor 34 is located in the refrigeration chamber 12.

Reference numeral 40 denotes a control unit or electronic control system.

As indicated above, the installation contains two temperature zones, one of which is formed by a cooling chamber 12, and the other is formed by chambers 14 and 16 for storing chilled products. In the operating state, which is indicated by arrows, the fan operates so that it pumps air from the refrigerating chamber 12 into the channel 120 for cooled air. In the latter, the cooled air is cooled by the evaporator 50 and then enters the chilled food storage chambers 14 and 16.

Air enters the refrigerating chamber 12 from the chilled food storage chambers 14 and 16 through the gap between the front side of the horizontal dividing partition 70 directed to the working side and the door 11. Then, the fan 20 is directed to the cooled air duct 120. Thus, in the circulation circuit of the cooled air, cold air is first directed to the chilled food storage chambers 14 and 16, and then from these chambers to the refrigerating chamber 12.

In order that the fan does not stop before the desired degree of cooling of the chambers is achieved, according to the invention, the control unit 40 is able to drive the fan 20 in the opposite direction. Accordingly, in this opposite direction, cold air is first directed from the chilled air channel 120 to the refrigerating chamber 12, and the air moves from the chilled food storage chambers 14 and 16. In this case, air is forced in the opposite direction to that shown. Due to the fact that the rotational movement of the fan, if necessary, can change the direction to the opposite, you can pump cold air directly into the desired area and, if desired, increase the operating time of the compressor 90.

In an embodiment of the invention, it is possible for the fan 20 to first work in the direction shown in the drawing in order to cool the space 10. Accordingly, air is first pumped through the chilled air channel 120 into the chilled product storage chambers 14 and 16. After passing through these chambers and cooling them, air enters the refrigerating chamber 12 through the gap between the horizontal dividing wall 70 and the door 11. If the data of the air temperature sensor 32 indicates that the temperature of the refrigerated food storage chamber corresponds to a predetermined value and if the sensor 34 detects that the temperature in the refrigerator 12 exceeds the limit value, the control unit 40 can change the direction of rotation of the fan in the opposite direction for a certain period of time, or the temperature in the refrigerating chamber 12 also reaches a predetermined value.

According to the invention, it is possible to pump cold air directly into the desired area and, thus, prevent the situation when the fan stops before reaching the desired degree of cooling of the chambers.

Claims (16)

1. A refrigeration and / or freezer, comprising a space (10) for accommodating refrigerated or frozen products, a fan (20) configured to move air from space (10), inject air into this space (10), or allow air to circulate in this space (10), and the space (10) is divided into several chambers (12, 14, 16), and the air has the possibility of sequential flow through these chambers (12, 14, 16), and the unit (40) connected to the fan (20) ) controls configured to effects on temperature distribution by allowing the fan (20) to rotate in one direction in the first operating state and in the other direction in the second operational state. 2. The refrigeration and / or freezer according to claim 1, characterized in that the duration of the first and / or second working condition is either predefined or depends on the measured value. 3. Refrigeration and / or freezer according to any one of claims 1 and 2, characterized in that for determining the actual temperature value there is at least one temperature sensor (30, 32, 34), and the choice of the operating state depends on the actual temperature value , in particular, on the actual value of the temperature in space (10). 4. Refrigeration and / or freezer according to claim 3, characterized in that the temperature sensor (s) (30, 32, 34) is located (located) in the space (10) and / or at the evaporator (50) of the appliance. 5. Refrigeration and / or freezer according to any one of claims 1 and 2, characterized in that the space (10) is divided into several chambers (12, 14, 16), and at least one sensor (30, 32, 34) temperature is located in one, or in several, or in all chambers (12, 14, 16). 6. Refrigeration and / or freezer according to any one of claims 1 and 2, characterized in that it contains two or more temperature zones. 7. Refrigeration and / or freezer according to claim 6, characterized in that one temperature zone is formed by one or more refrigeration chambers (12), and the other temperature zone is formed by one or more chambers (14, 16) for storing chilled products. 8. Refrigeration and / or freezer according to any one of claims 1 and 2, characterized in that the control unit is configured to control the fan (20) depending on several actual temperature values, in particular depending on the actual temperature values in several chambers . 9. Refrigeration and / or freezer according to any one of claims 1 and 2, characterized in that the control unit is configured to change the direction of rotation when the temperature exceeds the set value, and / or falls below the set value, or when the temperature falls into the specified temperature range, or out of it. 10. The method of operation of a refrigerating and / or freezing installation containing a space (10) for accommodating refrigerated or frozen products and a fan (20), configured to move air from the space (10), inject air into this space (10) or provide circulation air in this space (10), characterized in that the space (10) is divided into several chambers (12, 14, 16), and the air has the possibility of sequential flow through these chambers (12, 14, 16), the fan (20) is rotated in different directions with the aim of ow effects on temperature distribution. 11. The method according to claim 10, characterized in that the fan (20) is rotated in one or another direction for a certain period of time or the choice of the direction of rotation depends on the measured value. 12. The method according to any one of claims 10 and 11, characterized in that the direction of rotation of the fan (20) is selected depending on the actual temperature, preferably on the actual temperature in the space (10), preferably the refrigerator (12) of the installation. 13. The method according to any one of paragraphs 10 and 11, characterized in that the installation contains several chambers (12, 14, 16), and the direction of rotation of the fan (20) is selected depending on the actual temperature in one, several or all cameras. 14. The method according to claim 10, characterized in that the installation comprises at least one refrigerating chamber (12) and at least one chamber (14, 16) for storing chilled products, and the direction of rotation of the fan (20) is selected depending on the measured the actual temperature of the refrigerating chamber and / or the cold storage chamber. 15. The method according to 14, characterized in that the refrigeration and / or freezer contains an evaporator (50) for cooling the air, and the direction of rotation of the fan (20) is set so that when the temperature in the storage chamber of the chilled products exceeds the limit value, air is pumped from the evaporator (50) into the chilled products storage chamber (14, 16), and when the temperature of the refrigerating chamber exceeds a limit value, air is pumped from the evaporator (50) into the refrigerating chamber. 16. The method according to any one of paragraphs.14 and 15, characterized in that the refrigeration and / or freezer contains an evaporator (50) for cooling the air, and if the temperature limits are exceeded in the chilled food storage chamber and in the refrigerating chamber, the direction of rotation of the fan ( 20) first set so that the air from the evaporator (50) is pumped into one of the chambers: either into the chamber (14, 16) for storing chilled products, or into the refrigerating chamber (12), and when the temperature in this chamber reaches a predetermined value or a predetermined range of values Nij fan rotation direction change on the opposite, i.e. air is pumped from the evaporator (50) into another chamber.

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