BRPI1000924B1 - temperature equalization system and method applied to the appliance door - Google Patents

Abstract

TEMPERATURE EQUALIZATION SYSTEM AND METHOD APPLIED TO DOOR APPLIANCES. System and method of temperature equalization applied to the door (12, 24, 30) of household appliances by circulating air inside the freezer compartment (23), the freezer compartment (11) or the refrigerator compartment (16), according to the case, in order to eliminate regions where the air remains still. Said circulation comprises the forced movement of air between at least one air inlet opening (34) and at least one air outlet opening (15, 25, 35, 36), said forced movement being provided by the action of at least one fan (13, 26, 37), installed in the air inlet opening or in the air outlet opening. Said openings are positioned in regions of different temperatures in the compartment, and are interconnected by means of conducting the air flow (14, 27, 34), which can be provided by means of ducts.

Description

FIELD OF THE INVENTION

[001] The present invention refers to a temperature equalization system applied to the door of household appliances and, more specifically, to refrigeration appliances, which may be, among others, of the "cyclomatic" type, when the defrost is carried out at each compressor cycle (technically known as CycleDefrost), automatic, when the defrost is autonomously controlled by the refrigerator (technically known as NoFrost or FrostFree) or manual, when user intervention is required to perform the defrost, said system being applicable both products with one, two or more ports.

BACKGROUND OF THE INVENTION

[002] Since the beginning of humanity, there has been a need to conserve food in order to store it. The first domestic refrigerator was produced in 1913 by Fred W. Wolf Junior in Chicago, called Domelre (Domestic Electric Refrigerator). It was only in 1925 that the first refrigerators that contained the cooling box and the motor, compressor and condenser (a trio that previously existed separately, beside or under the refrigerator) were manufactured in the same unit.

[003] Between 1890 to 1929, refrigerators used toxic gases as refrigerants. Examples were ammonia (NH3), methyl chloride (CH3CL), and sulfur dioxide (SO2). In 1928, an American engineer, Thomas Midgley, developed chlorofluorocarbons (CFCs) as a substitute for toxic gases, with an emphasis on Freon (CCL2F2).

[004] Tragically, it was only in 1973 that American chemists Frank Sherwood Rowland and Mario Molina realized the harmful effect of CFCs on the planet's ozone layer. The refrigerant gas directly used in the last 2 decades to replace CFC's, R22 and R12 gases in domestic refrigerators is R134a.

[005] In addition to the evolution of refrigeration systems, domestic refrigerators added quality with the development of temperature control systems, forced ventilation systems, automatic defrost system, application of new materials with better performance, design, ergonomics, beauty, practicality, etc.

[006] In the 1990s, there was a great concern with the energy consumption of household appliances, especially refrigerators. In this decade, the energy consumption seal was implemented, where refrigerators are classified according to their energy consumption class. Thus, the present invention meets the growing concern to reduce the level of energy consumption of domestic refrigerators, and it should help in the continuous reduction of these rates.

STATE OF TECHNIQUE ANALYSIS

[007] US patent 5,826,437 entitled Refrigeration for Discharging Cool Air from a Door describes a refrigerator in which the refrigerator compartment door contains a built-in duct comprising a cold air suction opening located on the inner face of the door and several openings diffusing the cold air, also on said inner face. Figures 3 and 4 of that document, reproduced in the present application as Fig. 1 and Fig. 2, respectively illustrate a side section of the refrigerator compartment and the door in question. As can be seen, the fan 90 is installed in the suction opening 83 of the vertical duct 80 ending in the upper and lower regions of the door by the diffuser openings 81. As indicated by the arrows, said fan extracts cold air from the central region of the refrigerator compartment, injecting it in the upper and lower regions next to the door, in order to improve the cooling of items stored on the door shelves 76, which are normally exposed to ambient heat when the door is opened.

[008] As seen in the sectional view of Fig. 1, the cold air for cooling this compartment comes from the freezer (not shown) being introduced through duct 68. Due to the greater density of cold air, this has a tendency to accumulates in the lower region 91 of the refrigerator. Consequently, the distribution mode as presented results in a loss of efficiency in the process, since approximately half of the volume of cold air sucked in by the fan 90 is directed to said lower region, which is naturally already the coldest in the compartment.

OBJECTIVES OF THE INVENTION

[009] In view of the foregoing, the present invention aims to provide a more efficient temperature equalization system in refrigerators than those currently known, such as that presented in the aforementioned reference.

[010] Another objective is to provide a temperature equalization system that can be used in freezer compartments, freezers and refrigerator compartments.

[011] Another objective of the invention is to provide a system that does not require changes in the refrigeration system.

[012] Another objective is to provide a system that can be used both in refrigerators with cabinets of one, as with two or more doors.

[013] Another objective is to provide a temperature equalization system that can also be used in other types of household appliances, maintaining the basic principle of operation, for example ovens and cooking appliances.

DESCRIPTION OF THE INVENTION

[014] The above objectives and others are achieved by the invention through the provision of means that provide the air circulation inside the freezer, freezer or refrigerator compartment, as the case may be, in order to eliminate regions where the air remains stopped.

[015] According to another feature of the invention, said circulation comprises the movement of air between regions with different temperatures, by means of one or more fans.

[016] According to another feature of the invention, the means used comprise a fan associated with an arrangement comprising at least an air inlet and an air outlet located in different regions of the compartment, interconnected by means of conducting the air flow between said inlet and said outlet, said arrangement being installed in the door of the compartment considered, in order to promote the forced circulation of air, homogenizing the temperature distribution within said compartment.

[017] According to another feature of the invention, said different regions correspond to different levels of the compartment.

[018] According to another feature of the invention, the system proposed herein can be used in automatic cyclomatic products, when the defrost is performed at each compressor cycle (technically known as CycleDefrost), when the defrost is controlled autonomously by the refrigerator (technically known as NoFrost or FrostFree) or manuals, when user intervention is required to perform the defrost, both on products with 1 (one), 2 (two) or more doors.

[019] According to another feature of the invention, the proposed system can be used to equalize the temperature only in the freezer or freezer compartment, in the refrigerator compartment or in both (freezer and refrigerator or freezer and refrigerator).

[020] According to another feature of the invention, the temperature equalization system is applied to the door of refrigeration appliances, thus avoiding the need for changes in the refrigeration system.

[021] According to another feature of the invention, the proposed system promotes a direction of air flow in regions of interest.

[022] Similarly, the present invention works on the door of a cooking apparatus, homogenizing the temperature in the oven compartment.

BRIEF DESCRIPTION OF THE DRAWINGS

[023] The other features and advantages of the invention will be better understood through the description of preferred exemplary embodiments, given by way of example and not in a sense of limitation, and the drawings that refer to them, in which:

[024] Figure 1 illustrates, through a sectional view, a known system of temperature homogenization in the refrigerator compartment.

[025] Figure 2 illustrates the piping embedded in the refrigerator door of the previous figure.

[026] Figure 3 shows, through a sectional view of a two-door refrigerator equipped with a system according to the invention, one of the possible configurations of the air flow inside the freezer compartment.

[027] Figure 4 shows, through a schematic sectional view, the freezer compartment door according to the principles of the present invention.

[028] Figure 5 shows, through a sectional view, the freezer compartment temperature equalization system applied to refrigerators with a one-door cabinet.

[029] Figure 6 details, through a perspective view, the temperature equalization system applied to the freezer compartment door, in the one-door refrigerator illustrated in the previous figure, comprising a fan, an arrangement of internal ducts and outlets. air.

[030] Figure 7 shows, through an exploded view, an alternative constructivity of the proposed system applied to the freezer compartment door, in a refrigerator with a one-door cabinet.

[031] Figure 8 shows a sectional view of the freezer compartment door referring to the constructiveness of the previous figure.

[032] Figure 9 shows, through a perspective view, the air flow in the alternative constructivity exemplified in the two previous figures.

DESCRIPTION OF ACHIEVEMENTS OF THE INVENTION

[033] The present invention provides a solution for improving air circulation in refrigeration systems, and this invention can be used in cyclomatic products, when the defrost is performed at each compressor cycle (technically known as CycleDefrost), automatic, when the defrost is controlled autonomously by the refrigerator (technically known as NoFrost or FrostFree) or manual, when user intervention is required to carry out the defrost, both products with 1 (one), 2 (two) or more doors.

[034] The present invention can be used, in conventional refrigerators, to distribute the air only in the freezer compartment, in the freezer or in the refrigerator compartment or in both (freezer and refrigerator or freezer and refrigerator). Furthermore, the system proposed herein can also be used in horizontal freezers with one and two doors, as well as in upright freezers. The invention consists of a fan, means of conducting the air flow, which can be provided by an arrangement of ducts, internal or external, air outlets or air inlets, so that, when applied to the door of a system of refrigeration, this invention promotes forced air circulation, homogenizing the temperature inside the compartment in question.

[035] The fan can be installed inside the door or even on the outside of it, and this does not change the objectives of the present invention, as the purpose of the fan is to drive air into the compartments (forced ventilation).

[036] Variations in the fan sucking air or insufflating air also do not change the objectives and results of the present invention. Variations in the formats and positions of the air outlets or air inlets also do not affect the objectives and results of the present invention, as the air outlets and air inlets have the specific function of directing the airflow to predetermined regions. The shape and arrangement of the duct arrangement, internal or external, do not affect the general objectives of the invention.

[037] Specific aspects of the invention are shown in the figures of the attached drawings for convenience, where each aspect can be combined with other aspects as needed, within the scope of the same inventive aspect. Thus, Fig. 3 exemplifies the application of the system of the invention to the freezer compartment 11 of a two-door refrigerator 10. As illustrated in Fig. 3 and detailed in Fig. 4, the freezer door 12 is equipped with a fan 13 installed in an air intake opening, which extends in a substantially vertical duct 14 and ends in at least one air outlet 15. As observed in this exemplary embodiment, the air is sucked into the lower region, or level, of the door 12, that is, along the lower region of the freezer compartment 11 and expelled again into the same compartment through said at least one air outlet 15, located in a region or level different from that of the suction opening; in this case, this level is higher. This forced air movement produces a closed circuit circulation, as indicated by the arrows, resulting in an equalization in temperature throughout the freezer compartment. If two or more outlets are used, they should preferably be located at the same height.

[038] Alternative configurations will be understood as possible by those skilled in the art, and should be included in the scope of the claims. Thus, for example, the direction of air circulation inside the compartments in which the system is applied may be different from that illustrated in the figures.

[039] Fig. 5 exemplifies, through a sectional view, the application of the proposed system in a refrigerator 20 with a door 21 cabinet in which shelves 22 are mounted. As illustrated, the temperature equalization system is installed in the door 24 of the freezer compartment 23, and comprises a fan 26 that sucks cold air from the lower region of that compartment, expelling it through the opening 25, located in the upper region of the same compartment, promoting the circulation of air inside this compartment. Fig. 6 presents more details of the proposed system through a perspective view. In the illustrated embodiment, the air drawn in by the fan 26 is directed to the air outlet openings 25 through a set of ducts 27 (depicted in broken lines) embedded in the door 24.

[040] Figures 7, 8 and 9 show an alternative constructive disposition, in which the means of conducting the air flow do not require the use of ducts. As illustrated, the freezer compartment door 30 (not shown in these figures) comprises the thermally insulating main panel 31, on whose inner face, facing the freezer compartment, a tray 32 is superimposed, preferably molded in thermoplastic material, with or without a thermal insulating layer. This tray has a depth 33, sufficient to accommodate the fan 37 and its support pedestal 38 which, for constructive convenience, is affixed to said inner face of the panel 31. Said tray has a circular opening 34 for air intake, in position corresponding to that of fan 37 and with a diameter sufficient to accommodate the latter's helix. In addition, this tray has two openings 35 and 36, located at a different level from said suction opening. Thus, when the assembly is assembled by superimposing the tray 32 on the said panel, a cavity is formed, or "plenum" 34, as detailed in Fig. 8. The air sucked in by the fan 37 is propelled into the plenum and diffuses itself, as illustrated by the dashed arrows in Fig. 9, towards the openings 35 and 36, through which it is inflated into the freezer compartment. This constructiveness allows to reduce the system's production costs, since it eliminates the use of flow directing ducts, which naturally flow from the suction opening 34 to the outlet openings 35 and 36. Eventually, they may be provided on the internal face of the tray 32, ribs molded integrally therewith and arranged to guide the flow of air between said suction and outlet openings.

[041] In an optional alternative constructivity, blocks of thermally insulating material or not may be inserted between the internal faces of the walls that form the plenum, said blocks having shapes and arrangements such that they form channels directing the air flow between the inlet openings and exit.

[042] The innovation presented herein is not limited to the representations commented on or illustrated here, and should be understood in its broad scope. Many modifications and other representations of the invention will come to mind of one skilled in the art to which this innovation belongs, taking advantage of the teaching presented in the foregoing descriptions and accompanying drawings. Consequently, it is to be understood that the innovation is not limited to the specific form disclosed, and that modifications and other forms are understood to be included within the scope of the appended claims. Among the possible constructive variants, those referring to vertical freezers stand out, as well as horizontal freezers with one or two doors, in which case the suction and insufflation regions may be located at the same level.

[043] Although specific terms are used here, they are used only in a generic and descriptive manner and not by way of limitation.

[044] Thus, the preceding description should be understood as illustrative, and not limiting of the scope of protection of the invention. All obvious changes and modifications are within the scope of protection defined by the appended claims.

Claims (23)

1. Temperature equalization system applied to the appliance door, the door being able to correspond to the freezer compartment (11), the freezer compartment (23) to the refrigerator compartment (16, 21), to a cooking compartment or even to a freezer horizontal or vertical, consisting of at least one fan (13, 26, 37), means for conducting the air flow (14, 27, 34) interconnecting at least one air inlet opening (34) with at least one opening of air outlet (15, 25, 35, 36), characterized in that the at least one air inlet opening (34) is located in a first region of the compartment where the temperature is different from the temperature in a second region of the same compartment , where the at least one air outlet opening (15, 25, 35, 36) is located, one of the openings being associated with the fan (13, 26, 37). 2. System according to claim 1, characterized in that the first region corresponds to a position of lower air temperature inside the compartment, the second region corresponding to a position of higher air temperature. System, according to claim 1, characterized in that the first region corresponds to a position of higher air temperature inside the compartment and the second region corresponds to a position of lower air temperature. System according to any one of claims 2 to 3, characterized in that the air inlet opening (34) is located in the first region. System according to any one of claims 2 to 3, characterized in that the air inlet opening (34) is located in the second region. System according to any one of claims 4 to 5, characterized in that the fan (26, 37) is located in the air inlet opening (34). System according to any one of claims 1 to 6, characterized in that the fan (13, 26, 37) is located in an air outlet opening (15, 25, 35, 36). 8. System according to claim 7, characterized in that it comprises two or more air outlet openings (15, 25, 35, 36), all located on the same level. System according to claim 8, characterized in that the air flow conduction means (14, 27, 34) are provided by ducts (14, 27) positioned internally to the door (12, 24) where the system is installed . System, according to claim 8, characterized in that the air flow conduction means (14, 27, 34) are provided by ducts positioned externally to the door where the system is installed. System, according to claim 8, characterized in that the air flow conduction means (14, 27, 34) are provided by a plenum (34) associated with the door (30) where the system is installed. System according to any one of claims 9 to 11, characterized in that it is applied to the door (24, 31) of the freezer compartment (23). System according to any one of claims 9 to 11, characterized in that it is applied to the door (12) of the freezer compartment (11). System according to any one of claims 9 to 11, characterized in that it is applied to the door (17) of the refrigerator compartment (16). 15. System according to any one of claims 1 to 14, characterized in that it includes air insufflation in a specific internal accessory. 16. System according to any one of claims 1 to 15, characterized in that it includes air exhaust in a specific internal accessory. System according to any one of claims 1 to 3, characterized in that it is applied to cooking appliances. 18. Temperature equalization method applied to the door of household appliances, characterized by providing air circulation within one or more compartments (11, 16, 23) by suctioning air through an opening associated with the door (12, 24, 31) located in a first region of one or more compartments and the insufflation of air through at least one opening (15, 25, 35, 36) located in a second region of the same compartment. A method according to claim 18, characterized in that the first region corresponds to a position of lower air temperature inside the compartment, the second region corresponding to a position of higher air temperature. Method according to claim 18, characterized in that the first region corresponds to a position of higher air temperature inside the compartment, the second region corresponding to a position of lower air temperature. A method according to any one of claims 18 to 20, characterized in that the air intake is provided by a fan (13, 26, 37). Method according to any one of claims 18 to 20, characterized in that the insufflation of the air is provided by a fan (13, 26, 37). A method according to claim 18, characterized in that the first region corresponds to a first level of one or more compartments, and the second region corresponds to a second level of one or more compartments.

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