WO2023232091A1 - 门体组件和烹饪器具 - Google Patents

门体组件和烹饪器具 Download PDF

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Publication number
WO2023232091A1
WO2023232091A1 PCT/CN2023/097547 CN2023097547W WO2023232091A1 WO 2023232091 A1 WO2023232091 A1 WO 2023232091A1 CN 2023097547 W CN2023097547 W CN 2023097547W WO 2023232091 A1 WO2023232091 A1 WO 2023232091A1
Authority
WO
WIPO (PCT)
Prior art keywords
door
hook
door frame
connecting plate
assembly
Prior art date
Application number
PCT/CN2023/097547
Other languages
English (en)
French (fr)
Inventor
位帅帅
Original Assignee
广东美的厨房电器制造有限公司
美的集团股份有限公司
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 CN202221354677.1U external-priority patent/CN218044791U/zh
Priority claimed from CN202221380838.4U external-priority patent/CN217681151U/zh
Application filed by 广东美的厨房电器制造有限公司, 美的集团股份有限公司 filed Critical 广东美的厨房电器制造有限公司
Publication of WO2023232091A1 publication Critical patent/WO2023232091A1/zh

Links

Classifications

    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C19/00Other devices specially designed for securing wings, e.g. with suction cups
    • E05C19/10Hook fastenings; Fastenings in which a link engages a fixed hook-like member

Definitions

  • Embodiments of the present application relate to the technical field of kitchen appliances, specifically, to a door assembly and a cooking utensil.
  • the door hook and the door frame are separated in the oven door system of the microwave oven.
  • the door hook is connected to the door panel through a tension spring, and the door hook can slide relative to the door panel.
  • the embodiments of the present application aim to solve at least one of the technical problems existing in the prior art.
  • embodiments of the present application provide a door assembly.
  • An embodiment of the present application also provides a cooking utensil.
  • a door body assembly includes: a door frame; at least one door hook, and the at least one door hook and the door frame are integrally structured.
  • the door assembly provided by the embodiment of the present application includes a door frame and at least one door hook.
  • the at least one door hook is an integral structure with the door frame, that is, at least one door hook is provided on the door frame.
  • the door frame is used to fix door panels, door seals and other structures. It is the frame structure of the door body assembly and has a certain structural strength.
  • At least one door hook is set on the door frame. Compared with the related art where the door hook is set on As for the door panel, it can avoid the problem of deformation of the door panel during the installation process caused by setting the door hook on the door panel, and improve the installation accuracy of the door body assembly.
  • At least one door hook and the door frame are of an integrated structure. It can be understood that the integrated structure has good mechanical properties, thereby improving the connection strength between the door hook and the door frame, thereby ensuring the tightness between the door hook and the cooking utensil during the process of opening and closing the door. Effective cooperation between rotating parts.
  • the door frame has a certain structural strength, and at least one door hook and the door frame are provided as an integrated structure, thereby improving the structural strength of the door hook and ensuring the service life of the door hook.
  • arranging at least one door hook and the door frame as an integrated structure is also beneficial to the mass production of door components, reduces production difficulty, improves production efficiency, and further reduces the production cost of door components.
  • the door hook includes a first door hook and a second door hook.
  • the first door hook and the second door hook are spaced apart along the height direction. That is to say, the first door hook is an upper door hook and the second door hook is an upper door hook. Lower door hook.
  • the first door hook and the second door hook can be integrated with the door frame to further simplify the installation process of the door body assembly, reduce the number of parts, improve the installation accuracy, and reduce the production cost of the door body assembly.
  • the door assembly provided according to the above technical solution of the present application also has the following additional technical features:
  • At least one door hook includes a first door hook and a second door hook, and the first door hook and the second door hook are spaced apart along the height direction of the door frame; the first door hook and the second door hook The hook and the door frame are an integrated structure.
  • the door hook includes a first door hook and a second door hook.
  • the first door hook and the second door hook are spaced apart along the height direction. That is to say, the first door hook is an upper door hook, and the second door hook is an upper door hook.
  • the door hook is the lower door hook.
  • the first door hook and the second door hook can be integrated with the door frame to further simplify the installation process of the door body assembly, reduce the number of parts, improve the installation accuracy, and reduce the production cost of the door body assembly.
  • the connection strength between the first door hook, the second door hook and the door frame can be improved, thereby ensuring that the first door hook is securely connected during the door opening and closing process. and effective cooperation between the second door hook and the rotating part of the cooking appliance.
  • the door frame has a certain structural strength
  • the first door hook and the second door hook are provided as an integrated structure with the door frame, thereby improving the structural strength of the first door hook and the second door hook, ensuring that the first door hook and the second door hook have a certain structural strength. The service life of the door hook.
  • first door hook and the second door hook and the door frame are also beneficial to the mass production of door components, reduces production difficulty, improves production efficiency, and further reduces the production cost of door components.
  • the door frame is provided with an installation slot;
  • the door body assembly also includes a decorative piece, the decorative piece is located on a side of the door frame away from the door hook, and a part of the decorative piece is embedded in the installation slot.
  • the door body assembly also includes a decorative piece.
  • the decorative piece is provided on the side of the door frame away from the door hook. It can be understood that the door hook needs to cooperate with the rotating part of the cooking utensil. Therefore, the door hook is arranged close to the cooking cavity of the cooking appliance, and the decorative piece is arranged on the side of the door frame away from the door hook. That is to say, the decorative piece is arranged on the outside of the door body assembly, that is, on the side facing away from the cooking cavity.
  • the door frame is provided with an installation groove, and a part of the decorative part is embedded in the installation groove, thereby ensuring the installation stability of the decorative part.
  • the decorative parts are glass parts.
  • the glass parts are transparent parts, which can improve the aesthetics and appearance of the cooking utensils.
  • glass parts have a certain structural strength. Embedding glass parts in the installation groove of the door frame can further improve the structural strength of the door frame, ensure that the door frame has sufficient stiffness, and further improve the reliability of the door hook in the process of opening and closing the door. , extend the service life of door components.
  • the decorative part is a glass part.
  • the decorative parts are limited to glass parts.
  • the glass parts are transparent parts, which can improve the aesthetics and appearance of the cooking utensil.
  • glass parts have a certain structural strength. Embedding glass parts in the installation groove of the door frame can further improve the structural strength of the door frame, ensure that the door frame has sufficient stiffness, and further improve the reliability of the door hook in the process of opening and closing the door. , extend the service life of door components.
  • the door body assembly further includes a door panel, which is provided on a side of the door frame away from the decorative component, and at least one door hook is located between the side wall of the door frame and the side wall of the door panel.
  • the door body assembly also includes a door panel.
  • the door panel is provided on the side of the door frame away from the decorative piece, and at least one door hook is located between the side wall of the door frame and the side wall of the door panel. That is to say , at least one door hook is clamped between the door frame and the door panel, further improving the stability and reliability of the door hook during the door opening and closing process, and increasing the service life of the door hook.
  • At least one door hook and the door frame are integrated into a structure. Compared with arranging the door hook on the door panel in the related art, the problem of deformation of the door panel caused by arranging the door hook on the door panel during the installation process can be avoided. Lifting the door The installation accuracy of body components.
  • the door body assembly also includes a door seal, which is located on the side of the door panel away from the door frame and is connected to the door frame and door panel.
  • the door body assembly also includes a door seal.
  • the door seal is located on the side of the door panel away from the door frame, and the door seal is connected to the door frame and the door panel to seal the gap between the door panel and the door frame. Prevent moisture, steam, ingredients or external dust in the cooking cavity from entering the gap, and improve the cleanliness and service life of the door assembly.
  • the door seal is provided with a through hole, the through hole corresponds to the door hook one by one, and the door hook passes through the through hole.
  • the door seal is provided with a through hole, and the through hole corresponds to the door hook one-to-one.
  • the door hook is passed through the through hole to realize the assembly of the door body assembly.
  • the door body assembly further includes a reinforcing part, which is provided at an end of the door hook close to the door frame and connected to the door frame.
  • the door body assembly also includes a reinforcing part.
  • the reinforcing part is disposed at an end of the door hook close to the door frame, and the reinforcing part is connected to the door frame. That is to say, the reinforcing part is disposed between the door hook and the door frame.
  • the connection point of the door frame thereby further ensuring the structural strength of the door hook and the connection strength between the door hook and the door frame, thereby ensuring the effective cooperation between the door hook and the rotating part of the cooking utensil during the door opening and closing process, and further extending the door hook service life.
  • the reinforcement part and the door hook are an integral structure. Since the door hook and the door frame are an integral structure, that is to say, the reinforcement part and the door hook are integrated.
  • the hook and the door frame are set as an integrated structure to further ensure the structural strength of the door hook and extend the service life of the door hook. Moreover, the connection strength between the door hook and the door frame can be further improved, thereby ensuring effective cooperation between the door hook and the rotating part of the cooking appliance during the door opening and closing process.
  • the integrated structure facilitates mass production of door components, thereby reducing the production difficulty of door components, improving production efficiency, and further reducing the production cost of door components.
  • the reinforcing part and the door hook are integrated structures.
  • the reinforcement part and the door hook are defined as an integrated structure. Since the door hook and the door frame are an integrated structure, that is to say, the reinforcement part, the door hook and the door frame are set as an integrated structure to further ensure the structure of the door hook. Strength, extending the service life of the door hook. Moreover, the connection strength between the door hook and the door frame can be further improved, thereby ensuring effective cooperation between the door hook and the rotating part of the cooking appliance during the door opening and closing process.
  • the integrated structure facilitates mass production of door components, thereby reducing the production difficulty of door components, improving production efficiency, and further reducing the production cost of door components.
  • the door body assembly further includes a handle, and the handle is provided on the decorative piece.
  • the door assembly also includes a handle.
  • the handle is provided on the decorative piece.
  • the decorative piece is provided with at least one first installation hole; the handle is provided with at least one second installation hole; the door body assembly further includes at least one fastener, and the fasteners pass through the first One mounting hole and a second mounting hole to connect the handle to the trim piece.
  • the door body assembly further includes at least one fastener.
  • at least one first mounting hole is provided on the decorative piece
  • at least one second mounting hole is provided on the handle
  • one fastener is provided. Pass through a first mounting hole and a second mounting hole respectively to install the handle on the trim piece. The fixed installation of the handle through the cooperation of the fastener with the first installation hole and the second installation hole can improve the installation stability between the handle and the decorative part, ensuring that the user can open and close the door assembly through the handle.
  • first mounting holes there are multiple first mounting holes, and the number of second mounting holes and fasteners are arranged in one-to-one correspondence with the first mounting holes, thereby further improving the installation stability and stability between the handle and the decorative piece. Reliability ensures that users can open and close the door assembly through the handle.
  • first mounting holes there are multiple first mounting holes, and the second mounting holes and fasteners correspond to the first mounting holes one-to-one.
  • the number of first mounting holes is limited to a plurality, and the number of second mounting holes and fasteners are provided in one-to-one correspondence with the first mounting holes, thereby further improving the installation between the handle and the decorative piece. Stability and reliability ensure that users can open and close the door assembly through the handle.
  • the door assembly according to the second embodiment of the present application includes: a door frame; a door hook, the door hook includes a connecting plate and a plurality of hooks provided on the connecting plate, and the connecting plate is connected to the door frame; Door seal, the door seal is arranged on the inner side of the door frame, and the hook body is arranged on the door seal.
  • the door hook is connected to the door frame to avoid direct mechanical connection between the door hook and the door seal, which is beneficial to improving the structural strength of the door seal, and multiple hooks are provided on the connecting plate to The connection plate is connected to the door frame, making the assembly structure simple and improving the assembly efficiency.
  • door assembly according to the above-mentioned second aspect embodiment of the present application may also have the following additional technical features:
  • the connecting plate is integrally formed on the door frame; or the connecting plate is snap-connected to the door frame.
  • the hook body is integrally formed on the connecting plate, or the hook body is detachably connected to the connecting plate.
  • one of the connecting plate and the door frame is provided with a hook, and the other is provided with a protrusion, and the hook and the protrusion are detachably engaged.
  • each hook there are two hooks and each includes an arm portion and a hook portion.
  • the fixed ends of the arm portions of the two hooks are spaced apart from the door frame.
  • the two arms The hook portions are respectively provided on opposite sides of the free ends of the portions.
  • the connecting plate is provided with two latching protrusions corresponding to the two hooks. Each of the latching protrusions is inserted into the hook portion. Toward the side of the fixed end.
  • one of the door frame and the connecting plate is provided with a positioning hole, and the other is provided with a positioning post inserted into the positioning hole.
  • the arrangement direction of the fixed end and the corresponding free end is Parallel to the axis of the positioning hole.
  • the door frame is provided with an elastic member, and the elastic member is provided on a side of the latch facing away from the hook portion. And used to apply elastic force toward the hook portion to the latching protrusion.
  • the elastic member is a bent plate and includes a first plate segment and a second plate segment.
  • the first plate segment connects the second plate segment and the door frame.
  • the second plate segment is connected to the door frame.
  • the plate segments offset the connecting plate.
  • the connecting plate is a long strip plate, and a plurality of hooks are arranged along the length direction of the connecting plate.
  • a cooking utensil including the door assembly provided by any of the above technical solutions, and therefore has all the beneficial technical effects of the door assembly, which will not be described again here.
  • the cooking utensil provided according to the above technical solution of the present application also has the following additional technical features:
  • the cooking utensil further includes an utensil body and a control panel, wherein the utensil body is provided with a cooking cavity, the door assembly is provided on the utensil body and can open or close the cooking cavity, and the control panel is provided on the utensil. body, and located on the side where the door assembly is located.
  • the cooking utensil also includes an utensil body and a control panel.
  • the utensil body is provided with a cooking cavity
  • the door assembly is releasably provided on the utensil body, so that the user can open the door body. Component to pick and place ingredients in the cooking cavity.
  • the control panel is provided on the appliance body. It can be understood that the control panel is electrically connected to the main control board of the cooking appliance, so that the user can adjust the heating time, heating temperature, heating mode, etc. of the cooking appliance through the control panel.
  • the control panel is disposed on the side where the door assembly is located. That is to say, the control panel and the door assembly are disposed on the same side of the appliance body. This allows the user to operate the cooking appliance working mode through the control panel while optimizing the performance of the cooking appliance. structure.
  • the cooking appliance includes a microwave oven, a steam oven or an all-in-one micro-steaming and baking machine.
  • Figure 1 shows one of the structural schematic diagrams of a door body assembly according to an embodiment of the present application
  • Figure 2 shows the second structural schematic diagram of the door assembly according to an embodiment of the present application
  • Figure 3 shows the third structural schematic diagram of the door body assembly according to an embodiment of the present application
  • Figure 4 shows the fourth structural schematic diagram of the door body assembly according to an embodiment of the present application
  • Figure 5 shows the fifth structural schematic diagram of the door body assembly according to an embodiment of the present application.
  • Figure 6 shows the sixth structural schematic diagram of the door body assembly according to an embodiment of the present application.
  • Figure 7 shows the seventh structural schematic diagram of the door assembly according to an embodiment of the present application.
  • Figure 8 shows the eighth structural schematic diagram of the door body assembly according to an embodiment of the present application.
  • Figure 9 shows the ninth structural schematic diagram of the door body assembly according to an embodiment of the present application.
  • Figure 10 shows an exploded view of a door assembly according to one embodiment of the present application
  • Figure 11 shows a tenth structural schematic diagram of a door assembly according to an embodiment of the present application.
  • Figure 12 shows a schematic structural diagram of a cooking appliance according to an embodiment of the present application.
  • Figure 13 shows one of the partial structural schematic diagrams of a cooking appliance according to an embodiment of the present application
  • Figure 14 shows a schematic structural diagram of a rotating member according to an embodiment of the present application.
  • Figure 15 shows the second partial structural schematic diagram of a cooking appliance according to an embodiment of the present application.
  • Figure 16 shows the third partial structural schematic diagram of a cooking appliance according to an embodiment of the present application.
  • Figure 17 shows a schematic diagram of the door assembly and interlocking assembly according to an embodiment of the present application.
  • Figure 18 shows a schematic structural diagram of a door assembly according to an embodiment of the present application.
  • Figure 19 shows an exploded view of a door body assembly according to an embodiment of the present application.
  • Figure 20 shows a schematic diagram of the matching structure of the door frame and the door hook according to the embodiment of the present application
  • Figure 21 shows an enlarged structural schematic diagram of the area circled A in Figure 20;
  • Figure 22 shows a cross-sectional view along the direction shown on line B-B of Figure 20;
  • Figure 23 shows a schematic structural diagram of the door frame of the door body assembly according to an embodiment of the present application.
  • Figure 24 shows an enlarged structural schematic diagram of the area circled C in Figure 23;
  • Figure 25 shows a partial rear view of a door frame according to an embodiment of the present application.
  • Figure 26 shows a partial front view of a door frame according to an embodiment of the present application.
  • Figure 27 shows a partial structural schematic diagram of a door frame according to an embodiment of the present application.
  • Figure 28 shows a schematic structural diagram of a door hook according to an embodiment of the present application.
  • Figure 29 shows a schematic structural diagram of a door hook according to an embodiment of the present application.
  • Figure 30 shows a schematic structural diagram of a door hook according to an embodiment of the present application.
  • Figure 31 shows a schematic structural diagram of a door hook according to an embodiment of the present application.
  • 100 door body assembly 110 door frame, 120 door hook, 121 first door hook, 122 second door hook, 130 decorative parts, 131 first mounting hole, 140 door panel, 150 door seal, 151 through hole, 160 reinforcement, 170 Handle, 171 second mounting hole, 180 fastener, 200 cooking utensil, 210 utensil body, 220 control panel, 230 first mounting bracket, 240 second mounting bracket, 250 rotating part, 251 rotating body, 252 first rotating arm , 253 second rotating arm, 254 rotating groove, 260 buffer piece, 270 adapter groove, 280 adapter part,
  • the door assembly 100 and the cooking appliance 200 provided according to some embodiments of the present application are described below with reference to FIGS. 1 to 16 .
  • an embodiment of the first aspect of the present application provides a door assembly 100.
  • the door assembly 100 includes: a door frame 110 ; At least one door hook 120, at least one door hook 120 and the door frame 110 are integrated structures.
  • the door assembly 100 provided by the embodiment of the present application includes a door frame 110 and at least one door hook 120.
  • the at least one door hook 120 is an integral structure with the door frame 110. That is to say, at least one door hook 120 is provided on the door frame 110. .
  • the door frame 110 is used to fix the door panel 140, door seal 150 and other structures. It is the frame structure of the door body assembly 100 and has a certain structural strength.
  • At least one door hook 120 is arranged on the door frame 110. Compared with related In terms of technology, arranging the door hook 120 on the door panel 140 can avoid the problem of deformation of the door panel 140 during the installation process caused by arranging the door hook 120 on the door panel 140 , thereby improving the installation accuracy of the door assembly 100 .
  • At least one door hook 120 and the door frame 110 are of an integrated structure. It can be understood that the integrated structure has good mechanical properties, thereby improving the connection strength between the door hook 120 and the door frame 110, thereby ensuring that the door hook is securely connected during the door opening and closing process. 120 and the rotating member 250 of the cooking appliance 200.
  • the door frame 110 has a certain structural strength. At least one door hook 120 and the door frame 110 are provided as an integrated structure, thereby improving the structural strength of the door hook 120 and ensuring the service life of the door hook 120 .
  • arranging at least one door hook 120 and the door frame 110 as an integrated structure is also beneficial to mass production of the door assembly 100 , reduces production difficulty, improves production efficiency, and further reduces the production cost of the door assembly 100 .
  • the door hook 120 includes a first door hook 121 and a second door hook 122.
  • the first door hook 121 and the second door hook 122 are spaced apart along the height direction. That is to say, the first door hook 121 is an upper door hook. 120, the second door hook 122 is the lower door hook 120.
  • the first door hook 121 and the second door hook 122 can be integrated with the door frame 110 to further simplify the installation process of the door assembly 100, reduce the number of parts, improve the installation accuracy, and reduce the load of the door assembly 100. Cost of production.
  • At least one door hook 120 includes a first door hook 121 and a second door hook 121.
  • the hooks 122, the first door hook 121 and the second door hook 122 are arranged at intervals along the height direction of the door frame 110; the first door hook 121 and the second door hook 122 are integrated with the door frame 110.
  • the door hook 120 includes a first door hook 121 and a second door hook 122.
  • the first door hook 121 and the second door hook 122 are spaced apart along the height direction. That is to say, the first door hook 121
  • the second door hook 122 is the upper door hook 120 and the second door hook 122 is the lower door hook 120 .
  • the first door hook 121 and the second door hook 122 can be integrated with the door frame 110 to further simplify the installation process of the door assembly 100, reduce the number of parts, improve the installation accuracy, and reduce the load of the door assembly 100. Cost of production.
  • the connection strength between the first door hook 121, the second door hook 122 and the door frame 110 can be improved, so that during the door opening and closing process , ensuring effective cooperation between the first door hook 121 and the second door hook 122 and the rotating member 250 of the cooking appliance 200 .
  • the door frame 110 has a certain structural strength.
  • the first door hook 121 and the second door hook 122 are provided as an integral structure with the door frame 110, thereby improving the structural strength of the first door hook 121 and the second door hook 122 and ensuring the first door hook 121 and the second door hook 122.
  • first door hook 121 and the second door hook 122 and the door frame 110 are also beneficial to the mass production of the door body assembly 100, reduces production difficulty, improves production efficiency, and further reduces the cost of the door body assembly 100. production costs.
  • the door frame 110 is provided with a mounting groove; the door body assembly 100 also includes a decorative piece 130, the decorative piece 130 is located on the door frame 110 away from the door hook 120 On one side, a part of the decorative piece 130 is embedded in the installation groove.
  • the door body assembly 100 also includes a decorative piece 130.
  • the decorative piece 130 is provided on a side of the door frame 110 away from the door hook 120. It can be understood that the door hook 120 needs to be connected with the cooking utensil.
  • the rotating member 250 of 200 cooperates, so the door hook 120 is set close to the cooking cavity of the cooking appliance 200, and the decorative part 130 is set on the side of the door frame 110 away from the door hook 120. That is to say, the decorative part 130 is set on the door body assembly 100 on the outside, i.e. the side facing away from the cooking cavity.
  • the door frame 110 is provided with an installation groove, and a part of the decorative part 130 is embedded in the installation groove, thereby ensuring the installation stability of the decorative part 130.
  • the decorative part 130 is a glass part.
  • the glass part is a transparent part, which can improve the aesthetics and appearance of the cooking utensil 200 .
  • glass parts have a certain structural strength. Embedding the glass parts in the installation groove of the door frame 110 can further improve the structural strength of the door frame 110, ensure that the door frame 110 has sufficient rigidity, and further improve the door hook 120 during the door opening and closing process. The reliability is high and the service life of the door assembly 100 is extended.
  • the decorative part 130 is a glass part.
  • the decorative part 130 is limited to a glass part.
  • the glass part is a transparent part, which can improve the aesthetics and appearance of the cooking utensil 200 .
  • glass parts have a certain structural strength. Embedding the glass parts in the installation groove of the door frame 110 can further improve the structural strength of the door frame 110, ensure that the door frame 110 has sufficient rigidity, and further improve the door hook 120 during the door opening and closing process. The reliability is high and the service life of the door assembly 100 is extended.
  • the door body assembly 100 further includes a door panel 140 .
  • the door panel 140 is disposed on a side of the door frame 110 away from the decorative component 130 .
  • At least one door hook 120 is disposed on a side of the door frame 110 . between the wall and the side wall of the door panel 140.
  • the door body assembly 100 further includes a door panel 140 .
  • the door panel 140 is disposed on a side of the door frame 110 away from the decorative component 130 , and at least one door hook 120 is located between the side wall of the door frame 110 and the door panel 140 between the side walls, that is to say, at least one door hook 120 is sandwiched between the door frame 110 and the door panel 140 to further improve the stability and reliability of the door hook 120 during the door opening and closing process and increase the service life of the door hook 120 .
  • At least one door hook 120 is integrated with the door frame 110. Compared with the related art of arranging the door hook 120 on the door panel 140, it is possible to avoid arranging the door hook 120 on the door panel 140 and causing the door panel 140 to be damaged during installation. The problem of deformation occurs and the installation accuracy of the door assembly 100 is improved.
  • the door body assembly 100 further includes a door seal 150 .
  • the door seal 150 is located on the side of the door panel 140 away from the door frame 110 and is connected with the door frame 110 and the door panel 140 . connected.
  • the door body assembly 100 further includes a door seal 150.
  • the door seal 150 is located on the door panel 140 away from the door frame. 110 on one side, and the door seal 150 is connected to the door frame 110 and the door panel 140 to seal the gap between the door panel 140 and the door frame 110 to prevent moisture, steam, food or external dust in the cooking cavity from entering the gap, and improve the door assembly. 100% cleanliness and service life.
  • the door seal 150 is provided with a through hole 151 , the through hole 151 corresponds to the door hook 120 one-to-one, and the door hook 120 passes through the through hole 151 .
  • the door seal 150 is provided with a through hole 151 , and the through hole 151 corresponds to the door hook 120 one-to-one.
  • the door hook 120 is passed through the through hole 151 to realize the door assembly 100 assembly.
  • the door assembly 100 further includes a reinforcing part 160 .
  • the reinforcing part 160 is provided at an end of the door hook 120 close to the door frame 110 and is connected with the door frame 110 connected.
  • the door body assembly 100 further includes a reinforcing part 160.
  • the reinforcing part 160 is provided at an end of the door hook 120 close to the door frame 110, and the reinforcing part 160 is connected to the door frame 110. That is to say, the reinforcing part 160 is connected to the door frame 110.
  • the reinforcing part 160 is provided at the connection between the door hook 120 and the door frame 110, thereby further ensuring the structural strength of the door hook 120 and the connection strength between the door hook 120 and the door frame 110, thereby ensuring that the door hook 120 is in contact with the cooking machine during the door opening and closing process.
  • the effective cooperation between the rotating parts 250 of the appliance 200 further extends the service life of the door hook 120.
  • the reinforcing part 160 and the door hook 120 are an integral structure. Since the door hook 120 and the door frame 110 are an integral structure, that is to say, the reinforcing part 160, the door hook 120 and the door frame 110 are provided as an integral structure to further ensure that The structural strength of the door hook 120 extends the service life of the door hook 120 . Moreover, the connection strength between the door hook 120 and the door frame 110 can be further improved, thereby ensuring effective cooperation between the door hook 120 and the rotating member 250 of the cooking appliance 200 during the door opening and closing process.
  • the integrated structure facilitates mass production of the door assembly 100, thereby reducing the production difficulty of the door assembly 100, improving production efficiency, and further reducing the production cost of the door assembly 100.
  • the reinforcing part 160 and the door hook 120 have an integrated structure.
  • the reinforcing part 160 and the door hook 120 are defined as an integrated structure. Since the door hook 120 and the door frame 110 are of an integrated structure, that is to say, the reinforcing part 160, the door hook 120 and the door frame 110 are configured as an integrated structure. This further ensures the structural strength of the door hook 120 and extends the service life of the door hook 120 . Moreover, the connection strength between the door hook 120 and the door frame 110 can be further improved, thereby ensuring effective cooperation between the door hook 120 and the rotating member 250 of the cooking appliance 200 during the door opening and closing process.
  • the integrated structure facilitates mass production of the door assembly 100, thereby reducing the production difficulty of the door assembly 100, improving production efficiency, and further reducing the production cost of the door assembly 100.
  • Embodiment 4 is a diagrammatic representation of Embodiment 4:
  • the door assembly 100 further includes a handle 170 , and the handle 170 is provided on the decorative piece 130 .
  • the door body assembly 100 also includes a handle 170.
  • the handle 170 is provided on the decorative member 130.
  • the cooking appliance 200 of the body assembly 100 is convenient to use.
  • the decorative piece 130 is provided with at least one first mounting hole 131; the handle 170 is provided with at least one second mounting hole 171; the door assembly 100 also includes At least one fastener 180 passes through the first mounting hole 131 and the second mounting hole 171 respectively to connect the handle 170 with the decorative part 130 .
  • the door body assembly 100 further includes at least one fastener 180.
  • the decorative member 130 is provided with at least one first mounting hole 131
  • the handle 170 is provided with at least one second mounting hole. 171
  • a fastener 180 passes through a first mounting hole 131 and a second mounting hole 171 respectively, thereby mounting the handle 170 on the decorative piece 130.
  • the handle 170 is fixedly installed by the fastener 180 cooperating with the first mounting hole 131 and the second mounting hole 171 , which can improve the installation stability between the handle 170 and the decorative part 130 and ensure that the user uses the handle 170 to perform door body assembly. 100 switch operations.
  • first mounting holes 131 there are multiple first mounting holes 131 , and the number of second mounting holes 171 and fasteners 180 are provided in one-to-one correspondence with the first mounting holes 131 , thereby further improving the connection between the handle 170 and the decorative piece 130 .
  • the installation stability and reliability of the installation space ensures that the user can perform opening and closing operations of the door assembly 100 through the handle 170.
  • first mounting holes 131 there are multiple first mounting holes 131 , and the second mounting holes 171 and fasteners 180 correspond to the first mounting holes 131 one-to-one.
  • the number of the first mounting holes 131 is limited to a plurality, and the number of the second mounting holes 171 and fasteners 180 are provided in one-to-one correspondence with the first mounting holes 131 , thereby further improving the connection between the handle 170 and the decoration.
  • the installation stability and reliability between the components 130 ensure that the user can perform opening and closing operations of the door assembly 100 through the handle 170 .
  • a cooking utensil 200 is provided, including the door assembly 100 provided in any of the above embodiments, and therefore has all the beneficial technical effects of the door assembly 100, which will not be described again here.
  • the cooking appliance 200 further includes an appliance body 210 and a control panel 220.
  • the appliance body 210 is provided with a cooking cavity
  • the door assembly 100 is provided on the appliance body 210. , and can open or close the cooking cavity.
  • the control panel 220 is provided on the appliance body 210 and is located on the side where the door assembly 100 is located.
  • the cooking utensil 200 also includes a utensil body 210 and a control panel 220.
  • the utensil body 210 is provided with a cooking cavity
  • the door assembly 100 is releasably disposed on the utensil body 210, so that The user can access and place the ingredients in the cooking cavity by opening the door assembly 100 .
  • the control panel 220 is provided on the appliance body 210. It can be understood that the control panel 220 is electrically connected to the main control board of the cooking appliance 200, so that the user can control the heating time, heating temperature, heating mode, etc. of the cooking appliance 200 through the control panel 220. Make adjustments.
  • the control panel 220 is disposed on the side where the door assembly 100 is located. That is to say, the control panel 220 and the door assembly 100 are disposed on the same side of the appliance body 210, thereby facilitating the user to operate the cooking appliance 200 working mode through the control panel 220. At the same time, the structure of the cooking appliance 200 is optimized.
  • the cooking appliance 200 includes a microwave oven, a steam oven or an integrated micro-steaming and baking machine.
  • Embodiment 6 is a diagrammatic representation of Embodiment 6
  • the cooking appliance 200 further includes a first mounting bracket 230 and a second mounting bracket 240, wherein the first mounting bracket 230 is provided on the appliance body 210, And is located at the open end of the cooking cavity.
  • the second mounting bracket 240 is connected to the first mounting bracket and is enclosed with the first mounting bracket 230 to form a mounting cavity.
  • the rotating member 250 is rotatably mounted on the first mounting bracket 230. A part of 250 is located in the installation cavity, and the movement of the rotating member 250 can cooperate with the door hook 120 so that the door hook 120 moves between the opening position and the closing position.
  • the cooking appliance 200 further includes a first mounting bracket 230 and a second mounting bracket 240.
  • the first mounting bracket 230 is provided on the appliance body 210, and the first mounting bracket 230 is located on the cooking cavity.
  • the open end it can be understood that when the user opens the door assembly 100, the food ingredients can be taken and placed through the open end of the cooking cavity.
  • the first mounting bracket 230 is connected to the second mounting bracket 240 to form a mounting cavity, and the rotating member 250 is located in the mounting cavity. That is to say, the mounting cavity provides an accommodation space for the rotating member 250 . This protects the rotating part 250 and prevents external force from directly acting on the rotating part 250, thereby extending the service life of the rotating part 250. In addition, by locating part of the rotating part 250 in the installation cavity, dirt, impurities, etc. can be reduced from entering the rotating part 250, ensuring the cleanliness of the rotating part 250, thereby ensuring the reliability of the cooperation of various parts of the cooking appliance 200.
  • the movement of the rotating member 250 can cooperate with the door hook 120 so that the door hook 120 moves between the opening position and the closing position.
  • the door assembly 100 when the door assembly 100 is closed, the user pushes the door assembly 100, and the door assembly 100 drives the door hook 120 to move. After the door hook 120 moves to a certain position, it contacts the rotating member 250, and pushes the rotating member 250 relative to The first mounting bracket 230 rotates.
  • the door hook 120 When the rotating member 250 rotates to a certain position, the door hook 120 cooperates with the rotating member 250, so that the rotating member 250 can pull the door hook 120 to the closing position during rotation, that is, the door assembly 100 is in the closed position.
  • the door assembly 100 When the door assembly 100 is opened, the user pulls the handle 170 of the door assembly 100, and the door assembly 100 drives the door hook 120 to move. Since the door hook 120 cooperates with the rotating member 250, during the process of opening the door, the door hook 120 drives the rotation. The member 250 rotates, and the rotating member 250 can push the door hook 120 during the rotation until the door hook 120 is separated from the rotating member 250 and the door assembly 100 is in the open position.
  • the rotating member 250 further includes a rotating body 251, a first rotating arm 252 and a second rotating arm 253, wherein the first rotating arm 252 is connected to the rotating body 251,
  • the second rotating arm 253 is connected to the rotating body 251 and forms a rotating groove 254 spaced apart from the first rotating arm 252.
  • a part of the door hook 120 can be located in the rotating groove 254, so that the rotating member 250 can cooperate with the door hook 120.
  • the rotating member 250 is defined to include a rotating body 251, a first rotating arm 252 and a second rotating arm 253.
  • the first rotating arm 252 and the second rotating arm 253 are connected to the rotating body 251, and The first rotating arm 252 and the second rotating arm 253 are spaced apart, The first rotating arm 252 and the second rotating arm 253 form a rotating groove 254, and a part of the door hook 120 can be located in the rotating groove 254, so that the rotating member 250 can cooperate with the door hook 120.
  • the door assembly 100 when the door assembly 100 is closed, the user pushes the door assembly 100, and the door assembly 100 drives the door hook 120 to move. After the door hook 120 moves to a certain position, it contacts the first rotating arm 252 and promotes the first rotation. The arm 252 rotates relative to the first mounting bracket 230. At the same time, the first rotating arm 252 drives the rotating body 251 and the second rotating arm 253 to rotate. When the door hook 120 pushes the first rotating arm 252, a part of the door hook 120 slides into the rotating groove 254, so that the rotating member 250 can pull the door hook 120 to the closing position during the rotation, that is, the door body assembly 100 in the closed position.
  • the door assembly 100 When the door assembly 100 is opened, the user pulls the handle 170 of the door assembly 100, and the door assembly 100 drives the door hook 120 to move. Since a part of the door hook 120 is located in the rotation groove 254, during the process of opening the door, the door hook 120 drives the door hook 120 to move.
  • the rotating member 250 rotates, and during the rotation process, the rotating member 250 can push the door hook 120 until a part of the door hook 120 moves out of the rotating groove 254, that is, the door assembly 100 is in the open position.
  • the door hook 120 is provided with a protrusion, and the protrusion can be inserted into the rotating groove 254 so that the rotating member 250 can cooperate with the door hook 120 .
  • the door hook 120 is provided with a protrusion, and the protrusion can be inserted into the rotating groove 254 so that the rotating member 250 can cooperate with the door hook 120 .
  • the door assembly 100 when the door assembly 100 is closed, the user pushes the door assembly 100, and the door assembly 100 drives the door hook 120 to move. After the door hook 120 moves to a certain position, it contacts the first rotating arm 252 and promotes the first rotation. The arm 252 rotates relative to the first mounting bracket 230. At the same time, the first rotating arm 252 drives the rotating body 251 and the second rotating arm 253 to rotate. When the door hook 120 pushes the first rotating arm 252, the protrusion slides into the rotating groove 254, so that the rotating member 250 can pull the door hook 120 to the closing position during the rotating process, that is, the door body assembly 100 is in the closed position. .
  • the door assembly 100 When the door assembly 100 is opened, the user pulls the handle 170 of the door assembly 100, and the door assembly 100 drives the door hook 120 to move. Since a part of the door hook 120 is located in the rotation groove 254, during the process of opening the door, the door hook 120 drives the door hook 120 to move.
  • the rotating member 250 rotates, and during the rotation process, the rotating member 250 can push the door hook 120 until the protrusion moves out of the rotating groove 254, that is, the door assembly 100 is in the open position.
  • the cooking utensil 200 further includes a buffer member 260.
  • the buffer member 260 is provided on the first mounting bracket 230 and is located in the installation cavity.
  • the buffer member 260 and The rotating member 250 is connected to slow down the rotation speed of the rotating member 250 in a direction away from the door hook 120 .
  • the cooking utensil 200 further includes a buffer 260 .
  • the buffer 260 is disposed on the first mounting bracket 230 , and the buffer 260 is located in the installation cavity, so that the installation cavity is the buffer 260
  • the accommodation space is provided to protect the buffer member 260 and prevent external force from directly acting on the buffer member 260, thereby extending the service life of the buffer member 260.
  • the buffer member 260 in the installation cavity, dirt, impurities, etc. can be reduced from entering the buffer member 260, ensuring the cleanliness of the buffer member 260, thereby ensuring the reliability of the cooperation of various components of the cooking utensil 200.
  • the buffer member 260 is connected to the rotating body 251 , and the buffer member 260 can slow down the rotation speed of the rotating member 250 when it rotates away from the door hook 120 . It can be understood that when the door assembly 100 is opened, the door hook 120 pulls the rotating member 250 to move closer to the door hook 120 , and when the door assembly 100 is closed, the door hook 120 pushes the rotating member 250 to move away from the door hook 120 . direction movement. That is to say, the buffer member 260 can slow down the rotation speed of the rotating member 250 when closing the door, thereby slowing down the closing speed of the door assembly 100, reducing the noise generated when closing the door, and improving the user experience.
  • the buffer member 260 includes a damper.
  • the rotating body 251 is provided with an adapter groove 270 and an adapter part 280.
  • the adapter part 280 is located in the adapter groove 270, and the buffer member 260 passes through the adapter.
  • the part 280 is connected with the rotating body 251.
  • the rotating body 251 is provided with an adapter slot 270 and an adapter part 280.
  • the adapter part 280 is disposed in the adapter groove 270, and the buffer 260 communicates with the rotating body through the adapter part 280.
  • the body 251 is connected, that is to say, the adapter groove 270 has the function of accommodating the adapter part 280 and connecting the adapter part 280 to ensure the matching size of the adapter part 280 and the buffer member 260 .
  • the adapter part 280 and the adapter slot 270 are detachably connected. This arrangement can reduce the processing difficulty of the product, facilitate mass production of the adapter part 280, and help reduce the production cost of the product. Since the adapter part 280 and the adapter slot 270 are detachably connected, when the adapter part 280 is severely worn, the adapter part 280 can be replaced to ensure normal use of the product, which is beneficial to reducing subsequent maintenance and repair costs of the product. Maintenance costs.
  • the door assembly 100 may include: a door frame 110 , a door hook 120 and a door seal 140 .
  • the door hook 120 is connected to the door frame 110.
  • the door hook 120 and the door frame 110 can be separate parts connected together to facilitate production and processing.
  • the door hook 120 can be integrally formed on the door frame 110, which can reduce the assembly process. , to improve assembly efficiency.
  • the door hook 120 is formed as a fixed door hook 120, that is, it does not move or rotate relative to the door frame 110 as the door is opened and closed.
  • the door hook 120 includes a connecting plate 23 and a plurality of hook bodies 21.
  • the hook bodies 21 are used to cooperate with equipment having a door body assembly 100.
  • the door body assembly 100 can be used for a cooking appliance 200.
  • a microwave oven is used to open and close the holding cavity of the body of the cooking appliance 200 .
  • the machine body may include an interlocking component 300.
  • the hook 21 may cooperate with the interlocking component 300 to implement functions such as door locking and door closing status monitoring to ensure that the cooking utensil 200 can operate normally. Work.
  • a plurality of hooks 21 are provided on the connecting plate 23, and the connecting plate 23 is used to connect with the door frame 110.
  • the connecting plate 23 can be integrally formed on the door frame 110, or the connecting plate 23 and the door frame 110 can be connected through clips. Connected together by means of joints, fasteners, etc. That is to say, multiple hooks 21 are installed on the door frame 110 through the same connecting plate 23, and there is no need for multiple door hooks 21 to be individually fixed to the door frame 110, which greatly simplifies the assembly process and improves assembly efficiency.
  • the relative position arrangement is also more stable and accurate.
  • the hook body 21 can be integrally formed on the connecting plate 23 to further reduce the assembly process, improve assembly efficiency, simplify the structure, and improve the connection reliability between the hook body 21 and the connecting plate 23 .
  • the hook body 21 and the connecting plate 23 can be detachably connected. On the one hand, it is easy to replace when the hook body 21 is damaged. On the other hand, for equipment with different numbers of hook bodies 21 required, it can be adjusted as needed. The number of hooks 21 installed on the connecting plate 23 improves the versatility of the connecting plate 23 and the hooks 21 and is beneficial to reducing production costs.
  • the door seal 140 is provided on the inner side of the door frame 110 , that is, the side facing away from the user and the side facing the matching interlock assembly 300 and other structures.
  • the door seal 140 can be installed on the door frame 110, and the hook body 21 passes through the door seal 140.
  • the door seal 140 is provided with a through hole 31, and the hook body 21 is passed through the through hole 31, so that the hook body 21 can be extended to facilitate interlocking.
  • Components 300 and other structural connections are provided on the inner side of the door frame 110 , that is, the side facing away from the user and the side facing the matching interlock assembly 300 and other structures.
  • the door seal 140 can be installed on the door frame 110, and the hook body 21 passes through the door seal 140.
  • the door seal 140 is provided with a through hole 31, and the hook body 21 is passed through the through hole 31, so that the hook body 21 can be extended to facilitate interlocking. Components 300 and other structural connections.
  • the door hook 120 is directly connected to the door frame 110 and not directly connected to the door seal 140 .
  • the door body assembly 100 of the embodiment of the present application is simpler to install, and can avoid damage to the structure and shape of the door seal 140, ensuring that The door seal 140 has structural strength and stability, and the door hook 120 will not cause the door seal 140 to deform during the installation process, which is beneficial to ensuring the installation accuracy of the door hook 120.
  • the door hook 120 is connected to the door frame 110 to avoid direct mechanical connection between the door hook 120 and the door seal 140 , which is beneficial to improving the structural strength of the door seal 140 , and is provided with multiple hooks 21
  • the connecting plate 23 is connected to the door frame 110 through the connecting plate 23, so that the assembly structure is simple and the assembly efficiency can be improved.
  • the connecting plate 23 and the door frame 110 are separate parts, as shown in FIGS. 20-22 , the connecting plate 23 and the door frame 110 can be snap-connected.
  • the snap connection structure is easy and quick to assemble, can greatly increase the installation speed, save assembly time, and eliminates screws and other structures, reducing the number of assembly parts and production costs, while ensuring the reliability of the connection between the door hook 120 and the door frame 110.
  • the specific structure of the snap-in connection structure can be flexibly set according to the actual situation.
  • the snap-in connection structure can be a fit between a buckle and a bayonet, a fit between the hook 11 and the protrusion 22, etc.
  • the door frame 110 is provided with a hook 11, and the connecting plate 23 is provided with a protrusion 22.
  • the hook 11 and the protrusion 22 are detachably engaged and engaged.
  • the connecting plate 23 is connected to the door frame 110, thereby achieving a reliable connection between the door hook 120 and the door frame 110.
  • the hook 11 and the latching protrusion 22 are easy and quick to assemble, enabling quick assembly, and the detachable connection method facilitates the door hook 120 subsequent repairs and replacements.
  • the positions of the hook 11 and the protrusion 22 can be interchanged.
  • the connecting plate 23 can be provided with the hook 11, and the door frame 110 can be provided with the protrusion 22. This can also be achieved by the connection between the hook 11 and the protrusion 22.
  • the snap connection realizes the connection between the connecting plate 23 and the door frame 110 .
  • the hook 11 may include an arm 111 and a hook 112.
  • the arm 111 has a fixed end and a free end, where the fixed end is connected to the door frame 110, and the arm 111 has a fixed end and a free end. 111 can undergo elastic deformation under the action of external force, so that the free end can move relative to the fixed end.
  • the hook portion 112 is provided at the free end so that the hook portion 112 used to cooperate with the latching protrusion 22 can move to facilitate the latching assembly.
  • hooks 11 there may be two hooks 11 , and the two hooks 11 are spaced apart, that is, the two fixing parts are spaced apart from the door frame 110 , and the two automatic hooks 11 are spaced apart from each other. Hook portions 112 are respectively provided on opposite sides of the ends.
  • the connecting plate 23 is provided with two protrusions 22 corresponding to the two hooks 11 .
  • the two latching protrusions 22 of the connecting plate 23 are opposite to the two hooks 11, and the connecting plate 23 is pressed so that the latching protrusions 22 press the hook portion 112, and the arm portion 111 elastically deforms due to force, causing the two hooks to deform.
  • the parts 112 are far away from each other to avoid the latching protrusions 22.
  • the latching protrusions 22 can move in the pressing direction until each latching protrusion 22 is engaged with the side of the hook part 112 facing the fixed end.
  • the arm part 111 can return to its original shape, so that the hook part 112 can be reset to its original position. Stop the position of the latching protrusion 22 to complete the latching.
  • the assembly process of the connecting plate 23 and the door frame 110 can be completed by simply pressing the connecting plate 23, which greatly improves the installation speed.
  • one of the door frame 110 and the connecting plate 23 is provided with a positioning hole 201
  • the other of the door frame 110 and the connecting plate 23 is provided with a positioning post 12, and
  • the arrangement direction of the fixed end and the corresponding free end is parallel to the axial direction of the positioning hole 201 .
  • the positioning post 12 can be inserted into the positioning hole 201 along the axial direction to position the door frame 110 and the connecting plate 23 . Therefore, the positioning structure can be positioned in the radial direction of the positioning hole 201, and the snap-in structure can be positioned in the axial direction of the positioning hole 201, thereby achieving reliable connection between the door frame 110 and the connecting plate 23, and improving assembly accuracy.
  • the snap-in structure and the positioning structure form a quick-plug installation structure to realize fast and accurate installation of the connecting plate 23 .
  • the connecting plate 23 can be a long strip plate, and the clamping protrusion 22 can be protrudingly provided on the outer peripheral surface of the connecting plate 23, thereby achieving both the locking and the connecting plate 23.
  • the thickness of the connecting plate 23 (that is, the axial size along the positioning hole 201) is not limited by the clamping structure of the protrusion 22 and the hook 11.
  • the thickness of the connecting plate 23 can be thicker to improve the door hook 120. structural strength.
  • the positioning post 12 or the positioning hole 201 can be provided on the connecting plate 23 to make the stator column more firmly installed on the connecting plate 23, or the positioning hole 201 can have a longer axial dimension on the connecting plate 23 to ensure the connection with the connecting plate 23.
  • the hooks 22 can be provided at least at both ends of the long connecting plate 23 in the length direction, so that after the assembly is completed, the connecting plate 23 can be positioned between the two hooks. 11 to limit the door hook 120 in the length direction of the connecting plate 23 to improve positioning accuracy and connection reliability.
  • a part of the latching protrusion 22 can extend to the side of the connecting plate 23 in the width direction, so that the latching protrusion 22 not only functions as a latching connection, but also functions as a latching connection.
  • the door hook 120 has a stronger structure.
  • two tabs 22 can be extended and connected together.
  • the door frame 110 is provided with an elastic member 13.
  • the elastic member 13 is provided on the side of the latch 22 facing away from the hook 112. For example, it can be provided between the connecting plate 23 and the hook 112. Between door frames 110.
  • the elastic member 13 is used to exert an elastic force toward the hook 112 on the latching protrusion 22, so that after the latching protrusion 22 is engaged with the hook 11, the latching protrusion 22 can closely offset the hook 112 under the elastic force of the elastic member 13 to avoid
  • the door hook 120 shakes, which affects the stability of the locking connection, and is beneficial to improving the user experience.
  • the elastic member 13 can be elastically deformed to ensure that the latching protrusion 22 can achieve the latching connection with the latching hook 11 .
  • a reinforcing rib may be provided on one side of the arm 111 .
  • the reinforcing rib connects the arm 111 and the door frame 110 to ensure the elastic deformation of the arm 111 and ensure the structural strength of the arm 111 .
  • the specific structure of the elastic member 13 can be flexibly set according to the actual situation.
  • the elastic member 13 can be an elastic piece, a spring, an elastic plate, etc.
  • the elastic member 13 can be a bending plate.
  • the bending plate can include a first plate section and a second plate section 132.
  • the first plate section connects the second plate section 132 and the door frame. 110, so that the first plate section and the second plate section 132 generally form an L-shaped structure.
  • the second plate section 132 can resist the connecting plate 23 to provide the door hook 120 with an elastic force toward the hook portion 112 to achieve stable fixation of the door hook 120 .
  • the second plate section 132 can elastically deform, so that the angle between the second plate section 132 and the first plate section is reduced to provide sufficient installation space for the latch 22 and the latch hook 11 to engage. After the installation is completed, Can be reset to achieve stable card connection.
  • the door frame 110 and the second plate section 132 may be provided with escape holes at positions opposite to each other. On the one hand, this can avoid positional interference caused by the deformation of the second plate section 132. On the other hand, it can also facilitate the bending of the plate on the door frame 110.
  • the bending plate can be integrally processed with the door frame 110 through an injection molding process, and escape holes are provided to facilitate the demoulding of the structure at the bending plate.
  • reinforcing ribs may be provided at the connecting corners of the first plate segment and the second plate segment 132.
  • the reinforcing ribs can improve the structure of the bent plate segment while satisfying the elastic deformation of the second plate segment 132. Stability enables the second plate section 132 to provide stable support to the door hook 120 and has a long service life.
  • multiple hooks 21 can be arranged along the length direction of the connecting plate 23 to achieve better alignment between the door assembly 100 and the machine body.
  • a wide range of multi-point connections, and multiple hook bodies 21 can form a whole through the connecting plate 23, which improves the overall structural strength of the door hook 120, and multiple hook bodies 21 can be connected to the door frame 110 through the same set of connection structures. , which is conducive to simplifying the structure of the door hook 120 and improving assembly efficiency.
  • the door frame 110 may be made of plastic material
  • the door hook 120 may be made of plastic material
  • the door seal 140 may be made of metal material, such as a metal sheet.
  • the door seal 140 can ensure the heating effect in the holding cavity, for example, improving the microwave cooking efficiency of the cooking utensil 200 through microwave reflection.
  • the cooking appliance 200 according to the third embodiment of the present application includes the door assembly 100 according to the second embodiment of the present application. Since the door assembly 100 according to the embodiment of the present application has the above-mentioned beneficial technical effects, the cooking appliance 200 according to the embodiment of the present application is connected to the door frame 110 through the door hook 120 to avoid direct mechanical connection between the door hook 120 and the door seal 140. It is beneficial to improve the structural strength of the door seal 140, and multiple hooks 21 are provided on the connecting plate 23 to connect with the door frame 110 through the connecting plate 23, so that the assembly structure is simple and the assembly efficiency can be improved.
  • the cooking appliance 200 may be a microwave oven or the like.
  • connection can be a fixed connection, a detachable connection, or an integral connection; it can be Directly connected, or indirectly connected through an intermediary.
  • connection can be a fixed connection, a detachable connection, or an integral connection; it can be Directly connected, or indirectly connected through an intermediary.

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Abstract

一种门体组件(100)和烹饪器具(200),门体组件(100)包括:门框(110);至少一个门钩(120),至少一个门钩(120)与门框(110)为一体结构。

Description

门体组件和烹饪器具
相关申请的交叉引用
本申请要求广东美的厨房电器制造有限公司和美的集团股份有限公司于2022年06月01日提交的、中国专利申请号为“202221354677.1、202221380838.4”的优先权,以上中国专利申请的全部内容在此引入本申请作为参考。
技术领域
本申请的实施例涉及厨房电器技术领域,具体而言,涉及一种门体组件和一种烹饪器具。
背景技术
目前,微波炉的炉门系统中门钩和门框是分开的,门钩通过一根拉簧连接到门板上,且门钩可以相对于门板滑动。
然而,在安装门钩时,需要进行组装操作,安装步骤比较繁琐。
发明内容
本申请的实施例旨在至少解决现有技术中存在的技术问题之一。
为此,本申请的实施例提供了一种门体组件。
本申请的实施例还提供了一种烹饪器具。
有鉴于此,根据本申请的实施例的第一方面,提供了一种门体组件,门体组件包括:门框;至少一个门钩,至少一个门钩与门框为一体结构。
本申请实施例提供的门体组件包括门框和至少一个门钩,具体而言,至少一个门钩与门框为一体结构,也就是说,至少一个门钩设置在门框上。能够理解的是,门框用于固定门板、门封等结构,是门体组件的框架结构,具有一定的结构强度,将至少一个门钩设置在门框上,相较于相关技术中将门钩设置在门板上而言,可以避免将门钩设置在门板上而导致在安装过程中门板发生变形的问题,提升门体组件的安装精度。
至少一个门钩与门框为一体结构,能够理解的是,一体结构具有良好的力学性能,因而能够提高门钩与门框之间的连接强度,从而在开关门过程中,确保门钩与烹饪器具的转动件之间的有效配合。
此外,门框具有一定的结构强度,将至少一个门钩与门框设置为一体结构,从而能够提高门钩的结构强度,确保门钩的使用寿命。
而且,通过将至少一个门钩与门框设置为一体结构,因而无需对门钩进行安装,简化门体组件的安装步骤,提高安装效率,提升安装精度,且有利于减小门体组件装配时的零部件数量,降低门体组件的生产成本。
值得说明的是,将至少一个门钩与门框设置为一体结构,还有利于门体组件的批量生产,降低生产难度,提高生产效率,进一步降低门体组件的生产成本。
在实际应用中,门钩包括第一门钩和第二门钩,第一门钩和第二门钩沿高度方向间隔设置,也就是说,第一门钩为上门钩,第二门钩为下门钩。通过设置第一门钩和第二门钩,能够确保门体组件的有效关闭。
其中,可以将第一门钩和第二门钩与门框为一体结构,以进一步简化门体组件的安装过程,减少零部件数量,提升安装精度的同时,降低门体组件的生产成本。
另外,根据本申请上述技术方案提供的门体组件,还具有如下附加技术特征:
在一种可能的技术方案中,至少一个门钩包括第一门钩和第二门钩,第一门钩与第二门钩沿门框的高度方向间隔排布;第一门钩和第二门钩与门框为一体结构。
在该技术方案中,限定了门钩包括第一门钩和第二门钩,第一门钩和第二门钩沿高度方向间隔设置,也就是说,第一门钩为上门钩,第二门钩为下门钩。通过设置第一门钩和第二门钩,能够确保门体组件的有效关闭。
其中,可以将第一门钩和第二门钩与门框为一体结构,以进一步简化门体组件的安装过程,减少零部件数量,提升安装精度的同时,降低门体组件的生产成本。
此外,通过将第一门钩和第二门钩与门框为一体结构,能够提高第一门钩、第二门钩与门框之间的连接强度,从而在开关门过程中,确保第一门钩和第二门钩与烹饪器具的转动件之间的有效配合。
而且,门框具有一定的结构强度,将第一门钩和第二门钩与门框设置为一体结构,从而能够提高第一门钩和第二门钩的结构强度,确保第一门钩和第二门钩的使用寿命。
值得说明的是,将第一门钩和第二门钩与门框设置为一体结构,还有利于门体组件的批量生产,降低生产难度,提高生产效率,进一步降低门体组件的生产成本。
在一种可能的技术方案中,门框设有安装槽;门体组件还包括装饰件,装饰件位于门框背离门钩的一侧,装饰件的一部分嵌入安装槽内。
在该技术方案中,限定了门体组件还包括装饰件,具体而言,装饰件设置在门框背离门钩的一侧,能够理解的是,门钩由于需要与烹饪器具的转动件相配合,故门钩靠近烹饪器具的烹饪腔设置,将装饰件设置在门框背离门钩的一侧,也就是说,装饰件设置在门体组件的外侧,即背离烹饪腔的一侧。通过在门体组件的外侧设置装饰件,能够提高具有该门体组件的烹饪器具的美观性,提升用户的使用体验。
门框设置有安装槽,装饰件的一部分嵌入安装槽内,从而确保装饰件的安装稳定性。
在实际应用中,装饰件为玻璃件,一方面,玻璃件为透明件,可以提高烹饪器具的美观性和外观效果。另一方面,玻璃件具有一定的结构强度,将玻璃件嵌在门框的安装槽内,能够进一步提高门框的结构强度,确保门框具有足够的刚度,进一步提升门钩在开关门过程中的可靠性,延长门体组件的使用寿命。
在一种可能的技术方案中,装饰件为玻璃件。
在该技术方案中,限定了装饰件为玻璃件,一方面,玻璃件为透明件,可以提高烹饪器具的美观性和外观效果。另一方面,玻璃件具有一定的结构强度,将玻璃件嵌在门框的安装槽内,能够进一步提高门框的结构强度,确保门框具有足够的刚度,进一步提升门钩在开关门过程中的可靠性,延长门体组件的使用寿命。
在一种可能的技术方案中,门体组件还包括门板,门板设于门框背离装饰件的一侧,至少一个门钩位于门框的侧壁与门板的侧壁之间。
在该技术方案中,限定了门体组件还包括门板,具体而言,门板设置在门框背离装饰件的一侧,至少一个门钩位于门框的侧壁与门板的侧壁之间,也就是说,将至少一个门钩夹设在门框与门板之间,进一步提高门钩在开关门过程中的稳定性和可靠性,提高门钩的使用寿命。
而且,将至少一个门钩与门框为一体结构,相较于相关技术中将门钩设置在门板上而言,可以避免将门钩设置在门板上而导致在安装过程中门板发生变形的问题,提升门体组件的安装精度。
在一种可能的技术方案中,门体组件还包括门封,门封位于门板背离门框的一侧,并与门框和门板相连。
在该技术方案中,限定了门体组件还包括门封,具体而言,门封位于门板背离门框的一侧,且门封与门框和门板连接,用于密封门板和门框之间的间隙,防止烹饪腔内水分、蒸汽、食材或外部灰尘等进入间隙,提高门体组件的清洁度和使用寿命。
在一种可能的技术方案中,门封设有通孔,通孔与门钩一一对应,门钩穿过通孔。
在该技术方案中,门封上设置有通孔,且通孔与门钩一一对应,在安装门封时,将门钩穿过通孔,以实现门体组件的装配。
在一种可能的技术方案中,门体组件还包括加强部,加强部设于门钩靠近门框的一端,并与门框相连。
在该技术方案中,限定了门体组件还包括加强部,具体而言,加强部设置在门钩靠近门框的一端,且加强部与门框连接,也就是说,将加强部设置在门钩与门框的连接处,从而进一步确保门钩的结构强度,以及门钩与门框之间的连接强度,进而确保在开关门过程中门钩与烹饪器具的转动件之间的有效配合,进一步延长门钩的使用寿命。
在实际应用中,加强部与门钩为一体结构,由于门钩与门框为一体结构,也就是说,将加强部、门 钩和门框设置为一体结构,以进一步确保门钩的结构强度,延长门钩的使用寿命。而且,还能够进一步提高门钩与门框之间的连接强度,进而确保在开关门过程中门钩与烹饪器具的转动件之间的有效配合。
此外,该一体结构便于门体组件的批量生产,因而能够降低门体组件的生产难度,提高生产效率,进一步降低门体组件的生产成本。
在一种可能的技术方案中,加强部与门钩为一体结构。
在该技术方案中,限定了加强部与门钩为一体结构,由于门钩与门框为一体结构,也就是说,将加强部、门钩和门框设置为一体结构,以进一步确保门钩的结构强度,延长门钩的使用寿命。而且,还能够进一步提高门钩与门框之间的连接强度,进而确保在开关门过程中门钩与烹饪器具的转动件之间的有效配合。
此外,该一体结构便于门体组件的批量生产,因而能够降低门体组件的生产难度,提高生产效率,进一步降低门体组件的生产成本。
在一种可能的技术方案中,门体组件还包括把手,把手设于装饰件上。
在该技术方案中,限定了门体组件还包括把手,具体而言,把手设置在装饰件上,通过设置把手,便于用户通过把手开关门体组件,提高具有该门体组件的烹饪器具的使用便利性。
在一种可能的技术方案中,装饰件上设有至少一个第一安装孔;把手上设有至少一个第二安装孔;门体组件还包括至少一个紧固件,紧固件分别穿过第一安装孔和第二安装孔,以将把手与装饰件相连。
在该技术方案中,限定了门体组件还包括至少一个紧固件,具体而言,装饰件上设置有至少一个第一安装孔,把手上设置有至少一个第二安装孔,一个紧固件分别穿过一个第一安装孔和一个第二安装孔,从而将把手安装在装饰件上。通过紧固件与第一安装孔和第二安装孔的配合进行把手的固定安装,能够提高把手与装饰件之间的安装稳定性,确保用户通过把手进行门体组件的开关操作。
在实际应用中,第一安装孔的数量为多个,第二安装孔和紧固件的数量与第一安装孔一一对应设置,从而能够进一步提高把手与装饰件之间的安装稳定性和可靠性,确保用户通过把手进行门体组件的开关操作。
在一种可能的技术方案中,第一安装孔的数量为多个,第二安装孔和紧固件与第一安装孔一一对应。
在该技术方案中,限定了第一安装孔的数量为多个,第二安装孔和紧固件的数量与第一安装孔一一对应设置,从而能够进一步提高把手与装饰件之间的安装稳定性和可靠性,确保用户通过把手进行门体组件的开关操作。
根据本申请第二方面实施例的门体组件,包括:门框;门钩,所述门钩包括连接板和设于所述连接板的多个勾体,所述连接板与所述门框相连;门封,所述门封设于所述门框的内侧,所述勾体穿设于所述门封。
根据本申请第二方面实施例的门体组件,通过门钩与门框连接,避免门钩与门封直接机械连接,有利于提高门封的结构强度,并且通过多个勾体设于连接板以通过连接板与门框连接,使装配结构简单,能够提高装配效率。
另外,根据本申请上述第二方面实施例的门体组件还可以具有如下附加的技术特征:
根据本申请的一些实施例,所述连接板一体成型于所述门框;或者,所述连接板与所述门框卡接相连。
根据本申请的一些实施例,所述勾体一体成型于所述连接板,或者所述勾体与所述连接板可拆卸地连接。
根据本申请的一些实施例,所述连接板和所述门框中的一个设有卡勾,另一个设有卡凸,所述卡勾与所述卡凸可拆卸地卡接配合。
根据本申请的一些实施例,所述卡勾为两个且均包括臂部和勾部,两个所述卡勾的所述臂部的固定端间隔设于所述门框,两个所述臂部的自由端的彼此相对侧分别设有所述勾部,所述连接板设有与两个所述卡勾对应的两个所述卡凸,每个所述卡凸卡入所述勾部的朝向所述固定端的一侧。
根据本申请的一些实施例,所述门框和所述连接板中的一个设有定位孔,另一个设有插入所述定位孔的定位柱,所述固定端和对应所述自由端的排布方向平行于所述定位孔的轴向。
根据本申请的一些实施例,所述门框设有弹性件,所述弹性件设于所述卡凸背向所述勾部的一侧, 且用于向所述卡凸施加朝向所述勾部的弹力。
根据本申请的一些实施例,所述弹性件为弯折板且包括第一板段和第二板段,所述第一板段连接所述第二板段和所述门框,所述第二板段与所述连接板相抵。
根据本申请的一些实施例,所述连接板为长条形板,多个所述勾体沿所述连接板的长度方向排布。
根据本申请的第三方面,提供了一种烹饪器具,包括如上述任一技术方案提供的门体组件,因而具备该门体组件的全部有益技术效果,在此不再赘述。
另外,根据本申请上述技术方案提供的烹饪器具,还具有如下附加技术特征:
在一种可能的技术方案中,烹饪器具还包括器具本体和控制面板,其中,器具本体设有烹饪腔,门体组件设于器具本体上,并能够打开或关闭烹饪腔,控制面板设于器具本体,并位于门体组件所在的一侧。
在该技术方案中,限定了烹饪器具还包括器具本体和控制面板,具体而言,器具本体设置有烹饪腔,门体组件可开合地设置在器具本体上,从而使得用户可通过打开门体组件,对烹饪腔内的食材进行取放。
控制面板设置在器具本体,能够理解的是,控制面板与烹饪器具的主控板电连接,从而使得用户可通过控制面板对烹饪器具的加热时间、加热温度以及加热模式等进行调节。
控制面板设置在门体组件所在的一侧,也就是说,控制面板与门体组件设置在器具本体的同一侧面上,从而能够便于用户通过控制面板操作烹饪器具工作模式的同时,优化烹饪器具的结构。
在一种可能的技术方案中,烹饪器具包括微波炉、蒸烤箱或微蒸烤一体机。
根据本申请的附加方面和优点将在下面的描述部分中给出,部分将从下面的描述中变得明显,或通过本申请的实践了解到。
附图说明
本申请的上述和/或附加的方面和优点从结合下面附图对实施例的描述中将变得明显和容易理解,其中:
图1示出了根据本申请的一个实施例的门体组件的结构示意图之一;
图2示出了根据本申请的一个实施例的门体组件的结构示意图之二;
图3示出了根据本申请的一个实施例的门体组件的结构示意图之三;
图4示出了根据本申请的一个实施例的门体组件的结构示意图之四;
图5示出了根据本申请的一个实施例的门体组件的结构示意图之五;
图6示出了根据本申请的一个实施例的门体组件的结构示意图之六;
图7示出了根据本申请的一个实施例的门体组件的结构示意图之七;
图8示出了根据本申请的一个实施例的门体组件的结构示意图之八;
图9示出了根据本申请的一个实施例的门体组件的结构示意图之九;
图10示出了根据本申请的一个实施例的门体组件的爆炸图;
图11示出了根据本申请的一个实施例的门体组件的结构示意图之十;
图12示出了根据本申请的一个实施例的烹饪器具的结构示意图;
图13示出了根据本申请的一个实施例的烹饪器具的局部结构示意图之一;
图14示出了根据本申请的一个实施例的转动件的结构示意图;
图15示出了根据本申请的一个实施例的烹饪器具的局部结构示意图之二;
图16示出了根据本申请的一个实施例的烹饪器具的局部结构示意图之三;
图17示出了根据本申请实施例的门体组件与联锁组件的示意图;
图18示出了根据本申请实施例的门体组件的结构示意图;
图19示出了根据本申请实施例的门体组件的爆炸图;
图20示出了根据本申请实施例的门框和门钩的配合结构示意图;
图21示出了图20中圈示A处的放大结构示意图;
图22示出了图20沿B-B线所示方向的剖视图;
图23示出了根据本申请实施例的门体组件的门框的结构示意图;
图24示出了图23中圈示C处的放大结构示意图;
图25示出了根据本申请实施例的门框的局部后视图;
图26示出了根据本申请实施例的门框的局部主视图;
图27示出了根据本申请实施例的门框的局部结构示意图;
图28示出了根据本申请实施例的门钩的结构示意图;
图29示出了根据本申请实施例的门钩的结构示意图;
图30示出了根据本申请实施例的门钩的结构示意图;
图31示出了根据本申请实施例的门钩的结构示意图。
其中,图1至图31中附图标记与部件名称之间的对应关系为:
100门体组件,110门框,120门钩,121第一门钩,122第二门钩,130装饰件,131第一安装孔,140门板,150门封,151通孔,160加强部,170把手,171第二安装孔,180紧固件,200烹饪器具,210器具本体,220控制面板,230第一安装架,240第二安装架,250转动件,251转动本体,252第一转动臂,253第二转动臂,254转动槽,260缓冲件,270转接槽,280转接部,
300联锁组件,11卡勾,111臂部,112勾部,12定位柱,13弹性件,132第二板段,201定位孔,21勾体,22卡凸,23连接板,140门封,31过孔。
具体实施方式
为了能够更清楚地理解本申请的上述目的、特征和优点,下面结合附图和具体实施方式对本申请进行进一步的详细描述。需要说明的是,在不冲突的情况下,本申请的实施例及实施例中的特征可以相互组合。
在下面的描述中阐述了很多具体细节以便于充分理解本申请,但是,本申请还可以采用其他不同于在此描述的方式来实施,因此,本申请的保护范围并不受下面公开的具体实施例的限制。
下面参照图1至图16来描述根据本申请的一些实施例提供的门体组件100和烹饪器具200。
实施例一:
如图1、图2、图3、图4、图5、图6和图7所示,本申请第一个方面的实施例提供了一种门体组件100,门体组件100包括:门框110;至少一个门钩120,至少一个门钩120与门框110为一体结构。
本申请实施例提供的门体组件100包括门框110和至少一个门钩120,具体而言,至少一个门钩120与门框110为一体结构,也就是说,至少一个门钩120设置在门框110上。能够理解的是,门框110用于固定门板140、门封150等结构,是门体组件100的框架结构,具有一定的结构强度,将至少一个门钩120设置在门框110上,相较于相关技术中将门钩120设置在门板140上而言,可以避免将门钩120设置在门板140上而导致在安装过程中门板140发生变形的问题,提升门体组件100的安装精度。
至少一个门钩120与门框110为一体结构,能够理解的是,一体结构具有良好的力学性能,因而能够提高门钩120与门框110之间的连接强度,从而在开关门过程中,确保门钩120与烹饪器具200的转动件250之间的有效配合。
此外,门框110具有一定的结构强度,将至少一个门钩120与门框110设置为一体结构,从而能够提高门钩120的结构强度,确保门钩120的使用寿命。
而且,通过将至少一个门钩120与门框110设置为一体结构,因而无需对门钩120进行安装,简化门体组件100的安装步骤,提高安装效率,提升安装精度,且有利于减小门体组件100装配时的零部件数量,降低门体组件100的生产成本。
值得说明的是,将至少一个门钩120与门框110设置为一体结构,还有利于门体组件100的批量生产,降低生产难度,提高生产效率,进一步降低门体组件100的生产成本。
在实际应用中,门钩120包括第一门钩121和第二门钩122,第一门钩121和第二门钩122沿高度方向间隔设置,也就是说,第一门钩121为上门钩120,第二门钩122为下门钩120。通过设置第一门钩121和第二门钩122,能够确保门体组件100的有效关闭。
其中,可以将第一门钩121和第二门钩122与门框110为一体结构,以进一步简化门体组件100的安装过程,减少零部件数量,提升安装精度的同时,降低门体组件100的生产成本。
如图1、图2、图3、图4、图5、图6和图7所示,在上述实施例的基础上,进一步地,至少一个门钩120包括第一门钩121和第二门钩122,第一门钩121与第二门钩122沿门框110的高度方向间隔排布;第一门钩121和第二门钩122与门框110为一体结构。
在该实施例中,限定了门钩120包括第一门钩121和第二门钩122,第一门钩121和第二门钩122沿高度方向间隔设置,也就是说,第一门钩121为上门钩120,第二门钩122为下门钩120。通过设置第一门钩121和第二门钩122,能够确保门体组件100的有效关闭。
其中,可以将第一门钩121和第二门钩122与门框110为一体结构,以进一步简化门体组件100的安装过程,减少零部件数量,提升安装精度的同时,降低门体组件100的生产成本。
此外,通过将第一门钩121和第二门钩122与门框110为一体结构,能够提高第一门钩121、第二门钩122与门框110之间的连接强度,从而在开关门过程中,确保第一门钩121和第二门钩122与烹饪器具200的转动件250之间的有效配合。
而且,门框110具有一定的结构强度,将第一门钩121和第二门钩122与门框110设置为一体结构,从而能够提高第一门钩121和第二门钩122的结构强度,确保第一门钩121和第二门钩122的使用寿命。
值得说明的是,将第一门钩121和第二门钩122与门框110设置为一体结构,还有利于门体组件100的批量生产,降低生产难度,提高生产效率,进一步降低门体组件100的生产成本。
实施例二:
如图9、图10和图11所示,在上述实施例的基础上,进一步地,门框110设有安装槽;门体组件100还包括装饰件130,装饰件130位于门框110背离门钩120的一侧,装饰件130的一部分嵌入安装槽内。
在该实施例中,限定了门体组件100还包括装饰件130,具体而言,装饰件130设置在门框110背离门钩120的一侧,能够理解的是,门钩120由于需要与烹饪器具200的转动件250相配合,故门钩120靠近烹饪器具200的烹饪腔设置,将装饰件130设置在门框110背离门钩120的一侧,也就是说,装饰件130设置在门体组件100的外侧,即背离烹饪腔的一侧。通过在门体组件100的外侧设置装饰件130,能够提高具有该门体组件100的烹饪器具200的美观性,提升用户的使用体验。
门框110设置有安装槽,装饰件130的一部分嵌入安装槽内,从而确保装饰件130的安装稳定性。
在实际应用中,装饰件130为玻璃件,一方面,玻璃件为透明件,可以提高烹饪器具200的美观性和外观效果。另一方面,玻璃件具有一定的结构强度,将玻璃件嵌在门框110的安装槽内,能够进一步提高门框110的结构强度,确保门框110具有足够的刚度,进一步提升门钩120在开关门过程中的可靠性,延长门体组件100的使用寿命。
在一个具体的实施例中,进一步地,装饰件130为玻璃件。
在该实施例中,限定了装饰件130为玻璃件,一方面,玻璃件为透明件,可以提高烹饪器具200的美观性和外观效果。另一方面,玻璃件具有一定的结构强度,将玻璃件嵌在门框110的安装槽内,能够进一步提高门框110的结构强度,确保门框110具有足够的刚度,进一步提升门钩120在开关门过程中的可靠性,延长门体组件100的使用寿命。
如图10所示,在上述实施例的基础上,进一步地,门体组件100还包括门板140,门板140设于门框110背离装饰件130的一侧,至少一个门钩120位于门框110的侧壁与门板140的侧壁之间。
在该实施例中,限定了门体组件100还包括门板140,具体而言,门板140设置在门框110背离装饰件130的一侧,至少一个门钩120位于门框110的侧壁与门板140的侧壁之间,也就是说,将至少一个门钩120夹设在门框110与门板140之间,进一步提高门钩120在开关门过程中的稳定性和可靠性,提高门钩120的使用寿命。
而且,将至少一个门钩120与门框110为一体结构,相较于相关技术中将门钩120设置在门板140上而言,可以避免将门钩120设置在门板140上而导致在安装过程中门板140发生变形的问题,提升门体组件100的安装精度。
如图8和图10所示,在上述实施例的基础上,进一步地,门体组件100还包括门封150,门封150位于门板140背离门框110的一侧,并与门框110和门板140相连。
在该实施例中,限定了门体组件100还包括门封150,具体而言,门封150位于门板140背离门框 110的一侧,且门封150与门框110和门板140连接,用于密封门板140和门框110之间的间隙,防止烹饪腔内水分、蒸汽、食材或外部灰尘等进入间隙,提高门体组件100的清洁度和使用寿命。
如图8所示,在上述实施例的基础上,进一步地,门封150设有通孔151,通孔151与门钩120一一对应,门钩120穿过通孔151。
在该实施例中,门封150上设置有通孔151,且通孔151与门钩120一一对应,在安装门封150时,将门钩120穿过通孔151,以实现门体组件100的装配。
实施例三:
如图2和图5所示,在上述任一实施例的基础上,进一步地,门体组件100还包括加强部160,加强部160设于门钩120靠近门框110的一端,并与门框110相连。
在该实施例中,限定了门体组件100还包括加强部160,具体而言,加强部160设置在门钩120靠近门框110的一端,且加强部160与门框110连接,也就是说,将加强部160设置在门钩120与门框110的连接处,从而进一步确保门钩120的结构强度,以及门钩120与门框110之间的连接强度,进而确保在开关门过程中门钩120与烹饪器具200的转动件250之间的有效配合,进一步延长门钩120的使用寿命。
在实际应用中,加强部160与门钩120为一体结构,由于门钩120与门框110为一体结构,也就是说,将加强部160、门钩120和门框110设置为一体结构,以进一步确保门钩120的结构强度,延长门钩120的使用寿命。而且,还能够进一步提高门钩120与门框110之间的连接强度,进而确保在开关门过程中门钩120与烹饪器具200的转动件250之间的有效配合。
此外,该一体结构便于门体组件100的批量生产,因而能够降低门体组件100的生产难度,提高生产效率,进一步降低门体组件100的生产成本。
在上述实施例的基础上,进一步地,加强部160与门钩120为一体结构。
在该实施例中,限定了加强部160与门钩120为一体结构,由于门钩120与门框110为一体结构,也就是说,将加强部160、门钩120和门框110设置为一体结构,以进一步确保门钩120的结构强度,延长门钩120的使用寿命。而且,还能够进一步提高门钩120与门框110之间的连接强度,进而确保在开关门过程中门钩120与烹饪器具200的转动件250之间的有效配合。
此外,该一体结构便于门体组件100的批量生产,因而能够降低门体组件100的生产难度,提高生产效率,进一步降低门体组件100的生产成本。
实施例四:
如图9、图10和图11所示,在上述任一实施例的基础上,进一步地,门体组件100还包括把手170,把手170设于装饰件130上。
在该实施例中,限定了门体组件100还包括把手170,具体而言,把手170设置在装饰件130上,通过设置把手170,便于用户通过把手170开关门体组件100,提高具有该门体组件100的烹饪器具200的使用便利性。
如图10所示,在上述实施例的基础上,进一步地,装饰件130上设有至少一个第一安装孔131;把手170上设有至少一个第二安装孔171;门体组件100还包括至少一个紧固件180,紧固件180分别穿过第一安装孔131和第二安装孔171,以将把手170与装饰件130相连。
在该实施例中,限定了门体组件100还包括至少一个紧固件180,具体而言,装饰件130上设置有至少一个第一安装孔131,把手170上设置有至少一个第二安装孔171,一个紧固件180分别穿过一个第一安装孔131和一个第二安装孔171,从而将把手170安装在装饰件130上。通过紧固件180与第一安装孔131和第二安装孔171的配合进行把手170的固定安装,能够提高把手170与装饰件130之间的安装稳定性,确保用户通过把手170进行门体组件100的开关操作。
在实际应用中,第一安装孔131的数量为多个,第二安装孔171和紧固件180的数量与第一安装孔131一一对应设置,从而能够进一步提高把手170与装饰件130之间的安装稳定性和可靠性,确保用户通过把手170进行门体组件100的开关操作。
在一个具体的实施例中,进一步地,第一安装孔131的数量为多个,第二安装孔171和紧固件180与第一安装孔131一一对应。
在该实施例中,限定了第一安装孔131的数量为多个,第二安装孔171和紧固件180的数量与第一安装孔131一一对应设置,从而能够进一步提高把手170与装饰件130之间的安装稳定性和可靠性,确保用户通过把手170进行门体组件100的开关操作。
实施例五:
根据本申请的第三个方面,提供了一种烹饪器具200,包括如上述任一实施例提供的门体组件100,因而具备该门体组件100的全部有益技术效果,在此不再赘述。
如图12所示,在上述实施例的基础上,进一步地,烹饪器具200还包括器具本体210和控制面板220,其中,器具本体210设有烹饪腔,门体组件100设于器具本体210上,并能够打开或关闭烹饪腔,控制面板220设于器具本体210,并位于门体组件100所在的一侧。
在该实施例中,限定了烹饪器具200还包括器具本体210和控制面板220,具体而言,器具本体210设置有烹饪腔,门体组件100可开合地设置在器具本体210上,从而使得用户可通过打开门体组件100,对烹饪腔内的食材进行取放。
控制面板220设置在器具本体210,能够理解的是,控制面板220与烹饪器具200的主控板电连接,从而使得用户可通过控制面板220对烹饪器具200的加热时间、加热温度以及加热模式等进行调节。
控制面板220设置在门体组件100所在的一侧,也就是说,控制面板220与门体组件100设置在器具本体210的同一侧面上,从而能够便于用户通过控制面板220操作烹饪器具200工作模式的同时,优化烹饪器具200的结构。
在一个具体的实施例中,进一步地,烹饪器具200包括微波炉、蒸烤箱或微蒸烤一体机。
实施例六:
如图13和图16所示,在上述实施例的基础上,进一步地,烹饪器具200还包括第一安装架230和第二安装架240,其中,第一安装架230设于器具本体210,并位于烹饪腔的开口端,第二安装架240与第一安装件相连,并与第一安装架230围合形成安装腔,转动件250能够转动地设于第一安装架230上,转动件250的一部分位于安装腔内,转动件250运动能够与门钩120相配合,以使门钩120在开门位置和关门位置之间运动。
在该实施例中,限定了烹饪器具200还包括第一安装架230和第二安装架240,具体而言,第一安装架230设置在器具本体210,且第一安装架230位于烹饪腔的开口端,能够理解的是,用户打开门体组件100,可通过烹饪腔的开口端实现食材的取放。
第一安装架230与第二安装架240连接并形成安装腔,转动件250位于安装腔内,也就是说,安装腔为转动件250提供了容置空间。从而保护转动件250,避免外力直接作用与转动件250上,进而能够延长转动件250的使用寿命。此外,通过将转动件250的一部分位于安装腔内,还可减少污物、杂质等进入到转动件250处,保证转动件250的清洁性,进而确保烹饪器具200各个部件配合的可靠性。
转动件250运动能够与门钩120相配合,以使门钩120在开门位置和关门位置之间运动。详细地,当关闭门体组件100时,用户推动门体组件100,门体组件100带动门钩120运动,门钩120运动至一定位置后与转动件250相接触,并推动转动件250相对于第一安装架230转动。当转动件250转动至一定位置后,门钩120与转动件250相配合,从而使得转动件250在转动的过程中能够拉动门钩120至关门位置,即门体组件100处于关闭位置。
当打开门体组件100时,用户拉动门体组件100把手170,门体组件100带动门钩120运动,由于门钩120与转动件250相配合,从而在开门的过程中,门钩120带动转动件250转动,且转动件250在转动的过程中能够推动门钩120,直至门钩120与转动件250分离,门体组件100处于打开位置。
通过转动件250运动与门钩120相配合,实现门体组件100的开关门操作。
如图14所示,在上述实施例的基础上,进一步地,转动件250包括转动本体251、第一转动臂252和第二转动臂253,其中,第一转动臂252与转动本体251相连,第二转动臂253与转动本体251相连,并与第一转动臂252间隔形成转动槽254,门钩120的一部分能够位于转动槽254内,以使转动件250能够与门钩120相配合。
在该实施例中,限定了转动件250包括转动本体251、第一转动臂252和第二转动臂253,具体而言,第一转动臂252和第二转动臂253与转动本体251连接,且第一转动臂252与第二转动臂253间隔设置, 第一转动臂252与第二转动臂253形成转动槽254,门钩120的一部分能够位于转动槽254内,以使转动件250能够与门钩120相配合。
详细地,当关闭门体组件100时,用户推动门体组件100,门体组件100带动门钩120运动,门钩120运动至一定位置后与第一转动臂252相接触,并推动第一转动臂252相对于第一安装架230转动,同时,第一转动臂252带动转动本体251和第二转动臂253转动。门钩120在推动第一转动臂252的过程中,门钩120的一部分滑入转动槽254内,从而使得转动件250在转动的过程中能够拉动门钩120至关门位置,即门体组件100处于关闭位置。
当打开门体组件100时,用户拉动门体组件100把手170,门体组件100带动门钩120运动,由于门钩120的一部分位于转动槽254内,从而在开门的过程中,门钩120带动转动件250转动,且转动件250在转动的过程中能够推动门钩120直至门钩120的一部分从转动槽254内移出,即门体组件100处于打开位置。
通过设置转动槽254,确保门钩120与转动件250之间的有效配合。
在上述实施例的基础上,进一步地,门钩120设有凸起,凸起能够插入转动槽254内,以使转动件250能够与门钩120相配合。
在该实施例中,门钩120设置有凸起,凸起能够插入转动槽254内,从而使得转动件250能够与门钩120相配合。
详细地,当关闭门体组件100时,用户推动门体组件100,门体组件100带动门钩120运动,门钩120运动至一定位置后与第一转动臂252相接触,并推动第一转动臂252相对于第一安装架230转动,同时,第一转动臂252带动转动本体251和第二转动臂253转动。门钩120在推动第一转动臂252的过程中,凸起滑入转动槽254内,从而使得转动件250在转动的过程中能够拉动门钩120至关门位置,即门体组件100处于关闭位置。
当打开门体组件100时,用户拉动门体组件100把手170,门体组件100带动门钩120运动,由于门钩120的一部分位于转动槽254内,从而在开门的过程中,门钩120带动转动件250转动,且转动件250在转动的过程中能够推动门钩120直至凸起从转动槽254内移出,即门体组件100处于打开位置。
如图13和图15所示,在上述实施例的基础上,进一步地,烹饪器具200还包括缓冲件260,缓冲件260设于第一安装架230,并位于安装腔内,缓冲件260与转动件250相连,用于减缓转动件250向远离门钩120的方向的转动速度。
在该实施例中,限定了烹饪器具200还包括缓冲件260,具体而言,缓冲件260设置在第一安装架230上,且缓冲件260位于安装腔内,从而使得安装腔为缓冲件260提供容置空间,从而保护缓冲件260,避免外力直接作用与缓冲件260上,进而能够延长缓冲件260的使用寿命。
此外,通过将缓冲件260设置在安装腔内,还可减少污物、杂质等进入到缓冲件260处,保证缓冲件260的清洁性,进而确保烹饪器具200各个部件配合的可靠性。
缓冲件260与转动本体251连接,缓冲件260能够减缓转动件250向远离门钩120的方向转动时的转动速度。能够理解的是,当打开门体组件100时,门钩120拉动转动件250向靠近门钩120的方向运动,当关闭门体组件100时,门钩120推动转动件250向远离门钩120的方向运动。也就是说,缓冲件260能够减缓转动件250在关门时的转动速度,进而减缓门体组件100的关门速度,降低关门时产生的噪音,提升用户的使用体验。
在实际应在用中,缓冲件260包括阻尼器。
如图15所示,在上述实施例的基础上,进一步地,转动本体251上设有转接槽270和转接部280,转接部280位于转接槽270内,缓冲件260通过转接部280与转动本体251相连。
在该实施例中,限定了转动本体251上设有转接槽270和转接部280,具体而言,转接部280设置在转接槽270内,缓冲件260通过转接部280与转动本体251连接,也就是说,转接槽270有容置转接部280和连接转接部280的作用,为保证转接部280与缓冲件260的配合尺寸。
具体地,转接部280与转接槽270可拆装连接,该设置能够减小产品的加工难度,便于转接部280批量化生产,有利于降低产品的生产成本。由于转接部280与转接槽270可拆装连接,故而,当转接部280磨损程度较严重时,可通过更换转接部280的方式保证产品的正常使用,有利于降低产品后续维修及 维护的成本。
下面参考附图描述根据本申请第二方面实施例的门体组件100。
参照图17-图31所示,根据本申请第二方面实施例的门体组件100可以包括:门框110、门钩120和门封140。
具体而言,门钩120与门框110相连,例如门钩120与门框110可以为连接在一起的分体件,以便于生产加工,或者,门钩120可以一体成型于门框110,可以减少装配工序,以提高装配效率。门钩120形成为固定式门钩120,即不随开关门动作相对于门框110产生移动或者转动等运动。
并且,门钩120包括连接板23和多个勾体21,勾体21用于与具有门体组件100的设备配合,例如,如图17所示,门体组件100可以用于烹饪器具200,如微波炉,用于打开和关闭烹饪器具200的机体的盛放腔。机体可以包括联锁组件300,门体组件100关闭盛放腔的状态下,勾体21可以与联锁组件300相配合,以实现门体锁定、关门状态监测等功能,保证烹饪器具200可以正常工作。
如图27-图31所示,多个勾体21设于连接板23,连接板23用于与门框110连接,例如连接板23可以一体成型于门框110,或者连接板23与门框110通过卡接、紧固件连接等方式连接在一起。也就是说,多个勾体21均通过同一个连接板23安装于门框110,而无需多个门钩21单独固定于门框110,大大简化了装配工序,提高了装配效率,多个勾体21的相对位置排布也更稳定准确。
需要说明的是,在一些实施例中,勾体21可以一体成型于连接板23,以进一步减少装配工序,提高装配效率,同时简化结构,提高勾体21与连接板23的连接可靠性。在另一些实施例中,勾体21与连接板23可以可拆卸地连接,一方面在勾体21损坏时便于更换,另一方面,对于所需勾体21数量不同的设备,可以根据需要调节安装于连接板23上所安装勾体21的数量,以提高连接板23和勾体21的通用性,有利于降低生产成本。
此外,如图18-图19所示,门封140设于门框110的内侧,即背向用户的一侧,再即朝向相配合的联锁组件300等结构的一侧。门封140可以安装于门框110,勾体21穿过门封140,例如门封140设有过孔31,勾体21穿设于过孔31,以使勾体21能够伸出,便于与联锁组件300等结构连接。
由此,门钩120直接与门框110相连,而不直接与门封140相连接。与相关技术中门钩与门封固定组装再和门封一起固定于门框的结构相比,本申请实施例的门体组件100安装更简单,并且可以避免对门封140结构和形状造成损害,保证门封140结构强度和稳定性,门钩120在安装过程中不会导致门封140变形,有利于保证门钩120的安装精度。
根据本申请实施例的门体组件100,通过门钩120与门框110连接,避免门钩120与门封140直接机械连接,有利于提高门封140的结构强度,并且通过多个勾体21设于连接板23以通过连接板23与门框110连接,使装配结构简单,能够提高装配效率。
在连接板23与门框110为分体件的一些实施例中,如图20-图22所示,连接板23与门框110可以卡接相连。卡接连接结构装配方便快捷,能够大大提高安装速率,节约装配时间,并且省去了螺钉等结构,减少装配零件数量,降低了生产成本,同时保证了门钩120与门框110连接的可靠性。
卡接连接结构的具体结构可以根据实际情况灵活设置,例如,卡接连接结构可以为卡扣与卡口配合、卡勾11与卡凸22配合等。
在一些实施例中,如图20-图31所示,门框110设有卡勾11,连接板23设有卡凸22,卡勾11与卡凸22可拆卸地卡接配合,一方面能够实现连接板23与门框110的连接,进而实现门钩120与门框110的可靠连接,另一方面卡勾11与卡凸22装配方便快捷,能够实现快速装配,并且可拆卸的连接方式便于门钩120的后续维修和更换。
当然,卡勾11和卡凸22的设置位置可以互换,具体地,连接板23可以设有卡勾11,门框110可以设有卡凸22,这也可以通过卡勾11与卡凸22的卡接实现连接板23与门框110的连接。
在一些具体实施例中,如图21-图27所示,卡勾11可以包括臂部111和勾部112,臂部111具有固定端和自由端,其中固定端与门框110连接,且臂部111在外力作用下能够发生弹性变形,使自由端能够相对于固定端移动,勾部112设于自由端,以使用于与卡凸22配合的勾部112能够移动,以便于卡接装配。
具体地,卡勾11可以为两个,两个卡勾11间隔设置,即两个固定部间隔设于门框110,并且两个自 由端的彼此相对侧分别设有勾部112。如图28-图31所示,连接板23设有与两个卡勾11对应的两个卡凸22。在装配过程中,将连接板23的两个卡凸22与两个卡勾11相对,按压连接板23,使卡凸22挤压勾部112,臂部111受力发生弹性变形使两个勾部112彼此远离以避让卡凸22,卡凸22能沿按压方向移动,直至每个卡凸22卡入勾部112的朝向固定端的一侧,臂部111可以恢复原状,使勾部112复位至止挡卡凸22的位置,完成卡接。
由此,连接板23与门框110的装配过程,只需按压连接板23即可完成,大大提高了安装速率。
在本申请的一些实施例中,如图21-图31所示,门框110和连接板23中的一个设有定位孔201,门框110和连接板23中的另一个设有定位柱12,并且固定端和对应自由端的排布方向平行于定位孔201的轴向。定位柱12能够沿轴向插入定位孔201,以对门框110和连接板23进行定位。由此,定位结构能够在定位孔201径向上实现定位,卡接结构能够在定位孔201轴向上实现定位,从而实现门框110与连接板23的可靠连接,并且提高了装配的精度。卡接结构与定位结构构成快插安装结构,实现连接板23的快速、准确安装。
在一些实施例中,如图21和图28-图31所示,连接板23可以为长条形板,卡凸22可以凸出设置于连接板23的外周面,由此,既能实现卡凸22与卡勾11的卡接,连接板23的厚度(即沿定位孔201轴向的尺寸)又不受卡接结构的限制,例如连接板23的厚度可以更厚,以提高门钩120的结构强度。
此外,定位柱12或者定位孔201可以设于连接板23,以使定子柱在连接板23上设置更牢固,或者定位孔201在连接板23上能具有更长的轴向尺寸,以保证与定位柱12的配合可靠性和定位精度。
在一些实施例中,如图28-图31所示,卡凸22可以至少设于长条形连接板23的长度方向的两端,以使装配完成后,连接板23可以位于两个卡勾11之间,以在连接板23的长度方向上实现门钩120的限位,提高定位精度和连接可靠性。
在一些具体实施例中,如图28-图31所示,卡凸22的一部分可以延伸至连接板23的宽度方向的侧面,以使卡凸22不仅起到卡接连接的作用,还起到提高结构强度的作用,门钩120结构更牢固。例如,两个卡凸22可以延伸并连接在一起。
根据本申请的一些实施例,如图20-图27所示,门框110设有弹性件13,弹性件13设于卡凸22背向勾部112的一侧,例如可以设于连接板23与门框110之间。弹性件13用于向卡凸22施加朝向勾部112的弹力,以使卡凸22与卡勾11卡接后,卡凸22能够在弹性件13的弹力作用下与勾部112紧密相抵,避免门钩120晃动而影响卡接稳定性,且有利于提高用户的使用体验。而在装配过程中,弹性件13可以弹性变形,以保证卡凸22能够实现与卡勾11的卡接。
在一些实施例中,臂部111的一侧可以设有加强筋,加强筋连接臂部111和门框110以保证臂部111可弹性变形的前提下,保证臂部111的结构强度。
弹性件13的具体结构可以根据实际情况灵活设置,例如弹性件13可以为弹片、弹簧、弹性板等。
举例而言,如图22-图27所示,弹性件13可以为弯折板,弯折板可以包括第一板段和第二板段132,第一板段连接第二板段132和门框110,以使第一板段和第二板段132大体形成L型结构。第二板段132可以与连接板23相抵,以向门钩120提供朝向勾部112的弹力,实现门钩120的稳定固定。
在装配过程中,第二板段132可以发生弹性变形,使第二板段132与第一板段的夹角减小,以为卡凸22与卡勾11卡接提供足够安装空间,安装完成后可以复位以实现稳定卡接。
在一些具体实施例中,门框110与第二板段132相对的位置可以设有避让孔,一方面可以避免对第二板段132变形造成位置干扰,另一方面也便于弯折板在门框110上的加工成型,例如弯折板可以通过注塑工艺与门框110一体加工成型,通过设置避让孔,便于弯折板处结构脱模。
在一些具体实施例中,第一板段与第二板段132的连接拐角处可以设有加强筋,加强筋能够在满足第二板段132弹性变形的情况下,提高弯折板段的结构稳定性,使第二板段132能够向门钩120提供稳定支撑,并且具有较长的使用寿命。
在连接板23为长条形板的一些实施例中,如图28-图31所示,多个勾体21可以沿连接板23长度方向排布,以实现门体组件100与机体之间更大范围的多位点连接,并且多个勾体21可以通过连接板23形成一个整体,提高门钩120的整体结构强度,且多个勾体21可以通过同一组连接结构实现与门框110的连接,有利于简化门钩120结构,提高装配效率。
在一些实施例中,门框110可以为塑料材质,门钩120可以为塑料材质,门封140可以为金属材质,例如为金属薄板。保证门框110与门钩120能够可靠连接且绝缘,门封140则可以保证盛放腔内的加热效果,例如通过微波反射提高烹饪器具200的微波烹饪效率。
根据本申请第三方面实施例的烹饪器具200包括根据本申请第二方面实施例的门体组件100。由于根据本申请实施例的门体组件100具有上述有益的技术效果,因此根据本申请实施例的烹饪器具200,通过门钩120与门框110连接,避免门钩120与门封140直接机械连接,有利于提高门封140的结构强度,并且通过多个勾体21设于连接板23以通过连接板23与门框110连接,使装配结构简单,能够提高装配效率。例如烹饪器具200可以为微波炉等。
在本说明书的描述中,术语“连接”、“安装”、“固定”等均应做广义理解,例如,“连接”可以是固定连接,也可以是可拆卸连接,或一体地连接;可以是直接相连,也可以通过中间媒介间接相连。对于本领域的普通技术人员而言,可以根据具体情况理解上述术语在本申请中的具体含义。
在本说明书的描述中,术语“一个实施例”、“一些实施例”、“具体实施例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或特点包含于本申请的至少一个实施例或示例中。在本说明书中,对上述术语的示意性表述不一定指的是相同的实施例或实例。而且,描述的具体特征、结构、材料或特点可以在任何的一个或多个实施例或示例中以合适的方式结合。
以上仅为本申请的优选实施例而已,并不用于限制本申请,对于本领域的技术人员来说,本申请可以有各种更改和变化。凡在本申请的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本申请的保护范围之内。

Claims (24)

  1. 一种门体组件,其特征在于,包括:
    门框;
    至少一个门钩,至少一个所述门钩与所述门框为一体结构。
  2. 根据权利要求1所述的门体组件,其特征在于,
    所述至少一个门钩包括第一门钩和第二门钩,所述第一门钩与所述第二门钩沿所述门框的高度方向间隔排布;
    所述第一门钩和所述第二门钩与所述门框为一体结构。
  3. 根据权利要求1或2所述的门体组件,其特征在于,
    所述门框设有安装槽;
    所述门体组件还包括:
    装饰件,位于所述门框背离所述门钩的一侧,所述装饰件的一部分嵌入所述安装槽内。
  4. 根据权利要求3所述的门体组件,其特征在于,
    所述装饰件为玻璃件。
  5. 根据权利要求3或4所述的门体组件,其特征在于,还包括:
    门板,设于所述门框背离所述装饰件的一侧,所述至少一个门钩位于所述门框的侧壁与所述门板的侧壁之间。
  6. 根据权利要求5所述的门体组件,其特征在于,还包括:
    门封,位于所述门板背离所述门框的一侧,并与所述门框和所述门板相连。
  7. 根据权利要求6所述的门体组件,其特征在于,
    所述门封设有通孔,所述通孔与所述门钩一一对应,所述门钩穿过所述通孔。
  8. 根据权利要求1至7中任一项所述的门体组件,其特征在于,还包括:
    加强部,设于所述门钩靠近所述门框的一端,并与所述门框相连。
  9. 根据权利要求8所述的门体组件,其特征在于,
    所述加强部与所述门钩为一体结构。
  10. 根据权利要求3至7中任一项所述的门体组件,其特征在于,还包括:
    把手,设于所述装饰件上。
  11. 根据权利要求10所述的门体组件,其特征在于,
    所述装饰件上设有至少一个第一安装孔;
    所述把手上设有至少一个第二安装孔;
    所述门体组件还包括:
    至少一个紧固件,分别穿过所述第一安装孔和所述第二安装孔,以将所述把手与所述装饰件相连。
  12. 根据权利要求11所述的门体组件,其特征在于,
    所述第一安装孔的数量为多个,所述第二安装孔和所述紧固件与所述第一安装孔一一对应。
  13. 一种门体组件,其特征在于,包括:
    门框;
    门钩,所述门钩包括连接板和设于所述连接板的多个勾体,所述连接板与所述门框相连;
    门封,所述门封设于所述门框的内侧,所述勾体穿设于所述门封。
  14. 根据权利要求13所述的门体组件,其特征在于,
    所述连接板一体成型于所述门框;或者,
    所述连接板与所述门框卡接相连。
  15. 根据权利要求13或14所述的门体组件,其特征在于,所述勾体一体成型于所述连接板,或者所述勾体与所述连接板可拆卸地连接。
  16. 根据权利要求13-15中任一项所述的门体组件,其特征在于,所述连接板和所述门框中的一个设有卡勾,另一个设有卡凸,所述卡勾与所述卡凸可拆卸地卡接配合。
  17. 根据权利要求16所述的门体组件,其特征在于,所述卡勾为两个且均包括臂部和勾部,两个所述卡勾的所述臂部的固定端间隔设于所述门框,两个所述臂部的自由端的彼此相对侧分别设有所述勾部,
    所述连接板设有与两个所述卡勾对应的两个所述卡凸,每个所述卡凸卡入所述勾部的朝向所述固定端的一侧。
  18. 根据权利要求17所述的门体组件,其特征在于,所述门框和所述连接板中的一个设有定位孔,另一个设有插入所述定位孔的定位柱,所述固定端和对应所述自由端的排布方向平行于所述定位孔的轴向。
  19. 根据权利要求17或18所述的门体组件,其特征在于,所述门框设有弹性件,所述弹性件设于所述卡凸背向所述勾部的一侧,且用于向所述卡凸施加朝向所述勾部的弹力。
  20. 根据权利要求19所述的门体组件,其特征在于,所述弹性件为弯折板且包括第一板段和第二板段,所述第一板段连接所述第二板段和所述门框,所述第二板段与所述连接板相抵。
  21. 根据权利要求13-20中任一项所述的门体组件,其特征在于,所述连接板为长条形板,多个所述勾体沿所述连接板的长度方向排布。
  22. 一种烹饪器具,其特征在于,包括如权利要求1至21中任一项所述的门体组件。
  23. 根据权利要求22所述的烹饪器具,其特征在于,还包括:
    器具本体,所述器具本体设有烹饪腔,所述门体组件设于所述器具本体上,并能够打开或关闭所述烹饪腔;
    控制面板,设于所述器具本体,并位于所述门体组件所在的一侧。
  24. 根据权利要求22或23所述的烹饪器具,其特征在于,
    所述烹饪器具包括微波炉、蒸烤箱或微蒸烤一体机。
PCT/CN2023/097547 2022-06-01 2023-05-31 门体组件和烹饪器具 WO2023232091A1 (zh)

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CN202221354677.1U CN218044791U (zh) 2022-06-01 2022-06-01 门体和烹饪器具
CN202221380838.4U CN217681151U (zh) 2022-06-01 2022-06-01 门体组件和微波炉
CN202221380838.4 2022-06-01
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Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1429019A (en) * 1972-09-18 1976-03-24 Litton Industries Inc Microwave ovens
US20040178195A1 (en) * 2002-12-31 2004-09-16 Kim Yong-Yeon Microwave oven
CN204534714U (zh) * 2015-04-08 2015-08-05 广东美的厨房电器制造有限公司 烹饪器具
EP3333489A1 (de) * 2016-12-12 2018-06-13 BSH Hausgeräte GmbH Haushaltsgargerät
CN111023181A (zh) * 2019-11-01 2020-04-17 广东格兰仕集团有限公司 烹饪电器及其门体
CN217681151U (zh) * 2022-06-01 2022-10-28 广东美的厨房电器制造有限公司 门体组件和微波炉
CN218044791U (zh) * 2022-06-01 2022-12-16 广东美的厨房电器制造有限公司 门体和烹饪器具

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1429019A (en) * 1972-09-18 1976-03-24 Litton Industries Inc Microwave ovens
US20040178195A1 (en) * 2002-12-31 2004-09-16 Kim Yong-Yeon Microwave oven
CN204534714U (zh) * 2015-04-08 2015-08-05 广东美的厨房电器制造有限公司 烹饪器具
EP3333489A1 (de) * 2016-12-12 2018-06-13 BSH Hausgeräte GmbH Haushaltsgargerät
CN111023181A (zh) * 2019-11-01 2020-04-17 广东格兰仕集团有限公司 烹饪电器及其门体
CN217681151U (zh) * 2022-06-01 2022-10-28 广东美的厨房电器制造有限公司 门体组件和微波炉
CN218044791U (zh) * 2022-06-01 2022-12-16 广东美的厨房电器制造有限公司 门体和烹饪器具

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