• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    cooler. a cooler is provided. in the refrigerator, cooled air from inside the heat exchange chamber is supplied into a set of drawers arranged within a storage space, and in addition, the interior of the drawer set is cooled using a thermoelectric module to cool quickly the interior of the drawer set. in this way, food storage performance can be improved.
    公开号:BR112013010649B1
    申请号:R112013010649-2
    申请日:2012-02-10
    公开日:2021-02-23
    发明作者:Jaehoon Shin;Yanggyu KIM;Yongjoo PARK
    申请人:Lg Electronics Inc;
    IPC主号:
    专利说明:

    Technique Field
    The present description refers to a refrigerator. Fundamentals of Technique
    Refrigerators are appliances that can store food at a low temperature in an internal storage space that is open or closed by a door. For this purpose, such a refrigerator cools the interior of the storage space using cooled air generated by heat exchange with a refrigerant that circulates a cooling cycle to store food in an optimum state.
    Currently, the size of the refrigerator tends to increase more and more and multiple functions are provided to the refrigerator as changes in food life and the most elegant is sought, and therefore, refrigerators having various structures considering the convenience of the user are coming to the market.
    For example, refrigerators for cooling a relatively small space using a thermoelectric module are disclosed in Korean Patent Publication No. 10-2010-0121334, and Korean Patent Publication No. 10-2006-0058350.
    However, such a refrigerator can be provided to cool a relatively small space and, in addition, it can take a very long time to perform cryogenic freezing inside the refrigerator. Description of the Invention Technical problem
    Modalities provide a refrigerator in which air cooled from within a heat exchange chamber is supplied within a set of drawers disposed within a storage space and cooled by a thermoelectric module to quickly cool the interior of the set of drawers. Solution to the Problem
    In one embodiment, a refrigerator includes: a cabinet defining a storage space; a door opening or closing the storage space; a heat exchange chamber defined on one side of the cabinet, the heat exchange chamber defining a space in which a vaporizer to generate cooled air is received; a set of drawers defining a side space from within the storage space, the set of drawers communicating with the heat exchange chamber to receive the cooled air; and a thermoelectric module disposed in the drawer set, the thermoelectric module quickly cooling the interior of the drawer set, in which the thermoelectric module has a side communicating with the heat exchange chamber, and heat generated by irradiation of the thermoelectric module is discharged into the heat exchange chamber.
    When the cooled air from inside the heat exchange chamber is supplied into the drawer set to reach a defined temperature, the thermoelectric module can be operated to further cool the interior of the drawer set.
    A supply duct to supply the cooled air into the drawer assembly and a return duct to guide air from within a heat radiating portion into the heat exchange chamber can be arranged between the drawer assembly and the heat exchange chamber, a register to open or close the supply duct can be additionally arranged in the supply duct, and the register can be configured to close the supply duct when the thermoelectric device is operated.
    The supply duct can pass through a barrier by dividing the storage space into a cooling compartment and a freezing compartment.
    The supply duct can pass through a grid tray dividing the storage space and the heat exchange chamber from each other.
    The thermoelectric module can include: a heat-absorbing part including a heat-absorbing side heatsink and a heat-absorbing side blower fan that discharges the cooled air into the drawer set to cool the interior of the set of drawers; a heat irradiation part including a heat irradiation side heatsink and a heat irradiation side blower fan that discharges irradiated air into the heat exchange chamber; and an insulating member disposed between the heat absorbing side heatsink and the radiating heat side heatsink to contact the thermoelectric device on both of its side surfaces.
    The set of drawers may include a cooled air inlet open on one side corresponding to the heat absorbing part to allow the cooled air from within the heat exchange chamber to be introduced into the set of drawers.
    The heat-absorbing side blower fan can be operated when the thermoelectric device is operated and the cooled air from inside the heat exchange chamber is supplied into the drawer set.
    The set of drawers can include: a covering on which the thermoelectric module is mounted, the covering being disposed within the storage space; and a drawer disposable in a removable form within the covering.
    The set of drawers can include: a liner disposed within the storage space, the liner communicating with the heat exchange chamber; and a drawer in which the thermoelectric module is disposed, the drawer being disposable in a removable way inside the cover.
    The thermoelectric module can additionally include a cooling plate extending from one side, in which heat absorption from the thermoelectric module is performed towards the interior of the storage space of the drawer assembly to perform heat transmission due to conduction.
    The cooling plate can define at least a portion of an internal surface of the storage space of the drawer assembly.
    The set of drawers is mounted on a barrier that vertically divides the storage space to define a cooling compartment and a freezing compartment.
    The set of drawers can be arranged inside the freezer compartment of the cooling and freezing compartments defined on both the right and left sides of the storage space to communicate with the heat exchange chamber defined on a rear side of the drawer set. Advantageous Effects of the Invention
    The refrigerator according to the modalities has the following effects.
    First, the refrigerator, according to the modalities, can provide a set of drawers that is arranged inside the freezing compartment to carry out cryogenic freezing storage having a temperature lower than that of the freezing compartment. In this way, various foods can be effectively stored to improve food storage performance.
    Second, in the refrigerator, according to the modalities, the interior of the set of drawers can communicate with the heat exchange chamber to receive cooled air. In this way, the interior of the drawer set can quickly drop in temperature. In addition, the thermoelectric module can be used to cool the interior of the drawer set to a lower temperature. In this way, the internal space of the set of drawers can be cooled to a lower temperature and quickly cooled.
    Third, in the refrigerator, according to the modalities, the cooling plate in contact with the thermoelectric module can be extended into the drawer to receive food to define a portion of the bottom surface of the drawer, thereby directly cooling the drawer through driving. In this way, the drawer can be directly cooled by supplying the cooled air, due to the heat-absorbing side blower fan and the conduction, to more quickly cool the space in which the food is stored. Brief Description of the Figures
    Fig. 1 is a front view of a refrigerator with an open door according to an embodiment.
    Fig. 2 is a sectional view taken along line 2-2 'in Fig. 1.
    Fig. 3 is a perspective view of a set of drawers according to an embodiment.
    Fig. 4 is an enlarged perspective view of the set of drawers.
    Fig. 5 is a perspective view of a set of drawers according to another embodiment.
    Fig. 6 is an enlarged perspective view of the set of drawers.
    Fig. 7 is a front view of a refrigerator with an open door according to another embodiment.
    Fig. 8 is a sectional view taken along line 8-8 'in Fig. 7. Mode for the Invention
    Reference will now be made in detail to the modalities of this disclosure, examples of which are illustrated in the attached figures. The invention can, however, be modalized in several different ways and should not be interpreted as being limited to the modalities defined here; instead, that alternative modalities, included in other regressive inventions or encompassing the spirit and scope of the present disclosure, will fully convey the concept of the invention to those skilled in the art. Fig. 1 is a front view of a refrigerator with an open door according to an embodiment. Fig. 2 is a sectional view taken along line 2-2 'in Fig. 1.
    Referring to Figs. 1 and 2, a refrigerator 1 according to an embodiment, includes a cabinet 10 defining a storage space and a door 20 for opening / closing the storage space. Here, an external appearance of the refrigerator 1 is defined by the cabinet 10 and the door 20.
    In addition, the storage space within cabinet 10 is vertically divided by a barrier 11 to define a cooling compartment 12 on an upper side, and a cooling compartment 13 on a lower side. A heat exchange chamber 15, divided from the freezer compartment 13, by a grid tray 14, is defined on a rear side of the freezer compartment 13. A vaporizer 151 for generating cooled air is disposed within the exchange chamber of heat 15.
    The cooled air generated in the vaporizer 151 can be blown by a fan motor and a duct and then supplied into the freezer compartment 13 or the cooling compartment 12. In addition, the cooled air generated in the vaporizer 151 can be supplied into a set of drawers (which will be described below) through a supply duct 152 and a return duct which will be described in detail below.
    The door 20 can include a cooling compartment door 21 and a freezing compartment door 22 which respectively and selectively open or close the cooling compartment 12 and the freezing compartment 13. The cooling compartment door 21 is provided in a pair on the right and left sides. The cooling compartment door 21 can be hingedly attached to the cabinet 10 to open or close the cooling compartment 12 by rotating it. The freezer compartment door 22 can be withdrawn in a type of drawer. In this way, the freezing compartment 13 can be opened or closed by extracting the freezing compartment door 22.
    A plurality of shelves and drawers are arranged within the freezing compartment 12 and the cooling compartment 13 to receive various foods. A set of drawers 30 for quick freezing or cryogenic freezing storage of food is disposed within the refrigeration compartment 12.
    The set of drawers 30 is arranged on a lower surface of the cooling compartment 12, i.e., a top surface of the barrier 11. When the cooling compartment door 21 is opened, a front surface of the set of drawers 30 is exposed. The set of drawers 30 can include a liner 31 and an extractable drawer 32 disposed within the liner 31.
    The set of drawers 30 and the heat exchange chamber 15 are connected to each other by a supply duct 152. The supply duct 152 has one end communicating with the heat exchange chamber 15 and the other end communicating with a side of the liner 31. In this way, the supply duct 152 provides a passage through which cooled air from inside the heat exchange chamber 15 is supplied into the set of drawers 30.
    The set of drawers 30 and the heat exchange chamber 15 or the freezing compartment 13 are connected to each other by the return duct 153. The return duct 153 can have one end communicating with one side of the liner 31 and the other end communicating with the heat exchange chamber 15 or the freezing compartment 13.
    A register 153 can be arranged in the supply duct 152 and the return duct 153. In this way, the cooled air can be selectively supplied into the drawer set 30. A fan motor can be additionally arranged in the supply duct 152 and in the return duct 153. In this way, the cooled air can be circulated between the set of drawers 30 and the freezing compartment 13 or the heat exchange chamber 15 by operating the fan motor.
    From now on, the set of drawers will be described in more detail with reference to the attached figures.
    Fig. 3 is a perspective view illustrating the set of drawers according to an embodiment. Fig. 4 is an enlarged perspective view of the set of drawers.
    Referring to Figs. 3 and 4, the drawer set 30 includes a liner 31 defining an external appearance of the drawer set 30 and an open space in a front direction, a drawer 32 removably disposed within the liner 31, and a thermoelectric module 40 for cooling the interior of the drawer set 30.
    In detail, the lining 31 has a rectangular parallelepiped shape with open front and rear surfaces. In addition, the liner 31 extends from a front end of the cooling compartment 12 to a rear end. In this way, the open rear surface of the liner 31 can be blocked by a rear side wall of the cooling compartment 12.
    The drawer 32 is arranged on a front portion of the liner 31. The drawer 32 can be removably arranged within the liner 31. A slide guide 321 and a roller 323 are arranged on the surfaces on both the left side and the right side of the drawer. 32. The slide guide 321 and the roller 323 can be moved along a guide part 311 arranged on an inner surface of the liner 31 to allow the drawer 32 to be extracted smoothly.
    In addition, a grid tray 323 is arranged on a rear surface of the drawer 32. The grid tray 322 provides a passage through which cooled air generated in the thermoelectric module 40 and cooled air supplied from the heat exchange chamber 15 are introduced. In this way, the cooled air from within the drawer 32 can be uniformly introduced into the drawer 32. A grid may include a center grid 322a disposed in a center of a rear side wall of the drawer 32 corresponding to an absorption side blower fan. heater 432 arranged in the thermoelectric module 40 and a side grid 322b arranged vertically and horizontally at the right, left, lower and upper outer ends away from the center of the rear side wall of the drawer 32.
    A thermoelectric module mounting part 312, on which the thermoelectric module 40 is mounted, is arranged on a rear portion of the liner 31. An insulating member 42 constituting the thermoelectric module 40 can be fixed and mounted on the thermoelectric module mounting part 312. The thermoelectric module assembly part 312 can be integrally produced together with the liner 31. Alternatively, the thermoelectric module assembly part 312 can be separately produced using a different material than that of the thermoelectric module 40 and then mounted on the module thermoelectric plant 40.
    A cooled air inlet 313 connected to the supply duct 152 is arranged and opened on one side of the liner 31 corresponding to a front side of the insulating member 42. The cooled air inlet 313 is arranged between the rear side wall of the drawer 32 and the insulating member 42 in a state where the drawer 32 is fully retracted. In addition, a grid can additionally be arranged at the cooled air inlet 313 to prevent foreign substances from being introduced.
    A rear surface of the liner 31 corresponding to a rear side of the insulating member 42 is opened and connected to the return duct 153. In this way, heat radiated from a heat irradiation part 44 of the thermoelectric module 40 can be introduced into the heating chamber. heat exchange 15 or the freezing compartment 13 through the return duct 153, and thereby be cooled. Alternatively, the return duct 153 can communicate with a space corresponding to the front side of the insulating member 42. In addition, the return duct 153 can circulate cooled air within the set of drawers 30.
    In addition, a register 152a can be additionally disposed in the supply duct 152. The register 152a can close the supply duct 152 to prevent cooled air from being introduced into the heat exchange chamber 14 when a thermoelectric device of the thermoelectric module 40 is operated.
    From now on, the thermoelectric module will be described in more detail.
    The thermoelectric module 40 can include the thermoelectric device 41, the insulating member 42, a heat absorption part 43, and the heat irradiation part 44.
    Thermoelectric device 41 can be a Peltier device in which one surface of it absorbs heat and the other surface radiates heat through a semiconductor carrier when a current flows into a semiconductor (or conductor). A heatsink plate and a blower fan can be arranged on side surfaces respectively to radiate and absorb heat effectively. The thermoelectric device 41 can be mounted on a perforated mounting part 421 of the insulating member 42. In addition, both surfaces of the thermoelectric device 41 can come into contact with the heat absorption part 43 and the heat irradiation part 44 .
    Thermoelectric device 41 can be operated only when a temperature within the drawer set 30 is less than a defined temperature. That is, when the drawer set 30 is initially cooled, cooled air inside the heat exchange chamber 15 is supplied from the supply duct 152 to first cool the interior of the drawer set 30. When the temperature inside of the set of drawers 30 reaches the set temperature, the supply of cooled air from the heat exchange chamber 15 is interrupted, and the thermoelectric device 41 is operated to, in a secondary way, cool the interior of the set of drawers 30.
    The insulating member 42 can be in the form of a plate or sheet. In this way, the insulating member 42 can divide the interior of the liner 31 into front and rear sides. When the thermoelectric module mounting part 312 dividing the interior of the liner 31 is additionally arranged, the insulating member 42 can be mounted on the thermoelectric module mounting part 312. The insulating member 42 can have a thickness corresponding to that of the device thermoelectric 41, or the heat absorption part 43 and the heat irradiation part 44 may come into contact with the front and rear surfaces of the thermoelectric device 41.
    The heat-absorbing part 43 may be arranged on a front side of the insulating member 42. In addition, the heat-absorbing part 43 may include a heat-absorbing side heatsink 431 and a side-blowing blower. heat absorption 432. The heat absorption side heatsink 431 can come into contact with a front surface of the insulating member 42 to increase the heat exchange of the insulating member 42.
    In addition, the heat-absorbing side blower fan 432 is arranged on a front side of the heat-absorbing side heat sink 431. In addition, the heat-absorbing side blower fan 432 can be attached to a side of the heat absorption side heat sink 431. In addition, the heat absorption side fan blower 432 can, by force, blow the cooled air generated in the heat absorption side heat sink 431 towards to drawer 32 to effectively cool drawer set 30. In addition, when a separate fan is not provided to supply duct 152, the heat absorbing side heatsink 431 can be operated to smoothly supply the cooled air through the supply duct 152. That is, despite the fact that thermoelectric device 41 is not operated, when the supply of cooled air into the set of drawers 30 is required, the heat absorption side 432 can be operated.
    The heat irradiation part 44 can be arranged on a rear side of the insulating member 42. In addition, the heat irradiation part 44 can include a heat irradiation side heat sink 441 and a side blower fan. irradiation heat 442. The heat irradiation side heat sink 441 and the heat irradiation side blowing fan 442 can have fundamental structures and shapes similar to those of the heat absorption side heat sink 431 and the blower fan of heat absorption side 432, respectively.
    However, the radiating side heat sink 441 can come in contact with a back surface of the thermoelectric device 41 and be larger in size than the side heat sink 431 to increase relatively the efficiency of heat exchange. In addition, the side heat exchanger blower 442 can have a size corresponding to that of the side heat sink heatsink 441 and be coupled to the rear portion of the side heat sink heatsink 441.
    Hereinafter, an operation for cooling the interior of the refrigerator drawer set having the structure described above, according to the modality, will be described.
    First, a user opens the refrigeration compartment door 21 in order to receive food inside the set of drawers 30. Then, the drawer 32 is extracted to collect the food to be stored in a cryogenic freezing state inside the drawer 32.
    When the drawer 32 retracts and then the cooling compartment door 21 is closed, cooled air from inside the heat exchange chamber 15 is introduced into the liner 31 along the supply duct 152 to cool the interior of the liner 31 Here, the cooled air supplied along the supply duct 152 can be supplied into the liner 31 by a blowing fan (not shown) disposed within the heat exchange chamber 15 or the blowing fan disposed within the refrigerator. As needed, the heat-absorbing side-blower fan 432 can be operated to smoothly supply the cooled air into drawer 32. When return duct 153 communicates with a space in which drawer 32 is arranged, cooled air that has undergone heat exchange inside drawer 32 can be discharged into heat exchange chamber 15 or freezer compartment 13 via return duct 153. cooled air from inside heat exchange chamber 15 can be continuously provided to first cool the interior of the drawer set 30 until the temperature inside the drawer set 30 reaches the set temperature.
    When the temperature inside the set of drawers 30 reaches the set temperature, the register 152a of the supply duct 152 is closed to prevent the cooled air inside the heat exchange chamber 15 from being supplied into the set of drawers 30.
    When register 152a is closed, an operation of thermoelectric device 41 can start at the same time. The cooled air generated in the heat absorption side heat sink 431 can be delivered smoothly into the drawer 32 via the grid tray 323 by the heat absorption side blower fan 432. The thermoelectric device 41 can be operated up to that the temperature inside the set of drawers 30 reaches a set temperature for cryogenic freezing, to continuously cool the interior of the set of drawers 30.
    Once the thermoelectric device 41 is operated, the radiating side heat sink can radiate heat. In addition, the heat irradiation side blowing fan 442 can be operated to improve heat exchange of the heat irradiation side heat sink 441. Once the heat irradiation side blowing fan 442 is operated, air high temperature on a rear side of the liner 31 can be introduced into the heat exchange chamber 15 or the freezing compartment 13 through the return duct 153 and thereby cooled by the cooled air from inside the heat exchange chamber heat 15 or freezer compartment 13.
    Various modes, except for the mode described above, can be applied to the cooling device according to the current mode. Hereinafter, a cooling device according to another embodiment will be described.
    In a refrigerator according to another embodiment, a cooling plate can be arranged in a thermoelectric module to further cool the interior of a drawer in a way of direct cooling and, in addition, the thermoelectric module can be arranged in the drawer. In this way, the refrigerator, according to another modality, can be the same as that of the refrigerator according to the mentioned modality, except for a structure of a set of drawers. Therefore, the same part will be designated by the same reference numeral and its detailed descriptions will be omitted.
    Fig. 5 is a perspective view of a set of drawers according to another embodiment. Fig. 6 is an enlarged perspective view of the set of drawers.
    Referring to Figs. 5 and 6, a set of drawers 50 according to another embodiment can include a liner 51 defining its external appearance and a drawer 52 arranged in a removable way in the liner 51.
    The liner 51 can extend from a front end of a cooling compartment 12 to a rear end. A front surface of the liner 51 can be covered when the drawer 52 retracts. A rear surface of the liner 51 can be closed by a rear side wall of the cooling compartment 12.
    A dividing plate 521, to divide the internal space of drawer 52 into a space in which food is received and a space in which a thermoelectric module 40 is mounted, can be additionally arranged inside drawer 52. In addition, a grid 522, to guide cooled air into a frontal space in which food is received, it can be additionally arranged on the dividing plate 521.
    A grid 522 may include a center grid 522a arranged in the center of the rear side wall of drawer 52 corresponding to a heat-absorbing side-blowing fan 432 arranged on the thermoelectric module 40, and a side grid 522b vertically and horizontally arranged at the ends right, left, bottom and top exteriors away from the center of the rear side wall of drawer 52.
    In addition, the thermoelectric module 40 is disposed on a rear side of the splitting plate 521. The thermoelectric module 40 can be disposed on a rear side of the dividing plate 521 and mounted on a rear side wall of a thermoelectric module mounting part. 524 dividing the interior of drawer 52 on the front and rear sides. A mounting hole 524a, having a corresponding shape so that an insulating member 42 in which a thermoelectric device 41 is mounted, is mounted, can be drilled in the mounting part of the thermoelectric module 524.
    The thermoelectric module 40 may include the insulating member 42, a heat absorbing part 43, a heat irradiation part 44, a cooling plate 45. Fundamental structures and shapes of the thermoelectric device 41, of the insulating member 42, of the heat absorption part 43, and heat irradiation part 44 have the same structure and effect as those of the aforementioned modality, except that they are mounted in drawer 52. In this way, its detailed description will be omitted. However, the insulating member 42 on which the thermoelectric device 41 is mounted can be mounted on the rear side wall of the drawer 52. In addition, as necessary, the insulating member 42 can be arranged on the entire rear side wall of the drawer. 52.
    A cooling plate 45 is disposed between the thermoelectric device 41 and the heat absorbing side heatsink 431. That is, the cooling plate 45 can come in contact with a front surface of the thermoelectric device 41 and a heatsink back surface. heat absorption side heat exchanger 431 to allow heat from the thermoelectric device 41 to be transmitted to the cooling plate 45 by conduction. The cooling plate 45 can extend into the drawer 52 to directly cool the interior of the drawer 52 by conduction. In this way, the cooling plate 45 can be formed of a metal material having superior thermal conductivity.
    In addition, the cooling plate 45 may include a contact part disposed between the thermoelectric device 41 and the heat absorbing side heatsink 431 and an extension part 452 extending into the drawer 52. In detail, the the contact part 451 has a side having a size and shape corresponding to those of the thermoelectric device 41 to effectively transmit heat from the thermoelectric device 41. In addition, the contact part 451 can extend down to a lower surface of the drawer 52. The part extension 452 can extend forward from a lower end of contact part 451 to define an entire bottom surface of drawer 52. In this way, the entire bottom surface of drawer 52 can be cooled by cooling plate 45, and the food inside drawer 52 can be cooled directly. Alternatively, the cooling plate 45 can define a portion of the bottom surface of the drawer 52, with the exception of the entire bottom surface of the drawer 52. In addition, the cooling plate 45 can define a side surface of the drawer 52, with the exception of the bottom surface drawer 52.
    Connectors 523 and 511 to supply power to the thermoelectric module 40 can be arranged on one side of the drawer 52 and on one side of the liner 51, respectively. Connectors 523 and 511 can be connected to each other in a state where drawer 52 is fully retracted. When connectors 523 and 511 are connected to each other, thermoelectric module 40 can be operated.
    In addition, a cooled air inlet 512 can be arranged on a side surface of the liner 51 and connected to a supply duct 152. The cooled air inlet 512 can be arranged between a dividing plate 521 and a mounting part of thermoelectric module 524. In addition, the lower surface of the drawer 52 and a lower surface of the cooling plate 45, which corresponds to the cooled air inlet 512, can be opened with shapes corresponding to each one.
    In this way, the interior of the drawer 52 can be cooled first by the cooled air from inside the heat exchange chamber 15. In addition, a rear surface of the liner 51 can be connected to a return duct 153 to discharge heated air from the radiating heat 44 into the heat exchange chamber 15 or the freezing compartment 13, thereby cooling the air.
    In addition, another mode, except for the modes described above, can be applied to the cooling device according to the current mode. Hereinafter, a cooling device according to another embodiment will be described.
    In the refrigerator, according to another modality, a set of drawers cooled by the supply of cooled air and a thermoelectric module are arranged inside a freezer compartment. In this way, the refrigerator according to another modality, can be the same as the refrigerator according to the mentioned modalities, except for an assembled position of the set of drawers. Therefore, the same part will be designated by the same reference numeral and its detailed descriptions will be omitted.
    Fig. 7 is a front view of a refrigerator with an open door according to another embodiment. Fig. 8 is a sectional view taken along line 8-8 'in Fig. 7.
    Referring to Figs. 7 and 8, a cabinet 60 of a refrigerator 2 according to another embodiment is divided into right and left sides by a barrier 61 to define a freezing compartment 62 and a cooling compartment 63. A plurality of shelves and drawers can be provided inside the cooling compartment 63 and the freezing compartment 62. Specifically, a set of drawers 70 which will be described below can be arranged inside the freezing compartment 62. In addition, the freezing compartment 62 and the cooling compartment 63 can be opened or closed by a freezing compartment door 621 and a cooling compartment door 631.
    In addition, a heat exchange chamber 65 divided by a grid tray 64 is defined on a rear side of the freezer compartment 62. A vaporizer 651 can be arranged inside the heat exchange chamber 65 to generate cooled air. A blower fan 652 and a casing 653, which circulate and supply the cooled air, can additionally be arranged above the vaporizer 651.
    In addition, a plurality of cooled air outlets 641, for supplying cooled air into the freezing compartment 62, can be arranged in the grid tray 64. A cooled air inlet 642, through which the cooled air from within the compartment freezer compartment 62 is re-introduced into the heat exchange chamber 65, it can be arranged at a lower end of the grid tray 64 to supply and circulate cooled air inside the freezer compartment 62 and the drawer assembly 70.
    In addition, a register 641 can be arranged on the grid tray 64 to selectively supply the cooled air from within the heat exchange chamber 65 into the cooling compartment 63 and the drawer assembly 70.
    The set of drawers 70 can store food received inside it in a cryogenic freezing state. The set of drawers 70 can be arranged on one side of the freezer compartment 62 corresponding to the outlet of cooled air 641. The set of drawers 70 can include a liner 71 defining its external appearance and a drawer 72 disposable within the liner 71 .
    In addition, a thermoelectric module 40 can be arranged on one side of the lining 71 corresponding to a rear side of the drawer 72. The thermoelectric module 40 can have the same constitution as the aforementioned modality. That is, the thermoelectric module 40 may include a thermoelectric device 41, an insulating member 42 mounted on the thermoelectric device 41, a heat absorbing part 43 including a heat absorbing side heatsink 431 and a side blower fan. heat absorber 432, and a heat irradiation part 44 including a heat irradiation side heatsink 441 and a heat irradiation side blower fan 442.
    Here, the heat-absorbing part 43 can be arranged to face the drawer for blowing cooled air and towards the drawer 72. Here, the blown cooled air can be blown smoothly into drawer 72 through a grid 721 arranged in a rear surface of the drawer 72. The heat irradiation part 44 can communicate with the heat exchange chamber 65 to allow the cooled air irradiated from the heat irradiation part 44 to be cooled within the heat exchange chamber 65 .
    A thermoelectric module assembly part 711, dividing the interior of the sheath 71 in a space in which the drawer 72 is arranged and a space in which the thermoelectric module 40 is arranged, can be arranged in the sheath 71. In addition, a member of insulation 42 of the thermoelectric module 40 can be attached to the mounting part of the thermoelectric module 711. In this way, the thermoelectric module 40 can be mounted to the mounting part of the thermoelectric module 711. In addition, a cooled air inlet 711a communicating with the the cooled air outlet 641 of the heat exchange chamber 65, can be arranged in the thermoelectric module assembly part 711. In addition, a register 641a can be arranged in the cooled air outlet 641 corresponding to the set of drawers 70 to selectively introduce the cooled air supplied from the heat exchange chamber 65, into drawer 72. When the cooled air outlet 641 and the cooled air inlet 711 are spaced from each other, the cooled air outlet 641 and cooled air inlet 711 can be connected to each other via a separate passageway.
    The register 641a can be opened only when the thermoelectric device 41 is not operated. In this way, the interior of the drawer 72 can be cooled first by the cooled air from inside the heat exchange chamber 65 and then cooled secondarily by the thermoelectric module 40. Industrial Applicability
    Depending on current conditions, the internal space of the drawer set can be cooled to a lower temperature and cooled down quickly to improve storage performance. In this way, industrial applicability can be further improved.
    权利要求:
    Claims (10)
    [0001]
    1. Refrigerator comprising: a cabinet (10) defining: a cooling compartment (12); a freezing compartment below the cooling compartment (13) a barrier (11) vertically dividing the cooling compartment (12) and the freezing compartment (13); and a heat exchange chamber (15) defined at a rear side of the freezing compartment (13); a vaporizer (151) disposed within the heat exchange chamber, to generate cooled air; a set of drawers (30) defining a sealed space within the cooling compartment (12), the set of drawers (30) communicating with the heat exchange chamber (15) to receive the cooled air, and including: a coating (31); and a drawer (32) removably disposed within the cover (31) a thermoelectric module (40) disposed in the drawer set (30), the thermoelectric module (40) rapidly cooling an interior of the drawer set (30); and a supply duct (152) connecting a set of drawers (30) and the heat exchange chamber (15) to supply cooled air into the heat exchange chamber (15) into the set of drawers (30); and a register (152a) disposed in the supply duct (152), in which the thermoelectric module (40) includes: a thermoelectric device (41) having a front surface that is defined as a heat-absorbing surface and a rear surface that is defined as a heat-radiating surface; an insulating member (42) having a perforated mounting part (421) on which the thermoelectric device (41) is mounted; a heat-absorbing part (43) in contact with the front surface of the thermoelectric device (41); a heat irradiation part (44) in contact with the rear surface of the thermoelectric device (41), where the heat irradiation part (44) communicates with the heat exchange chamber (15), to discharge generated heat by irradiation of the thermoelectric module (40) inside the heat exchange chamber (15), characterized by the fact that the cooled air inside the heat exchange chamber (15) is introduced into the liner (31) along the duct supply (152) to first cool the interior of the liner (31), where the register (152a) closes the supply duct (152) when the temperature of the interior of the set of drawers (30) reaches a first defined temperature and a operation of the thermoelectric device (41) starts at the same time to further cool the interior of the drawer assembly (30).
    [0002]
    2. Refrigerator according to claim 1, characterized by the fact that it additionally comprises a return duct (153) connecting the set of drawers (30) and the heat exchange chamber (15) to guide air from inside a part radiating heat (44) into the heat exchange chamber (15).
    [0003]
    3. Refrigerator according to claim 2, characterized by the fact that the supply duct (152) and the return duct are configured to pass through the barrier (61).
    [0004]
    4. Refrigerator according to claim 2, characterized in that the supply duct (152) passes through a grid tray (64) dividing the storage space and the heat exchange chamber (15) from each other.
    [0005]
    Cooler according to claim 1, characterized in that the heat-absorbing part (43) comprises: a heat-absorbing side heatsink (431); and a heat-absorbing side blower fan (432) that discharges the cooled air into the drawer set (30) to cool the interior of the drawer set (30), the heat irradiation part (44) comprises: a radiating side heat sink (441); and a heat-blowing side blower fan (442) that discharges the irradiated air into the heat exchange chamber (15), in which the insulating member (42) is disposed between the absorption side heat sink heat exchanger (431) and the heat radiating side heatsink (441) to contact the thermoelectric device (41) on both its side surfaces.
    [0006]
    6. Refrigerator according to claim 5, characterized by the fact that the set of drawers (30) comprises a cooled air inlet (313) opened on one side of the cover (31) corresponding to the front side of the insulating member (42 ) and connected to the supply duct to allow the cooled air from inside the heat exchange chamber (15) to be introduced into the set of drawers (30).
    [0007]
    7. Refrigerator according to claim 5, characterized by the fact that the heat-absorbing side blower fan (432) is operated when the thermoelectric device (41) is not operated and the air cooled from inside the heat exchange chamber. heat (15) is supplied into the set of drawers (30).
    [0008]
    8. Refrigerator according to claim 1, characterized by the fact that the thermoelectric module (40) additionally comprises a cooling plate (45) extending from a side in which heat absorption of the thermoelectric module (40) is performed towards the interior of the storage space of the set of drawers (30) to perform heat transmission due to conduction.
    [0009]
    Cooler according to claim 8, characterized in that the cooling plate (45) defines at least a portion of an internal surface of the storage space of the drawer assembly (30).
    [0010]
    10. Refrigerator according to claim 1, characterized in that a grid tray (323) is defined on the rear surface of the drawer (32), wherein the grid tray (323) includes: a center grid (322a ) formed in a rear center of the drawer (32); and a side grid (322b) vertically and horizontally formed on the upper and lower outer ends, on the left and on the right, away from the center of the center grid (322a).
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    同族专利:
    公开号 | 公开日
    BR112013010649A2|2016-08-09|
    WO2012111942A2|2012-08-23|
    US20130276465A1|2013-10-24|
    KR101829222B1|2018-02-19|
    WO2012111942A3|2012-11-01|
    EP2627956A2|2013-08-21|
    CN103250015A|2013-08-14|
    US9605888B2|2017-03-28|
    CN103250015B|2015-06-17|
    EP2627956A4|2016-11-02|
    EP2627956B1|2020-01-15|
    KR20120093514A|2012-08-23|
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    法律状态:
    2018-12-18| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|
    2019-12-24| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|
    2020-12-08| B09A| Decision: intention to grant|
    2021-02-23| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 10/02/2012, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    KR10-2011-0013124|2011-02-15|
    KR1020110013124A|KR101829222B1|2011-02-15|2011-02-15|Refrigerator|
    PCT/KR2012/001029|WO2012111942A2|2011-02-15|2012-02-10|Refrigerator|
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