WO2020145758A1 - Appareil de cuisson - Google Patents

Appareil de cuisson Download PDF

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Publication number
WO2020145758A1
WO2020145758A1 PCT/KR2020/000533 KR2020000533W WO2020145758A1 WO 2020145758 A1 WO2020145758 A1 WO 2020145758A1 KR 2020000533 W KR2020000533 W KR 2020000533W WO 2020145758 A1 WO2020145758 A1 WO 2020145758A1
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WO
WIPO (PCT)
Prior art keywords
door
cooking
knob
disposed
dial
Prior art date
Application number
PCT/KR2020/000533
Other languages
English (en)
Korean (ko)
Inventor
윤동혁
김학수
Original Assignee
엘지전자 주식회사
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020190121098A external-priority patent/KR20200087662A/ko
Priority claimed from KR1020190176631A external-priority patent/KR20200087681A/ko
Application filed by 엘지전자 주식회사 filed Critical 엘지전자 주식회사
Publication of WO2020145758A1 publication Critical patent/WO2020145758A1/fr

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details
    • F24C15/02Doors specially adapted for stoves or ranges
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details
    • F24C15/02Doors specially adapted for stoves or ranges
    • F24C15/04Doors specially adapted for stoves or ranges with transparent panels
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C7/00Stoves or ranges heated by electric energy
    • F24C7/08Arrangement or mounting of control or safety devices
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/10Induction heating apparatus, other than furnaces, for specific applications
    • H05B6/12Cooking devices

Definitions

  • the present invention relates to a cooking appliance.
  • the cooking appliance is a household appliance for cooking food, and is installed in a kitchen space to cook food according to a user's intention. These cooking appliances can be variously classified according to the heat source or type used, and the type of fuel.
  • the cooking equipment When categorizing the cooking equipment according to the type of cooking food, it can be classified into an open type and a closed type cooking equipment according to the shape of the space in which the food is placed. Ovens, microwaves, etc., are included in the closed cooking equipment, and cooktops and hops are used in the open cooking equipment.
  • the sealed cooking appliance is a cooking appliance that shields a space where food is located and cooks food by heating the shielded space.
  • the hermetic cooking appliance is provided with a cooking chamber, which is a space that is shielded when food is placed while cooking the food. Such a cooking chamber becomes a space where food and drink are actually cooked.
  • the sealed cooking appliance is classified into a gas oven and an electric oven according to the type of heat source.
  • the gas oven uses gas as fuel, and supplies gas to a number of burners to ignite and cooks food by a spark generated when the supplied gas is burned. With a plurality of heaters operating as a heat source, a method of cooking food is taken by the heat emitted from the heaters.
  • the electric oven has a faster cooking speed than a gas oven, has high thermal efficiency, and has good stability, so its use is increasing.
  • the electric oven is easier to miniaturize than the gas oven, and accordingly, a mini-sized electric oven (hereinafter referred to as a "mini-oven”) has been launched.
  • the mini oven is suitable for cooking or warming a small amount of food, which is small but unsuitable for cooking a large sized food, but is burdensome to use a large capacity oven.
  • the mini-oven has the advantage that it can be conveniently used to bake toasts, but can also be used to cook small amounts of food in addition to toasts, and is increasingly used as a cooking appliance replacing conventional toasters.
  • a mini-oven has an outer case for accommodating all components, a plurality of shelves for placing foods during cooking, and a cooking compartment in which a front surface is opened so that food can be put and cooked.
  • the mini-oven includes an oven heater for heating food to a suitable temperature, and a door that opens and closes the cooking compartment.
  • the door is provided so that the inside of the cooking compartment is blocked from the outside while the food is put into the cooking compartment and cooked.
  • the door may further be provided with a handle to easily open and close the door and a glass window to allow a peek into the interior of the cooking chamber without opening the door.
  • the doors are mostly equipped with a lower open type. That is, the door applied to the mini oven, the lower end thereof is rotatably coupled to the outer case through the door hinge, and rotates downward in the center of the lower end rotatably coupled to the outer case to open the cooking chamber and open the cooking chamber. In one state, it can be operated in a form of closing the cooking chamber by rotating upward.
  • the door is rotated at an angle of about 90 degrees from the closed state of the cooking compartment to open the cooking compartment, and the insertion and withdrawal of the shelf can be made in such a state that the door is opened to the cooking compartment.
  • the door is opened in a state substantially parallel to the shelf inserted into the interior of the mini-oven, and the insertion and withdrawal of the shelf is made directly by the user.
  • the center of gravity of the mini-oven is forced to move forward, and in this case, the risk of the mini-oven being conducted forward increases.
  • the shelf when the shelf is pulled out, the shelf is frequently placed on the upper part of the door for checking the cooking condition or temporarily mounting the shelf.
  • the mini-oven's center of gravity is inclined to the front, so the risk of conduction of the mini-oven falls. It has no choice but to grow.
  • a user may wish to take out the shelf and directly check it as a whole. Even in this case, the user must hold the shelf and pull out the door after opening the door, and even if the user wishes to resume cooking, the user must hold the shelf and push the shelf into the cooking compartment.
  • the center of gravity of the mini-oven is tilted forward, and thus the conduction of the mini-oven may occur, and in this case, the safety of the user may be seriously threatened.
  • Prior art document 1 Japanese Patent No. 6,960,602 discloses a heating cooker including a cooking plate that enters and exits a cooking chamber in connection with opening and closing of a door.
  • the cooking chamber is provided with a pair of slide rails (hereinafter referred to as “first slide rail”), and a pair of slide rails (hereinafter referred to as “second slide rail”) is also provided in the door. It is detachably coupled to a slide rail provided on the cooking compartment side.
  • the second slide rail is slidably coupled to the first slide rail, and accordingly, the door slides forward and backward to open and close the cooking compartment.
  • a support member is installed on the pair of second slide rails, and a cooking plate is supported at an upper portion of the support member. That is, the cooking plate is supported on the second slide rail by the support member, and the second slide rail is supported on the first slide rail.
  • the cooking plate can move in the front-rear direction along the door moving in the front-rear direction. That is, the cooking plate moves in the front-rear direction and is interlocked with the operation of the door that opens and closes the cooking chamber, and moves in and out of the cooking chamber while moving in the front-rear direction.
  • the heating cooker of the prior art document 1 that discloses such a configuration has an advantage of making it easier to insert and withdraw the cooking plate by allowing the cooking plate to be interlocked with the opening and closing operation of the door.
  • the heating cooker of the prior art document 1 has the first and second disadvantages of the above-described mini oven.
  • the heating cooker of the prior document 1 simply has a configuration to make the entry and exit of the cooking plate interlocked with the opening and closing operation of the door, and is still provided with a structure that requires the door to be opened to check the cooking state, so the cooking state is simply Even when you want to check, the inconvenience of having to open the door by yourself is still not solved.
  • a door opening and closing device for a toaster having a structure in which not only the front portion of the toaster interior space is opened but also the upper portion of the interior space of the toaster is opened together.
  • a door is installed in front of the toaster, and this door rotates to the front side of the toaster to open the inner space of the toaster.
  • the door is provided to cover not only the front portion of the toaster but also the upper portion, when the door is opened, not only the front portion of the interior space of the toaster, but also the upper portion of the interior space of the toaster can be opened together.
  • a toaster hold is installed inside the door, and when the door is opened, the toaster hold rotates forward with the door and can be drawn out of the cooking appliance.
  • the door opening and closing device of the toaster of the prior art document 2 that discloses such a configuration has an advantage of making it easier to insert and withdraw the toaster by allowing the access of the toaster hold to be interlocked with the opening and closing operation of the door.
  • the door opening and closing device of the toaster of 2 has an advantage that, when the door is opened, the upper portion of the space inside the toaster is also opened, so that interference between the toaster accommodated in the toaster hold and the frame of the cooking appliance is avoided when the door is opened and closed.
  • the device of the prior art document 2 that discloses such a configuration has the first and second disadvantages of the above-described mini oven.
  • the device disclosed in the prior art document 2 has a configuration that simply allows the entry and exit of the toaster hold to be interlocked with the opening and closing operation of the door. Even when you want to check, the inconvenience of having to open the door by yourself is still not solved.
  • Prior Art Document 3 discloses an oven having a front door and a top cover.
  • a front door is installed in the front of the oven, and a top cover is installed in the top of the oven.
  • the front door and the top cover are respectively disposed in different positions to operate independently, and the front of the interior space of the oven may be opened and closed by the front door, and the top of the interior space of the oven may be opened and closed by the top cover.
  • the inner space opened and closed by the front door and the inner space opened and closed by the top cover are separate spaces from each other and are not connected to each other.
  • Prior art document 4 discloses an oven door structure installed in an oven provided in a cylindrical shape to open and close the oven.
  • the door is installed in a cylindrical body, and the door rotates in the circumferential direction of the cylindrical body to open and close the body.
  • a door when opened, does not protrude anywhere in the front or rear of the body, and can only open and close the body by rotating around the body.
  • the door disclosed in the prior art document 4 can be applied only to a structure in which the main body of the cooking appliance is formed in a cylindrical shape, and is not applicable to the body of a generally used hexahedral shaped cooking appliance, and thus has a disadvantage of low compatibility.
  • the prior document 4 discloses a configuration in which an operation switch such as a timer is disposed on the side of the body.
  • the operation switch is not disposed on the front or upper surface of the cooking appliance as described above, and placed on the side of the cooking appliance, it is inconvenient for the user to check or operate the operation switch. Therefore, the arrangement form of the operation switch as in the prior document 4 is difficult to see as a preferable form in view of user convenience.
  • Priority Document 1 and Priority Document 3 a configuration in which an operation switch is disposed on the main body of the cooking appliance and disposed on the outside in the left and right directions of the door is disclosed.
  • the width in the left and right directions of the main body should be increased as much as the space required for the operation switch to be arranged.
  • the size of the entire cooking appliance is increased, but the width opened by the door is narrower than that.
  • the viewing window is arranged on the door to secure a field of view through which the user can look into the interior of the cooking chamber. Since such a viewing window occupies most of the area of the door, operation switches on the door This is because it is difficult to secure space for installation.
  • the door is disposed in front of the mini-oven facing the user, when an excessive number of operation switches are disposed in the door, the overall aesthetic of the mini-oven may be deteriorated.
  • the mini oven is provided with too many operation switches.
  • Prior Art 5 discloses a device provided in a control and detection apparatus having a timing function.
  • FIG. 1 is a view showing the structure of a device according to the prior art.
  • the device 20 disclosed in Prior Art 5 may correspond to any one of a plurality of tabs 10 provided in a household appliance.
  • the device 20 includes a box-shaped casing 21 and control means.
  • the casing 21 is provided inside the structures 2 and 3, more specifically, between the wall 3a of the structure and the rear part of the tab 10.
  • the casing 21 may be molded to accommodate at least a portion of the front portion of the tab 10.
  • the casing 21 includes a container 40.
  • the container 40 is substantially box-shaped, and has a lower wall 40a and a peripheral wall 40b.
  • the control means includes a knob (Knob) 12 and a ring nut (Ring nut) 22.
  • the knob 12 may be connected to an actuation rod 11 through a motion-transmission member 51.
  • the movement transmission member 51 is coupled between the knob 12 and the rod 11 and can transmit the rotation imparted by the knob 12 to the rod 11.
  • the ring nut 22 is disposed between the knob 12 and the outer surface of the wall 3a, and is rotatably mounted.
  • the ring nut 22 is provided coaxially with the knob 12 and may be installed to be movable in the axial direction to cause switching of the device 20.
  • the angular position of the ring nut 22 can be detected by the circuit device 25.
  • the circuit arrangement 25 detects the angular position of the ring nut 22 and, accordingly, supplies a signal indicating the supply time interval of the burner controlled by the tap 10, more specifically the device 20 For detection or sensor means.
  • the display D is used to display to the user the time that can be set with the ring nut 22.
  • the display D is in a substantially stationary position relative to the knob 12 and ring nut 22.
  • the position of the display D does not change, and even if the ring nut 22 is rotated or moved, the position of the display D does not change.
  • the casing 21 includes support means for the display D.
  • the support means includes an upright part (70).
  • the upright portion 70 is formed to protrude from the bottom wall 40a of the container 40, and a bottom wall (72a) is provided on the upper side of the upright portion 70.
  • the display D is supported on the bottom wall 72a, whereby it is fixed on the casing 21.
  • the display D fixed to the casing 21 may maintain a fixed position regardless of the rotation of the knob 12 or the ring nut 22.
  • the knob 12 accommodates the upright portion 70, the display D, and the movement transmission member 51 in the inner space of the knob 12, and is connected to the movement transmission member 51.
  • the movement transmission member 51 is connected to the rod 11, and accordingly, the rotation imparted by the knob 12 may be transmitted to the rod 11 through the movement transmission member 51.
  • a lid (Lid) 12c is provided at the top of the knob 12. Between the cover 69 and the display D, an axial passage is formed. This passage is a passage that enables sliding of the knob 12 relative to the display D when the knob 12 is pressed. As the cover 69 is pressed, the knob 12 can be pressed, and even in this case, the display D can remain fixed in a space surrounded by the knob 12 and the cover 69.
  • the device 20 as described above can contribute to reducing the number of operation switches disposed in one device by allowing multiple functions to be provided to one device 20.
  • the device 20 is provided with a knob 12 for rotating and pressing the rod 11 and a time that can be set by the ring nut 22 and the ring nut 22 for providing a timer function to the user.
  • a display D for display is provided as one device.
  • the device 20 applied to the door of the mini-oven can contribute to reducing the number of operation switches disposed in the door of the mini-oven.
  • the device 20 has the following disadvantages.
  • the cover 69 installed on the top of the knob 12 may form a top appearance of the knob 12, while providing a pressing surface provided to allow a user to press and operate the knob 12. Also, the cover 69 may serve to protect the display D accommodated inside the knob 12.
  • the cover 69 Since the cover 69 is installed in a fixed form on the top of the knob 12, when the knob 12 is rotated, it is rotated together with the knob 12. In this case, if letters or symbols are displayed on the cover 69, the letters or symbols displayed on the cover 69 will have to be rotated together along the knob 12 to be rotated. For example, when a character such as ON/OFF is displayed on the cover 69, when the knob 69 is rotated half a turn, this character is forced to be displayed in an inverted state.
  • a character such as ON/OFF
  • This may be a factor that degrades the overall aesthetic of the mini-oven, and may be a factor that makes it difficult for a user to properly identify the content of the text.
  • the prior art 5 discloses a configuration in which the position of the display D does not change even when the knob 12 is rotated.
  • the display D should not be installed on the knob 12, and a configuration such as the upright portion 70 must be separately added.
  • the number of parts increases, the structure of the operation switch becomes complicated, and manufacturing of the operation switch becomes difficult.
  • the knob 12 is difficult to be directly connected to the rod 11, there arises a problem that a separate part for the connection of the knob 12 and the rod 11 must be added.
  • the knob 12 is connected to the rod 11 so that the rod 11 can be pressed, but the connection structure between the knob 12 and the rod 11 is suitable for the knob 12 to effectively press the rod 11 It is not configured.
  • the knob 12 is connected to the rod 11 through the movement transmission member 51. That is, the knob 12 is not directly connected to the rod 11 but is coupled to the rod 11 through the motion transmission member 51. This is a result of the design due to the arrangement of the display D between the top surface of the knob 12 and the rod 11.
  • the knob 12 is combined with an appendage 51c of the motion transmission member 51 and is coupled with the motion transmission member 51.
  • the accessory 51c is provided to protrude in the centrifugal direction of the rod 11 from the main body of the movement transmission member 51 coupled with the rod 11. Therefore, the knob 12 is engaged with the motion transmission member 51 at a position spaced apart from the rod 11 in the centrifugal direction.
  • connection between the knob 12 and the rod 11 is made at a position spaced apart in the centrifugal direction from the point where the axial movement of the rod 11 is made.
  • the force pressing the knob 12 acts on the same axis as the rod 11, but the position at which the force 12 transmits the force to the motion transmitting member 51 is spaced apart from the rod 11 in the centrifugal direction. It is a point, that is, a coupling point between the knob 12 and the accessory 51c.
  • the force pressing the knob 12 does not act at a point that is coaxial with the rod 11 but mainly acts at a point biased in the centrifugal direction from the rod 11.
  • the force of pressing the knob 12 may be concentrated in the attachment 51c of the movement transmitting member 51, and thus, when the pressing operation of the knob 12 is repeated, damage to the movement transmitting member 51 occurs. There is also a high concern.
  • the knob 12 is connected to the rod 11 to rotate the rod 11, but the connection structure between the knob 12 and the rod 11 allows the knob 12 to effectively rotate the rod 11 It is not configured properly.
  • connection point between the knob 12 and the movement transmitting member 51 is eccentrically located from the rod 11.
  • connection point between the knob 12 and the movement transmission member 51 that is, the engagement point between the knob 12 and the accessory 51c is a point where rotation of the knob 12 is transmitted.
  • the point where the rotation of the knob 12 is transmitted is arranged eccentrically, a tendency for the rotation of the knob 12 to be made around the eccentric point rather than the rod 11 appears.
  • the knob 12 may not rotate the rod 11 as a central axis, and a phenomenon in which the knob 12 inclines in the lateral direction during rotation may occur.
  • the force for rotating the knob 12 may be concentrated in the attachment 51c portion of the movement transmission member 51, thereby causing damage to the movement transmission member 51 when the rotation operation of the knob 12 is repeated. There is also a high possibility of occurrence.
  • Patent Literature 1 Japanese Patent Registration No.6289602
  • Patent Document 2 Korean Patent Publication No. 20-2011-0001565
  • Patent Literature 3 U.S. Patent Registration No.6271502
  • Patent Document 4 U.S. Patent Registration No. 6029649
  • Patent Document 5 US Registered Patent No. 9593855
  • An object of the present invention is to provide a cooking appliance with an improved structure so that the width of the passage opened by the door can be increased while the size increase of the device is suppressed.
  • Another object of the present invention is to provide a cooking apparatus with an improved structure so that the operation switch can be installed on the door.
  • Another object of the present invention is to provide a cooking appliance that is easy to check the cooking state and has high structural stability.
  • Another object of the present invention is to provide a cooking appliance that is easy to open and insert and withdraw a door.
  • the present invention is to provide a cooking apparatus with an improved structure so that various components that must be disposed on the door can be stably installed on the door.
  • Another object of the present invention is to provide a cooking apparatus with an improved structure so that various components that must be disposed on the door can be easily and quickly installed on the door.
  • another object of the present invention is to provide a cooking appliance with an improved structure so that an operation for using various functions of the cooking appliance can be effectively performed while improving the aesthetics of the cooking appliance.
  • Another object of the present invention is to provide a cooking apparatus with an improved structure to prevent unnecessary manipulation or misoperation, and to enable easy and convenient manipulation.
  • Another object of the present invention is to provide a cooking appliance having an operation device having an improved structure to maintain a set angular position regardless of whether the pressing surface for the pressing operation is capable of both pressing and rotating operations. Is doing.
  • the cooking device is improved in structure so that the pressing surface for the pressing operation can maintain the set angular position regardless of whether or not the rotating operation, while the force pressing the pressing surface is effectively transmitted to the rotating shaft connected to the knob.
  • the cooking device is improved in structure so that the pressing surface for the pressing operation can maintain a set angular position regardless of whether or not the rotation operation, while the force to rotate the knob is effectively transmitted to the rotating shaft connected to the knob To provide.
  • the cooking appliance for achieving the above object includes an operation device for controlling the heating method of the heating part and an operation device for controlling the heating time of the heating part, and each operation device is one of two or more operation modes. It includes a dial for selecting one and a push button for selecting one of two operation modes, and is characterized in that the dial and the push button are connected together to a shaft provided to be rotatable and axially movable.
  • another aspect of the present invention includes a first operation device that controls the heating method of the heating unit and a second operation device that controls the heating time of the heating unit, and the first operation device selects one of two or more operation modes. It includes a first dial and a first push button for selecting one of two operating modes, characterized in that the first dial and the first push button are connected together to a shaft provided to be rotatable and axially movable.
  • another aspect of the present invention includes a second operation device that controls the heating method of the heating unit and a second operation device that controls the heating time of the heating unit, and the second operation device selects one of two or more operation modes. It includes a second dial and a second push button for selecting one of two operating modes, characterized in that the second dial and the second push button are connected together to a shaft provided to be rotatable and axially movable.
  • the first dial may select a type of cooking object
  • the second dial may select a heating level for the cooking object
  • the second dial becomes a state in which only the heating level for the cooking object is selected.
  • the heating temperature for the cooking object is selected from the first dial
  • the second dial is the cooking object. It may be a state in which only the heating time for can be selected.
  • the first dial may select the type of cooking object
  • the first push button may select the state of the cooking object
  • the first operation device includes a first lighting display unit for displaying the rotational state of the first dial, and the first lighting display unit can display different results according to the selection state of the first push button.
  • the first dial may select only the type of cooking object, and the second dial may select only the heating level for the cooking object.
  • another aspect of the present invention is characterized in that a shaft connecting member is provided between the shaft and the button or between the knob and the button, so that the button is freely connected to the shaft or knob from rotation of the shaft and the knob.
  • the shaft connecting member may include a bearing provided between the knob and the button.
  • the knob surrounds the outer circumferential surface of the shaft and includes an axial coupling portion coupled to the shaft, and the shaft connecting member may be installed between the outer circumferential surface of the shaft coupling portion and the button.
  • the shaft connecting member is installed on the shaft coupling portion and the button is installed on the shaft connecting member, so that the button can be installed on the button freely from the rotation of the knob while being movable in the front-rear direction together with the knob.
  • the radial center of the knob is coupled to the shaft, and the radial center of the button can be coupled to the radial center of the knob through the shaft connecting member.
  • the pressing force of the button can act on the same axis as the movement path of the shaft, and the direction of the force acting to rotate the knob and the direction of rotation of the knob coincide, so that both the pressing operation and the rotating operation of the operation device can be smoothly performed. It can be done.
  • another aspect of the present invention is characterized in that a knob for rotating the shaft and a button for axially moving the shaft by pressing the knob are included in one operation device, and the button is freely installed in rotation of the knob.
  • another aspect of the present invention is characterized in that the shaft connecting member is provided between the knob and the button so that the button is freely connected to the knob from rotation of the knob, and the center of gravity of the button is disposed outside the shaft connecting member in the radial direction. do.
  • the operation device may further include a weight member installed on the button so as to be disposed outside the radial direction of the shaft connecting member, and the weight member is provided with a weight such that the center of gravity of the button is biased outside the radial direction of the shaft connecting member. Can be.
  • the weight member may be a screw member that can be screwed to the button.
  • another aspect of the present invention is characterized in that a shaft connecting member is provided between the knob and the button, so that the button is freely connected to the knob from rotation of the knob, and the rotational direction position of the button is regulated by magnetic force.
  • the operation device may further include a magnetic member fixed around the weight member to suck the magnetic body, and the weight member may include a magnetic body sucked into the magnetic member.
  • the door is connected to the front side of the door and the upper surface of the door covering the upper surface of the housing and is made of a front door that covers the front of the housing, the operation device is disposed on the front door It is characterized by.
  • the first heating unit disposed on the upper portion of the tray may be installed on the door.
  • the first heating unit may be installed on the upper surface of the door.
  • a viewing window may be installed on the door.
  • Such a viewing window may be installed on the upper surface of the door.
  • At least one of the first operating device and the second operating device includes a dial for selecting one of two or more operating modes, and a push button for selecting one of two operating modes. It is characterized by.
  • the type of operation mode selectable by the second operation device may be changed according to the operation mode selected by the first operation device, or the type of operation mode selectable by the dial may be changed according to the operation mode selected by the push button.
  • the support panel is coupled to at least one of the door body portion and the door back cover is fixed to the interior of the door body portion, the control panel is fixed to the support panel.
  • another aspect of the present invention is characterized in that the handle, the support panel and the door are combined together in one bracket.
  • another aspect of the present invention is characterized in that the rear cover, the control panel, the support panel and the door are combined together in one bracket.
  • another aspect of the present invention is characterized in that a temperature sensor is disposed on a door that opens and closes the cooking chamber, and the temperature sensor protrudes out of the door toward the cooking chamber.
  • a temperature sensor is disposed on a door that opens and closes the cooking chamber, and the temperature sensor protrudes outside the door toward the cooking chamber, and is biased toward the upper portion of the cooking chamber.
  • the temperature sensor is disposed between the tray and the heating unit, and may be disposed more adjacent to the heating unit.
  • the temperature sensor may be disposed at a position adjacent to the upper edge of the front door.
  • the temperature sensor may be disposed at a position where the heating part is covered by the shielding plate.
  • another aspect of the present invention is characterized in that the viewing window is disposed on the upper surface of the door.
  • another aspect of the present invention is characterized in that the first heating portion is disposed on the upper surface of the door.
  • the first heating unit provided to be disposed on the upper portion of the tray may be installed on the upper surface of the door that covers the upper portion of the housing, and accordingly, the first heating unit may be disposed at a position spaced apart from the operation device and the first control substrate.
  • the center of gravity can also be biased toward the rear.
  • another aspect of the present invention is characterized in that the first heating unit and the viewing window are disposed on the upper surface of the door, and the operation device is disposed on the front surface of the door where the first heating unit and the viewing window are not installed.
  • the center of gravity of the cooking appliance when the door is in a state in which the front and upper surfaces of the housing are opened, the center of gravity of the cooking appliance is relatively large in weight, such as glass and heater, so that the center of gravity of the cooking appliance can be biased from the center in the front-rear direction. It characterized in that the outgoing parts are arranged on the upper surface of the door.
  • the cooking appliance having the above-described configuration can reduce the risk of the cooking appliance falling over when the door is opened and the shelf is pulled out, so that when the door opens the cooking chamber, the center of gravity of the cooking appliance is biased toward the rear from the center in the front-rear direction.
  • another aspect of the present invention is characterized in that the operation device and the first control substrate are disposed together on the front surface of the door.
  • another aspect of the present invention is characterized in that the front and the top of the housing are opened together when the door is opened.
  • another aspect of the present invention is characterized in that when the door is opened, the front and the top of the housing are opened together, and the tray is pulled forward by being interlocked with the door opening.
  • another aspect of the present invention is characterized in that a space portion is formed inside the door front portion and the door top portion, an intake port is formed in the door front portion, and an exhaust port is formed in the door top portion.
  • external air may be introduced into the interior of the door through the intake port, and the introduced air may be discharged through the exhaust port after cooling the first control substrate and the space inside the viewing window.
  • another aspect of the present invention is characterized in that a cable mounting portion is provided inside the door upper surface portion, and a cable connecting the first control substrate and the first heating portion is installed.
  • the user can view the inside of the cooking chamber from the top through the see-through window formed on the top of the cooking appliance, so that the user can easily and conveniently check the cooking condition of the food without lowering the posture or bowing the waist. do.
  • An operation apparatus includes: a shaft provided to be rotatable and axially movable around an axis extending in the front-rear direction; A knob connected to the shaft for rotation and axial movement with the shaft; A button connected to at least one of the shaft and the knob so as to be axially movable with the shaft; And an shaft connecting member provided between the shaft and the button or between the knob and the button to connect the button to the shaft or the knob freely from rotation of the shaft and the knob.
  • the knob surrounding the outer circumferential surface of the shaft includes a shaft coupling portion coupled to the shaft, the shaft connecting member, preferably comprises a bearing coupled to the outer peripheral surface of the shaft coupling portion.
  • the shaft connection member the first connection portion coupled to the outer peripheral surface of the shaft coupling portion to be rotated together with the shaft coupling portion; And it is preferably coupled to the button, the second connecting portion is connected to the first connecting portion so as to be rotated relative to the first connecting portion.
  • the button, the pressing portion formed including a surface intersecting the extending direction of the shaft; And a coupling portion extending in the front-rear direction from the pressing portion and surrounding the shaft connecting member outside the radial direction of the shaft connecting member to be coupled with the second connecting portion.
  • it further comprises a weight member disposed on the outer side in the radial direction of the shaft connecting member and installed on the button, wherein the center member has a weight such that the center of gravity of the button is biased outside the shaft connecting member in the radial direction. It is preferably provided.
  • the button is disposed on the outside of the engaging portion further comprises a fastening boss portion protruding from the pressing portion, the weight member is preferably coupled to the fastening boss portion.
  • the weight member it is preferable to include a screw member that is screwed to the inner peripheral surface of the fastening boss.
  • the weight member is fixed to the periphery of the weight member further comprises a magnetic member for sucking the magnetic body, the weight member is made of a magnetic body, it is preferable that the magnetic member is disposed in an area where the suction force acts.
  • it further comprises a socket member for supporting the knob to be rotatable and axially movable, and the magnetic member is preferably installed on the socket member.
  • the knob is disposed on the outer side in the radial direction of the coupling shaft portion, the skirt portion formed including a surface extending in the front-rear direction; And it is preferable to include; a connecting support for supporting the coupling shaft portion and the skirt portion.
  • knob cover coupled to the outer circumferential surface of the skirt portion to surround the knob from the outside in the radial direction.
  • an engaging groove is formed on the outer circumferential surface of the skirt portion, and the knob cover is preferably inserted into the engaging groove and installed in the knob so as not to protrude in the centrifugal direction from the skirt portion.
  • the knob cover includes a front portion formed including a surface intersecting the extending direction of the shaft; A through portion formed to penetrate in the front-rear direction in the front portion; And a side portion extending in the front-rear direction from the front portion and including a surface parallel to the skirt portion, the side portion surrounding the through portion from the outside in the radial direction.
  • the button includes a pressing portion formed including a surface parallel to the front portion, and the pressing portion is preferably inserted into the through portion.
  • the button further includes a support protrusion protruding in the centrifugal direction of the pressing part, and when the pressing part is inserted into the through part, at least a part of the support protrusion is radially outward than the through part. It is preferably formed so that it can be placed in.
  • the front portion is formed to protrude more in the centripetal direction than the skirt portion, the support projection is interfered with the back of the front portion to prevent the movement of the button toward the front, the pressing portion, the button toward the front
  • the front surface of the pressing portion and the front surface of the front portion are formed to a thickness capable of forming the same plane.
  • the present invention is disposed on the outer side in the radial direction of the knob, it is preferable to further include a; a front cover member coupled to the front side of the socket member to shield the front side of the socket member.
  • knob cover is inserted between the front cover member and the knob.
  • the socket member includes an outer support portion formed including a surface extending in the front-rear direction, and the outer support portion is preferably disposed outside the radial direction of the knob to be coupled with the front cover member.
  • the insertion groove is formed to be concave in the centrifugal direction
  • the knob further includes a protrusion that protrudes in the centrifugal direction from the rear end of the skirt portion and is inserted into the insertion groove.
  • the insertion groove is formed to be open toward the inside and the front of the socket member, the front cover member, shields the open front side of the insertion groove, and the protrusion, the insertion groove and the front It is preferably inserted into a space surrounded by a cover member.
  • the present invention further includes a light emitting member that is disposed at the rear of the outer support portion to emit light, and is formed to penetrate through the front and rear directions in the outer support portion to form a passage connecting the light emitting member and the front cover member. It is preferable that a light passing hole is provided.
  • the front cover member is preferably formed of a translucent or semi-transmissive material.
  • a plurality of the light-emitting member is arranged to be spaced apart a predetermined distance along the rotational direction of the knob, it is preferable that the lighting of each of the light-emitting member is made in conjunction with at least one of the rotation of the shaft and the movement of the shaft. .
  • the socket member further includes an inner support portion formed including a surface extending in the front-rear direction, and the inner support portion is preferably disposed on the rear side of the coupling shaft portion and the connection support portion.
  • the present invention further comprises a magnetic member fixed to the inner support portion to suck the magnetic body, the weight member is made of a magnetic body, it is preferable that the magnetic member is disposed in the area where the suction force acts.
  • the weight member is provided to protrude toward the inner support from the button, it is preferable that the magnetic member is disposed on one side of the inner support facing the button.
  • the cooking appliance according to another aspect of the present invention may include the operating device.
  • the present invention includes a housing in which the cooking chamber is formed; A door that opens and closes the cooking compartment; And a heating unit that generates heat inside the cooking compartment, and the operation device is preferably disposed on the door.
  • the cooking chamber surrounded by the bottom and both sides and the back is formed, the top and front surfaces of the housing are opened, and the door is rotated around a rear side coupled with the housing, so that the top surface of the housing And it is preferable to open and close the front.
  • the door includes a door upper surface portion covering the upper surface of the housing, and a door front portion connected to the front side of the door upper surface portion and covering the front surface of the housing, wherein the manipulation device is disposed on the front surface of the door. desirable.
  • the cooking appliance includes: a housing in which a cooking chamber is formed; A door that opens and closes the cooking compartment; A heating unit that generates heat inside the cooking compartment; A first operation device disposed on the door and controlling a heating method of the heating unit; And a second operation device disposed on the door and controlling a heating time of the heating unit, wherein at least one of the first operation device and the second operation device selects one of two or more operation modes.
  • a dial, and a push button for selecting one of two operation modes the type of operation mode selectable by the second operation device is changed or selected by the push button according to the operation mode selected by the first operation device. Depending on the operation mode, the type of operation mode selectable by the dial may be changed.
  • the cooking chamber surrounded by the bottom and both sides and the back is formed, the top and front surfaces of the housing are opened, and the door is rotated around a rear side coupled with the housing, so that the top surface of the housing And it is preferable to open and close the front.
  • the door includes a door upper surface portion covering the upper surface of the housing, and a door front portion connected to the front side of the door upper surface portion and covering the front surface of the housing, wherein the first operating device and the second operating device include: It is preferably arranged on the front door.
  • the first operation device includes a first dial to select one of two or more operation modes, and a first push button to select one of the two operation modes
  • the second operation device comprises two or more operations. It is preferable to include a second dial for selecting one of the operation modes, and a second push button for selecting one of the two operation modes.
  • the first dial selects the type of cooking object
  • the second dial selects a heating level for the cooking object.
  • the heating time by the heating unit is adjusted according to the heating level for the cooking object selected by the second dial.
  • the second push button selects whether or not the heating unit operates.
  • the first dial selects a heating temperature for the cooking object
  • the second dial selects a heating time for the cooking object
  • the rotation range of the first dial is divided into a first rotation region and a second rotation region sequentially arranged along the rotation direction of the first dial, and the first dial is a cooking object in the first rotation region. It is preferable to select the type and to select the heating temperature for the object to be cooked in the second rotation region, but to select one of the type of the object to be cooked and the heating temperature for the object to be cooked.
  • the rotation range of the second dial is divided into a third rotation region and a fourth rotation region sequentially arranged along the rotation direction of the second dial, and the second dial is the cooking object in the third rotation region. It is preferable to select a heating level for and select a heating time for the cooking object in the fourth rotation region, but select one of a heating level for the cooking object and a heating time for the cooking object.
  • the second dial is in a state where only the heating level for the object to be cooked is selected, and when the heating temperature for the object to be cooked is selected in the first dial, the first It is preferable that the two dials are in a state in which only the heating time for the cooking object can be selected.
  • the first dial selects the type of the object to be cooked
  • the first push button selects the state of the object to be cooked
  • the cooking object is frozen or not.
  • the first operation device includes a first lighting display unit for displaying the rotational state of the first dial, and the first lighting display unit displays different results according to the selection state of the first push button. desirable.
  • the first dial is rotated in units of a set rotation angle
  • the first lighting display unit includes a plurality of indicator lights arranged along the rotational direction of the first dial outside the radial direction of the first dial. It is preferable that different indicators are lit whenever the angle of rotation of the dial is different.
  • the rotation range of the first dial is divided into a first rotation region and a second rotation region sequentially arranged along the rotation direction of the first dial, and the first dial is a cooking object in the first rotation region.
  • Select a type select a heating temperature for a cooking object in the second rotation region, select one of a type of cooking object and a heating temperature for the cooking object
  • the first dial is a set rotation angle unit It is preferable that the indicator lamps are disposed at each set position, which is a position rotated by the set dial angle from the starting point of the rotation range of the first dial.
  • the first push button may select whether or not the cooking object is frozen, and when the cooking object is selected as being frozen in the first push button, the first dial may select only the type of the cooking object, It is preferable that the light is turned on only in the first rotation region.
  • the number of indicators disposed per each set position in the first rotation area and the number of indicators arranged per each set position in the second rotation area are different.
  • the number of indicator lights which are lit at each of the set positions according to the selection state of the first push button is preferable that the number of indicator lights which are lit at each of the set positions according to the selection state of the first push button.
  • the first push button may select whether or not the object to be cooked is frozen, and when the object to be cooked is selected to be frozen in the first push button, the first dial may select only the type of object to be cooked. It is preferable that the lighting of the indicator is made only in the first rotation region, and the number of indicators that are lit for each of the set positions is increased than when the cooking object is selected as not frozen in the push button.
  • the dial and the push button are connected together to a shaft provided to be rotatable and axially movable around an axis extending in the front-rear direction, and any one of the dial and the push button is rotatably provided with the shaft. It is preferable that the other is provided to be axially movable with the shaft.
  • the dial includes a knob connected to the shaft for rotational and axial movement with the shaft, and a push button includes a button connected to the knob for axial movement with the shaft, and the operation
  • the device further includes an axial connecting member provided between the knob and the button to connect the button to the knob freely from rotation of the knob.
  • the knob surrounding the outer circumferential surface of the shaft includes a shaft coupling portion coupled to the shaft, the shaft connecting member, preferably comprises a bearing coupled to the outer peripheral surface of the shaft coupling portion.
  • the button, the pressing portion formed including a surface intersecting the extending direction of the shaft; And a coupling portion extending in the front-rear direction from the pressing portion to surround the shaft connecting member outside the radial direction of the shaft connecting member and coupled with the shaft connecting member.
  • it further comprises a weight member disposed on the outer side in the radial direction of the shaft connecting member and installed on the button, wherein the center member has a weight such that the center of gravity of the button is biased outside the shaft connecting member in the radial direction. It is preferably provided.
  • the weight member is fixed to the periphery of the weight member further comprises a magnetic member for sucking the magnetic body, the weight member is made of a magnetic body, it is preferable that the magnetic member is disposed in an area where the suction force acts.
  • At least one of the first operation device and the second operation device further includes a lighting display unit for displaying the rotation state of the dial.
  • the lighting display unit includes a plurality of light emitting members arranged along the rotational direction of the dial outside the radial direction of the dial.
  • the dial includes a knob connected to the shaft so as to be rotatable and axially movable together with a shaft provided to be rotatable and axially movable around an axis extending in the front-rear direction
  • the first operating device and the At least one of the second operation devices further includes a socket member for supporting the knob to be rotatable and axially movable, and the socket member is formed to penetrate in the front-rear direction and is provided between the light emitting member and the front cover member. It is preferable that a light-passing hole is formed to form a passage connecting the.
  • the light passing hole is disposed outside the radial direction of the knob, and in front of the socket member, a front cover member for shielding the light passing hole from the front of the socket member is disposed.
  • the front cover member is preferably formed of a translucent or semi-transmissive material.
  • a cooking appliance includes: a housing in which a cooking chamber is formed; A heating unit that generates heat inside the cooking compartment; A door that opens and closes the cooking compartment; And a temperature sensor disposed on the door, wherein the temperature sensor protrudes out of the door toward the cooking compartment.
  • the cooking chamber surrounded by the bottom and both sides and the back is formed, the top and front surfaces of the housing are opened, and the door is rotated around a rear side coupled with the housing, so that the top surface of the housing And it is preferable to open and close the front.
  • the door includes a door upper surface portion covering the upper surface of the housing, and a door front portion connected to the front side of the door upper surface portion and covering the front surface of the housing, wherein the temperature sensor is disposed on the front surface of the door. desirable.
  • the present invention further includes a tray disposed in the cooking chamber, and the temperature sensor is preferably disposed between the tray and the heating unit.
  • the temperature sensor protrudes from the front surface of the door to the rear of the front surface of the door and is exposed to the cooking compartment.
  • the front door portion is formed in a rectangular shape, the temperature sensor, it is preferable that the door is disposed at a position adjacent to the upper edge of the front portion.
  • the temperature sensor is disposed between the bottom surface and the heating unit, and is preferably disposed at a position closer to the heating unit.
  • it further includes a shielding plate disposed farther away from the center in the front-rear direction of the cooking chamber than the heating portion, and the shielding plate is preferably disposed between the temperature sensor and the heating portion.
  • the present invention further includes a control panel accommodated inside the door, and a support panel disposed inside the door to support the control panel, and the temperature sensor is preferably fixed to the support panel.
  • the support panel includes a first region in which the control panel is disposed, and a second region in which the control panel is not disposed, and in the second region, a temperature sensor support unit supporting the temperature sensor is provided. desirable.
  • the temperature sensor support portion protruding rearward from the substrate portion forming a support surface for supporting the control panel, the inner side wall portion is formed to penetrate in the front-rear direction; And a support surface portion protruding from the side wall portion to form a plane intersecting the rear direction, wherein the temperature sensor is inserted into the side wall portion and is preferably in contact with the support surface portion to restrict forward movement.
  • the temperature sensor the sensor body for measuring the temperature of the cooking chamber, and includes a flange protruding in the centrifugal direction from the sensor body, the flange is in contact with the support surface portion is forward movement of the temperature sensor is regulated desirable.
  • the temperature sensor support portion includes a boss portion formed to protrude forward from the support surface portion, and inside the boss portion, a hollow fastening hole extending in the front-rear direction is formed to open to the rear of the support surface portion, It is preferable that the flange is formed with a fastening hole capable of communicating with the fastening hole of the boss when the flange and the support surface are in contact.
  • the second region is preferably disposed on one side in the lateral direction of the first region, and the temperature sensor is preferably disposed on one side in the lateral direction of the control panel.
  • the temperature sensor support portion includes a side wall portion that protrudes rearward from a substrate portion forming a support surface for supporting the controller board, and the inside is formed to penetrate in the front-rear direction, and the temperature sensor, the inside of the side wall portion It includes a sensor body penetrating in the front-rear direction and supported by the temperature sensor support,
  • the rear side of the sensor body is exposed to the outside of the door to measure the temperature of the cooking chamber, and the front side of the sensor body is exposed to the interior of the door to be connected to the control panel.
  • the support panel the substrate portion forming a support surface for supporting the control panel; And it is projected from the substrate portion, it is disposed between the control panel and the temperature sensor support portion cable fixing for fixing the cable connecting the control panel and the temperature sensor to the support panel; preferably further comprises a .
  • the cable fixing portion includes a pair of hooks protruding from the substrate portion and disposed to face each other, each of the hooks, the body portion protruding forward from the substrate portion, and the other adjacent to the body portion It is preferred to include a protrusion projecting toward the hook.
  • the plurality of cable fixing portions are arranged to be spaced apart at predetermined intervals in the vertical direction.
  • the present invention can provide an effect of improving the aesthetics of the cooking appliance while allowing the manipulation to use various functions of the cooking appliance to be effectively performed.
  • the present invention can not only effectively prevent the cooking appliance from malfunctioning due to unnecessary manipulation or misoperation, but also can provide an effect that allows a user to operate the cooking appliance more easily and conveniently.
  • both the pressing operation and the rotating operation are possible, but the button for the pressing operation maintains the set angular position regardless of whether the rotation operation is performed, thereby effectively improving both the overall aesthetics of the cooking appliance and ease of use.
  • the present invention allows the button for the pressing operation to maintain a set angular position regardless of whether or not the rotation operation, as well as to effectively press the button without pressing the button with greater force than necessary, the button It is possible to effectively reduce the risk of damage to the connecting portion between the shaft and the shaft.
  • the present invention while maintaining the angular position set regardless of whether or not the button for the pressing operation, the rotational force of the knob can be effectively transmitted to the shaft connected to the knob.
  • the present invention allows the operating device to be installed on the door, so that the size of the housing can be reduced while providing a door sized enough for the tray and food to enter, thereby providing a compact appearance and improved ease of use. Can be.
  • the present invention has a structure in which the viewing window is disposed on the upper part of the door and the operation device is disposed in front of the door, so that even when the cooking appliance is installed at a low position, the user is in a state of cooking food even if the user does not lower his posture or bow his back. It is possible to provide the effect of making it easy and convenient to check, and the effect of allowing the user to operate the operation switch easily and conveniently while facing the cooking appliance from the front.
  • the present invention not only the components constituting the inside of the door can be stably fixed to the inside of the door, but the number of labor required for the assembly work of the door is reduced, and the door assembly work can be made more easily and quickly.
  • the door is not extended forward, but is rotated upward and is provided to open both the front and upper surfaces of the cooking chamber, so that the door can be easily and smoothly opened in a narrow space, and food or trays can be withdrawn. It can be made easier and more convenient.
  • the tray portion is more exposed by the opening of the door, so that even if only a portion of the tray is pulled out, food can be easily put in or taken out, resulting in improved convenience and stability. Can provide.
  • the door since the door is provided to be opened and rotated in the upper direction without being extended forward, there is little fear that the center of gravity of the cooking appliance will be forwarded even when the door is opened, and accordingly, the risk of falling of the cooking appliance is significantly lower. It has the effect of losing.
  • the center of rotation of the door is formed on the rear side of the cooking appliance
  • the center of gravity of the door is formed toward the upper surface of the door rather than the front surface of the door, and when the door is opened, the center of gravity of the cooking appliance is Since it is biased toward the rear side, the risk of falling of the cooking appliance is significantly lowered, thereby improving the safety and ease of use of the cooking appliance.
  • the present invention by providing a cooking device of a stable structure with a significantly lower risk of conduction, it is possible to freely employ a tray that can be used in an environment heated by an induction heating unit or a tray having an increased thickness and weight to improve cooking performance. There is an advantage.
  • the present invention provides an extended passage so that the user can easily and conveniently insert food or trays into or out of the cooking chamber, and at the same time, when the door is opened or closed, the tray is automatically withdrawn or inserted, so that food or trays can be taken out. And a function to make insertion easier and more convenient.
  • FIG. 1 is a view showing the structure of a device according to the prior art.
  • FIG. 2 is a perspective view showing a cooking appliance according to an embodiment of the present invention.
  • FIG. 3 is a perspective view showing a door opening state of the cooking appliance illustrated in FIG. 2.
  • FIG. 4 is an exploded perspective view showing an exploded state of the cooking appliance shown in FIG. 2.
  • FIG. 5 is a perspective view of the housing and the hinge assembly shown in FIG.
  • FIG. 6 is a perspective view showing a door separated according to an embodiment of the present invention.
  • FIG. 7 is a bottom perspective view showing the bottom side of the door shown in FIG. 6;
  • FIG. 8 is an exploded perspective view illustrating an exploded view of the door shown in FIG. 7.
  • FIG. 9 is a cross-sectional view taken along the line “IX-IX” in FIG. 8.
  • FIG. 10 is a cross-sectional view taken along the line “X-X” of FIG. 7.
  • FIG. 11 is a cross-sectional view schematically showing air flow inside a door according to an embodiment of the present invention.
  • FIG. 12 is a perspective view illustrating a state in which a part of the door shown in FIG. 6 is removed.
  • FIG. 13 is a cross-sectional view taken along the line “XIII-XIII” in FIG. 12.
  • FIG. 14 is an exploded perspective view showing an exploded configuration of the operation device shown in FIG. 13.
  • FIG. 15 is an exploded perspective view of the socket member shown in FIG.
  • FIG. 16 is a front view showing the socket member shown in FIG. 15.
  • FIG. 17 is a side view showing the socket member shown in FIG. 15.
  • FIG. 18 is a front view schematically showing the configuration of the first control substrate shown in FIG. 14.
  • FIG. 19 is a front exploded perspective view of the knob and button shown in FIG.
  • FIG. 20 is an exploded perspective view of the rear surface of the knob and button shown in FIG.
  • 21 and 22 are views showing an operating state of the operation device according to an embodiment of the present invention.
  • FIG. 23 is a configuration diagram schematically showing a configuration of a cooking appliance according to an embodiment of the present invention.
  • 24 is a view schematically showing a user interface of a cooking appliance according to an embodiment of the present invention.
  • 25 to 28 are views showing an operation state of the first dial shown in FIG. 24.
  • 29 and 30 are views showing an operation state of the second dial in a state in which the type of the object to be cooked is selected by the first dial.
  • 31 and 32 are views showing an operation state of the second dial when the heating temperature for the cooking object is selected by the first dial.
  • FIG. 33 is a view showing an operation state of the first push button illustrated in FIG. 24.
  • 34 and 35 are views showing an operation state of the first dial when the first push button is pressed.
  • 36 and 37 are views showing an operation state of the second dial when the first push button is pressed.
  • FIG. 38 is a perspective view showing a tray according to an embodiment of the present invention.
  • FIG. 39 is a cross-sectional view schematically showing a coupling structure between the tray and the protrusion shown in FIG. 38.
  • FIG. 40 is a cross-sectional view schematically showing another example of the coupling structure between the tray and the protrusion shown in FIG. 39.
  • FIG. 41 is a view showing a coupling process between the tray and the protrusion shown in FIG. 40.
  • FIG. 42 is a cross-sectional view schematically showing still another example of the coupling structure between the tray and the protrusion shown in FIG. 39.
  • FIG. 43 is a view showing a coupling process between the tray and the protrusion shown in FIG. 42.
  • FIG 44 is a perspective view showing a door closed state of a cooking appliance according to an embodiment of the present invention.
  • FIG. 45 is a cross-sectional view along the line “XXXXV-XXXXV” in FIG. 44;
  • FIG. 46 is a cross-sectional view taken along the line “XXXXVI-XXXXVI” in FIG. 44.
  • FIG. 47 is a perspective view illustrating an open state of the door of the cooking appliance illustrated in FIG. 44.
  • FIG. 48 is a cross-sectional view taken along the line "XXXXVIII-XXXXVIII" in FIG. 47;
  • FIG. 49 is a cross-sectional view taken along the line “XXXXIX-XXXXIX” in FIG. 47.
  • 50 is a view showing a state of change of the center of gravity in the open state of the cooking appliance.
  • 51 is a perspective view illustrating parts separated from the front surface of the door.
  • FIG. 52 is a front perspective view of the support panel shown in FIG.
  • FIG. 53 is a rear perspective view showing the rear surface of the support panel shown in FIG. 52;
  • 54 is a front perspective view showing the installation state of the communication module.
  • 55 is a rear perspective view showing the installation state of the temperature sensor.
  • FIG. 56 is a perspective view of the bracket shown in FIG. 51 taken apart.
  • 57 is a cross-sectional view showing a coupling structure between the support panel and the door back cover.
  • 58 is a cross-sectional view showing a coupling structure between the front of the door body portion and the support panel.
  • 59 is an enlarged view of a part of the internal configuration of the front door.
  • 60 to 62 are rear perspective views showing the assembly process of the front door.
  • 63 is a cross-sectional view schematically showing the internal structure of a cooking appliance.
  • 64 is an exploded perspective view showing a housing and a second heating part separately according to an embodiment of the present invention.
  • FIG. 65 is a plan view illustrating a second heating unit illustrated in FIG. 64.
  • FIG. 66 is an exploded perspective view showing the second heating unit, the receiving coil, and the electromagnetic shielding plate shown in FIG. 64 separated.
  • 67 is a cross-sectional view showing a coupling state between the second heating unit and the temperature sensor shown in FIG. 64, the receiving coil and the electromagnetic shielding plate.
  • FIG. 68 is a rear view illustrating the second control substrate shown in FIG. 64.
  • first, second, etc. are used to describe various components, it goes without saying that these components are not limited by these terms. These terms are only used to distinguish one component from other components, and it is a matter of course that the first component may be the second component, unless otherwise stated.
  • the arrangement of any component in the "upper (or lower)" of the component or the “upper (or lower)” of the component means that any component is disposed in contact with the upper surface (or lower surface) of the component.
  • each component when a component is described as being “connected”, “coupled” or “connected” to another component, the components may be directly connected to or connected to each other, but other components may be “interposed” between each component. It should be understood that “or, each component may be “connected”, “coupled” or “connected” through other components.
  • FIG. 2 is a perspective view showing a cooking appliance according to an embodiment of the present invention
  • FIG. 3 is a perspective view showing a door opening state of the cooking appliance shown in FIG. 2
  • FIG. 4 is a cooking appliance shown in FIG. 2 It is an exploded perspective view showing an exploded state.
  • the cooking appliance includes a housing 100, a door 300, a tray 200, and a heating unit 400,600.
  • the housing 100 forms a skeleton of the cooking appliance according to the present embodiment. According to this, various components constituting the cooking appliance are respectively installed in the housing 100, and a cooking chamber 105 is provided inside the housing 100 to provide a space for cooking food.
  • the housing 100 is illustrated as being formed in a hexahedral shape with the top and front surfaces open. That is, the housing 100 includes a bottom surface 110, a pair of side surfaces 120, 130, and a back surface 140, and a space is formed therein, and the top surface and the front surface are provided in an open form. Inside the housing 100, the cooking chamber 105 surrounded by the bottom surface 110, both side surfaces 120, 130 and the back surface 140 of the housing 100 is formed.
  • the tray 200 is disposed in the cooking compartment 105 formed inside the housing 100.
  • the tray 200 is provided so that the food is seated, and may be detachably installed inside the cooking compartment 105.
  • the tray 200 may be provided to be withdrawn in front of the cooking compartment 105 for user convenience.
  • the tray 200 may be installed to be movable in the front-rear direction in connection with the opening/closing operation of the door 300, and the front-rear-direction movement of the tray 200 may be induced by the hinge assembly 800 to be described later. Detailed description thereof will be described later.
  • the door 300 is provided to open and close the open top and front surfaces of the housing 100.
  • the door 300 forms the upper and front appearances of the cooking appliance.
  • the door 300 may include a door top surface 310 and a door front surface 350.
  • the door upper surface part 310 forms an upper surface of the door 300 and corresponds to a configuration that covers the open upper surface of the housing 100 when the door 300 closes the cooking compartment 105 inside the housing 100.
  • the door front part 350 forms a front surface of the door 300 and corresponds to a configuration that covers the open front surface of the housing 100 when the door 300 closes the cooking compartment 105.
  • the door 300 is illustrated as being formed in a "a" shape. That is, the door 300 is formed in a form in which the door upper surface part 310 forming the upper surface of the door 300 and the front door part 350 forming the front surface of the door 300 are connected in a “a” shape.
  • the door upper surface portion 310 and the door front portion 350 connected in the shape of "a” rotate together to open and close the cooking chamber 105. .
  • the door 300 is rotatably installed on the upper portion of the housing 100, and is rotatably coupled to the housing 100 via a hinge assembly 800 installed on the housing 100.
  • the hinge assembly 800 is disposed on both sides of the housing 100, and the rear side of the door upper surface 310 is rotatably coupled to the hinge assembly 800, respectively.
  • the handle 305 is provided on the front of the door 300, the user can open and close the cooking chamber 105 by holding the handle 305 and rotating the door 300 in the vertical direction.
  • the heating units 400 and 600 may be installed in the housing 100 or the door 300 to heat the tray 200 disposed in the cooking compartment 105.
  • the heating units 400 and 600 are illustrated as including a first heating unit 400 disposed on the door 300 and a second heating unit 600 disposed on the housing 100.
  • the first heating unit 400 is installed on the door 300, but is installed so that the first heating unit 400 can be accommodated inside the cooking chamber 105 when the door 300 closes the cooking chamber 105. .
  • the first heating unit 400 is installed on the door top surface portion 310 and is disposed on the bottom surface side of the door top surface portion 310 facing the bottom surface of the housing 100.
  • the first heating unit 400 is illustrated as being provided in a form having an electric heater.
  • the first heating unit 400 may heat the dishes placed on the tray 200 at the top of the tray 200.
  • the second heating unit 600 is installed in the housing 100 and is disposed under the tray 200.
  • the second heating unit 600 is provided in the form of a heating unit for heating the tray 200 in a heating method different from the first heating unit 400, for example, an induction heating unit.
  • the second heating unit 600 may be provided in a form including a working coil 610 installed under the bottom surface 110 of the housing 100, and heating the tray 200 at the bottom of the tray 200 Can induce To this end, the tray 200 may be formed of a material capable of induction heating by the second heating unit 600.
  • the cooking appliance includes a housing 100 in which the cooking chamber 105 is formed, a door 300 provided to simultaneously open the front and upper portions of the cooking chamber 105, and a cooking chamber. (105) includes a first heating unit 400 provided to heat the interior from the top, and a second heating unit 600 provided to induction heat the tray 200 inside the cooking chamber 105, and It is provided to be interlocked with the opening/closing operation of the 300 so that the tray 200 can be withdrawn and inserted.
  • FIG. 5 is a perspective view of the housing and the hinge assembly shown in FIG.
  • the housing 100 includes a bottom surface 110 and a pair of side surfaces 120 and 130 and a back surface 140 as described above, and a space is formed inside the top surface and the front surface and the front surface. It comes in an open form.
  • a cooking chamber 105 is formed in an inner space surrounded by the bottom surface 110 and both sides 120 and 130 of the housing 100 and the rear surface 140, and the tray 200 may be installed in the cooking chamber 105 to be pulled out. .
  • a second heating unit 600 may be installed at the bottom of the bottom surface of the housing 100, and an electric component related to the operation of the second heating unit 600 may be installed behind the rear surface of the housing 100, for example, as described below. 2, the control substrate 700 may be installed.
  • the hinge assembly 800 may be respectively installed on both sides 120 and 130 of the housing 100, and the door 300 is rotatable in the housing 100 through the combination with the hinge assembly 800 installed as described above. Can be installed.
  • the housing 100 may be manufactured in a form in which a metal plate is bent in a “ ⁇ ” shape, and the bent metal plate forms the bottom and both sides of the housing 100.
  • the bottom surface 110 of the housing 100 can be integrally connected to both side surfaces 120 and 130 seamlessly.
  • the second heating unit 600 It is possible to obtain the effect of preventing the contamination of the.
  • the housing 100 folds the left protruding part and the right protruding part of the metal plate of the “ ⁇ ” shape upwardly, thereby forming the bottom surface 110 and both side surfaces 120 and 130 of the housing 100, and protruding the rear side. It may be manufactured in the form of folding the part in the upper direction to form the rear surface 140 of the housing 100.
  • the bottom surface of the housing 100 without a seam between the bottom surface 110 and both sides 120 and 130 of the housing 100 and between the bottom surface 110 and the back surface 140 of the housing 100 110), both sides (120,130) and the back surface 140 may be integrally formed.
  • the seams inside the cooking chamber 105 are almost invisible and the inner surface of the cooking chamber 105 can maintain a smooth plane, so that the aesthetics inside the cooking chamber 105 are further improved, The effect of facilitating removal of contaminants on the inner surface of the cooking chamber 105 can be further obtained.
  • the bottom surface 110 of the housing 100 may be formed of a ceramic glass, and the ceramic glass may be formed in a rectangular flat plate shape having a predetermined thickness.
  • the ceramic glass may be disposed in a cut-out central portion of the bottom surface 110 formed of a metal material, and the ceramic glass may be disposed between the second heating unit 600 and the tray 200.
  • a rear case 150 accommodating the second control substrate 700 to be described later is disposed behind the rear surface 140 of the housing 100.
  • the second control substrate 700 is accommodated in the rear case 150 and installed behind the housing 100, and an insulating plate 160 is disposed between the rear surface 140 and the rear case 150 of the housing 100. .
  • the insulating plate 160 prevents heat from inside the cooking chamber 105 from being transmitted to the second control substrate 700 through the rear surface 140 of the housing 100, and the rear case in which the second control substrate 700 is installed. It serves to insulate between the 150 and the housing 100.
  • the housing 100 of the present embodiment may further include a cabinet 170.
  • the cabinet 170 is provided to cover both side surfaces 120 and 130 and the back surface 140 of the housing 100.
  • the cabinet 170, the hinge housing 800 installed on both sides (120,130) of the housing 100 and the second control substrate 700 installed on the rear surface 140 of the housing 100 is protected from the outside, cooking
  • the side and rear appearance of the device can be formed.
  • FIG. 6 is a perspective view showing a door separated according to an embodiment of the present invention
  • FIG. 7 is a bottom perspective view showing the bottom side of the door shown in FIG. 6.
  • FIG. 8 is an exploded perspective view showing an exploded view of the door shown in FIG. 7
  • FIG. 9 is a cross-sectional view taken along the line “VIII-VIII” of FIG. 8
  • FIG. 10 is taken along the line “XX” of FIG. 7 It is a cross section.
  • the door 300 has a door upper surface 310 forming the upper surface of the door 300 and a door front surface 350 forming the front surface of the door 300 in an “a” shape. It is provided in an integrally connected form.
  • the upper door part 310 is formed in a rectangular shape, and may be formed in a rectangular shape in which the length in the left-right direction is longer than the length in the front-rear direction.
  • a door frame 320 may be installed on the door upper surface 310.
  • the door frame 320 is installed on the lower portion of the upper door portion 310, the first heating unit 400 may be installed on the lower portion of the upper door portion 310 in a form coupled to the door frame 320. .
  • the door 300 may include a viewing window W.
  • the viewing window W is disposed on the door upper surface portion 310 and may be provided to be located at a central portion in the planar direction of the door upper surface portion 310.
  • the viewing window W may include a pair of glasses 330 and 335 which are spaced apart a predetermined distance in the vertical direction so that a space is formed therein.
  • one of the glass 330; hereinafter, referred to as "first glass”
  • the other glass 335 is a door frame (320; hereinafter, " 2nd glass”.
  • Through-holes may be formed in the upper door part 310 and the door frame 320, respectively.
  • the through holes may be formed in the center of the door top surface 310 in the planar direction and in the center of the door frame 320 in the planar direction.
  • the first glass 330 covers the through hole formed in the door top surface 310 from the top and is installed in the door top surface 310
  • the second glass 335 is the door frame 320 Covering the through-hole formed in the upper portion is installed in the door frame 320.
  • the first glass 330 and the second glass 335 may be formed of glass of a transparent or translucent material, and the see-through window W is a through-hole part covered with the first glass 330 and the second glass 335 Can be formed on.
  • the user can view the inside of the cooking chamber 105 from the top through the viewing window W formed as described above, and through this, it is possible to check the cooking state of food in the cooking chamber 105. Due to the characteristics of the mini-oven, it will be said that the frequency of using the cooking appliance of this embodiment is high at a point significantly lower than the user's face. Therefore, the see-through window W formed on the upper surface of the door 300 may be provided as a means for allowing the user to easily and conveniently check the cooking state of the food without lowering the posture or bowing the waist.
  • the first glass 330 is installed on the upper portion of the door top surface 310 and the second glass 335 is installed on the door frame 320, and accordingly, the first glass 330 and the second glass Between (335) may be spaced at least as much as the thickness of the door top surface 310.
  • first glass 330 and the second glass 335 forming the viewing window W is formed in a space spaced at least as much as the thickness of the door top surface 310, whereby two glasses are formed inside the viewing window W.
  • a space between (330,335) may be formed.
  • air may be introduced into the space formed as described above, and air introduced into the space may form an air layer in the space.
  • the air layer formed in the separation space formed as described above serves to block heat from heating the second glass 335 directly exposed to the cooking compartment 105 from being transmitted to the first glass 330 located at the outermost side.
  • the viewing window W provided in the double-window structure as described above has a function capable of significantly preventing the occurrence of a safety accident due to overheating of the viewing window W, and the occurrence of fogging due to an increase in the temperature of the viewing window W. .
  • the through-hole formed in the upper surface portion 310 may be formed with a narrower width than the through-hole formed in the door frame 320.
  • the through-hole formed in the upper surface portion 310 may be formed to be located in the inner region of the through-hole formed in the door frame 320 when viewed from the top.
  • the through hole formed in the upper surface portion 310 may be formed such that the inner frame of the door frame 320 is not exposed through the viewing window W when viewed from the top. In this case, since the door frame 320 may not be exposed through the viewing window W, there is an aesthetically advantageous advantage.
  • the first heating unit 400 is installed on the door top surface 310, is disposed in an area not exposed through the viewing window (W) when viewed from the top.
  • the first heating unit 400 is disposed on the front outer side and the rear outer side of the viewing window W, respectively, on a horizontal plane formed by the door top surface 310.
  • the first heating units 400 may be disposed outside the through holes formed in the door top surface 310 and the door frame 320, respectively. That is, the cooking appliance of the present embodiment may include a pair of first heating units 400 disposed on the front outer side and the rear outer side of the viewing window W, respectively.
  • the first heating unit 400 is disposed in an area exposed through the viewing window W, it is not good for aesthetics, and a problem occurs in securing a view through the viewing window W, and the temperature of the viewing window W increases. Problems can also arise.
  • the first heating unit 400 must be disposed on the front outside and the rear outside of the viewing window W so that the first heating is performed.
  • the length of the unit 400 may be increased by that amount, and as the length of the first heating unit 400 is increased, it is expected to improve the thermal power of the first heating unit 400.
  • the first heating unit 400 is disposed on the front outside and the rear outside of the viewing window W, thereby maintaining aesthetics, maintaining visibility, and suppressing the temperature rise of the viewing window W, the first heating unit It may be advantageous to secure a functional advantage, such as improving the thermal power of the 400.
  • the door front part 350 may be formed in a rectangular shape like the door top part 310. However, if the door upper surface portion 310 forms a horizontal plane, the door front portion 350 forms a vertical plane.
  • the door front part 350 may be formed in a form extending downward from the front end of the door top part 310.
  • a connection between the door front part 350 and the door top part 310 may be made in such a way that the interior space of the front door part 350 and the interior space of the door top part 310 are connected to each other. That is, the door 300 may be provided in a form in which the interior space is integrally connected to the door front part 350 and the door top part 310 connected to each other in an “a” shape.
  • An operation device 1000 and a first control substrate 500 may be disposed on the door front part 350.
  • a space portion is formed inside the door front portion 350. In this space portion, at least a portion of the manipulation device 1000 and the first control substrate 500 may be accommodated.
  • the operation device 1000 may include various operation switches for operation control operation of the cooking appliance according to the present embodiment.
  • the operation device 1000 may be provided to be exposed on the front surface of the front door unit 350, and the user may directly control the operation device 1000 to control the operation of the cooking appliance.
  • the first control substrate 500 is installed inside the door front part 350.
  • the first control substrate 500 includes various types of control signals, such as receiving control signals input through the operation device 1000 and generating control signals for controlling the operation of the first heating unit 400 and the second heating unit 600. Devices, circuits, and the like are provided.
  • the first control substrate 500 is required to be electrically connected to the operation device 1000, the first heating unit 400 and the second heating unit 600.
  • the first control substrate 500 is disposed on the door front part 350 as in the operation device 1000 and is disposed at a position very close to the operation device 1000, and is disposed on the same door 300. It is also arranged in a position very close to the heating unit 400.
  • the operation device 1000 may be electrically connected to the first control substrate 500 in a form mounted directly on the first control substrate 500. At this time, each operation switch provided in the operation device 1000 may be connected to the first control substrate 500 through the front door portion 350.
  • the first heating unit 400 may be electrically connected via a cable installed through the inside of the door front part 350 and the inside of the door top part 310 connected to each other.
  • first control substrate 500 and the operating device 1000 and the first heating unit 400 that are to be electrically connected to each other are disposed at very close and spatially connected positions, a work to achieve electrical connection between them Not only can this be done quickly and easily, but also the connection structure between them can be maintained very stable.
  • the cooking appliance of this embodiment may further include a cable mounting portion (340,345).
  • the cable mounting portions 340 and 345 are disposed between the door upper surface portion 310 and the door frame 320 which are arranged in the vertical direction, and are respectively disposed on both sides of the outside of the viewing window W.
  • a connecting member 341 is disposed on the front outer side and the rear outer side of the viewing window W, respectively.
  • the pair of connecting members 341 connects between the pair of cable mounting parts 340 and 345 spaced apart from each other. That is, the pair of cable mounting parts 340 and 345 and the connecting member 341 may be provided in a “ ⁇ ” shape surrounding the viewing window W from the outside.
  • the combination of the cable mounting portions 340 and 345 and the connection member 341 provided as described above is installed on the door upper surface 310 in a form that is inserted into a space formed between the door upper surface portion 310 and the door frame 320. .
  • the inside of the door upper surface part 310 where the cable mounting parts 340 and 345 are installed is connected to the inside of the front door part 350.
  • the cable mounting portions 340 and 345 installed in the door top surface portion 310 include a first control substrate 500 and a first heating portion (through the inside of the door top portion 310 and the inside of the door front portion 350 connected to each other). 400) are installed between the cables (C1, C2) connecting them.
  • Power cables (C2) for supplying power to the first heating unit (400) and the first control board (500) are installed in any one of the cable mounting units (340,345) disposed on both sides of the viewing window (W). Can. And the other of the cable mounting portions (340,345) disposed on both sides of the outside of the viewing window (W), the signal cable (C1) for transmitting the control signal generated by the first control substrate 500 to the first heating unit 400 ) Can be installed.
  • the first heating units 400 are disposed on both sides in the front-rear direction around the viewing window W, and the power cables C2 and the signal cables ( C1) are respectively arranged.
  • the arrangement structure of the first heating unit 400, the power cable C2, and the signal cable C1 is a result of design considering the arrangement structure of the first heating unit 400 and the hinge assembly 800.
  • each of the first heating units 400 is disposed in a form in which the heating elements are elongated in the left and right directions.
  • the hinge assembly 800 (refer to FIG. 3) is disposed on both sides in the left and right directions around the viewing window W.
  • the hinge assembly (800) is the only connection between the door (300) and the housing (100). It will be said that it is most desirable to pass through the arranged portion.
  • connection section between the housing 100 and the door 300 among the power cable C2 and the signal cable C1 may be disposed in a form passing through the inside of the hinge assembly 800. Accordingly, the power cable (C2) and the signal cable (C1) in the section between the housing 100 and the door 300 while suppressing the exposure to the outside of the cooking appliance, the risk of damage to the power cable (C2) and signal cable (C1) Protection against.
  • the power cables C2 and the signal cables C1 are arranged on the far side from the heating element so that the heating elements extend and It is preferably arranged to extend in the other direction.
  • the power cable (C2) and the signal cable (C1) are arranged to be spaced apart from each other in the left-right direction with the viewing window (W) therebetween, and may be installed in different cable mounting portions (340,345).
  • the power cable (C2) is installed in the cable mounting portions 340 and 345 adjacent to each other through the inside of the hinge assembly 800 disposed on both sides of the housing 100
  • the signal cable (C1) is on both sides It may be installed in the cable mounting portions 340 and 345 adjacent to each other through the inside of any one of the hinge assemblies 800 that are disposed.
  • the power cable passes through the inside of the hinge assembly 800 disposed on the left side of the housing 100 and is installed in the cable mounting portions 340 and 345 disposed on the left side of the door 300
  • the signal cable C1 is It may be installed in the cable mounting portions 340 and 345 disposed on the right side of the door 300 through the inside of the hinge assembly 800 disposed on the right side of the housing 100.
  • FIG. 11 is a cross-sectional view schematically showing air flow inside a door according to an embodiment of the present invention.
  • a space portion is formed inside the door upper surface 310 and inside the door front surface 350, respectively.
  • a space portion is formed between a pair of glasses 330 and 335 disposed at predetermined intervals in the vertical direction in the interior of the viewing window W installed on the upper surface portion 310.
  • the space portion inside the door upper surface portion 310 including the viewing window W and the space portion inside the door front portion 350 are connected to each other.
  • an intake port 301 is formed at the lower end of the front door portion 350.
  • the intake port 301 is formed to penetrate through the lower end of the front door part 350, and forms a passage on the front door part 350 to open a space inside the door front part 350 to the outside.
  • An exhaust port 303 is formed at a rear end of the door upper surface portion 310.
  • the exhaust port 303 is formed to penetrate the rear end of the door upper surface portion 310, and forms a passage for opening the space inside the door upper surface portion 310 to the outside, on the door upper surface portion 310.
  • the cooking appliance of the present embodiment may further include a first cooling fan 370 disposed inside the door 300.
  • the first cooling fan 370 may be installed inside the door top surface 310 or inside the door front surface 350.
  • the first cooling fan 370 is illustrated as being installed in a space portion inside the front door portion 350.
  • the viewing window W, the first heating unit 400, and the like are installed on the door upper surface 310, there is insufficient space in the door upper surface 310.
  • the door front part 350 has a relatively large clearance space compared to the door top part 310.
  • the first cooling fan 370 may be installed inside the door front part 350.
  • the first cooling fan 370 provided as described above generates an air flow in which external air is introduced into the door 300 through the intake port 301 and air inside the door is discharged through the exhaust port 303. .
  • the air flow generated by the first cooling fan 370 external air is introduced into the door front part 350 through the intake port 301, and external air introduced into the door front part 350 as described above. Cools the first control substrate 500. Then, the air that has cooled the first control substrate 500 flows into the door upper surface 310 and passes through the space inside the viewing window W, and then discharges it to the outside of the door 300 through the exhaust port 303. do.
  • the temperature of the first control substrate 500 is much lower than the temperature of the viewing window W heated by the first heating unit 400. Therefore, the air that has flowed into the interior of the door 300 through the intake port 301 and cooled the first control substrate 500 passes through the interior of the viewing window W at a temperature sufficiently low to cool the viewing window W. Can. Therefore, by the air flow generated by the first cooling fan 370, cooling of the first control substrate 500 and cooling of the viewing window W can be efficiently performed.
  • the operation device 1000 may include various operation switches for operation control operation of the cooking appliance according to the present embodiment.
  • the operation device 1000 may be provided to be exposed on the front surface of the front door unit 350, and the user may directly control the operation device 1000 to control the operation of the cooking appliance.
  • the operation device 1000 may include an operation switch for selecting a type and state of a cooking object, an operation switch for selecting a cooking degree or a cooking time, and the like.
  • the operation device 1000 is an operation switch for adjusting on/off or firepower of the first heating unit 400 (see FIG. 4), on/off or firepower of the second heating unit 600 (see FIG. 4). It may also include an operation switch for adjusting, a timer operation switch for adjusting the operation time of the first heating unit 400 or the second heating unit 600.
  • the operation device 1000 is illustrated as including two operation switches. One of them may be provided as an operation switch for selecting the type and state of the cooking object, and the other may be provided as an operation switch for selecting the cooking degree or cooking time.
  • At least one of the operation switches may be provided in a form capable of rotating and pressing.
  • each operation switch is provided in a form capable of rotating and pressing.
  • the operation device 1000 includes an operation switch having the same or similar configuration, respectively. At this time, each operation switch may be provided to implement different functions using the same or similar configuration.
  • both operation switches are provided in a form including a configuration that enables rotational operation and pressing operation, and one of these switches may be provided as an operation switch for selecting the type and state of the cooking object, The other may be provided as an operation switch for selecting a cooking degree or cooking time.
  • the configuration of the operation device 1000 will be described by taking one of the two operation switches as an example.
  • FIG. 12 is a perspective view showing a state in which a portion of the door shown in FIG. 6 is removed
  • FIG. 13 is a cross-sectional view taken along the line “ ⁇ - ⁇ ” in FIG. 12
  • FIG. 14 is an exploded configuration of the operation device shown in FIG. 13 It is an exploded perspective view.
  • the operation device 1000 includes an operation switch, and the operation switch includes a shaft 1100, a knob 1300, a button 1400, and a shaft connecting member 1500. Can.
  • the shaft 1100 is provided in the encoder 1200 provided in the operating device 1000.
  • the shaft 1100 may be provided in an axial shape extending in the front-rear direction.
  • the shaft 1100 may be provided to be rotatable and axially moved about an axis in the front-rear direction.
  • the encoder 1200 may be provided to detect the rotation angle of the shaft 1100. In addition, the encoder 1200 may be provided to detect the axial movement of the shaft 1100 together. For example, the encoder 1200 may sense the axial movement of the shaft 1100 through a switch connected by the shaft 1100 moving in the direction inserted in the encoder 1200.
  • the encoder 1200 is illustrated as being installed on the first control substrate 500.
  • the encoder 1200 may be installed on the first control substrate 500 and disposed inside the dowel front portion 350.
  • the encoder 1200 may be electrically connected to the first control substrate 500.
  • the encoder 1200 may detect a rotational angle or axial movement of the shaft 1100 and transmit a signal corresponding to the result to the first control substrate 500.
  • the first control substrate 500 includes a first heating unit 400 (see FIG. 4), a second heating unit 600 (see FIG. 4), and a light emitting member 1700 to be described later according to a signal received from the encoder 1200. It is possible to generate a control signal for the operation control of.
  • the knob 1300 is configured to be rotated by a user.
  • the knob 1300 may be connected to the shaft 1100 by being coupled to the shaft 1100.
  • the knob 1300 may be connected to the shaft 1100 to be rotatable and axially moved together with the shaft 1100.
  • the knob 1300 may include an axial coupling portion 1310.
  • the shaft coupling portion 1310 may be formed in a lying cylindrical shape. Inside the shaft coupling portion 1310, a shaft coupling hole 1311 may be formed.
  • the shaft coupling hole 1311 is formed concavely inside the shaft coupling portion 1310, and may be formed in a shape corresponding to the shape of the shaft 1100.
  • the shaft coupling hole 1311 may be opened toward the rear of the shaft coupling portion 1310. In addition, the front of the shaft coupling hole 1311 may be closed by the front surface of the shaft coupling portion 1310. By the shape of the shaft coupling portion 1310, the installation position and insertion depth of the shaft 1100 coupled to the shaft coupling portion 1310 can be guided.
  • the button 1400 is provided to press and operate the shaft 1100.
  • the button 1400 may be disposed in front of the shaft 1100 and the knob 1300.
  • the button 1400 may be connected to at least one of the shaft 1100 and the knob 1300 so as to be axially movable with the shaft 1100.
  • the button 1400 is illustrated as being connected to the knob 1300. That is, when the button 1400 pushes the knob 1300 to the rear side, the knob 1300 connected to the shaft 1100 pushes the shaft 1100 to move to the rear side.
  • the button 1400 may include a pressing portion 1410 and an engaging portion 1420.
  • the pressing portion 1410 is disposed at the frontmost side of the button 1400.
  • the pressing portion 1410 may include a surface that intersects an axis extending in the longitudinal direction of the shaft 1100, that is, in the front-rear direction. In this embodiment, it is illustrated that the pressing portion 1410 is formed in a disc shape perpendicular to the shaft 1100.
  • the pressing unit 1410 provided as described above may form an external appearance of the button 1400, and provide a pressing surface required for the user to press the button 1400.
  • the engaging portion 1420 may be formed to protrude from the pressing portion 1410.
  • the engaging portion 1420 is formed to extend rearward from the pressing portion 1410, and may be formed in a lying cylindrical shape with a hollow formed therein.
  • the coupling part 1420 may surround the shaft connecting member 1500, which will be described later, outside the radial direction of the shaft connecting member 1500 and may be combined with the shaft connecting member 1500. That is, the coupling portion 1420 corresponds to a portion to which the shaft connecting member 1500 is coupled for connection between the button 1400 and the shaft connecting member 1500.
  • the shaft connecting member 1500 may be provided between the shaft 1100 and the button 1400 or between the knob 1300 and the button 1400. By this shaft connecting member 1500, the button 1400 can be freely connected to the knob 1300 from rotation of the knob 1300. That is, even if the knob 1300 is rotated, the button 1400 may remain stationary without being rotated along the knob 1300. Detailed description thereof will be described later.
  • the operation device 1000 of the present embodiment may further include a socket member 1600.
  • the socket member 1600 is provided to support the knob 1300 so as to be rotatable and axially movable to the door 300.
  • the socket member 1600 may be installed inside the door 300, more specifically, the door front part 350.
  • the socket member 1600 may be installed inside the door front part 350 to accommodate the encoder 1200 installed inside the door front part 350 from the outside in the radial direction.
  • the shaft 1100 connected to the encoder 1200 may protrude toward the front of the socket member 1600 through approximately the center of the radial direction of the socket member 1600.
  • the socket member 1600 accommodates the encoder 1200 therein and serves to protect the encoder 1200, the role of supporting the knob 1300 coupled with the shaft 1100 from the outside in the radial direction, the knob 1300 It may serve to support the knob 1300 from the rear so as not to move excessively to the rear, to define a path of light emitted from the light emitting member 1700 to be described later.
  • the operation apparatus 1000 of the present embodiment may further include a light emitting member 1700.
  • the light-emitting member 1700 is installed on the first control substrate 500 and is lit by operation control made through the first control substrate 500 to emit light.
  • the light emitting member 1700 may be disposed behind the socket member 1600.
  • a passage for passing light emitted from the light emitting member 1700 to the front of the socket member 1600 may be formed in the socket member 1600.
  • the path of light emitted from the light emitting member 1700 is defined by the socket member 1600, and the light is related to an operation state of the operation device 1000, an operation control state made by operation of the operation device 1000, and the like. It can serve to display information.
  • FIG. 15 is an exploded perspective view showing the socket member shown in FIG. 14 separately, and FIG. 16 is a front view showing the socket member shown in FIG. 15.
  • FIG. 17 is a side view showing the socket member shown in FIG. 15, and
  • FIG. 18 is a front view schematically showing the configuration of the first control substrate shown in FIG. 14.
  • the socket member 1600 may include an outer support portion 1610.
  • the outer support portion 1610 may be formed to include a surface extending in the front-rear direction.
  • the outer support portion 1610 is illustrated as being formed in a substantially lying cylindrical shape.
  • the outer support portion 1610 may be disposed outside the radial direction of the knob 1300, and at least a portion of the knob 1300 may be inserted into an area surrounded by the outer support portion 1610.
  • the knob 1300 may be coupled to the outer support portion 1610 in a form in which its rear end is in contact with the inner circumferential surface of the outer support portion 1610. At this time, the rear end of the knob 1300 may be slidably coupled to the inner circumferential surface of the outer support portion 1610. Accordingly, the knob 1300 may be supported by the socket member 1600 to be rotatable and axially movable.
  • An insertion groove 1611 may be provided on the inner circumferential surface of the outer support portion 1610, that is, the inner surface of the outer support portion 1610 adjacent to the rear end of the knob 1300.
  • the insertion groove 1611 may be formed concave in the centrifugal direction on the inner circumferential surface of the outer support portion 1610.
  • the rear end of the knob 1300 may be inserted into the insertion groove 1611, through which the coupling between the knob 1300 and the socket member 1600 can be made. Detailed description thereof will be described later.
  • the socket member 1600 may further include an inner support part 1620.
  • the inner support portion 1620 may be formed to include a surface extending in the front-rear direction.
  • the inner support 1620 is illustrated as being formed in a substantially lying cylindrical shape.
  • the inner support portion 1620 may be disposed inside the radial direction of the outer support portion 1610.
  • the inner supporter 1620 may be disposed between the encoder 1200 and the outer supporter 1610.
  • the encoder 1200 may be inserted into an area surrounded by the inner support portion 1620. That is, the inner supporter 1620 may be provided in a form surrounding the encoder 1200 inside the outer supporter 1610.
  • the socket member 1600 may further include a first connection support portion 1630 supporting the outer support portion 1610 and the inner support portion 1620.
  • the first connection support part 1630 connects the outer support part 1610 and the inner support part 1620 to each other and supports the outer support part 1610 and the inner support part 1620.
  • the first connection support portion 1630 may be disposed behind the outer support portion 1610 and the inner support portion 1620.
  • the first connection support portion 1630, and also the first connection support portion 1630, forms the rear surface of the socket member 1600, the outer support portion 1610 and the outer support portion 1610 from the rear of the inner support portion 1620 And an inner support portion 1620.
  • the socket member 1600 is installed inside the door front portion 350, it may be combined with the first control substrate 500 installed inside the door front portion 350.
  • the first connection support portion 1630 forming the rear surface of the socket member 1600, when the socket member 1600 is installed on the first control substrate 500, will be a mating surface that abuts the first control substrate 500 Can.
  • the first connection support portion 1630 may include a flange-shaped portion 1163 and a rib-shaped portion 1633.
  • the flange-shaped portion 1631 may be formed to protrude in the centrifugal direction from the inner support portion 1620.
  • the flange-shaped portion 1631 may be formed in a shape protruding from the inner support portion 1620 in a flange shape.
  • the rib-shaped portion 1633 connects between the flange-shaped portion 1631 and the outer support portion 1610.
  • the rib-shaped portion 1633 may be formed in a rib shape projecting in the centrifugal direction from the flange-shaped portion 1163. Between the flange-shaped portion 1631 and the outer support portion 1610, a plurality of rib-shaped portions 1633 may be arranged radially.
  • the rib-shaped portion 1633 provided as described above can effectively increase the strength of the entire socket member 1600 while suppressing the increase in weight of the entire socket member 1600.
  • the inner support portion 1620 may be disposed behind the shaft coupling portion 1310 of the knob 1300. This inner support 1620, by supporting the shaft coupling portion 1310 of the knob 1300 moving backward, from the rear, to suppress the excessive movement of the knob 1300, through which the shaft 1100 and the encoder 1200 ) Can prevent the excessive load.
  • the inner support portion 1620 is supported by the first connection support portion 1630, but a certain amount of elasticity may be imparted between the inner support portion 1620 and the first connection support portion 1630.
  • the socket member 1600 is formed of a plastic material, and the outer support portion 1610, the inner support portion 1620 and the first connection support portion 1630 may be formed in an integrated form.
  • the flange-shaped portion 1163 and the rib-shaped portion 1633 of the first connection support portion 1630 may be connected by a skirt-shaped portion 1635.
  • the skirt-shaped portion 1635 may be formed in a shape protruding rearward from the outer peripheral surface of the flange-shaped portion 1163. Accordingly, the flange-shaped portion 1631 and the rib-shaped portion 1633 may be connected in a " ⁇ " shape, between the inner support portion 1620 and the first connection support portion 1630, and the outer support portion 1610 and the first connection Elasticity may be imparted between the support parts 1630.
  • the inner support 1620 elastically supports the knob 1300 and can stably suppress excessive movement of the knob 1300.
  • the inner support unit 1620 may apply the force required for the knob 1300 to return to the original position again while the force pressing the knob 1300 is released to the original state again, to the knob 1300.
  • the socket member 1600 may be provided with a light passing hole 1640.
  • the light passing hole 1640 may be formed to penetrate the socket member 1600, more specifically, the outer support portion 1610 in the front-rear direction.
  • the light passing hole 1640 may be disposed at a position overlapping with the light emitting member 1700 installed on the first control substrate 500 in the front-rear direction.
  • a plurality of light emitting members 1700 may be installed on the first control substrate 500.
  • the light-emitting member 1700 is disposed at the rear of the outer support portion 1610, and may be disposed at a position overlapping the outer support portion 1610 in the front-rear direction. That is, the plurality of light emitting members 1700 may be disposed along the circumferential direction of the outer support portion 1610 behind the outer support portion 1610.
  • a plurality of light passing holes 1640 are provided at the outer support portion 1610, and the plurality of light passing holes 1640 may be disposed at positions overlapping the plurality of light emitting members 1700 in the front-rear direction.
  • One light emitting member 1700 is inserted into the inside of one light passing hole 1640, so that the light emitting member 1700 and the light passing hole 1640 can be arranged.
  • each light emitting member 1700 may be irradiated forward through the socket member 1600 through each light passing hole 1640 disposed in front of each light emitting member 1700. . That is, the movement path of light emitted from each light emitting member 1700 may be guided by each light passing hole 1640 disposed in front of it. Accordingly, which light emitting member 1700 of the plurality of light emitting members 1700 is lit can be clearly recognized from the outside of the operation apparatus 1000.
  • the socket member 1600 may further include a first coupling portion 1420.
  • the first coupling part 1420 may include a first protruding protrusion 1661 and a first coupling protrusion 1653.
  • the first protruding protrusion 1661 may be formed to protrude in the centrifugal direction from the outer support part 1610.
  • the first coupling protrusion 1653 may be formed to protrude rearward from the first protrusion protrusion 1661.
  • the first coupling protrusion 1653 may be fitted into the fitting hole 510 formed in the first control substrate 500, and through this, coupling between the socket member 1600 and the first control substrate 500 may be achieved. .
  • the position of the first coupling portion 1420 on the socket member 1600 may be determined in consideration of the position of the light passing hole 1640 and the position of the light emitting member 1700. That is, the first coupling portion 1420, when the first coupling projection (1653) is fitted into the fitting hole 510 of the first control substrate 500, a plurality of positions and a plurality of optical passage holes (1640) It is preferable that the position of the light emitting member 1700 is arranged at a position that can be matched in the front-rear direction.
  • the first coupling unit 1420 may serve to guide the position where the socket member 1600 is to be installed on the first control substrate 500. That is, by simply fitting the first coupling unit 1420 to the first control substrate 500, the installation position of the socket member 1600 can be guided to a preset position.
  • the socket member 1600 may further include a second coupling portion 1660.
  • the second coupling portion 1660 may include a second protruding protrusion 1661 and a second coupling protrusion 1663.
  • the second protruding protrusion 1661 may be formed to protrude in the centrifugal direction from the outer support part 1610.
  • the second coupling protrusion 1663 may be formed to protrude forward from the second protrusion 1166.
  • the second coupling portion 1660 is provided for coupling between the front cover member 1800 and the socket member 1600, which will be described later.
  • the second protruding protrusion 1661 may be fitted to the front cover member 1800, through which the coupling between the front cover member 1800 and the socket member 1600 can be made.
  • the socket member 1600 may be provided with a plurality of first coupling parts 1420 and a second coupling part 1660. In this embodiment, it is illustrated that the socket member 1600 is provided with two first coupling parts 1420 and four second coupling parts 1660. However, the present invention is not limited to this, and the number of the first coupling portion 1420 and the second coupling portion 1660 may be increased or decreased as necessary.
  • the socket member 1600 may further include a third coupling part 1670.
  • the third coupling part 1670 may be formed to protrude rearward from the first connection support part 1630, more specifically, the flange-shaped part 1163.
  • the third coupling portion 1670 may be formed in a hook shape.
  • the third coupling part 1670 may be fitted into the first control substrate 500 through a fastening hole 520 formed in the first control substrate 500, through which the socket member 1600 is the first control substrate It can be fixed to 500.
  • the socket member 1600 may be provided with a plurality of third coupling parts 1670.
  • the plurality of third coupling portions 1670 may be disposed to be spaced apart at predetermined intervals along the circumferential direction of the flange-shaped portion 1163.
  • the plurality of third coupling parts 1670 arranged as described above are coupled to the first control substrate 500 at a plurality of points, so that the coupling between the socket member 1600 and the first control substrate 500 can be stably performed.
  • FIG. 19 is a front exploded perspective view of the knob and button shown in FIG. 14, and FIG. 20 is an exploded rear view of the knob and button shown in FIG. 14.
  • the knob 1300 is a configuration provided to allow the user to rotate, and may be connected to the shaft 1100 through the shaft coupling portion 1310.
  • the knob 1300 may further include a skirt portion 1320.
  • the skirt portion 1320 may be disposed outside the axial coupling portion 1310 in the radial direction.
  • the skirt portion 1320 may include a surface extending in the front-rear direction.
  • the skirt portion 1320 is formed in a hollow cylindrical shape.
  • the knob 1300 including the shaft coupling portion 1310 and the skirt portion 1320 may be provided in a form in which the shaft coupling portion 1310 and the skirt portion 1320 form concentric circles.
  • knob 1300 may further include a second connection support 1330.
  • the second connection support part 1330 is disposed at the rear of the shaft coupling part 1310 and is provided in a disk shape connecting the shaft coupling part 1310 and the skirt part 1320 from the rear of the shaft coupling part 1310. Can be.
  • the second connection support portion 1330 provided as described above serves to connect the shaft coupling portion 1310 and the skirt portion 1320 to each other, while the skirt portion 1320 is not recessed in the centripetal direction ( 1320) can also be provided.
  • connection support part 1330 is disposed adjacent to the front of the inner support part 1620 provided in the socket member 1600, and when the knob 1300 moves backward, the inner support part 1620 is rearward. It can also be the part you press with.
  • the operation apparatus 1000 of the present embodiment may further include a knob cover 1350.
  • the knob cover 1350 may be formed in a hollow cylindrical shape.
  • the knob cover 1350 may be coupled to the outer circumferential surface of the skirt portion 1320 to surround the knob 1300 from outside in the radial direction.
  • a coupling groove 1321 may be formed on the outer circumferential surface of the skirt portion 1320.
  • the engaging groove 1321 may be formed concave in the centripetal direction from the outer circumferential surface of the skirt portion 1320.
  • the knob cover 1350 may be installed in the skirt portion 1320 while being inserted into the engaging groove 1321.
  • the knob cover 1350 may be installed in the knob 1300 so as not to protrude in the centrifugal direction from the skirt portion 1320. That is, the knob cover 1350 may be formed in the skirt portion 1320 so as to form the same plane as the outermost surface in the centrifugal direction of the skirt portion 1320 adjacent to the knob cover 1350.
  • the knob cover 1350 may include a front part 1360 and a side part 1370.
  • the front portion 1360 may include a surface intersecting an axis extending in the front-rear direction, that is, a surface parallel to the pressing portion 1410 of the button 1400.
  • the front surface of the front portion 1360 may be formed as a plane forming the same plane as the pressing portion 1410 of the button 1400. Further, the rear surface of the front portion 1360 may contact the front end of the outer support portion 1610 when the knob cover 1350 is installed on the knob 1300. The front and rear positions of the knob cover 1350 installed on the knob 1300 may be guided by the rear surface of the front portion 1360 contacting the front end of the outer support portion 1610.
  • a through portion 1361 may be formed in the front portion 1360.
  • the through portion 1361 is formed to penetrate through the front portion 1360 in the front-rear direction.
  • the through portion 1361 is disposed on the central side in the radial direction of the pressing portion 1410, and is illustrated as being formed in a shape corresponding to the planar shape of the button 1400.
  • the front portion 1360 may be formed in a ring shape having a hole corresponding to the shape of the button 1400 in the center of the radial direction.
  • the pressing portion 1410 of the button 1400 may be inserted into the front portion 1360.
  • the front surface of the pressing portion 1410 inserted into the interior of the front portion 1360 may be disposed to form the same plane as the front surface of the front portion 1360.
  • the through portion 1361 and the pressing portion 1410 inserted therein may be formed to have a smaller diameter than the hollow formed inside the outer support portion 1610. Accordingly, the inner circumferential surface of the front portion 1360 may protrude more in the centripetal direction than the inner circumferential surface of the outer support portion 1610.
  • the pressing portion 1410 may be formed to have a longer length in the front-rear direction than the front portion 1360. That is, the rear end of the pressing portion 1410 may protrude a little more rearward than the rear surface of the front portion 1360.
  • a support protrusion 1411 may be provided at a rear end of the pressing portion 1410.
  • the support protrusion 1411 may be formed to protrude in the centrifugal direction from the rear end of the pressing portion 1410.
  • the support protrusion 1411 may be formed such that when the pressing portion 1410 is inserted into the through portion 1361, at least a portion of the support protrusion 1411 may be disposed outside the through portion 1361 in the radial direction. have.
  • the support protrusion 1411 is interfered with the rear surface of the front portion 1360 from the rear of the front portion 1360, thereby preventing movement of the button 1400 toward the front, whereby the button 1400 is the knob cover 1350 ) It can play a role of preventing departure from the front.
  • the support protrusion 1411 is disposed at a position where the front surface of the front portion 1360 and the front surface of the pressing portion 1410 can form the same plane when the rear surface of the front portion 1360 interferes with the knob cover 1350 It can also provide a function for guiding the installation position of the button 1400 against ).
  • the knob cover 1350 is a portion that the user holds by hand to operate the knob 1300, and corresponds to a portion forming the exterior of the knob 1300. Therefore, it should be provided with a material and a shape suitable for a user to hold and manipulate by hand, and should be seen in aesthetic sense.
  • the outer circumferential surface of the side portion 1370 forming the lateral appearance of the knob cover 1350 is formed in the form of coplanar with the outer circumferential surface of the skirt portion 1320 not covered by the knob cover 1350. Can be installed.
  • the front surface of the front surface portion 1360 forming the front surface of the knob cover 1350 may be installed to form the same plane as the front surface of the pressing portion 1410 of the button 1400.
  • the operation apparatus 1000 of the present embodiment has a simple and smooth appearance without a convex protrusion or a concave recess in itself, thereby improving the user's satisfaction through aesthetics.
  • the pressing unit 1410 of the present exemplary embodiment may include a pressing body 1410a and a button cover 1410b.
  • the pressing body 1410a forms a main skeleton of the pressing portion 1410, and the engaging portion 1420 and the fastening boss portion 1430 are formed to protrude from the pressing body 1410a.
  • the button cover 1410b may be disposed in front of the pressing body 1410a to form a front appearance of the button 1400.
  • the button cover 1410b is coupled to the pressing body 1410a, and as an example, the coupling between the pressing body 1410a and the button cover 1410b may be combined by a fitting coupling method.
  • the button cover 1410b is provided as a separate body from the pressing body 1410a as described above, the color of the button 1410 or a symbol or text displayed on the button 1410 can be easily changed as necessary. Since only the button cover 1410b among the entire components of the button 1400 is identifiable by the user, it is possible to easily change the entire button 1410 by simply changing the button cover 1410b.
  • 21 and 22 are views showing an operating state of the operation device according to an embodiment of the present invention.
  • the operation apparatus 1000 of the present embodiment may further include a front cover member 1800.
  • the front cover member 1800 may be disposed outside the radial direction of the knob 1300.
  • the front cover member 1800 may be disposed in front of the door front portion 1360 to be exposed in front of the door 300.
  • the front cover member 1800 is disposed on the outer side in the radial direction of the knob 1300, and may be disposed in a form surrounding the knob 1300 on the outer side in the radial direction. In this embodiment, it is illustrated that the front cover member 1800 is formed in a ring shape surrounding the knob 1300 in the radially outer side.
  • the front cover member 1800 is disposed in front of the socket member 1600 and may be coupled to the front of the socket member 1600.
  • the front cover member 1800 may serve to shield the socket member 1600, more specifically, the outer support portion 1610 in front of the socket member 1600.
  • the front cover member 1800 formed in a ring shape may be formed in a shape corresponding to the shape of the outer support portion 1610 viewed from the front.
  • the front cover member 1800 may be coupled to the socket member 1600 to cover the outer support portion 1610 from the front. Accordingly, the front of the light passing hole 1640 formed in the outer support portion 1610 is shielded by the front cover member 1800, whereby the light passing hole 1640 and the light emitting member 1700 behind the front cover member ( 1800).
  • the front cover member 1800 may be formed of a translucent or semi-transmissive material.
  • the front cover member 1800 is formed of a semi-transmissive material having a metal texture.
  • the front cover member 1800, the socket member 1600, a hole formed therein, and a light passing member 1640, and the light emitting member 1700 to cover the role of not being exposed to the outside, the light emitting member 1700 It can provide a function to make the light emitted by the light spread softly.
  • the front cover member 1800 may be used as a finishing material that invisibly covers a portion that is unnecessarily exposed outside the door 300, and through which metal texture is used to make the finishing portion look more luxurious. In addition to providing an advantage, it can also provide the ability to make the light that shines through that part look soft.
  • each light emitting member 1700 may be achieved by being interlocked with at least one of rotation of the shaft 1100 and axial movement of the shaft 1100.
  • the light-emitting member 1700 is turned on by rotation of the shaft 1100 by the rotation operation of the knob 1300 and axial movement of the shaft 1100 by the operation of pressing the button 1400. For example.
  • the light emitting member 1700 corresponding thereto may be turned on, and when the rotation of the shaft 1100 is continuously made, another light emitting member 1700 may be lighted correspondingly. Can.
  • the light emitting member 1700 may be in a lightable state, and as the axial movement of the shaft 1100 is performed once again, the light emitting member 1700 is not lit. It may become a state that does not.
  • the rotation and movement of the shaft 1100 may be detected by the encoder 1200.
  • information on the rotation and movement of the shaft 1100 acquired by the coder 1200 is generated as an operation signal, and the control unit provided on the first control substrate 500 receives it to turn on the light emitting member 1700. Can be controlled.
  • the coupling between the front cover member 1800 and the socket member 1600 may be made in a fitting manner.
  • a coupling boss 1810 may be provided on the front cover member 1800.
  • the coupling boss 1810 may be formed to protrude rearward from the front cover member 1800.
  • the coupling boss 1810, the second coupling portion 1660 of the socket member 1600, more specifically, the second protrusion (1661) may be fitted.
  • the coupling between the front cover member 1800 and the socket member 1600 may be achieved by coupling between the coupling boss 1810 and the second coupling unit 1660 made as described above.
  • a plurality of coupling bosses 1810 may be provided in the front cover member 1800. At this time, the placement position and number of the coupling boss 1810 may be determined to correspond to the placement position and number of the second coupling unit 1660.
  • an insertion groove 1611 may be provided in the socket member 1600 coupled with the front cover member 1800 as described above.
  • the insertion groove 1611 may be formed concave in the centrifugal direction on the inner circumferential surface of the outer support portion 1610.
  • the knob 1300 may be provided with a projection 1340.
  • the protrusion 1340 may be formed to protrude in the centrifugal direction from the rear end of the skirt portion 1320.
  • the protrusion 1340 formed as described above is inserted into the insertion groove 1611 and through this, may be slidably coupled to the inner circumferential surface of the outer support portion 1610.
  • the insertion groove 1611 may be formed to be opened toward the inside and the front of the socket member 1600.
  • the front cover member 1800 may be installed in front of the socket member 1600 to shield the open front of the insertion groove 1611.
  • the protrusion 1340 may be inserted into a space surrounded by the insertion groove 1611 and the front cover member 1800.
  • the protrusion 1340 can be inserted into the insertion groove 1611, whereby the knob 1300 can be installed to be movable in the front-rear direction to the socket member 1600. have.
  • the front cover member 1800 in front of the socket member 1600 in which the knob 1300 is installed, the movement of the knob 1300 toward the front is restricted, and thus the departure of the knob 1300 can be prevented.
  • the button 1400 may be connected to the knob 1300 through the shaft connecting member 1500.
  • the shaft connecting member 1500 may be provided between the shaft 1100 and the button 1400 or between the knob 1300 and the button 1400.
  • the shaft connecting member 1500 may connect the button 1400 to the shaft 1100 or the knob 1300 freely from rotation of the knob 1300.
  • the shaft connecting member 1500 is provided between the knob 1300 and the button 1400.
  • the shaft connecting member 1500 may connect the button 1400 to the knob 1300 to be free from rotation of the knob 1300 rotated by the shaft 1100.
  • the shaft connecting member 1500 is illustrated as a bearing.
  • the shaft connecting member 1500 may be provided between the shaft engaging portion 1310 of the knob 1300 and the engaging portion 1420 of the button 1400. That is, the inner side of the shaft connecting member 1500 is coupled with the outer circumferential surface of the shaft coupling portion 1310, and the outer side of the shaft connecting member 1500 can be combined with the inner circumferential surface of the coupling portion 1420.
  • the shaft connecting member 1500 provided in the form of a bearing may include a first connecting portion 1510 and a second connecting portion 1520.
  • the first connecting portion 1510 is disposed on the central side in the radial direction of the shaft connecting member 1500.
  • the first connecting portion 1510 may be coupled with the shaft coupling portion 1310 so that it can be rotated together with the shaft coupling portion 1310.
  • the second connecting portion 1520 is disposed outside the radial direction of the first connecting portion 1510.
  • the second connection unit 1520 may be combined with the button 1400. More specifically, the second connecting portion 1520 may be combined with the button 1400 by being combined with the inner circumferential surface of the engaging portion 1420.
  • the second connecting portion 1520 may be connected to the first connecting portion 1510 so as to be rotated relative to the first connecting portion 1510. At this time, the second connection unit 1520 may be connected to the first connection unit 1510 so as to be rotated around the first connection unit 1510.
  • the button 1400 can be connected to the knob 1300 freely from rotation of the knob 1300. That is, even if the knob 1300 is rotated, the button 1400 may remain stationary without being rotated along the knob 1300.
  • the operation apparatus 1000 of the present embodiment may further include a weight member 1550.
  • the weight member 1550 is installed on the button 1400, it may be installed to be disposed on the outer side in the radial direction of the shaft connecting member 1500.
  • the button 1400 may be provided with a fastening boss 1430.
  • the fastening boss portion 1430 may be disposed outside the coupling portion 1420 on which the shaft connecting member 1500 is installed. That is, the fastening boss portion 1430 may be disposed outside the shaft 1100 and the shaft connecting member 1500 in the radial direction.
  • the fastening boss portion 1430 may be formed to protrude rearward from the pressing portion 1410.
  • the weight member 1550 may be installed on the button 1400 by being coupled to the fastening boss portion 1430 provided as described above. At this time, the fastening boss portion 1430 may be disposed between the coupling portion 1420 of the button 1400 and the skirt portion 1320 of the knob 1300. Therefore, the weight member 1550 coupled to the fastening boss portion 1430 is also disposed on the outer side in the radial direction than the shaft connecting member 1500, but may be disposed on the inner side in the radial direction rather than the skirt portion 1320.
  • the weight member 1550 may be provided with a weight that biases the center of gravity of the button 1400 toward the outside in the radial direction than the shaft connecting member 1500. That is, as the weight member 1550 is installed on the button 1400, the center of gravity of the button 1400 may be biased to the location where the weight member 1550 is located.
  • the weight member 1550 maintains a position struck downward due to its own weight, but maintains a position struck at the bottom of the movable range of the weight member 1550 (hereinafter referred to as a "lowest position"). Accordingly, the button 1400 maintains the state when the weight member 1550 is at the lowest position.
  • the position of the button 1400 in the rotational direction when viewed from the front may be influenced by the weight member 1550. That is, the rotational position of the button 1400 maintains the state when the weight member 1550 is at the lowest position, and the button 1400 can maintain the position even if the knob 1300 is rotated.
  • the weight member 1550 is illustrated as being a screw member.
  • a thread may be formed on the outer circumferential surface of the weight member 1550, and correspondingly, a thread may be formed on the inner circumferential surface of the fastening boss 1430. Accordingly, the weight member 1550 is coupled to the inside of the fastening boss portion 1430, and is screwed to the inner circumferential surface of the fastening boss portion 1430, so that it can be easily installed on the button 1400.
  • the operation apparatus 1000 of the present embodiment may further include a magnetic member 1680.
  • the magnetic member 1680 is fixed around the weight member 1550 and may be formed of a material capable of sucking the magnetic body.
  • the magnetic member 1680 is illustrated as being a permanent magnet.
  • the magnetic member 1680 may be installed on the socket member 1600.
  • the magnetic member 1680 may be installed at one end of the socket member 1600 facing the button 1400.
  • the magnetic member 1680 is installed at one end of the inner support 1620 facing the second connection support 1330 of the knob 1300.
  • the magnetic member 1680 is disposed on the rear of the weight member 1550, it is preferable that the weight member 1550 and is disposed in a position that can overlap in the front-rear direction.
  • the weight member 1550 may be made of a magnetic material.
  • the weight member 1550 is exemplified to include a screw member formed of a magnetic metal material.
  • the weight member 1550 has a weight sufficient to maintain the rotational position of the button 1400, and can be easily installed on the button 1400 using a screw coupling, while being sucked by the magnetic member 1680. It can be provided in a form that can be.
  • the weight member 1550 is preferably disposed in a region where the suction force of the magnetic member 1680 acts.
  • the weight member is provided to protrude rearward from the button 1400, but can protrude to a position that can be as close as possible to the magnetic member 1680 within a range not protruding rearward of the second connection support 1330. It is preferably provided.
  • buttons 1400 in order to allow the button 1400 to be installed on the knob 1300 freely from rotation of the shaft 1100 and the knob 1300, various configurations are provided on the operation apparatus 1000.
  • the shaft connecting member 1500 connects the button 1400 to the knob 1300, but connects the knob 1300 so that rotation of the knob 1300 is not transmitted to the button 1400. Accordingly, the button 1400 is not rotated with the knob 1300 despite the rotation of the knob 1300, and can maintain the set position.
  • the other is the weight member 1550.
  • the weight member 1550 can suppress the button 1400 from being rotated by shifting the center of gravity of the button 1400 toward the side where the weight member 1550 is installed.
  • the weight member 1550 may also serve to induce the button 1400 to return to the set original position even if the rotational position of the button 1400 changes due to the rotation of the button 1400.
  • the magnetic member 1680 is provided to be able to suck the weight member 1550, so that when the button 1400 is rotated to change the position of the rotation direction of the button 1400, the position is changed together with the button 1400. It serves to pull the weight member (1550). Through this, the magnetic member 1680 may serve to induce the button 1400 to return to the set original position.
  • the magnetic member 1680, the weight member 1550 even when the lowest position by sucking the weight member 1550, it can serve to ensure that the weight member 1550 is fixed to the set position.
  • the button 1400 can be stably fixed at a set position while effectively resisting a slight shaking.
  • the rotation of the button 1400 may be more reliably suppressed.
  • a passage for coupling of the weight member 1550 and the magnetic member 1680 should be formed in the second connection support 1330.
  • the strength of the supporting structure connecting the shaft coupling portion 1310 and the skirt portion 1320 of the knob 1300 is inevitably weakened.
  • rotation of the knob 1300 is difficult to be properly transmitted to the shaft 1100, and in severe cases In the process of rotating the knob 1300, the knob 1300 may be damaged.
  • the larger the rotation range of the knob 1300 the longer the passage for coupling of the weight member 1550 and the magnetic member 1680 should be formed, so between the shaft coupling portion 1310 and the skirt portion 1320 of the knob 1300.
  • the strength of the supporting structure connecting the wires is bound to be weaker.
  • the rotation range of the knob 1300 is greater than or equal to 360°, there is no way to connect between the shaft coupling portion 1310 and the skirt portion 1320 of the knob 1300.
  • the weight member 1550 and the magnetic member 1680 so that the passage for coupling the weight member 1550 and the magnetic member 1680 to the second connection support portion 1330 need not be formed. ) Is provided through a structure that is coupled through a magnetic force.
  • a button 1400 and a knob 1300 having different operation methods are provided in one operation apparatus 1000, and It is that the control of various functions can be provided by one manipulation device 1000, and that the button 1400 provided for the pressing operation is freely provided for rotation of the knob 1300.
  • the button 1400 provided for the pressing operation and the knob 1300 provided for the rotation operation are properly combined in one operation device 1000, and the button 1400 is the knob 1300 even if the knob 1300 is rotated. ) And can maintain its original state without being rotated.
  • the manipulation apparatus 1000 of the present embodiment may provide an effect of improving the aesthetics of the cooking appliance while allowing the manipulation to use various functions of the cooking appliance to be effectively performed.
  • a button 1400 provided for a pressing operation and a knob 1300 provided for a rotating operation may be appropriately combined in one operation device 1000.
  • an operation for using various functions of the cooking appliance can be effectively performed with one operation device 1000.
  • the appearance of the 300 can be maintained in a simple form and the overall aesthetics of the cooking appliance can be improved.
  • the operation apparatus 1000 of the present embodiment is advantageous in that both the push operation and the rotation operation are possible, but the button 1400 for the push operation maintains the set angular position regardless of whether the rotation operation is performed. That is, even if the knob 1300 provided for the rotation operation is rotated, the button 1400 provided for the pressing operation is not rotated with the knob 1300 and can maintain its original state.
  • content related to the operation of the button 1400 may be displayed on the front surface of the button 1400. That is, what function is activated when the button 1400 is pressed may be displayed on the front of the button 1400.
  • buttons 1400 For example, as shown in FIG. 21, if the character “START/STOP” is displayed on the front of the button 1400, it starts a function related to this when the button 1400 is pressed and in this state, the button ( 1400) may indicate that the corresponding function is stopped.
  • this may indicate that a function related to "Frozen” is selected when the button 1400 is pressed.
  • the button 1400 is also rotated along with the knob 1300 when it is rotated, the characters displayed on the button 1400 will also rotate. In this case, the characters displayed on the button 1400 will appear to be slanted or upside down. In this case, not only the overall aesthetics of the cooking appliance is deteriorated, but also a problem in that it is difficult for the user to properly identify the contents of the text.
  • the operation device 1000 is provided with components such as the shaft connecting member 1500, the weight member 1550, and the magnetic member 1680.
  • the shaft connecting member 1500 connects the button 1400 to the knob 1300, but connects the knob 1300 so that rotation of the knob 1300 is not transmitted to the button 1400. Accordingly, the button 1400 is not rotated with the knob 1300 despite the rotation of the knob 1300, and can maintain the set position.
  • the weight member 1550 suppresses the rotation of the button 1400 by shifting the center of gravity of the button 1400 toward the side where the weight member 1550 is installed, and the position of the rotation direction of the button 1400 changes to some extent. Even if it is possible to induce the button 1400 to return to the set original position.
  • the magnetic member 1680 pulls the weight member 1550 to induce the button 1400 to return to the set original position, while the button 1400 is shaken. While effectively resisting, it can act stably in a set position.
  • the operation apparatus 1000 of the present embodiment is capable of both pressing and rotating operations, but allows the button 1400 for the pressing operation to maintain a set angular position regardless of whether or not rotation operation is performed, thereby using the overall aesthetics and use of the cooking appliance. Convenience can be effectively improved.
  • the force for pressing the button 1400 while the button 1400 for the pressing operation maintains the set angular position regardless of whether or not the rotation operation is connected to the shaft 1300 It can be effectively delivered to (1100).
  • the button 1400 is coupled to the shaft coupling portion 1310 of the knob 1300 through the shaft connecting member 1500, and the knob 1300 is shaft coupled It may be connected to the shaft 1100 through the portion 1310.
  • the shaft engaging portion 1310 of the knob 1300 is disposed on the radially central side of the knob 1300, and the button 1400 may also be coupled to the shaft central portion 1310. That is, since the center of the radial direction of the button 1400 is connected to the shaft 1100, the center of the radial direction of the button 1400 and the shaft 1100 can be disposed on the same axis.
  • the force pressing the button 1400 can act at a point forming the same axis as the shaft 1100, so that the force pressing the button 1400 can be effectively transmitted to the shaft 1100 connected to the knob 1300. do.
  • the force for rotating the knob 1300 is connected to the knob 1300 while allowing the button 1400 for pressing operation to maintain the set angular position regardless of whether or not rotation operation is performed. It can be effectively transmitted to the shaft 1100.
  • the knob 1300 may be connected to the shaft 1100 through the shaft coupling portion 1310.
  • the shaft coupling portion 1310 is disposed at the center of the radial direction of the knob 1300, and accordingly, the rotation center of the knob 1300 may be disposed on the same axis as the shaft 1100.
  • the button 1400 since the button 1400 is directly connected to the knob 1300 so as to be free from rotation of the knob 1300, another configuration for constraining the button 1400 so that the button 1400 is not rotated is manipulated. It does not need to be added to the device 1000 separately.
  • the knob 1300 is a shaft ( 1100). That is, the point at which the knob 1300 rotates is eccentrically positioned from the point at which the shaft 1100 rotates.
  • the rotation operation of the knob 1300 is not properly performed, and the shaft 1100 is distorted or damaged due to the inclined knob 1300, and the rotation operation of the knob 1300 is repeated. In this case, there is a possibility that the movement transmission member 51 is damaged.
  • the knob 1300 can be directly connected to the shaft 1100 such that the center of rotation of the knob 1300 is disposed on the same axis as the shaft 1100, and as a result, the knob 1300 is used to rotate the knob 1300. ) Can be effectively transmitted to the shaft 1100 connected.
  • the rotation operation of the knob 1300 can be smoothly and naturally, and the possibility of occurrence of distortion or breakage of the shaft 1100 can be significantly reduced.
  • FIG. 23 is a configuration diagram schematically showing a configuration of a cooking appliance according to an embodiment of the present invention
  • FIG. 24 is a diagram schematically showing a user interface of a cooking appliance according to an embodiment of the present invention.
  • 28 is a view showing an operation state of the first dial illustrated in FIG. 24.
  • 29 and 30 are views showing an operation state of the second dial in a state in which the type of the object to be cooked is selected by the first dial
  • FIGS. 31 and 32 are heating temperatures for the object to be cooked by the first dial.
  • It is a diagram showing the operation state of the second dial in the selected state.
  • FIG. 33 is a view showing an operation state of the first push button shown in FIG. 24, and FIGS. 34 and 35 are views showing an operation state of the first dial when the first push button is pressed
  • FIGS. 37 is a view showing an operation state of the second dial in a state in which the first push button is pressed.
  • the cooking appliance may include a first operation device 1000a and a second operation device 1000b.
  • the cooking appliance is exemplified as including two operating devices.
  • the present invention is not limited to this, and it may be possible that the cooking appliance is provided with one operation device or three or more operation devices.
  • the first operating device 1000a and the second operating device 1000b may be provided with the same or similar structure to the operating device illustrated through FIGS. 12 to 22, respectively. That is, the first operating device 1000a and the second operating device 1000b may each include a knob 1300 provided to be rotatable and a button 1400 provided to be pushable. Further, the button 1400 may be connected to the knob 1300 freely from rotation of the knob 1300.
  • the first manipulation device 1000a may be disposed on the door 300, more specifically, on the front door 350.
  • the first manipulation device 1000a may include a first dial 1300a and a first push button 1400a.
  • the first dial 1300a is provided to select one of two or more operating modes. That is, one of the plurality of operation modes may be selected by the operation of the first dial 1300a.
  • the first dial 1300a may be provided to select one of two or more, more preferably three or more operating modes. As an example of this, the first dial 1300a may be provided in a rotationally operable form.
  • the first dial 1300a may include a knob 1300 and a knob cover 1350. That is, the combination of the knob 1300 and the knob cover 1350 may constitute the first dial 1300a. When the knob cover 1350 is omitted, the first dial 1300a may be configured only with the knob 1300.
  • the first dial 1300a may be connected to the shaft 1100 so as to rotate with the shaft 1100.
  • the shaft 1100 provided in the first operating device 1000a will be referred to as a first shaft.
  • the first push button 1400a is provided to select one of two operation modes. That is, by operating the first push button 1400a, one of two operating modes can be selected. As an example of this, the first push button 1400a may be provided in a form capable of pressing.
  • the first push button 1400a may include a button 1400.
  • the button 1400 may be connected to the knob 1300 through the shaft connecting member 1500, so that the first push button 1400a is freely rotated to rotate the first dial 1300a. It can be connected to the dial (1300a).
  • the first push button 1400a is stably rotated with the first dial 1300a. Can be maintained.
  • the second operating device 1000b may be disposed on the front door part 350 together with the first operating device 1000a. That is, the second operating device 1000b may be disposed adjacent to the first operating device 1000a on the same surface where the first operating device 1000a is disposed.
  • the first manipulation device 1000a may include a second dial 1300b and a second push button 1400b.
  • the second dial 1300b like the first dial 1300a, is provided to select one of two or more operating modes. That is, the second dial 1300b may be provided in a form that can be rotated like the first dial 1300a.
  • the second dial 1300b may include a knob 1300 and a knob cover 1350 like the first dial 1300a. That is, the combination of the knob 1300 and the knob cover 1350 may constitute the second dial 1300b. When the knob cover 1350 is omitted, the second dial 1300b may be configured only with the knob 1300.
  • the second dial 1300b may be connected to the shaft 1100 so as to rotate together with the shaft 1100.
  • the shaft 1100 provided in the second operating device 1000b will be referred to as a second shaft.
  • the second push button 1400b is provided to select one of two operation modes, similar to the first push button 1400a. That is, the second push button 1400b may be provided in a form that can be pressed and operated similarly to the first push button 1400a.
  • the second push button 1400b may include a button 1400.
  • the second push button 1400b may be freely connected to the second dial 1300b in rotation of the second dial 1300b.
  • the second push button 1400b is stably in a state in which it is not rotated together with the second dial 1300b. Can be maintained.
  • the first operating device 1000a and the second operating device 1000b may include dials and push buttons having the same shape. That is, the first dial 1300a and the second dial 1300b have the same shape of the knob 1300 and the knob cover 1350, and the first push button 1400a and the second push button 1400b have the same shape. It may be provided with a button (1400).
  • the first operation device 1000a and the second operation device 1000b are formed in the same shape, so that the front surface of the cooking appliance can be configured with a simpler, cleaner, and more uniform appearance.
  • the first operation device 1000a may be provided in a form in which the first dial 1300a and the first push button 1400a are combined into one device.
  • the first dial 1300a is provided to be rotatable together with the first shaft, through which it can be operated to select one of three or more operating modes.
  • the first push button 1400a is provided to be moved in the axial direction along with the first shaft, through which it can be operated to select one of two operation modes.
  • the first dial 1300a is provided to be rotatable, and when the first dial 1300a is rotated, the first shaft connected thereto may be rotated. In addition, the rotation angle of the first shaft may be detected by the encoder 1200.
  • the first shaft may be rotated in units of a set rotation angle.
  • the set rotation angle may be appropriately selected according to the type of the cooking object to be selected, or the number of heating temperatures to be selected.
  • the first dial 1300a may select a type of cooking object. That is, as the first dial 1300a is rotated, it is possible to select which cooking object to cook from among various types of cooking objects.
  • the operation mode prepared for the cooking appliance is bagel, slice pizza, ham toast, toast, in total, how many units of rotation of the first dial 1300a are made? Depending on the operation mode, one of the four can be selected.
  • the operation mode related to cooking the slice pizza may be selected (see FIG. 25 ).
  • an operation mode related to toast cooking may be selected (see FIG. 26 ).
  • Each operation mode related to the type of the cooking object may include cooking information for each type of the cooking object. That is, each operation mode may include information on a heating temperature and a heating time suitable for each type of cooking object.
  • the control unit 900 provided on the first control substrate 500 may control the operation of the heating unit using the information set as described above. That is, the control unit 900 may control the operation of the heating unit such that heating of the cooking object is performed with a heating temperature and a heating time suitable for each type of cooking object according to the operation mode selected through the first dial 1300a.
  • the first dial 1300a may select a heating temperature for the cooking object. That is, as the first dial 1300a is rotated, the level at which the heating temperature for the cooking object is made may be selected.
  • the operation modes prepared for the cooking appliance are high temperature (Hihg), medium temperature (Mid), and low temperature (Low), in total, the first dial 1300a
  • Hihg high temperature
  • Mod medium temperature
  • Low low temperature
  • a high-temperature cooking-related operation mode may be selected instead of the toast-related operation mode (see FIG. 27 ).
  • an operation mode related to low temperature cooking may be selected (see FIG. 28 ).
  • each operation mode related to the heating temperature for the cooking object may include information about a preset heating temperature, respectively.
  • the control unit 900 may control the operation of the heating unit such that heating is performed according to the operation mode related to the heating temperature selected through the first dial 1300a.
  • both the operation for selecting the type of the object to be cooked and the operation for selecting the heating temperature for the object to be cooked are made possible by one first dial 1300a.
  • the rotation range of the first dial 1300a may be divided into a first rotation region R1 and a second rotation region R2 sequentially arranged along the rotation direction of the first dial 1300a.
  • the first dial 1300a may select the type of the cooking object in the first rotating area R1 and the heating temperature for the cooking object in the second rotating area R2. At this time, the first dial 1300a may select only one of a type of cooking object and a heating temperature for the cooking object.
  • an operation mode related to toast cooking that is, an operation mode related to a type of cooking object
  • the first dial 1300a as shown in FIG.
  • the rotation range in which the rotation operation for selecting the type of the cooking object is performed and the rotation operation for selecting the heating temperature for the cooking object are performed in different rotation ranges, it is applicable according to the type of operation mode the user wants to select. It is possible to operate the first dial 1300a more easily and quickly by rotating the first dial 1300a in a rotation range and then selecting a required operation mode.
  • the first operating device 1000a may further include a first lighting display unit 1800a.
  • the first lighting display unit 1800a may include a plurality of indicator lights L disposed along the rotational direction of the first dial 1300a from outside the radial direction of the first dial 1300a.
  • each indicator light L may be implemented by each light emitting member 1700 installed on the first control substrate 500.
  • the light emitting member 1700 is installed on the first control substrate 500 and may be disposed behind the socket member 1600. Light emitted from each light emitting member 1700 may be irradiated forward through the socket member 1600 through each light passing hole 1640 disposed in front of each light emitting member 1700.
  • each light emitting member 1700 may be guided by each light passing hole 1640 disposed in front of it. Accordingly, which light emitting member 1700 of the plurality of light emitting members 1700 is lit can be clearly recognized from the outside of the operation apparatus 1000.
  • a front cover member 1800 may be disposed in front of the light passing hole 1640.
  • the front cover member 1800 may be formed of a semi-transmissive material having a metal texture.
  • the front cover member 1800, the socket member 1600, a hole formed therein, and a light passing member 1640, and the light emitting member 1700 to cover the role of not being exposed to the outside, the light emitting member 1700 It can provide a function to make the light emitted by the light spread softly.
  • the indicator light L may be implemented by a combination of the light emitting member 1700 and the light passing hole 1640 and the front cover member 1800 as described above.
  • the plurality of indicator lights L provided in the first lighting display unit 1800a are provided in a number corresponding to the number of the plurality of light emitting members 1700, and are positioned at positions corresponding to the positions of the plurality of light emitting members 1700. It may be provided.
  • the first lighting display unit 1800a may display a rotation state of the first dial 1300a. At least one indicator light L may be disposed for each set rotation angle unit of the first dial 1300a in the first lighting display unit 1800a.
  • the first dial 1300a may be rotated in units of a set rotation angle, for example, 30°.
  • indicator lights L may be disposed at each set position, which is a position rotated by a set rotation angle from the starting point of the rotation range of the first dial 1300a.
  • at least one indicator light L may be disposed at each position rotated by 30° from the starting point of the rotation range of the first dial 1300a, respectively, in the first indicator 1800a.
  • the rotation angle of the first dial 1300a varies by a multiple of the set rotation angle, that is, the operation mode selected according to the rotation changes.
  • Different indicators L may be lit whenever possible.
  • a first guide display unit 1850a may be provided around the first operating device 1000a and the first lighting display unit 1800a.
  • the first guide display unit 1850a may be disposed outside the radial direction of the first manipulation device 1000a and the first lighting display unit 1800a.
  • the first guide display unit 1850a may display which operation mode L is disposed in the first lighting display unit 1800a.
  • first guide display unit 1850a symbols or characters related to the operation mode may be displayed. And each of these symbols, letters, etc. are disposed outside the radial direction of the indicator (L) associated therewith, may be disposed on the same or similar rotational position.
  • a sign indicating a bagel may be displayed on the outside of the light L disposed at the starting point of the rotational range of the first dial 1300a, and the light L placed at another point around it Outside, a symbol indicative of a piece pizza may be displayed.
  • characters marked as low may be displayed on the outside of the indicator light L disposed at the end point of the rotation range of the first dial 1300a.
  • the user when the indicator L adjacent to the symbol displaying the bagel is lit, the user can easily recognize that the bagel cooking-related operation mode is selected through the rotation operation of the first dial 1300a.
  • the indicator L adjacent to the character marked as low when the indicator L adjacent to the character marked as low is lit, the user can easily recognize that the low-temperature cooking-related operation mode is selected through the rotation operation of the first dial 1300a.
  • the first lighting display unit 1800a may further be provided with an indicator for displaying whether or not other functions that are not directly related to the cooking function are activated.
  • an indicator for indicating whether a configuration related to a communication function such as Wi-Fi or the like is activated may be added to the first lighting display unit 1800a.
  • letters or symbols related to the configuration may be further displayed on the first guide display unit 1850a.
  • the cooking appliance of the present embodiment may further include a first mood lighting unit 1800c.
  • the first mood lighting unit 1800c may provide illumination that illuminates the surroundings of the first dial 1300a.
  • the first mood lighting unit 1800c may include a plurality of light emitting members 1750 disposed along the rotational direction of the first dial 1300a from the rear of the first dial 1300a.
  • each light emitting member 1750 constituting the first mood lighting unit 1800c is installed on the first control substrate 500 and may be disposed behind the socket member 1600.
  • the light-emitting member 1750 may be disposed inside the radial direction than the light-emitting member 1700 constituting the first lighting display unit 1800a.
  • each light emitting member 1750 passes through the socket member 1600 through a passage formed in the socket member 1600 to be radiated to the rear of the knob 1300, that is, to the rear of the first dial 1300a. Can.
  • the passage may be formed in a form penetrating the first connection support 1630. More specifically, the passage may be a hole formed between a plurality of rib-shaped portions 1633 arranged radially and spaced apart from each other.
  • the first mood lighting unit 1800c provided as described above may provide indirect illumination that illuminates the rear of the first dial 1300a without being directly irradiated to the front of the cooking appliance.
  • the first mood lighting unit 1800c may provide a welcome lighting indicating that the operation of the operation device is possible in a standby state of operation of the cooking appliance.
  • the first mood lighting unit 1800c may provide mood lighting that can improve the aesthetics of the manipulation device, and may also provide lighting that enables manipulation of the manipulation device even in a dark place.
  • the second operation device 1000b may be provided in a form in which the second dial 1300b and the second push button 1400b are combined into one device.
  • the second dial 1300b is provided to be rotatable together with the second shaft, through which it can be operated to select one of three or more operating modes.
  • the second push button 1400b is provided to be moved in the axial direction along with the first shaft, through which it can be operated to select one of two operation modes.
  • the second dial 1300b is provided to be rotatable, and when the second dial 1300b is rotated, the second shaft connected thereto may be rotated together. Also, the rotation angle of the second shaft may be detected by the encoder 1200.
  • the second shaft may be rotated in units of a set rotation angle.
  • the set rotation angle can be appropriately selected in accordance with the number of the heating level or the type of heating time to be selected.
  • the second dial 1300b may select a heating level for the cooking object or a heating time for the cooking object. That is, as the second dial 1300b is rotated, one of various types of heating level-related operation modes or heating time-related operation modes may be selected.
  • the operation modes prepared for the cooking appliance are first stage, second stage, third stage, fourth stage, fifth stage, total five
  • second One of five operation modes may be selected depending on how many units the dial 1300b is rotated.
  • the heating level for the cooking object increases, that is, the operation mode for ripening the cooking object as it goes from the first step to the fifth step.
  • the third step-related operation mode may be selected (see FIG. 29).
  • the operation mode related to the fifth step may be selected (see FIG. 30 ).
  • Each operating mode related to the heating level of the cooking object may include cooking information for each type of cooking object. That is, each operation mode may include information on a heating temperature and a heating time suitable for each type of cooking object.
  • the control unit 900 provided on the first control substrate 500 may control the operation of the heating unit using the information set as described above. That is, the control unit 900 may control the operation of the heating unit such that heating of the cooking object is performed with a heating temperature and a heating time suitable for each type of cooking object according to the operation mode selected through the second dial 1300b.
  • the second dial 1300b may select a heating time for the cooking object. That is, as the second dial 1300b is rotated, the heating time for the cooking object may be directly selected.
  • the second dial 1300b when the second dial 1300b is rotated by one unit in a state in which the operation mode related to the fifth step is selected, the second dial 1300b may directly select a heating time for the cooking object (FIG. 31). Reference). In this state, when the rotation of the second dial 1300b is further performed, the second dial 1300b may select an increased heating time than before (see FIG. 32 ).
  • Each operation mode related to the heating time may include information about the heating time, respectively.
  • the control unit 900 provided on the first control substrate 500 may control the operation of the heating unit using the information set as described above. That is, the control unit 900 may control the operation of the heating unit such that heating is performed during the heating time selected through the second dial 1300b.
  • both the operation for selecting the heating level for the cooking object and the operation for selecting the heating time for the cooking object are made possible by one second dial 1300b.
  • the rotation range of the second dial 1300b may be divided into a third rotation region R3 and a fourth rotation region R4 sequentially arranged along the rotation direction of the second dial 1300b.
  • the second dial 1300b may select a heating level for the cooking object in the third rotating area R3 and a heating time for the cooking object in the fourth rotating area R4. At this time, the second dial 1300b may select only one of a heating level for the cooking object and a heating time for the cooking object.
  • the fifth step-related operation mode that is, the operation mode related to the heating level for the cooking object
  • the second dial as shown in FIG.
  • the second operation device 1000b may further include a second lighting display unit 1800b.
  • the second lighting display unit 1800b may include a plurality of indicator lights L disposed along the rotational direction of the first dial 1300a from outside the radial direction of the second dial 1300b.
  • the configuration of the indicator lights L is the same as or similar to the indicator light L of the first lighting display unit 1800a, so a detailed description thereof will be omitted.
  • the second lighting display unit 1800b may display a rotation state of the second dial 1300b. At least one indicator light L may be disposed for each set rotation angle unit of the second dial 1300b in the second indicator 1800b.
  • the second dial 1300b may be rotated in units of a set rotation angle, for example, 10°.
  • indicator lights L may be disposed at each set position, which is a position rotated by a set rotation angle from the starting point of the rotation range of the second dial 1300b.
  • at least one indicator light L may be disposed at positions rotated by 10° from the starting point of the rotation range of the second dial 1300b, respectively, in the second lighting display unit 1800b.
  • the rotation angle of the second dial 1300b is changed by a multiple of the set rotation angle, that is, the operation mode selected according to the rotation changes.
  • Different indicators L may be lit whenever possible.
  • a second guide display unit 1850b may be provided around the second operating device 1000b and the second lighting display unit 1800b.
  • the second guide display unit 1850b may be disposed outside the radial direction of the second operating device 1000b and the second lighting display unit 1800b.
  • the second guide display unit 1850b may indicate which operation mode the indicator light L is disposed on the second lighting display unit 1800b.
  • symbols or characters related to the operation mode may be displayed. And each of these symbols, letters, etc. are disposed outside the radial direction of the indicator (L) associated therewith, may be disposed on the same or similar rotational position.
  • a sign indicating the heating level of the first stage may be displayed on the outside of the light L disposed at the starting point of the rotation range of the second dial 1300b, and disposed at other points around it.
  • a symbol indicating the heating level of another stage may be displayed on the outside of the indicator light L.
  • a number indicating the time may be displayed on the outside of the indicator L disposed at the end point of the rotation range of the second dial 1300b.
  • the user when the indicator L adjacent to the symbol indicating the heating level of the first stage is lit, the user can easily recognize that the first stage heating level is selected through the rotation operation of the second dial 1300b. have. In addition, when the indicator L adjacent to the number marked 5 is lit, the user can easily recognize that the heating time is selected as 5 minutes through the rotation operation of the second dial 1300b.
  • the second push button 1400b may select whether to operate the cooking appliance.
  • the second push button 1400b is exemplified as selecting whether to operate the heating units 400 and 600.
  • a state in which the first dial 1300a, the first push button 1400a, and the second dial 1300b can be operated can be maintained.
  • the operation of the heating units 400 and 600 and other components related thereto may be started.
  • the operation mode selection related to the first dial 1300a, the first push button 1400a, and the second dial 1300b is not performed. Can. In this case, only the operation of the cooking appliance can be stopped through the operation of the second push button 1400b.
  • the cooking appliance of the present embodiment may further include a second mood lighting unit 1800d.
  • the second mood lighting unit 1800d may provide illumination that illuminates the surroundings of the second dial 1300b.
  • the second mood lighting unit 1800d may include a plurality of light emitting members 1750 disposed along the rotational direction of the second dial 1300b from the rear of the second dial 1300b. Since the specific configuration of the second mood lighting unit 1800d is the same or similar to that of the first mood lighting unit 1800c, detailed description thereof will be omitted.
  • the first push button 1400a may be provided in a form of a push operation, and when the first push button 1400a is pressed, the first shaft connected thereto may move in the axial direction, more specifically, rearward. In addition, the movement of the first shaft may be detected by the encoder 1200.
  • the first push button 1400a may select a state of a cooking object. As an example, the first push button 1400a may select whether or not the cooking object is frozen.
  • the heating temperature may be higher or the cooking time may be longer.
  • the first push button 1400a may serve to provide information on whether or not the cooking object is in a frozen state.
  • the present invention is not limited to this, and the first push button 1400a may be provided to perform various other functions according to needs, such as may be provided to select whether the cooking object is in a dry state or not.
  • the first push button 1400a will be described as an example of selecting whether or not the cooking object is frozen.
  • the first dial 1300a when the cooking object is selected to be frozen by the operation of the first push button 1400a, the first dial 1300a can select only the type of the cooking object. In this case, the first dial 1300a can select only the type of cooking object, and cannot select the heating temperature.
  • the operation mode related to the heating temperature cannot be selected even if the first dial 1300a is rotated beyond the first rotation region R1 to the second rotation region R2.
  • each operation mode related to the heating temperature only contents irrespective of the state of the cooking object are set. That is, in each operation mode related to the heating temperature, only the heating temperature is set irrespective of the state of the object to be cooked and the type of food.
  • the heating temperature and the heating time suitable for the cooking are set according to the type of the object to be cooked.
  • the cooking appliance when the operation mode related to bagel cooking is selected, the cooking appliance operates the first heating unit 400 and the second heating unit 600 so that cooking can be performed at a heating temperature and a heating time suitable for bagel cooking. Control can be made.
  • a heating temperature and a heating time suitable for the object may be set differently depending on the state of the object to be cooked.
  • heating temperatures and heating times suitable for bagel cooking in a frozen state and heating temperatures and heating times suitable for bagel cooking in a frozen state may be set differently.
  • operation control for the first heating unit 400 and the second heating unit 600 may be performed so that cooking can be performed at a heating temperature and a heating time suitable for cooking bagels in a frozen state.
  • each of the operating modes that can be selected in the first rotation region R1 that is, each of the operating modes related to the type of the cooking object, includes two setting information set differently based on the state of the cooking object.
  • the 1 push button 1400a may perform a function of selecting one of these two pieces of setting information.
  • the first push button 1400a is only related to the operation modes related to the type of the object to be cooked and is less related to the operation modes related to the heating temperature, cooking is performed by operating the first push button 1400a.
  • the object is selected to be frozen, there is no need to select an operating mode related to the heating temperature.
  • the first push button 1400a when the first push button 1400a is pressed, the first dial 1300a is rotated to the second rotational region R2 beyond the first rotational region R1.
  • the relevant operating mode cannot be selected.
  • the first dial 1300a is rotated to the second rotation region R2 beyond the first rotation region R1.
  • the indicator L arranged in the rotation region R2 does not light up.
  • the state in which the indicator L disposed at the end point of the first rotation region R1 remains lit in the first lighting display unit 1800a. Can be maintained.
  • the cooking appliance of this embodiment not only can effectively prevent the cooking appliance from malfunctioning due to unnecessary manipulation or misoperation, but also provides an effect that allows the user to operate the cooking appliance more easily and conveniently.
  • the number of indicator lights L arranged for each set position in the first rotation region R1 and the number of indicator lights L arranged for each set position in the second rotation region R2 The number may be different. That is, the number of indicator lights L arranged for each set position may be different for each rotation area.
  • the number of indicators L for each setting position in the first rotational region R1 is greater than the number of indicators L for each setting position in the second rotational region R2. do.
  • the first rotational region R1 three indicators L may be arranged for each setting position, whereas in the second rotational region R2, one indicator for each setting position L ) May be disposed.
  • the number of indicator lights L lit at each set position may be changed according to the selection state of the first push button 1400a. For example, when the first push button 1400a is not pressed, each of the indicator lights L may be lit when the first dial 1300a is rotated (see FIGS. 25 to 28 ). ). On the other hand, in the state in which the first push button 1400a is pressed, three indicator lights L may be lit when the first dial 1300a is rotated (see FIGS. 34 to 35 ). .
  • the selection state of the first push button 1400a can be clearly identified according to how many indicators L are lit at a time.
  • an operation mode that can be selected in the second operation apparatus 1000b may be changed according to which operation mode is selected in the first operation apparatus 1000a.
  • the second dial 1300b is in a state where only the heating level for the cooking object is selectable.
  • the second dial 1300b is the heating level for the cooking object. Only can be selected, and the heating time for the cooking object cannot be directly selected.
  • each operation mode related to the heating time only contents irrespective of what kind of cooking object is set. That is, in each operation mode related to the heating time, only the heating time is simply set irrespective of the type of the cooking object.
  • the heating temperature and the heating time suitable for the cooking are set according to the type of the object to be cooked. That is, in each operation mode related to the type of the cooking object, a heating time suitable for the cooking is already set according to the type of the cooking object.
  • a heating temperature and a heating time suitable for each cooking level selectable by the user are set.
  • the operation mode related to the type of cooking object is selected in the first dial 1300a, it is not necessary to separately select the heating time. In this case, it is sufficient if only the heating level for the object to be cooked is selected through the second dial 1300b, that is, how much is cooked in a cooked state.
  • the operation mode related to the type of cooking object when the operation mode related to the type of cooking object is selected in the first dial 1300a, the second dial 1300b crosses the third rotation region R3 and the fourth rotation region R4. ), the operation mode related to the heating time cannot be selected.
  • the second dial 1300b crosses the third rotation region R3 and the fourth rotation region ( Even if it is rotated to R4), the indicator L arranged in the fourth rotation region R4 does not light up.
  • the state in which the indicator L disposed at the end point of the third rotation area R3 remains lit in the second lighting display unit 1800b. Can be maintained.
  • the second dial 1300b is in a state where only the heating time can be selected.
  • the second dial 1300b may directly select a heating time for the cooking object (see FIGS. 27 and 28 ). .
  • the indicator light L disposed in the third rotation region R3 is not lit, and the fourth rotation Only the indicator L arranged in the region R4 can be lit.
  • any one of the indicator lights L of the second lighting display unit 1800b may be turned on in conjunction with this. Accordingly, when the user selects the heating temperature through the first dial 1300a, the user can intuitively know that the heating time can be selected through the second dial 1300b.
  • the second lighting indicator 1800b displays the indicator light L disposed in the third rotating area R3. May not be lit. In this case, the state in which the indicator L arranged at the starting point of the fourth rotation region R4 is lit can be continuously maintained.
  • the first push button 1400a when the first push button 1400a is pressed, that is, when the cooking object is selected as being frozen in the first push button 1400a, the first dial 1300a is the cooking object You can only choose the type of.
  • the lighting of the indicator L is made only in the first rotation region R1, and the first push button 1400a is pressed through the number of indicators L that are simultaneously lit when the first dial 1300a is rotated. It may be indicated that the loss, that is, the cooking object is selected to be frozen.
  • the first dial 1300a can select only the type of cooking object, and thus the second dial 1300b is in a state where only the heating level for the cooking object can be selected.
  • the second dial 1300b may select only what heating level to cook the frozen toast.
  • the second dial 1300b can select whether to toast the frozen toast slightly or to a moderate level, or to the frozen toast. It is not possible to directly select the heating time.
  • the cooking appliance of this embodiment can effectively prevent the cooking appliance from malfunctioning due to unnecessary manipulation or misoperation, and can provide an effect that allows the user to operate the cooking appliance more easily and conveniently. .
  • FIG. 38 is a perspective view showing a tray according to an embodiment of the present invention
  • FIG. 39 is a cross-sectional view schematically showing a coupling structure between the tray and the protrusion shown in FIG. 38.
  • a tray 200 is disposed in the cooking chamber 105 formed inside the housing 100.
  • the tray 200 may be installed to be movable in the front-rear direction in connection with the opening/closing operation of the door 300, and the front-rear-direction movement of the tray 200 may be induced by the hinge assembly 800.
  • the tray 200 may include a tray body 205 and a mounting portion 210.
  • the tray body 205 has a bottom surface formed in a shape corresponding to the bottom surface 110 of the housing 100.
  • the tray body 205 is exemplified as being formed in a box shape in which the upper part is opened and flat in the vertical direction.
  • the bottom surface of the tray body 205 is formed in a shape corresponding to the bottom surface 110 of the housing 100, for example, a square plate shape, and the four sides of the tray 200 are respectively from the bottom edge of the tray 200. It is formed in a shape extending upwards.
  • a mounting portion 210 is provided on a pair of side surfaces facing both side surfaces in the left and right directions of the housing 100, respectively.
  • the mounting portion 210 extends downward from the outer end of the first protrusion 211 and the first protrusion 211 protruding outward from the tray body 205 from the upper side of the tray body 205. It may be made to include a second projection (213).
  • the mounting portion 210 may be formed in a form in which the first protrusion 211 and the second protrusion 213 are connected in a “a” shape.
  • the hinge assembly 800 is interlocked with the rotation of the door 300 when the door is opened, and draws the tray 200 forward from the inside of the cooking chamber 105.
  • the hinge assembly 800 may be interlocked with the rotation of the door 300 when the door is closed, and the tray 200 may be inserted rearward toward the inside of the cooking compartment 105.
  • These hinge assemblies 800 are respectively installed on both sides in the left and right directions of the housing 100 so as to be disposed on both sides in the left and right directions of the tray 200, and each hinge assembly 800 is provided with a hinge portion 810 and a mounting protrusion. 820.
  • the hinge portion 810 is provided to be hinged with the rear side of the upper door portion 310.
  • the hinge portion 810 may be changed in state in connection with the rotation of the door 300.
  • the mounting protrusion 820 is connected to one of the connecting members of the hinge part 810 inside the hinge case 830, and is formed in the first slot 835 and the housing 100 formed on the hinge case 830. It protrudes into the cooking chamber 105 through the second slot 125.
  • the second slot 125 is formed on the side surface of the housing 100 and may be formed in a position and shape overlapping with the first slot 835.
  • the tray 200 may be mounted on the mounting protrusion 820. Specifically, the tray 200 may be mounted on the mounting projection 820 by fitting the mounting projection 820 into the mounting groove 215 formed on the side of the tray 200.
  • the mounting grooves 215 are formed on the mounting portions 210 provided on both sides of the tray 200, respectively.
  • the mounting groove 215 may be formed in a form in which the mounting portion 210, more specifically, the second protrusion 213 is cut from the bottom.
  • the mounting groove 215 may be fitted with a mounting protrusion 820 through an incised lower portion of the mounting groove 215, and the tray 200 and the mounting groove 215 and the mounting protrusion 820 may be fitted to each other.
  • the fitting between the protrusions 820 may be made.
  • a sliding surface 214 may be formed at a lower end of the mounting portion 210, more specifically, the second projection portion 213.
  • the sliding surface 214 is provided so that the mounting protrusion 820 contacting the lower end of the second protrusion 213 can slide.
  • the sliding surface 214 may extend in the front-rear direction and be connected to the mounting groove 215.
  • the user may perform cooking using a cooking appliance while the tray 200 is installed inside the cooking compartment 105, and the tray 200 may be used to take out cooked food or wash the tray 200. It can also be taken out of the cooking chamber 105.
  • the tray 200 When the tray 200 is taken out of the cooking chamber 105, the tray 200 is slightly lifted upward so that the mounting protrusion 820 can be pulled out of the mounting groove 215 and then taken out.
  • the mounting groove 215 is located in the lower portion of the tray 200 and the mounting projection 820 is covered by the tray 200, the user accurately grasps the positions of the mounting groove 215 and the mounting projection 820. It is difficult to do.
  • the sliding surface 214 is formed to extend in the front-rear direction at the lower end of the second protrusion 213, and the sliding surface 214 is connected to the mounting groove 215.
  • the tray 200 may be moved in the front-rear direction.
  • the mounting protrusion 820 may be fitted into the mounting groove 215 while sliding on the sliding surface 820 due to the tray 200 moving in the front-rear direction.
  • the fitting structure between the mounting groove 215 and the mounting protrusion 820 is only an example, and there may be various other modified embodiments.
  • FIG. 40 is a cross-sectional view schematically showing another example of the coupling structure between the tray and the protrusion shown in FIG. 39
  • FIG. 41 is a view showing a process of coupling between the tray and the protrusion shown in FIG. 40.
  • FIG. 42 is a cross-sectional view schematically showing another example of the coupling structure between the tray and the protrusion shown in FIG. 39
  • FIG. 43 is a view showing a process of coupling between the tray and the protrusion shown in FIG.
  • an inclined surface 215a is provided between the mounting groove 215 and the sliding surface 214.
  • the inclined surface 215a is formed on a path in which the mounting protrusion 820 sliding in contact with the sliding surface 214 is inserted into the mounting groove 215, as shown in FIG. 41. Can guide movement.
  • the inclined surface 215a may be disposed on the rear side of the mounting groove 215. This is when the user pushes the tray 200 into the inside of the cooking compartment 105 to install the inside of the cooking compartment 105, rather than the position where the fitting engagement between the mounting groove 215 and the mounting protrusion 820 is made, the tray 200 ) Is the result of the design considering many cases of putting it deeper.
  • the tray 200 When the inclined surface 215a is formed on the rear side of the mounting groove 215 as described above, the tray 200 is inserted into the tray less deeply than the position where the fitting engagement between the mounting groove 215 and the mounting projection 820 is made. When the 200 is mounted on the mounting projection 820, the fitting coupling between the mounting groove 215 and the mounting projection 820 can be guided smoothly and stably.
  • the second protrusion 213 is further provided with a fitting groove 215b.
  • the fitting groove 215b is formed in a form in which a portion of the second protruding portion 213 is cut, and may be formed in a groove shape recessed in the front-rear direction.
  • the fitting groove 215b is formed to be connected to the mounting groove 215, and may be formed in a concave recessed shape in the front-rear direction from the top of the mounting groove 215.
  • the fitting groove 215b may be disposed on the front side of the mounting groove 215. According to this, when the mounting projection 820 is fitted in the mounting groove 215, as shown in FIG. 43, when the user further pushes the tray 200 toward the inside of the cooking chamber 105 toward the rear side, the mounting groove The mounting protrusion 820 fitted in the 215 can be fitted into the fitting groove 215b extending forward of the mounting groove 215.
  • the mounting protrusion 820 may be moved in the front-rear direction in connection with a change in the state of the hinge portion 810.
  • the mounting protrusion 820 may move the tray 200 mounted on the mounting protrusion 820 in the front-rear direction. That is, the tray 200 mounted on the mounting protrusion 820 may be moved in the front-rear direction in conjunction with the front-rear movement of the mounting protrusion 820.
  • FIG. 44 is a perspective view showing a door closed state of a cooking appliance according to an embodiment of the present invention
  • FIG. 45 is a cross-sectional view along the line “XXXXV-XXXV” in FIG. 44
  • FIG. 46 is “XXXXVI-XXXXVI in FIG. 44 It is a section along the line.
  • FIG. 47 is a perspective view showing an open state of the cooking appliance shown in FIG. 44
  • FIG. 48 is a cross-sectional view taken along the line "XXXXVIII-XXXXVIII” in FIG. 47
  • FIG. 49 is a line "XXXIX-XXXXIX” in FIG. It is a cross section according to.
  • the tray 200 when the door 300 is in a state where the cooking chamber 105 is closed, the tray 200 is inserted into the cooking chamber 105.
  • the mounting projection 820 on which the tray 200 is mounted is disposed at a position biased to the rear side of the cooking chamber 105.
  • the rear side of the tray 200 may be supported by a pair of mounting protrusions 820. And the front side of the tray 200 may be supported by a pair of support rollers 115.
  • the tray 200 can be stably supported by a pair of mounting protrusions 820 disposed on the rear side and a pair of support rollers 215 disposed on the front side, and can be moved in the front-rear direction to the cooking chamber It can be installed in 105.
  • the support rollers 115 are disposed on both sides 120 and 130 of the housing 100, respectively, and may be disposed on the front side of the housing 100 adjacent to the door 300, respectively.
  • a mounting portion 210 of the tray 200 more specifically, a sliding surface 214 (see FIG. 38) may be seated.
  • the support roller 115 may support the tray 200 so that the tray 200 can move smoothly by rotating according to the movement of the tray 200.
  • the door 300 is rotatably installed in the housing 100 via the hinge assembly 800, and can be rotated in the vertical direction to open or close the cooking compartment 105.
  • the hinge assembly 800 is disposed on both sides of the housing 100, and the rear side of the door top surface 310 is rotatably coupled to the hinge assembly 800, respectively.
  • the rear left corner and the right corner portion of the upper door part 310 are rotatably coupled to the hinge assemblies 800 disposed on both sides of the housing 100, respectively.
  • the door 300 is rotated in the vertical direction around the rear side of the door upper surface 310 rotatably coupled to the hinge assembly 800 to open and close the upper and front surfaces of the housing 100.
  • the hinge assembly 800 may include a hinge case 830, a hinge part 810, a mounting protrusion 820, and a conversion output part 840.
  • the hinge case 830 forms an external appearance of the hinge assembly 800, and accommodates a part of the hinge part 810, a mounting protrusion 820, and a conversion output part 840 therein.
  • various structures for supporting the hinge part 810, the mounting protrusion 820, and the conversion output part 840 may be formed.
  • the hinge part 810 is installed in the hinge case 830 so that position change is possible.
  • the hinge portion 810 may be installed in the hinge case 830 to be rotated along the trajectory corresponding to the rotation trajectory of the door 300.
  • the upper end of the hinge portion 810 may be combined with the door 300.
  • the hinge portion 810 coupled with the door 300 may change its posture by being interlocked with the rotation of the door 300.
  • the door 300 coupled to the hinge portion 810, the rotational trajectory and range can be guided by the hinge portion 810.
  • the hinge portion 810 is provided in a flat plate shape, and may be formed in a curved shape along a shape corresponding to the rotational orbit of the door 300.
  • the hinge case 830 may be provided with a guide hole 831 formed in a shape corresponding to the rotational orbit of the door 300.
  • the guide hole 831 may be formed to penetrate through the hinge case 830 in the left-right direction.
  • the guide hole 831 formed as described above may provide a passage on the hinge case 830 for guiding the rotation path of the hinge part 830.
  • the guide hole 831 may be provided to form a passage that rises toward the front and descends toward the rear.
  • the stopper 811 may be provided in the hinge part 810.
  • the stopper 811 is provided to protrude on the hinge portion 810, it may be provided to protrude in the left and right direction.
  • the stopper 811 is inserted into the guide hole 831 and can move along a passage formed by the guide hole 831. That is, the stopper 811 can guide the rotation of the hinge part 810 while moving along the guide hole 831.
  • the stopper 811, the front and upper ends of the guide hole 831 may interfere with the hinge case 830 and restrain further movement of the hinge portion 810 moving forward and upward, and guide hole ( At the rear and lower ends of 831, further movement of the hinge portion 810 that interferes with the hinge case 830 and moves to the rear and bottom can be restrained. That is, the stopper 811 may limit the movement range of the hinge portion 810 to a range corresponding to the formation range of the guide hole 831.
  • the mounting protrusion 820 is connected to any one of the components constituting the conversion output unit 840 inside the hinge case 830, and the first slot 835 and the housing 100 formed on the hinge case 830 ) Protrudes into the cooking chamber 105 through the second slot 125 formed.
  • the second slot 125 is formed on the side surface of the housing 100 and may be formed in a position and shape overlapping with the first slot 835.
  • the conversion output unit 840 is provided inside the hinge case 830.
  • the conversion output unit 840 may convert the force input by the posture change of the hinge unit 810 into a force in a linear direction for moving the mounting protrusion 820 in the front-rear direction.
  • the conversion output unit 840 may include a moving member and a conversion member.
  • the moving member corresponds to a configuration for moving the mounting protrusion 820 in the front-rear direction.
  • the conversion member corresponds to a configuration in which posture changes of the hinge part 810 are interlocked with movement of the hinge part 810 and the moving member is moved forward and backward.
  • the conversion output unit 840 may include a belt 841, a plurality of rotating gears 842, 843, 844, 845, and a rack gear 846.
  • the belt 841 and the plurality of rotating gears 842, 843, 844, and 845 are exemplified as corresponding to the conversion member.
  • the rack gear 846 is exemplified as being a moving member.
  • the belt 841 is provided in the form of an open timing belt in which gears are formed on at least one of the upper and lower surfaces.
  • the belt 841 while the upper and lower positions are constrained by the first guide drib 832 provided to protrude on the inner surface of the hinge case 830, the movement path in the front-rear direction can be guided.
  • the rear end of the belt 841 may be connected to the hinge portion 810.
  • the belt 841 may be moved in the front-rear direction in connection with a change in the posture of the hinge portion 810. For example, when the hinge portion 810 moves forward and upward, the belt 841 can be moved forward by being interlocked therewith. In addition, when the hinge portion 810 moves to the rear and the lower portion, the belt 841 can be moved backward by being interlocked therewith.
  • the gear formed on the belt 841 may engage a plurality of rotating gears 842, 843, 844, 845.
  • the first rotating gear 842 is disposed closest to the belt 841 among the plurality of rotating gears 842,843,844,845.
  • the first rotating gear 842 is exemplified to include a timing gear.
  • the first rotating gear 841 may be rotated in engagement with the movement of the belt 841 in engagement with the belt 842.
  • the second rotating gear 843 and the third rotating gear 844 are disposed between the first rotating gear 842 and the fourth rotating gear 845 to rotate the first rotating gear 842 as a fourth rotating gear. (845).
  • the movement of the belt 841 is made by being linked to the posture change of the hinge part 810, and the rotation of the plurality of rotating gears 842,843,844,845 is made by being linked to the movement of the belt 841, which in turn results in the hinge part 810 It can be said that the posture change of) causes the rotation of the fourth rotating gear 845.
  • the fourth rotating gear 845 rotated as described above may be engaged with the rack gear 846 disposed thereunder.
  • the rack gear 846 may be moved in the front-rear direction in connection with the rotation of the fourth rotating gear 845.
  • the rack gear 846 can be linked to it and move forward (FIG. 49) Reference).
  • the hinge portion 810 is moved to the rear and the bottom, and thus the fourth rotating gear 845 is rotated in the second direction, which is the reverse direction of the first direction, the rack gear 846 is interlocked with it and can move backward. Yes (see Figure 46).
  • the rack gear 846, the mounting projection 820 is coupled. Accordingly, the mounting protrusion 820 may move in the front-rear direction while being linked to the movement of the rack gear 846. For example, when the rack gear 846 moves forward, the mounting projection 820 may move forward accordingly, and when the rack gear 846 moves backward, the mounting projection 820 may also move backward.
  • the hinge assembly 800 having the above-described configuration, the components constituting the hinge assembly 800, that is, the state of the hinge unit 810 and the conversion output unit 840 to the rotation of the door 300
  • the interlocked and changed states are provided to move the mounting protrusion 820 in the front-rear direction.
  • the tray 200 may be moved forward by the mounting protrusion 820 moving forward as described above, and then drawn out of the cooking chamber 105.
  • the tray 200 is automatically withdrawn, and accordingly, the user can easily and safely place the food to be cooked on the tray 200 or when the cooking is completed, the food placed on the tray 200 is placed in the tray 200. It may be taken out from, or the tray 200 drawn forward may be easily taken out from the inside of the cooking compartment 105 and moved.
  • the cooking appliance of this embodiment is provided so that the door 300 can open both the front and the top surfaces of the cooking chamber 105. Accordingly, the user inserts food or the tray 200 into the cooking compartment 105 through the extended passageway, or from the cooking compartment 105, compared to the case where the door 300 opens only the front surface or only the upper surface of the cooking compartment 105. You can withdraw.
  • the cooking appliance of the present embodiment can provide an extended passageway so that the user can easily and conveniently insert food or tray 200 into the cooking compartment 105 or withdraw from the cooking compartment 105.
  • the tray 200 can be automatically withdrawn to provide a function to make the withdrawal of food or tray 200 easier and more convenient.
  • the cooking appliance of the present embodiment also provides a function in which the tray 200 is automatically inserted into the cooking compartment 105 when the door 300 is closed as long as the tray 200 is mounted on the mounting protrusion 820. can do.
  • This function when the tray 200 is taken out while cooking is being performed and then is to be put into the cooking chamber 105 again, there is no need to put a hand inside the cooking chamber 105 full of heat, thereby convenience and safety of the cooking appliance It can contribute to improve.
  • the center of gravity of the cooking appliance since the door 300 is rotated in the upper direction without being opened forward, it is less likely that the center of gravity of the cooking appliance will be tilted forward even when the door 300 is opened. Rather, when the door 300 is opened, the center of gravity of the door 300 moves rearward than when the door 300 is closed.
  • the thicker and thicker the tray 200 is, the higher the cooking performance is, and the warmer the easier it is to maintain the warmth for a long time. Therefore, as the tray 200 becomes thicker and heavier, the improved cooking performance can be expected.
  • the tray 200 usable in an environment heated by an induction heating unit generally has a greater weight than a conventional tray. Therefore, when a tray 200 that is much thicker and heavier than a conventional tray can be used, it is possible to provide a tray 200 suitable for the case where the second heating unit 600 is provided in the form of an induction heating unit.
  • the tray 200 may be pulled forward when the door 300 is opened.
  • the tray 200 may be provided in a much thicker and heavier form than the conventional tray in order to improve high-temperature cooking performance and warming performance.
  • the cooking appliance of the present embodiment includes various types of configurations for preventing the cooking appliance from being conducted forward when the door 300 is opened.
  • 50 is a view showing a state of change of the center of gravity in the open state of the cooking appliance.
  • the hinge portions 810 are disposed on both side 130 sides of the housing 100, and are respectively disposed on sides adjacent to the rear surface 140 of the housing 100. That is, the hinge portions 810 are disposed at both rear sides of the housing 100, respectively.
  • the hinge portion 810 is coupled to the door 300, it is coupled to the rear side of the door top surface 310. That is, the hinge portions 810 are respectively coupled to the rear sides of the upper door portion 310, and the door 300 is vertically centered around the rear side of the upper door portion 310 combined with the hinge portion 810 as described above. While rotating, the cooking chamber 105 can be opened or closed.
  • the door 300 When the door 300 is in a state in which the front and top surfaces of the housing 100 are opened (hereinafter referred to as an "open state"), the front and top surfaces of the housing 100 are closed (hereinafter referred to as a “closed state”). ), it can be rotated around the rear side of the door upper surface portion 310, so as to be positioned at the rear.
  • the door 300 is rotated around the rear side of the door top surface 310, so that its position may be biased toward the rear when it is open than when it is closed.
  • the center of gravity of the cooking appliance is biased rearward from the center of the front and rear directions of the cooking appliance. can do.
  • the first configuration provided to prevent the cooking appliance from falling forward is that the door 300 rotates around the rear side of the door top surface 310, and thus is closed.
  • the position of the door 300 is biased to the rear, and thus, when the door 300 is in the open state, the center of gravity of the cooking appliance is formed toward the rear from the center in the front-rear direction of the cooking appliance (G 1 ⁇ G 1 ').
  • the door 300 is provided in a form in which the length in the vertical direction of the front door portion 350 is shorter than the length in the front-rear direction of the door upper portion 310. That is, when the door 300 is closed, the vertical length of the front door portion 350 is shorter than the longitudinal length of the front door portion 310.
  • the specific gravity occupied by the volume of the door top surface portion 310 among the doors 300 is greater than the specific gravity occupied by the volume of the door front portion 350, and accordingly, the weight of the door upper portion 310 among the total weight of the door 300
  • the proportion occupied is greater than that occupied by the front door part 350. Therefore, the center of gravity of the door 300 is positioned toward the rear than the center of the front and rear directions of the door 300 (G 2 ⁇ G 2 ′).
  • the center of gravity of the door 300 gradually moves backward.
  • the front door portion 350 is disposed on the front side
  • the door top portion 310 is disposed on the rear side.
  • the second configuration provided to prevent the cooking appliance from being conducted forward when the door 300 is opened in a form in which the vertical length of the front door 350 is shorter than the longitudinal length of the front door 310.
  • the door 300 is provided, and accordingly, when the door 300 is rotated rearward, the center of gravity of the door 300 and the cooking appliance can be moved to the rear more quickly.
  • the door 300 is provided with a first heating unit 400 and a viewing window W, and the first heating unit 400 and the viewing window W are disposed on the door upper surface 310.
  • the viewing window W may include a pair of glasses 330 and 335 (see FIG. 11).
  • the glass is made of a material that weighs a lot. Therefore, when the viewing window W formed of glass is disposed on the door top surface 310, the weight of the door top surface 310 is inevitably increased.
  • the viewing window W of the present embodiment may include a pair of glasses 330 and 335, that is, two layers of glass, and thus the weight of the door upper surface 310 must be increased as much.
  • the specific gravity of the weight of the door upper surface portion 310 out of the total weight of the door 300 is greater than the weight of the glass forming the viewing window W. Lose.
  • first heating units 400 are disposed on the bottom side of the upper door unit 310. At this time, the first heating unit 400 is disposed on the front outer side and the rear outer side of the viewing window W, respectively. One of the first heating unit 400 is disposed on the rear side of the door upper surface portion 310 adjacent to the hinge portion 810.
  • the weight of the weight of the door top surface part 310 among the total weight of the door 300 is equal to the weight of the first heating part 400. It gets bigger.
  • the center of gravity of the door 300 can be moved further rearward by the first heating unit 400 disposed on the rear side of the door top surface 310 adjacent to the hinge part 810, thereby allowing the door 300 to In the case of rear rotation, the center of gravity of the door 300 and the cooking appliance may move more rapidly to the rear.
  • the first heating unit 400 and the viewing window W are disposed on the door upper surface 310, and accordingly It is a configuration that allows the center of gravity of the door 300 to move to the rear more quickly when the door 300 is rotated rearward.
  • the door 300 of the present embodiment is provided so that the position of the door 300 can be moved rearward when the rear is rotated, and the length of the door front part 350 in the vertical direction is the length of the door front part 310 in the longitudinal direction. It is provided in a shorter form, and is provided in a form in which the first heating unit 400 and the viewing window W are disposed on the upper surface of the door 310.
  • the door 300 is provided so that the door 300 itself is moved to the rear side of the cooking appliance when the cooking compartment 105 is opened and the tray 200 is withdrawn forward, while the rear of the door 300 is provided. According to the rotation, the center of gravity of the door 300 is provided to be quickly moved to the rear.
  • the door 300 provided as described above acts such that when the cooking compartment 105 is opened and the tray 200 is withdrawn forward, the center of gravity of the cooking appliance is biased toward the rear from the center in the front-rear direction. It can contribute to significantly lowering the risk of forward conduction.
  • the door 300 is rotated around the rear side of the door top surface 310 combined with the hinge part 810.
  • the hinge part ( 810) side When the door 300 is open, most of the load of the door 300 is the hinge part ( 810) side.
  • the hinge portion 810 is disposed on the rear side of the cooking appliance, when the door 300 is opened, eventually, most of the load of the door 300 is concentrated on the rear side of the cooking appliance.
  • the coupling point between the 300 and the hinge portion 810 is a configuration that is arranged on the rear side of the cooking appliance.
  • the tray 200 is pulled forward, and the moment generated by the tray 200 drawn out is added to the cooking appliance, and this moment also rotates the cooking appliance forward. It acts as a letting force.
  • the force of the moment acting on the door 300 side and the moment acting on the tray 200 side can act as a force that further increases the risk of conduction of the cooking appliance.
  • the size of the moment acting on the side of the door 300 can be determined by the force acting on the door 300 and the distance between the position where the force acts and the rotational axis (the engaging portion of the door and the hinge). At this time, unless a separate force is applied, it will be said that only gravity acts on the door 300. Since gravity acts on the entire portion of the door 300, it is considered that gravity acts on the center of gravity of the door 300. Can be. Therefore, the moment, the center of gravity of the door 300 may be said to be larger as the distance from the engaging portion of the door 300 and the hinge portion 810 (M 1 ), and smaller as it approaches (M 2 ).
  • the center of gravity of the door 300 also moves rearward, and accordingly, the size of the moment acting on the door 300 side Can be reduced together (M 1 ⁇ M 2 ).
  • the cooking appliance of this embodiment when the door 300 is opened, the size of the moment acting on the cooking appliance due to the door 300 can be reduced, so that the conduction of the cooking appliance due to the tray 200 drawn out forward The risk of occurrence can be significantly reduced.
  • the fifth configuration provided to prevent the cooking appliance from being conducted forward when the door 300 is opened, so that the size of the moment acting on the cooking appliance due to the door 300 can be reduced. It is a configuration in which the center of gravity is biased to the rear.
  • the mounting protrusion 820 protrudes into the cooking compartment 105 through the first slot 835 formed on the hinge case 830 and the second slot 125 formed on the housing 100 as described above. Can.
  • the first slot 835 and the second slot 125 provide a passage through which the mounting protrusion 820 connected to the conversion output unit 840 inside the hinge case 830 protrudes into the cooking chamber 105 while ,
  • the mounting projection 820 may provide a passage required to move in the front-rear direction.
  • first slot 835 and the second slot 125 are formed to penetrate the hinge case 830 and the side surface 120 of the housing 100, respectively, and correspond to the thickness of the mounting protrusion 820. It may be formed in a slot shape having a width in the direction and a length extending in the front-rear direction.
  • the length of the front-rear direction of the first slot 835 and the second slot 125 may be less than 1/2 of the length of the front-rear direction of the tray 200.
  • the length of the first slot 835 and the second slot 125 is related to the withdrawal range of the tray 200. That is, the tray 200 can be withdrawn as much as the mounting projection 820 moves forward, and the range of the forward movement of the mounting projection 820 is limited by the first slot 835 and the second slot 125, As a result, it can be said that the withdrawal range of the tray 200 is determined by the first slot 835 and the second slot 125.
  • the movable distance of the tray 200 is the length of the front-rear direction of the tray 200 It is limited to less than 1/2.
  • the tray 200 when the mounting protrusion 820 is positioned at the rearmost ends of the first slot 835 and the second slot 125, the tray 200 is completely inserted into the interior of the cooking chamber 105, the mounting protrusion 820 ) Is located at the foremost ends of the first slot 835 and the second slot 125, the tray 200 can be withdrawn to the outside of the cooking chamber 105 only by a length less than 1/2 of its longitudinal length. .
  • the tray 200 is opened when the door 300 is opened by allowing the tray 200 to be drawn out of the cooking chamber 105 only by a length less than 1/2 of its length. It is automatically withdrawn so that the withdrawal of food or the tray 200 is made easier and more convenient, while the effect of lowering the risk of conduction of the tray 200 and the cooking appliance can be provided.
  • the cooking appliance of this embodiment when the door 300 is opened, the front surface as well as the front surface of the cooking compartment 105 are opened together, so that the tray 200 is cooked only for a length less than 1/2 of its length. (105) Even if withdrawn to the outside, the entire tray 200 can be exposed to the outside.
  • the tray 200 is drawn out of the cooking chamber 105 only for a length less than 1/2 of its longitudinal length as described above, it is easy to check the cooking state of the entire food placed on the tray 200, and the tray ( It is also possible to easily and quickly make food on 200) or take out food placed on the tray 200.
  • the sixth configuration provided to prevent the cooking appliance from being conducted forward when the door 300 is opened, so that the tray 200 is drawn out of the cooking chamber 105 only by a length less than 1/2 of its longitudinal length. By doing so, it is a configuration that allows the entire tray 200 to be exposed to the outside while lowering the risk of falling of the cooking appliance.
  • the operation device 1000 and the first control substrate 500 are disposed on the door front portion 350, and the viewing window W and the first heating portion 400 are disposed on the door top portion 350. Is placed.
  • the arrangement structure is not an arrangement structure arbitrarily selected, but a layout structure derived as a result of a design for maximizing convenience and safety of a cooking appliance.
  • the operation device 1000 is disposed on the door front portion 350 rather than the door top portion 310.
  • the viewing window W is disposed on the door upper surface 310, and since the viewing window W occupies most of the area of the door upper surface 310, an operation device 1000 may be disposed on the door upper surface 310. It is difficult to provide a proper space.
  • the first heating unit 400 is installed on the door upper surface portion 310.
  • the first heating unit 400 is a heat generating component that generates high heat, and the upper surface of the door 310 is made of glass 330 in most of its upper surface to suppress the temperature rise of the outer surface that can be touched by the user. It is provided in a covered form.
  • the first heating unit is covered by covering most of the upper surface of the door upper surface 310 with the glass 330 It is intended to suppress as much as possible the heat generated by 400 or the like to increase the temperature of the outer surface of the door upper surface 310 that can be contacted by the user.
  • the area where the operation device 1000 can be installed is a flat surface of the viewing window W. It is limited to the area outside the direction.
  • the door upper surface 310 is forced to be placed in a higher temperature than the door front surface 350.
  • the first heating unit 400 is installed on the door upper surface 310, Most of the temperature of the door top surface 310 is likely to be in a higher temperature state than the door front surface 350.
  • the operation device 1000 If the operation device 1000 is disposed on the door top surface 310, it not only adversely affects the operation device 1000 itself, but also causes the user to come into contact with the door top surface 310 during the user's operation. The fear of wearing it will also increase.
  • the first heating unit 400 is disposed on the door top surface 310 so that the first heating unit 400 is disposed on the upper side facing the second heating unit 600 with the tray 200 interposed therebetween. It is the result of design for. As described above, the first heating unit 400 must be disposed on the upper portion of the tray 200 so that food placed on the tray 200 can be heated evenly from above, and for this purpose, the first heating unit 400 has a door top surface 310 It is bound to be placed on.
  • the viewing window (W) when the viewing window (W) is disposed on the top of the cooking appliance, the user can view the interior of the cooking chamber (105) from the top through the viewing window (W) formed on the top of the cooking appliance, so the user lowers his or her posture or lowers his or her back Even if the food is cooked, it can be easily and conveniently checked. To this end, the viewing window (W) is also forced to be disposed on the door upper surface 310.
  • the first heating unit 400 and the viewing window 400 are disposed on the door upper surface portion 310, whereby most of the area of the door upper surface portion 310 is the first heating portion. It is occupied by 400 and viewing window 400.
  • the operating device 1000 is disposed on the front door portion 350 rather than the door top portion 310.
  • the operation device 1000 is disposed on the door front surface 350 which is the surface facing the user, the user can more easily recognize the operation device 1000, and the user's operation of the operation device 1000 is also easier. It can be done comfortably.
  • the door front part 350 is a part that does not need to install parts that occupy a larger volume than the door top part 310. That is, since the heavy and large parts such as the viewing window 400 or the first heating part 400 are not installed in the front door part 350, the interior of the door front part 350 is more spatial than the door top part 310. I can afford it.
  • the first control substrate 500 is disposed in the space inside the door front part 350. In this way, the first control substrate 500 is installed inside the door front part 350, thereby providing the following advantages.
  • the first control substrate 500 includes various types of control signals, such as receiving control signals input through the operation device 1000 and generating control signals for controlling the operation of the first heating unit 400 and the second heating unit 600. Devices, circuits, and the like are provided.
  • the first control substrate 500 is a component that must be electrically connected to the operation device 1000 in order to receive an operation signal input through the operation device 1000.
  • the operation device 1000 can be electrically connected to the first control substrate 500 in a form mounted directly on the first control substrate 500, the operation device 1000 and the first control The connection between the substrates 500 can be made very efficiently.
  • the first control substrate 500 installed inside the door front part 350 can be disposed at a position very close to the first heating part 400, the first heating part 400 and the first The electrical connection between the control panel 500 can also be made very easily and efficiently.
  • the operating device 1000 when the operating device 1000 is disposed on the door front part 350, the operating device 1000 is installed at a relatively space-free portion, avoiding the door upper surface part 310 where the installation space is not suitable. ) Can be installed, the design freedom of the size, number, position, etc. of the operation switch can be increased, and operation stability and use safety of the cooking appliance can be improved under the influence of high temperature, as well as the operation device 1000. And the first control substrate 500 and the first heating unit 400 also have the advantage of being able to be made very easily and efficiently.
  • the arrangement of the viewing window (W) and the first heating unit (400), which have a relatively large weight on the upper surface of the door (310), is made, and the operation device (1000) that has a relatively low weight on the front surface of the door (350), and Since the arrangement of the first control substrate 500 is made, the door upper surface portion 310 becomes relatively heavier than the door front portion 350, and accordingly, the center of gravity of the door 300 is the rear of the door 300 It is a little more to the side.
  • the door 300 is provided in a form in which the length of the front and rear sides of the door 350 is shorter than the length of the front and rear parts of the door 310, the center of gravity of the door 300 is toward the rear side of the door 300. It is clearly focused.
  • the hinge portion 810 is disposed on the rear side of the cooking appliance, when the door 300 is opened, eventually, most of the load of the door 300 is concentrated on the rear side of the cooking appliance.
  • the operation device 1000 is disposed on the door 300 rather than the housing 100.
  • the door 300 includes a door upper surface 310 disposed on the upper side and a door front portion 350 disposed on the front side.
  • the viewing window W which is a configuration that occupies most of the area of the door in the conventional cooking appliance, is disposed on the door top surface 310, a sufficient space is provided on the door front surface 350 to place the manipulation device 1000. Can.
  • the components such as the viewing window (W) or the first heating unit 400 are not disposed on the door front portion 350, the inside of the door front portion 350 must be connected to the operation device 1000 in close proximity. A space portion sufficient to install the first control substrate 500 may be formed.
  • an advantageous environment is provided in which the operating device 1000 is installed in the door 300, and accordingly, an efficient operating device 1000 in which the operating device 1000 is disposed in the door 300 is disposed. Can be made.
  • the operating device 1000 and the first control substrate 500 are installed on the door 300 as described above, so that the first heating unit 400 and the operating device 1000 and the first control installed on the door 300 are installed.
  • the electrical connection between the substrates 500 can also be made more efficiently.
  • the electrical connection between the first heating unit 400 and the operation device 1000 and the first control substrate 500 is made inside the door 300, and the wiring length for this can be shortened.
  • a simple and neat wiring process can be performed, and the wiring process can be performed inside the door 300 so that the wiring is not exposed to the outside.
  • the housing 100 does not need to consider the space for the operation device 1000 and the first control substrate 500 to be installed, but only the size and shape in consideration of the size of the cooking compartment 105 and the size of the door 300 only.
  • the housing 100 may be provided in a reduced size as the space for the operation device 1000 and the first control substrate 500 is installed, and the size of the door 300 is also the housing 100. It can be provided in a size as large as the size corresponding to the size of.
  • the cooking apparatus of the present embodiment while reducing the size of the housing 100, it is possible to provide an entrance of a size sufficient for the tray 200 and food to enter, thereby providing a compact appearance and improved usability. I can do it.
  • 51 is a perspective view illustrating parts separated from the front surface of the door.
  • the door 300 may include a door body part 300a.
  • the door body part 300a may form the exterior of the door 300.
  • the door body part 300a may be provided in a form in which the part forming the exterior of the door top surface 310 and the part forming the exterior of the front door part 350 form an "a" shape and are integrally connected.
  • the first part of the main body part 310a and the part of the door body part 300a that constitutes the exterior of the door front part 350 are formed as the first part of the door body part 300a that forms the exterior of the door top part 310. It will be referred to as a two-door body part 350a.
  • An accommodation space is formed inside the door body part 300a.
  • electronic components such as a support panel 550, which will be described later, and a first control substrate 500, a communication module 570, and a temperature sensor 580, which are installed therein, may be accommodated.
  • the accommodation space inside the door body part 300a may be opened toward one side.
  • the receiving space formed inside the first door body part 310a among the door body parts 300a may be opened toward the bottom.
  • the accommodation space formed inside the second door body part 350a among the door body parts 300a may be opened toward the rear.
  • the door back cover 350b may cover one open side of the door body part 300a. In this embodiment, it is illustrated that the door back cover 350b is disposed behind the second door body portion 350a.
  • the door rear cover 350b is disposed at the rear of the second door body portion 350a and may cover the open rear of the second door body portion 350a.
  • the door back cover 350b may be combined with the door body part 300a via the bracket 590.
  • the door rear cover 350b combined with the door body part 300a covers the open rear of the second door body part 350a, so that various electric parts accommodated inside the second door body part 350a are doors. It is to be protected in a space surrounded by the body portion (300a) and the door back cover (350b).
  • the support panel 550 may be disposed inside the space surrounded by the second door body part 350a and the door back cover 350b. That is, the support panel 550 may be disposed inside the door front part 350.
  • the support panel 550 may be coupled to at least one of the door body part 300a and the door back cover 350b to be fixed inside the door body part 300a.
  • the support panel 550 may be coupled to the second door body part 350a and the door back cover 350b via the bracket 590.
  • the support panel 550 coupled to the second door body part 350a and the door back cover 350b as described above includes the second door body part 350a and the door back cover 350b, particularly the second door body part 350a. ) May be fixed at a position spaced apart from the front surface. Detailed description thereof will be described later.
  • the first control substrate 500 may be fixed to the support panel 550. That is, the first control substrate 500 may be fixed to the support panel 550 and thus fixed to the interior of the second door body portion 350a.
  • An encoder 1200 and a shaft 110 may be installed on the first control substrate 500, and the manipulation device 1000 may be connected to the shaft 110.
  • a through hole 351a forming a passage necessary for the manipulation device 1000 to be connected to the shaft 110 may be formed.
  • a portion of the manipulation device 1000 disposed on the front of the door 300 may be inserted into the second door body portion 350a through the through hole 351a.
  • FIG. 52 is a front perspective view of the support panel shown in FIG.
  • the support panel 550 may be formed in a shape similar to the front shape of the second door body portion 350a.
  • the front surface of the second door body portion 350a may be formed in a rectangular shape, and the support panel 550 may also be formed in a similar rectangular shape.
  • the support panel 550 may include a substrate portion 551 and a position control portion.
  • the substrate portion 551 forms a skeleton of the support panel 550.
  • the substrate portion 551 may form a support surface for supporting the first control substrate 500.
  • the substrate portion 551 is illustrated as being formed in a shape similar to the front shape of the second door body portion 350a, for example, a rectangular shape.
  • the substrate portion 551 may be formed of a hard plastic material.
  • the substrate portion 551 may be formed of a light insulating material, and may have sufficient strength required to support the first control substrate 500 and various electric components installed thereon.
  • the position regulating portion may be provided on the substrate portion 551.
  • the position regulating part serves to regulate the position of the first control substrate 500 supported by the substrate part 551, and may be provided in the form of a structure protruding from the substrate part 551.
  • the position regulating portion may include at least one of the lower support portion 553 and the side support portion 555. In this embodiment, it is illustrated that the position regulating portion includes both the lower support portion 553 and the side support portion 555.
  • the lower support portion 553 may be disposed under the first control substrate 500, and the side support portion 555 may be disposed at the side of the first control substrate 500.
  • the support panel 550 may include a first region 550a and a second region 550b.
  • the first region 550a is an area in which the first control substrate 500 is disposed
  • the second region 550b is an area in which the first control substrate 500 is not disposed.
  • the lower support portion 553 is disposed in the second region 550b, and may be disposed under the first region 550a.
  • the side support portion 555 is disposed in the second region 550b, and may be disposed under the first region 550a.
  • the up-down position and the lateral position of the first control substrate 500 may be regulated by the lower support portion 553 and the side support portion 555. That is, the vertical position of the first control substrate 500 is regulated by the lower support portion 553 disposed under the first region 550a, and the side support portion 555 disposed at the side of the first region 550a.
  • the lateral position of the first control substrate 500 is regulated by, the arrangement position of the first control substrate 500 can be guided into the first region 550a.
  • At least one of the lower support portion 553 and the side support portion 555 may include a hook.
  • the hook may include a body portion 553a and a protrusion 553b.
  • the body portion 553a may be formed to protrude forward from the substrate portion 551.
  • the body portion 553a may be formed to be elastically deformed in the lateral or vertical direction.
  • the protruding portion 553b protrudes from the body portion 553a toward the first control substrate 500, and may protrude at a position spaced apart from the substrate portion 551.
  • both the lower support 553 and the side support 555 are illustrated as including a hook.
  • the protruding portion 553b of the hook included in the lower supporting portion 553 may protrude upward from the body portion 553a.
  • the protruding portion 553b of the hook included in the side supporting portion 555 may protrude from the body portion 553a toward the side portion.
  • each protrusion 553b may protrude at a position spaced apart from the substrate part 551 by a predetermined distance from the substrate part 551 by a thickness of the first control substrate 500.
  • a portion of the first control substrate 500 may be inserted into the space between the substrate portion 551 and the protrusion 553b formed accordingly. That is, the lower end of the first control substrate 500 may be inserted into the lower support portion 553, and the side end of the first control substrate 500 may be inserted into the side support portion 555.
  • the first control substrate 500, the front and rear positions thereof can be regulated by the lower support portion 553 and the side support portion 555. That is, the rear of the first control substrate 500 is supported by the substrate portion 551, and the front of the first control substrate 500 is supported by the protrusions 553b, whereby the first control substrate 500 is positioned in the front-rear direction. Can be regulated.
  • the lateral position of the first control substrate 500 is regulated by the lower support portion 553 and the side support portion 555, and the front and rear positions of the first control substrate 500 are the substrate portion 551 and the protruding portion. (553b).
  • the first control substrate 500 can be stably fixed on the support panel 550 while being accurately positioned at the first region 550a, that is, the position where the first control substrate 500 is designed.
  • the lower support portion 553 may include a plurality of hooks arranged to be spaced apart a predetermined distance in the left-right direction. Accordingly, since the lower portion of the first control substrate 500 can be more stably supported by the lower support portion 553, the first control substrate 500 can be more stably fixed on the support panel 550.
  • the support panel 550 may further include a rib 552.
  • the rib 552 protrudes forward from the substrate portion 551 and may be disposed between the substrate portion 551 and the first control substrate 500.
  • the ribs 552 may be provided as a structure that further improves the structural rigidity of the support panel 550.
  • the rib 552 serves to provide a passage required for heat dissipation of the first control substrate 500 by allowing a predetermined gap to be formed between the first control substrate 500 and the substrate portion 551. You may.
  • FIG. 53 is a rear perspective view showing the rear surface of the support panel shown in FIG. 52
  • FIG. 54 is a front perspective view showing the installation state of the communication module
  • FIG. 55 is a rear perspective view showing the installation state of the temperature sensor.
  • the cooking appliance of this embodiment may further include a communication module 570.
  • the communication module 570 may be disposed inside the door 300.
  • the communication module 570 is illustrated as being disposed inside the door front part 350.
  • the communication module 570 may be a communication module that enables wireless communication between an external device, for example, a smartphone and a cooking device.
  • the communication module 570 may be a short-range communication module.
  • the communication module 570 may be a communication module supporting a low power wireless communication method such as Bluetooth low energy (BLE).
  • the communication module 570 may include a module supporting various short-range communication methods such as a Bluetooth communication module and an NFC communication module.
  • the communication module 570 may be a mobile communication module.
  • the communication module 570 may include a module supporting a wireless communication method such as long term evolution (LTE) and Wi-Fi.
  • LTE long term evolution
  • Wi-Fi wireless fidelity
  • the communication module 570 may be disposed inside the door front part 350 in a form fixed to the support panel 550.
  • the support panel 550 may further include a communication module support 556.
  • the communication module support unit 556 may be disposed in a second area 550b, that is, an area in which the first control substrate 500 is not disposed.
  • the communication module support 556 supports the communication module 570, whereby the communication module 570 may be supported by the communication module support 556 and disposed in the second area 550b.
  • the communication module support part 556 may include a first side wall part 556a.
  • the first side wall portion 556a is formed to protrude forward from the substrate portion 551.
  • the inside of the first side wall portion 556a may be formed to penetrate in the front-rear direction.
  • the first side wall portion 556a may be formed in a shape in which the inside of the rectangular pillar protruding forward from the substrate portion 551 is penetrated in the front-rear direction.
  • the communication module 570 may be inserted inside the first side wall portion 556a, and thus the communication module 570 inserted inside the first side wall portion 556a has a first side wall portion ( 556a) and can be mounted inside the communication module support 556.
  • the communication module support unit 556 may further include a first support unit 556b.
  • the first support surface portion 556b protrudes from the first side wall portion 556a toward the inside of the first side wall portion 556a, and may form a plane intersecting the front-rear direction.
  • the first supporting surface portion 556b may be formed in a shape in which a plane parallel to the substrate portion 551 protrudes into the first side wall portion 556a.
  • the communication module 570 inserted into the first side wall portion 556a may be in contact with the first support portion 556b disposed at the rear of the communication module 570, and as a result, the rear of the communication module 570. Movement can be regulated. That is, the communication module 570 inserted inside the first side wall portion 556a is regulated by the first side wall portion 556a, and the front and rear positions are regulated by the first support surface portion 556b. In the form, it can be stably mounted inside the communication module support 556.
  • the communication module support unit 556 may further include a hook 556c.
  • the hook 556c may protrude upward or downward from the first side wall portion 556a toward the inside of the communication module support portion 556, that is, the inside of the first side wall portion 556a.
  • the hook 556c disposed on the lower side of the first side wall portion 556a may protrude upward, and the hook 556c disposed on the upper side of the first side wall portion 556a protrudes downward.
  • the hook 556c may be disposed in front of the first support portion 556b.
  • each hook 556c is disposed at a position spaced apart from the first support portion 556b by a thickness of a portion of the communication module 570 from the first support portion 556b, more specifically A portion of the communication module 570 that is in contact with the first support portion 556b (for example, a circuit board on which the chip of the communication module is mounted) may be disposed at a spaced apart position. A portion of the communication module 570 may be inserted into the space between the first support portion 556b and the hook 556c formed accordingly.
  • the communication module 570 the position in the front-rear direction can be regulated by the hook. That is, the rear of the communication module 570 is supported by the first support portion 556b, and the front of the communication module 570 is supported by the hook 556c, so that the position in the front-rear direction of the communication module 570 can be regulated. have.
  • the up, down, left and right positions of the communication module 570 are regulated by the first side wall portion 556a, and the front and rear positions of the communication module 570 are controlled by the first support surface portion 556b and the hook 556c. Can be regulated.
  • the communication module 570 can be stably fixed on the support panel 550 while being accurately placed in a position designed to place the communication module 570.
  • the cooking appliance of this embodiment may further include a temperature sensor 580.
  • the temperature sensor 580 is provided to measure the temperature inside the cooking compartment 105.
  • the temperature sensor 580 may include a long, slender rod-shaped sensor body 581 and a flange 583 protruding from the sensor body 581.
  • the flange 583 may be formed in a plate shape of a rectangular shape protruding from the sensor body 581 in the centrifugal direction.
  • the temperature sensor 580 may be disposed inside the door front part 350 in a form fixed to the support panel 550.
  • the support panel 550 may further include a temperature sensor support 557.
  • the temperature sensor support 557 may be disposed in the second region 550b, that is, in the region where the first control substrate 500 is not disposed.
  • the temperature sensor support 557 supports the temperature sensor 580, whereby the temperature sensor 580 may be supported by the temperature sensor support 557 and disposed in the second region 550b.
  • the temperature sensor support part 557 may include a second side wall part 557a.
  • the second side wall portion 557a is formed to protrude rearward from the substrate portion 551.
  • the inside of the second side wall portion 557a may be formed to penetrate in the front-rear direction.
  • the second side wall portion 557a may be formed in a shape in which the inside of the rectangular pillar protruding rearward from the substrate portion 551 is penetrated in the front-rear direction.
  • the temperature sensor 580 may be inserted into the second side wall portion 557a. At this time, the flange 583 of the temperature sensor 580 may be regulated by the first side wall portion 556a in the vertical direction.
  • the temperature sensor support 557 may further include a second support surface 557b.
  • the second supporting surface portion 557b protrudes from the second side wall portion 557a toward the inside of the second side wall portion 557a, and may form a plane intersecting the front-rear direction.
  • the second supporting surface portion 557b may be formed in a shape in which a plane parallel to the substrate portion 551 protrudes into the second side wall portion 557a.
  • the flange 583 inserted into the second side wall portion 557a may be in contact with the second support portion 557b disposed at the rear of the flange 583, resulting in the rear movement of the temperature sensor 580. Can be regulated.
  • the temperature sensor 580 inserted inside the second side wall portion 557a, the up and down, left and right positions are regulated due to interference between the second side wall portion 557a and the flange 583, and the front and rear direction positions are secondly supported. Due to the interference between the surface portion 557b and the flange 583, it can be stably mounted on the temperature sensor support portion 557 in a regulated form.
  • the temperature sensor support portion 557 may further include a boss portion 557c.
  • the boss portion 557c may be formed to protrude forward from the second support portion 557b. That is, the second support portion 557b is disposed behind the substrate portion 551, and the boss portion 557c may protrude forward from the second support portion 557b. At this time, the boss portion 557c may be formed not to protrude more forward than the substrate portion 551.
  • a fastening hole may be formed in a hollow shape extending in the front-rear direction, and the fastening hole may be opened to the rear of the second support portion 557b.
  • a fastening hole may be formed in the flange 583. At this time, the fastening hole of the flange 583 may be formed at a position overlapping the fastening hole of the boss portion 557c in the front-rear direction.
  • the screw is fastened from the rear of the flange 583 while the flange 583 is in contact with the second support 557b so that the fastening hole of the flange 583 and the fastening hole of the boss 557c may overlap each other.
  • the flange 583 is in close contact with the second supporting surface portion 557b and can be fixed to the temperature sensor support portion 557, whereby the temperature sensor 580 is supported. It can be stably fixed on the 550.
  • the temperature sensor support 557 may further include a hook 557d.
  • the hook 557d may protrude upward or downward from the first side wall portion 557a toward the inside of the temperature sensor support portion 557, that is, the inside of the second side wall portion 557a.
  • the hook 557d disposed on the lower side of the second side wall portion 557a may protrude upward, and the hook 557d disposed on the upper side of the second side wall portion 5570a protrudes downward.
  • each of the hooks 557d is disposed at a position spaced apart from the second support portion 557b by the thickness of a portion of the temperature sensor 580 from the first support portion 557b, more specifically It may be disposed at a position spaced apart by the thickness of the flange 583.
  • a portion of the temperature sensor 580, that is, the flange 583 may be inserted into the space between the second support 557b and the hook 557d formed accordingly.
  • the primary fixing of the temperature sensor 580 can be performed, so that the operation of fastening the temperature sensor 580 can be made more easily.
  • the rear of the sensor body 581 may be exposed to the outside of the door 300 through the door back cover 350b. That is, the temperature sensor 580 may be exposed to the cooking compartment 105 by protruding from the inside of the door front part 350 to the rear of the door front part 350. As described above, the temperature sensor 580 in which the rear of the sensor body 581 is exposed to the outside of the door 300 can measure the temperature of the cooking compartment 105 inside the cooking compartment 105 (see FIG. 63 ).
  • the front of the sensor body 581 may be exposed to the inside of the door 300 to be connected to the first control substrate 500. That is, the front of the sensor body 581 may be electrically connected to the first control substrate 500 through the cable C.
  • the measurement result of the temperature sensor 580 may be transmitted to the first control substrate 500, and the first control substrate 500 controls the operation of the first heating unit 400 and the like based on this, thereby cooking chamber (105) The temperature inside can be adjusted.
  • the temperature sensor support 557 may be formed in a shape protruding backward from the support panel 550.
  • a recess 351b may be provided in the door back cover 350b.
  • the recessed portion 351b may be formed in a shape in which a portion of the rear door cover 350b located behind the temperature sensor support portion 557 is recessed rearward.
  • the recessed portion 351b may be formed in a shape recessed backward when viewed from the front or a shape projecting backward when viewed from the rear.
  • the temperature sensor support 577 may be accommodated in a space surrounded by the depression 351b.
  • a through hole 352b required for the sensor body 581 to pass through the door back cover 350b may be formed in the depression 351b.
  • the support panel 550 of the present embodiment may further include a cable fixing (558).
  • the cable fixing portion 558 may be formed in a shape protruding forward from the substrate portion 551, and may be disposed between the first control substrate 500 and the temperature sensor support portion 557.
  • the cable fixing unit 558 may fix the cable C connecting the first control substrate 500 and the temperature sensor support 557 to the support panel 550.
  • the cable fixing unit 558 may include a pair of hooks. And each hook may include a body portion 558a and a protrusion 558b.
  • the body portion 558a may be formed in a shape protruding forward from the substrate portion 551.
  • the body portion 558a may be formed to be elastically deformed in the lateral direction.
  • the protruding portion 558b may protrude from the body portion 558a toward another adjacent hook.
  • a pair of hooks are disposed to face each other, and the hooks may be arranged in a shape in which the protruding portions 558b of each hook protrude toward each other. Accordingly, the distance between the front portions of the two hooks, which are the portions where the protrusions 558b are disposed, may be formed to be much narrower than the distance between the rear portions of the two hooks, which are the portions where the body portions 558a are disposed.
  • the spacing between the two protrusions 558b is narrower than the diameter of the cable C, or the hooks can be arranged such that the two protrusions 558b are in contact with each other.
  • the cable (C) can be fitted to the cable fixing 558 from the front of the cable fixing 558, and the cable C inserted in the cable fixing 558 is easily removed from the cable fixing 558. You cannot escape.
  • a plurality of cable fixing 558 may be arranged to be spaced apart a predetermined distance in the vertical direction.
  • the first control board 500 may be provided with a terminal 501 for connection between the cable C and the first control board 500.
  • the terminal 501 may be disposed on the first control substrate 500 on the side biased below.
  • a configuration related to the operation device 1000 that is, a configuration such as a shaft 110 and an encoder 1200, is disposed on a side biased to the upper portion on the first control substrate 500. Since the operation device is disposed on the front side of the door 350 on the side biased, the shaft 110, the encoder 1200, and the like connected to it must be disposed on the side biased on the top on the first control substrate 500.
  • the handle 305 Since the handle 305 is disposed at a position biased to the lower portion on the front door 350, it is difficult to secure a space suitable for the arrangement of the manipulation device 1000 at the corresponding position. In addition, it should also be considered that it is easy for the user to operate the operating device 1000 when it is disposed on the upper side so as to be the operating device 1000.
  • the operation device 1000 should be disposed under it.
  • the manipulation of the manipulation device 1000 may be very uncomfortable due to the handle 305, and it is also not good in aesthetics.
  • the arrangement position of the operation device 1000 may be determined as a position biased to the upper portion on the front door part 350.
  • the shaft 110, the encoder 1200, and the like are disposed at the upper biased side on the first control substrate 500. do.
  • the arrangement position of the terminal 501 is determined as a position biased to the lower portion on the first control substrate 500. do.
  • the temperature sensor support 557 and the temperature sensor 580 mounted thereon may be disposed at a position biased to the upper portion on the support panel 550.
  • the temperature sensor 580 is disposed above the communication module 570 and may be disposed at a height closer to the shaft 110 and the encoder 1200 than the terminal 501. The detailed reason that the temperature sensor 580 is disposed on the support panel 550 in a position biased to the top will be described later.
  • the distance between the temperature sensor 580 and the terminal 501 is inevitably increased. If the distance between the temperature sensor 580 and the terminal 501 increases, the length of the cable (C) connecting the distance between them must be increased, and the inside of the door (300) can be complicated by the lengthy cable (C). have.
  • a structure in which a plurality of cable fixing portions 558 are arranged to be spaced apart at predetermined intervals in the vertical direction is presented.
  • the plurality of cable fixing units 558 arranged as described above can fix the cables C arranged to extend in the vertical direction due to the position characteristics of the temperature sensor 580 and the terminal 501 at a plurality of points.
  • the cable (C) connecting the temperature sensor 580 and the first control board 500 can be stably fixed on the support panel 550, so that the interior of the door 300 is more neat and tidy. You will be able to maintain state.
  • the support panel 550 of the present embodiment may further include a cable support 559.
  • the cable support part 559 may be formed in a form protruding forward from the substrate part 551, and may be disposed outside the first control substrate 500.
  • the cable fixing unit 558 may support the cable C connected to the first control substrate 500.
  • the cable C supported by the cable support part 559 may be a connection between the first control board 500 and the first heating unit, and is connected between the first control board 500 and the second control board. It may be.
  • the cable support part 559 may include a first protrusion part 559a and a second protrusion part 559b.
  • the first protrusion 559a may protrude forward from the substrate.
  • the second protrusion 559b may protrude from the first protrusion 559a in a direction parallel to the substrate part 551. At this time, the second protrusion 559b may be disposed to be spaced apart from the substrate portion 551 by a predetermined distance.
  • a plurality of cable support portions 559 may be disposed on the support panel 550.
  • the plurality of cable support parts 559 may be disposed adjacent to the rim of the support panel 550. Some of the cable support portions 559 may be disposed adjacent to the lower edge of the support panel 550, and other portions of the cable support portions 559 may be disposed adjacent to the side edge of the support panel 550.
  • the shape of the cable support 559 disposed adjacent to the lower edge of the support panel 550 and the cable support 559 disposed adjacent to the side edge of the support panel 550 may be different from each other.
  • the second projection portion 559b may protrude upward or downward.
  • the second protrusion 559b may protrude in the lateral direction.
  • the cable C may be supported by the cable support 559 in a form inserted into a space surrounded by the first protrusion 559a and the second protrusion 559b. Accordingly, the arrangement position of the cable C may be guided to an area adjacent to the edge of the support panel 550.
  • the cable C in which the arrangement position is guided may be connected to the first control substrate 500 while being disposed close to the edge of the support panel 550.
  • the cable C connected to the first control substrate 500 can be stably fixed on the support panel 550 in a state arranged close to the rim of the support panel 550.
  • the inside of the door 300 can be maintained in a cleaner and more tidy state, as well as to prevent unnecessary contact between various components mounted on the first control board 500 and the cable C. do.
  • the support panel 550 may further include a support protrusion 560.
  • the support protrusion 560 may protrude from the substrate portion 551 toward the door body portion 300a facing the substrate portion 551, and more specifically toward the front surface of the second door body portion 350a. have.
  • the support protrusion 560 may be disposed below the first control substrate 500.
  • the support protrusion 560 may be disposed at a position adjacent to the lower edge of the support panel 550.
  • the support protrusion 560 may interfere with the front surface of the second door main body part 350a to guide the distance between the front surface of the second door main body part 350a and the support panel 550. In addition, the support protrusion 560 may serve to maintain a gap between the front surface of the second door body part 350a and the support panel 550.
  • the shaft 110 and the encoder 1200 are disposed in an upper region of the first control substrate 500.
  • the socket member 1600 surrounding the shaft 110 and the encoder 1200 is also disposed in an upper region of the first control substrate 500.
  • the rear side of the socket member 1600 is coupled to the first control substrate 500, and the front side of the socket member 1600 may be in contact with the front side of the second door body portion 350a. That is, the socket member 1600 is interposed between the front surface of the second door body part 350a and the support panel 550, and the distance between the front surface of the second door body part 350a and the support panel 550 is a socket member. (1600).
  • the upper region of the support panel 550 may be supported by the socket member 1600 so as not to bend toward the front of the second door body part 350a.
  • the front surface of the second door body part 350a may also be supported by the socket member 1600 so as not to bend toward the support panel 550.
  • the lower region of the support panel 550 in which a structure such as the socket member 1600 is not disposed may be bent toward the front surface of the second door body portion 350a.
  • the distance between the front surface of the second door main body part 350a and the support panel 550 becomes too narrow.
  • components mounted on the first control substrate 500 may be damaged, and the front door shape of the second door body part 350a may be changed, thereby damaging the aesthetics of the door 300.
  • the support protrusion 560 is provided on the lower side of the support panel 550.
  • the support protrusion 560 maintains the distance between the front surface of the second door body part 350a and the support panel 550, while the front surface of the second door body part 350a is not bent backward. It serves to support the front of the door body portion 350a.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Electric Ovens (AREA)

Abstract

L'invention concerne un appareil de cuisson. La présente invention comprend un panneau de support couplé à une partie de corps principal de porte et/ou à un couvercle arrière de porte et fixé au côté interne de la partie de corps principal de porte, et présente un tableau de commande fixé au panneau de support.
PCT/KR2020/000533 2019-01-11 2020-01-10 Appareil de cuisson WO2020145758A1 (fr)

Applications Claiming Priority (10)

Application Number Priority Date Filing Date Title
KR10-2019-0004169 2019-01-11
KR1020190004169 2019-01-11
KR10-2019-0038037 2019-04-01
KR20190038037 2019-04-01
KR1020190121098A KR20200087662A (ko) 2019-01-11 2019-09-30 조작장치 및 이를 구비하는 조리기기
KR10-2019-0121098 2019-09-30
KR10-2019-0176631 2019-12-27
KR10-2019-0177047 2019-12-27
KR1020190176631A KR20200087681A (ko) 2019-01-11 2019-12-27 조작장치 및 이를 구비하는 조리기기
KR1020190177047A KR20200087684A (ko) 2019-01-11 2019-12-27 조리기기

Publications (1)

Publication Number Publication Date
WO2020145758A1 true WO2020145758A1 (fr) 2020-07-16

Family

ID=71520558

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/KR2020/000533 WO2020145758A1 (fr) 2019-01-11 2020-01-10 Appareil de cuisson

Country Status (1)

Country Link
WO (1) WO2020145758A1 (fr)

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20080024025A (ko) * 2006-09-12 2008-03-17 엘지전자 주식회사 조리기기
KR20080035396A (ko) * 2006-10-19 2008-04-23 엘지전자 주식회사 오븐 도어
US20100181308A1 (en) * 2007-01-26 2010-07-22 Lg Electronics Inc. Door for ventilation hooded microwave oven and cooling system for the same
KR20110001565U (ko) * 2009-08-07 2011-02-15 이종석 토스터기의 도어 개폐 장치
JP2017083166A (ja) * 2017-01-11 2017-05-18 パナソニックIpマネジメント株式会社 加熱調理器

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20080024025A (ko) * 2006-09-12 2008-03-17 엘지전자 주식회사 조리기기
KR20080035396A (ko) * 2006-10-19 2008-04-23 엘지전자 주식회사 오븐 도어
US20100181308A1 (en) * 2007-01-26 2010-07-22 Lg Electronics Inc. Door for ventilation hooded microwave oven and cooling system for the same
KR20110001565U (ko) * 2009-08-07 2011-02-15 이종석 토스터기의 도어 개폐 장치
JP2017083166A (ja) * 2017-01-11 2017-05-18 パナソニックIpマネジメント株式会社 加熱調理器

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