WO2023232107A1 - 微波炉的联锁装置和微波炉 - Google Patents
微波炉的联锁装置和微波炉 Download PDFInfo
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- WO2023232107A1 WO2023232107A1 PCT/CN2023/097773 CN2023097773W WO2023232107A1 WO 2023232107 A1 WO2023232107 A1 WO 2023232107A1 CN 2023097773 W CN2023097773 W CN 2023097773W WO 2023232107 A1 WO2023232107 A1 WO 2023232107A1
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- WIPO (PCT)
- Prior art keywords
- lever
- driving
- door
- microwave oven
- door hook
- Prior art date
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B6/00—Heating by electric, magnetic or electromagnetic fields
- H05B6/64—Heating using microwaves
- H05B6/6414—Aspects relating to the door of the microwave heating apparatus
- H05B6/6417—Door interlocks of the microwave heating apparatus and related circuits
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B65/00—Locks or fastenings for special use
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05C—BOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
- E05C19/00—Other devices specially designed for securing wings, e.g. with suction cups
- E05C19/10—Hook fastenings; Fastenings in which a link engages a fixed hook-like member
- E05C19/12—Hook fastenings; Fastenings in which a link engages a fixed hook-like member pivotally mounted around an axis
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C15/00—Details
- F24C15/02—Doors specially adapted for stoves or ranges
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C15/00—Details
- F24C15/02—Doors specially adapted for stoves or ranges
- F24C15/022—Latches
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C7/00—Stoves or ranges heated by electric energy
- F24C7/02—Stoves or ranges heated by electric energy using microwaves
Definitions
- the present application relates to the technical field of microwave ovens, and more specifically, to an interlock device of a microwave oven and a microwave oven.
- the micro switch layout used in microwave ovens uses the upper door hook of the movable door hook to control the primary micro switch when the door is closed, and the lower door hook controls the secondary micro switch and the monitoring micro switch.
- the triggering sequence of the micro switch may be confused during the closing process, resulting in potential safety hazards or affecting the service life of the microwave oven.
- the first embodiment of the present application proposes an interlocking device for a microwave oven, which can avoid confusion in the triggering sequence of the switch components.
- the second embodiment of the present application proposes an interlocking device for a microwave oven, which can realize orderly triggering of switch components, takes up little space, has strong versatility, and can effectively save costs.
- a third embodiment of the present application provides a microwave oven having the above interlocking device.
- the interlocking device of the microwave oven includes: a first door hook; an interlocking bracket, the interlocking bracket is provided with a monitoring switch, a first micro switch and a second micro switch; A lever and a second lever, the first lever and the second lever are respectively rotatably installed on the interlocking bracket, wherein the first door hook sequentially drives the third door hook during the closing process of the microwave oven. A lever and the second lever rotate, so that after the first lever triggers the monitoring switch, the second lever triggers the first micro switch and the second micro switch in sequence.
- the interlocking device of the microwave oven through the driving of the first door hook and the orderly transmission of the first lever and the second lever, the monitoring switch, the first micro switch and the second micro switch are realized.
- the switches are triggered in sequence, avoiding the problem of confusing triggering sequences of multiple switch components, ensuring accurate detection of the door's opening and closing status, and avoiding circuit damage to the microwave oven or even safety accidents, which is beneficial to extending the service life of the microwave oven.
- interlocking device of the microwave oven may also have the following additional technical features:
- the rotating shaft of the first lever is provided on a side of the rotating shaft of the second lever close to the first door hook.
- the rotating shaft of the first lever and the rotating shaft of the second lever are respectively located on both sides of the first door hook perpendicular to the closing direction.
- the first lever includes: a first driving arm, the first driving arm is provided with a first driving part for triggering the monitoring switch, and during the closing process, the first door The hook resists the first driving arm to drive the first lever to rotate in the first direction.
- the first lever further includes: a second driving arm located on a side of the first driving arm close to the first door hook.
- the first door hook extends between the first driving arm and the second driving arm.
- the first door hook offsets the second driving arm to drive the first lever. Rotate in a second direction opposite to the first direction.
- the interlocking device further includes: an elastic member that connects the interlocking bracket and the first lever and has a first driving state. In the first driving state , the elastic member applies a driving force to the first lever to rotate in the first direction, so that the second driving arm drives the first door hook to move in the closing direction.
- the elastic member also has a second driving state.
- the elastic member applies a driving force to the first lever to rotate in the second direction.
- the first door hook is adapted to resist the first driving arm to switch the elastic member from the second driving state to the first driving state.
- the length of the second driving arm is less than the length of the first driving arm; and/or, in the axial direction of the first lever, the thickness of the second driving arm is less than The thickness of the first drive arm.
- the interlocking bracket is provided with a first limiting part.
- the first limiting part offsets the first lever, so as to The first lever is prevented from rotating in the first direction.
- the interlocking device further includes: a buffer door closing assembly, which is connected to the interlock bracket and the first driving arm. During the door closing process, the buffer door closing assembly uses To apply a buffering force opposite to the first direction to the first lever.
- the buffer door closing assembly includes: a buffer member, one end of the buffer member is rotatably connected to the interlocking bracket; a connection member, the first driving arm has a driving surface, and the connection member The component is rotatably installed on the first driving arm and forms a preset angle with the driving surface. The other end of the buffer component is rotatably connected to the connecting component.
- the first lever moves along the After the first direction is rotated by the preset angle, the driving surface and the connecting member are offset to drive the connecting member to rotate.
- the second lever includes: a first rotating arm.
- the first door hook is adapted to offset the first rotating arm to drive the second lever along the first rotating arm.
- At least two of the first rotating arm, the second rotating arm and the third rotating arm are staggered along the axial direction of the second lever.
- the interlocking bracket includes a bracket body and a cover body, the cover body cooperates with the bracket body to define an installation space, and the first lever and the second lever are installed on the Installation space, the monitoring switch is provided on the side of the cover facing away from the bracket body, and the cover has a first through hole for the first driving part of the first lever to pass through;
- One of the first micro switch and the second micro switch is located in the installation space, and the other is located on a side of the cover facing away from the bracket body.
- the cover has a function The second through hole allows the second driving part of the second lever to pass through.
- the interlocking device includes: a first door hook; an interlocking bracket provided with a first micro switch and a second micro switch; a second lever, the third Two levers are rotatably installed on the interlocking bracket.
- the second lever includes a first rotating arm provided with a first fitting part, a second rotating arm provided with a second fitting part and a third fitting part.
- the third rotating arm, the first fitting part, the second fitting part and the third fitting part are arranged in sequence along the first direction around the rotation axis of the second lever, and the first door hook is suitable for Move along the door closing direction to offset the first fitting part and drive the second lever to rotate in the first direction, so that the second fitting part triggers the first micro switch and then the third fitting part trigger the second micro switch.
- the first fitting part, the second fitting part and the third fitting part are sequentially arranged in the first direction around the rotation axis of the second lever, and the first fitting part is After the first door hook is driven, the second mating part and the third mating part can trigger the corresponding micro switches in sequence, ensuring the orderliness of triggering the micro switches, avoiding the problem of confusing triggering sequences, and thereby effectively detecting the microwave oven. Open and closed status. Moreover, while ensuring the triggering sequence, the arm length of the rotating arm can be effectively reduced, occupying a small space and achieving a compact structure of the interlocking device. Therefore, the interlocking device of the present application can be applied to smaller microwave ovens, has strong versatility, and can effectively reduce production costs.
- interlocking device may also have the following additional technical features:
- the interlocking bracket has an installation space, a side wall of the installation space is provided with an escape groove, the first rotating arm is located in the escape groove, and the first matching part Extending into the installation space, the first door hook is adapted to extend into the installation space.
- the interlocking bracket includes a first baffle that partially blocks the communication opening between the avoidance groove and the installation space.
- the interlocking bracket has an installation space, the second rotating arm is located in the installation space, a second baffle is provided in the installation space, and at least one of the second baffle A part is located on the side of the second rotating arm close to the first door hook.
- a part of the second baffle extends along the door closing direction and is located between the rotating shaft of the second lever and the first door hook.
- the interlocking bracket has an installation space
- the third rotating arm is located in the installation space
- a third baffle is provided in the installation space
- the third baffle is located in the installation space. The side of the third rotating arm close to the first door hook.
- the angle between the first fitting part and the second fitting part with respect to the second lever axis is ⁇
- the second fitting part and the third fitting part are arranged with respect to the second lever axis.
- the angle between the second lever axis is ⁇ , ⁇ .
- the distance between the first fitting part and the second lever axis is greater than or equal to the distance between the second fitting part and the second lever axis, and is greater than or equal to the third The distance between the fitting part and the axis of the second lever.
- the interlocking device of the microwave oven further includes a monitoring switch, the monitoring switch is provided on the interlocking bracket; a first lever, the first lever is rotatably provided on the interlocking bracket, Before driving the second lever to rotate, the first door hook drives the first lever to rotate in the second direction to trigger the monitoring switch.
- the first lever includes a first driving arm and a second driving arm
- the first driving arm is provided with a first driving part for triggering the monitoring switch
- the second driving arm Located on the side of the first driving arm close to the first door hook, the first door hook is adapted to offset the first driving arm
- the first fitting portion is located between the first driving arm and the second driving arm.
- At least one side surface of the second driving arm is provided with a thinned area; and/or, the end thickness of the first door hook Decrease in the direction of closing the door.
- the first driving arm is spaced apart from the first fitting portion by a predetermined gap in the axial direction of the first lever.
- the interlocking device of the microwave oven further includes an elastic member that connects the interlocking bracket and the first lever and has the function of driving the first lever to rotate in the second direction.
- the first driving state, and the second driving state of driving the first lever to rotate in the first direction, during the closing process, the first door hook is adapted to offset the first lever to make the The elastic member switches from the second driving state to the first driving state.
- the interlocking bracket is provided with a first limiting part and a second limiting part.
- the first limiting part and the first lever are limited by each other.
- the second limiting part and the first lever are limited by each other.
- the interlocking device of the microwave oven further includes a buffer door closing assembly, which is connected to the interlock bracket and the first lever. During the door closing process, the buffer door closing assembly is used to close the door. The first lever exerts a buffering force opposite to the second direction.
- the buffer door closing assembly includes: a buffer member, one end of the buffer member is rotatably connected to the interlocking bracket; a connecting member, the first lever has a driving surface, and the connecting member The other end of the buffer member is rotatably connected to the connecting member.
- the first lever moves along the After the second direction is rotated by the preset angle, the driving surface and the connecting member are offset to drive the connecting member to rotate.
- the side of the connecting piece in the axial direction of the first lever, is provided with an avoidance notch for avoiding the first mating part.
- the microwave oven according to the third embodiment of the present application includes: a body and a door body installed on the body; according to the interlocking device of the microwave oven according to the embodiment of the present application, the first door hook is installed on the door body, and the The interlocking bracket is installed on the body.
- a fourth embodiment of the present application provides a microwave oven.
- a microwave oven includes a door body, an interlocking bracket and a damping assembly.
- the door body has a second door hook and a first door hook.
- the door body is movably connected to the interlocking bracket, and a first switch, a second switch and a third switch are fixed on the interlocking bracket.
- a damping assembly is installed on the interlocking bracket.
- the damping assembly includes a damper and a driving lever. The driving lever rotates to connect the interlocking bracket and the damper.
- the microwave oven is configured to be on the door body. During the closing process, the first door hook directly contacts the first switch to trigger the first switch, and the second door hook directly contacts the second switch to trigger the second switch.
- a door hook triggers the third switch through the driving lever.
- the first door hook directly conflicts with the first switch to trigger the first switch
- the second door hook directly conflicts with the second switch to trigger the second switch. This can ensure that the first switch, the second switch and the third switch are activated in sequence. Triggering avoids the problem of confusing switch triggering sequence.
- the second door hook and/or the first door hook are fixed on the door body.
- the damping assembly further includes a swing block that rotationally connects the driving lever and the damper.
- the driving lever is provided with an accommodating groove, a rotation space is provided at the top of the accommodating groove, a swing space is provided at the bottom of the accommodating groove, and one end of the swing block is rotated and received therein. The other end of the swing block is received in the swing space, and the swing space is used to provide a space for the driving lever to rotate relative to the swing block.
- the damping assembly includes an elastic member, the elastic member and the driving lever are located on opposite sides of the interlocking bracket, the interlocking bracket is provided with a third through hole, and the The driving lever is connected to the elastic member through the third through hole, and the elastic member is used to drive the driving lever to accelerate rotation so that the driving lever drives the door body to accelerate.
- the force direction of the elastic member on the driving lever is located at the connection between the elastic member and the driving lever. Above the line connecting the rotating shaft of the driving lever, when the driving lever is acted upon by the first door hook, the force direction of the elastic member on the driving lever is located between the elastic member and the driving lever. Below the connection point of the driving lever and the rotating shaft of the driving lever.
- the elastic member includes a first elastic member and a second elastic member
- the driving lever is provided with a connection structure
- the first elastic member and the second elastic member are both connected to the connection structure.
- the angle formed between the first elastic member and the second elastic member is an acute angle.
- a protection block is installed on the interlocking bracket, and the protection block is movably installed on the interlocking bracket.
- the protective block limits the driving lever.
- the first door hook drives the protective block to move to release the protective block from limiting the driving lever.
- the microwave oven includes: a slope block and a third elastic member, the slope block and the third elastic member are installed on the interlocking bracket, the third elastic member abuts the The bottom of the inclined block, the top of the inclined block has a guide inclined surface, the guide inclined surface slopes upward along the vertical direction towards the inside of the interlocking bracket, during the closing process of the door body, the end of the second door hook The inclined block abuts on the guide inclined surface to lower and compress the third elastic member. When the end of the second door hook crosses the guide inclined surface, the inclined block moves on the third elastic member. The second door hook is blocked under the action of the elastic member.
- the microwave oven further includes a cavity
- the door is rotatably connected to one side of the cavity
- the interlocking bracket is installed in the cavity.
- FIGS. 1 and 2 are partial structural schematic diagrams of a microwave oven according to an embodiment of the present application, in which the door is in an open state;
- Figure 3 is a partial structural schematic diagram of Figure 1, in which the cover is not shown;
- Figure 4 is a partially enlarged structural schematic diagram of Figure 3;
- Figure 5 is a left view of Figure 4.
- FIGS. 6 and 7 are partial structural right views of the microwave oven according to the embodiment of the present application, in which the door is in a closed state;
- Figure 8 is a partial structural schematic diagram of Figure 6, in which the cover is not shown;
- Figure 9 is a partially enlarged structural schematic diagram of Figure 8.
- Figure 10 is a left view of Figure 9;
- Figure 11 is a schematic structural diagram of the cover, the first micro switch, and the second micro switch according to the embodiment of the present application;
- Figures 12 and 13 are structural schematic diagrams of the interlocking bracket and the second lever according to the embodiment of the present application.
- Figures 14-16 are schematic structural diagrams of the first lever according to embodiments of the present application.
- FIGS 17-18 are schematic structural diagrams of the second lever according to the embodiment of the present application.
- Figures 19 and 20 are partial structural right views of the microwave oven according to the embodiment of the present application, in which the door is in a closed state;
- Figure 21 is a partial structural schematic diagram of Figure 19, in which the cover is not shown;
- Figure 22 is an enlarged structural schematic diagram of the area circled A in Figure 21;
- Figures 23-25 are structural schematic diagrams of part of the structure of a microwave oven according to an embodiment of the present application, in which the door is in an open state;
- Figure 26 is a partial structural schematic diagram of Figure 24, in which the cover is not shown;
- Figure 27 is an enlarged structural schematic diagram of the area circled B in Figure 26;
- Figure 28 is a right side view of a partial structure of a microwave oven according to an embodiment of the present application, in which the first door hook has just contacted the first lever;
- Figure 29 is a partial structural schematic diagram of Figure 28, in which the cover is shown;
- Figure 30 is a right side view of a partial structure of a microwave oven according to an embodiment of the present application, in which the first driving part triggers the monitoring switch;
- Figure 31 is a right side view of a partial structure of a microwave oven according to an embodiment of the present application, in which, after the first driving part triggers the monitoring switch, the first door hook continues to move in the closing direction;
- Figure 32 is a right side view of a partial structure of a microwave oven according to an embodiment of the present application, in which the first door hook has just triggered the second lever;
- Figure 33 is a right side view of a partial structure of a microwave oven according to an embodiment of the present application, in which the first door hook moves in the direction of opening the door;
- Figure 34 is a right side view of a partial structure of a microwave oven according to an embodiment of the present application, in which the interlock device is triggered abnormally;
- Figures 35 and 36 are schematic structural views of the bracket body and the second lever according to the embodiment of the present application.
- Figures 37 and 38 are schematic structural views of the driving member, ramp block and bracket body according to the embodiment of the present application.
- Figures 39 and 40 are schematic structural views of the first lever, connector, buffer and bracket body according to the embodiment of the present application.
- Figures 41 and 42 are schematic structural views of the door body, first door hook and second door hook according to the embodiment of the present application;
- Figures 43 and 44 are schematic structural diagrams of a cover according to an embodiment of the present application.
- Figures 45 and 46 are schematic structural diagrams of the stent body according to embodiments of the present application.
- Figure 47 is a cross-sectional view along the direction shown on line C-C in Figure 46;
- Figure 48 is a left side view of Figure 45;
- Figures 49 and 50 are schematic structural diagrams of a driving link according to an embodiment of the present application.
- Figure 51 is a cross-sectional view along the direction shown on line D-D in Figure 50;
- Figures 52 and 53 are schematic structural diagrams of connectors according to embodiments of the present application.
- Figures 54 and 55 are schematic structural diagrams of the second lever according to embodiments of the present application.
- Figure 56 is a schematic structural diagram of an inclined block according to an embodiment of the present application.
- Figures 57 and 58 are schematic structural views of the first door hook and the second door hook according to the embodiment of the present application.
- FIGS 59 and 60 are partial structural schematic diagrams of the microwave oven according to the embodiment of the present application.
- Figure 61 is an enlarged schematic view of III in Figure 60;
- FIGS 62-68 are partial structural schematic diagrams of the microwave oven according to the embodiment of the present application.
- Figures 69 and 70 are schematic diagrams of the force-receiving direction of the driving lever according to the embodiment of the present application.
- Microwave oven 1000 1000;
- Interlock device 100 door body 200;
- the first door hook is 11; the second door hook is 12;
- Interlock bracket 20 monitoring switch 201; first micro switch 202; second micro switch 203; installation space 204; avoidance groove 205; first limiter 21; bracket body 22; third through hole 221; A mounting post 222; a second mounting post 223; the cover 23; the first through hole 231; the second through hole 232; the second limiting portion 24; the first baffle 25; the second baffle 26; the third baffle 27;
- second lever 40 first rotating arm 41; second rotating arm 42; third rotating arm 43; second driving part 44a; second fitting part 44; first fitting part 45; third fitting part 46;
- Buffer door closing assembly 50 buffer part 51; connecting part 52; avoidance gap 521; driving part 53; inclined block 54;
- first feature and second feature may include one or more of these features, and “plurality” means two or more.
- the first feature is in the “second feature” “Above” or “below” may include that the first and second features are in direct contact, or may include that the first and second features are in contact not directly but through another feature between them, the first feature being in contact with the second feature “Above,” “above,” and “above” include the first feature being directly above or diagonally above the second feature, or simply means that the first feature is higher horizontally than the second feature.
- a microwave oven 1000 may include a body, a door 200 and an interlocking device 100 of the microwave oven 1000 according to the embodiment of the present application.
- the door body 200 is installed on the machine body, for example, rotatably installed on the machine body, so as to open and close the holding cavity of the machine body, and to switch between the open state and the closed state of the door body 200 .
- the interlocking device 100 can switch to implement corresponding functions according to the state of the door body 200 .
- the interlocking device 100 of the microwave oven 1000 may include: a first door hook 11, an interlocking bracket 20, a first lever 30 and a second lever 40.
- the first door hook 11 can be installed on the door body 200 so as to move relative to the machine body along with the opening and closing action of the door body 200 .
- the interlocking bracket 20 is installed on the machine body so that the first door hook 11 can cooperate with the interlocking bracket 20 and the components on the interlocking bracket 20 when moving relative to the machine body.
- the interlocking bracket 20 is provided with three switch components, which are a monitoring switch 201, a first micro switch 202 and a second micro switch 203 respectively.
- the monitoring switch may be a micro switch.
- the monitoring switch 201, the first micro switch 202 and the second micro switch 203 are triggered in sequence, it is determined that the door 200 is closed and the microwave oven 1000 can be powered on and work normally.
- the micro switch layout used in microwave ovens uses the upper door hook of the movable door hook to control the primary micro switch when the door is closed, and the lower door hook indirectly controls the secondary micro switch and the monitoring micro switch.
- the triggering sequence of the micro switch may be confused during the closing process, resulting in potential safety hazards or affecting the service life of the microwave oven.
- the first lever 30 is rotatably installed on the interlocking bracket 20, and the second lever 40 is rotatably installed. on the interlocking bracket 20.
- the first door hook 11 moves relative to the interlock bracket 20 and drives the first lever 30 and the second lever 40 to rotate in sequence, so that after the first lever 30 triggers the monitoring switch 201, the second lever 40
- the first micro switch 202 and the second micro switch 203 are triggered in sequence.
- the monitoring switch 201 and the first lever are realized.
- the micro switch 202 and the second micro switch 203 are triggered in sequence to avoid the problem of confusing triggering sequences of multiple switch components, ensure accurate detection of the opening and closing status of the door 200, and avoid circuit damage to the microwave oven 1000 or even safety accidents. It is helpful to extend the service life of the microwave oven 1000.
- the door body 200 is rotatably mounted on the machine body around a vertically extending rotation axis.
- the door body 200 rotates so that the first door hook 11 generally moves backward relative to the coupling in the front-to-back direction as shown in Figure 1 .
- the lock bracket 20 moves.
- the first door hook 11 first contacts the first lever 30 on the interlocking bracket 20 and drives the first lever 30 to rotate in the first direction (counterclockwise as shown in Figure 1) to a preset angle.
- the first lever 30 triggers the monitoring switch 201.
- the first door hook 11 contacts the second lever 40 and drives the second lever 40 to rotate in the second direction (clockwise as shown in FIG. 1 ).
- the first micro switch 202 When the rotation reaches the first preset angle, the first micro switch 202 is triggered. , and trigger the second micro switch 203 when it continues to rotate to the second preset angle.
- the monitoring switch 201, the first micro switch 202 and the second micro switch 203 are triggered in sequence and in an orderly manner.
- first lever 30 and the second lever 40 can be completely rotated driven by the first door hook 11, or the first door hook 11 can provide the initial force to start the rotation, and then other levers can be rotated. Rotation driven by the structure is within the scope of protection of this application.
- the door 200 of the microwave oven 1000 may also include a second door hook 12.
- the first door hook 11 is a lower door hook
- the second door hook 12 is an upper door hook.
- the lower door hook is located on the lower side of the upper door hook.
- it can also include a third door hook or more door hooks, etc., with multiple door hooks distributed vertically at intervals.
- the first door hook 11 cooperates with the two levers to indirectly trigger the three switch parts, thereby ensuring the orderliness of the switching of the three switch parts.
- the first door hook 11 may be a fixed door hook, that is, fixed relative to the door body 200 so that its position and structure are stable when the first door hook 11 drives the first lever 30 and the second lever 40 to rotate.
- the position change of the first door hook 11 affects the orderly triggering of the micro switch; other door hooks such as the second door hook 12 and the third door hook can be fixed door hooks or movable door hooks, for example It is a door hook rotatably or movably installed on the door body 200 .
- the interlocking device 100 of the microwave oven 1000 through the driving of the first door hook 11 and the orderly transmission of the first lever 30 and the second lever 40, the monitoring switch 201, the first micro switch 202 and the The second micro switches 203 are triggered in sequence, which avoids the problem of confusing triggering sequences of multiple switch components, ensures accurate detection of the opening and closing status of the door 200, and avoids circuit damage or even safety accidents of the microwave oven 1000, which is conducive to improving the performance of the microwave oven 1000. service life.
- the microwave oven 1000 according to the embodiment of the present application can be levered through the driving of the first door hook 11 and the first lever 30 and the second lever 40
- the orderly transmission realizes that the monitoring switch 201, the first micro switch 202 and the second micro switch 203 are triggered in sequence, avoiding the problem of chaotic triggering sequence of multiple switch parts, ensuring accurate detection of the opening and closing status of the door 200, and This prevents damage to the circuit of the microwave oven 1000 and even safety accidents, which is beneficial to extending the service life of the microwave oven 1000.
- the rotating shaft of the first lever 30 is provided on the side of the rotating shaft of the second lever 40 close to the first door hook 11 , for example, as shown in FIGS. 3 and 8 , the rotating shaft of the first lever 30 is located on the front side of the rotating shaft of the second lever 40, and the first door hook 11 is provided on the front side of the rotating shaft of the first lever 30, so that the first door hook 11 can move backward during the closing process.
- the first lever 30 is contacted first, and then the second lever 40 is contacted to avoid triggering disorder of the switch member.
- the rotating shaft of the first lever 30 and the rotating shaft of the second lever 40 are respectively located on both sides of the first door hook 11 perpendicular to the closing direction.
- the rotating axis of the first lever 30 is located on the upper side of the first door hook 11
- the rotating axis of the second lever 40 is located on the lower side of the first door hook 11 .
- the above arrangement makes the arrangement and rotation of the first lever 30 and the second lever 40 non-interfering with each other, and the arrangement of the first lever 30 and the second lever 40 in the door closing direction (such as the front and rear direction) is more compact.
- the length of the door hook 11 does not need to be set too long to contact the first lever 30 and the second lever 40 for transmission, and the structure of the interlocking device 100 is more compact.
- the first lever 30 may include a first driving arm 31, the first driving arm 31 is provided with a first driving part 33, and the first driving part 33 is used to Trigger monitoring switch 201.
- the first door hook 11 can resist the first driving arm 31 to drive the first driving arm 31 to rotate in the first direction around the rotation axis of the first lever 30 , thereby The first driving part 33 is driven to rotate, so that the first driving part 33 can rotate to a position that triggers the monitoring switch 201, so that the monitoring switch 201 is turned on.
- the installation position of the first driving part 33 on the first driving arm 31 can be flexibly set according to actual conditions such as space layout.
- the first driving part 33 may be provided at any position such as the middle part or the end part of the first driving arm 31 .
- the first driving part 33 may be a protrusion provided on one side of the first driving arm 31 in the axial direction, so that when the first driving part 33 cooperates with the monitoring switch 201, it is not affected by the first driving arm 31. interference to avoid the risk of the first driving arm 31 accidentally touching the monitoring switch 201.
- the first lever 30 may also include a second driving arm 32 , and the second driving arm 32 is located on a side of the first driving arm 31 close to the first door hook 11 . side, in other words, the first driving arm 31 is located on the leading side of the second driving arm 32 along the first direction.
- the first door hook 11 can extend between the first driving arm 31 and the second driving arm 32 so that the first door hook 11 can offset the first driving arm 31 and drive the first lever 30 to start moving along the door. Rotate in the first direction.
- the first door hook 11 can offset the second driving arm 32 to drive the first lever 30 to rotate in the second direction.
- the second direction is opposite to the first direction, so that the first lever 30 can interact with the monitoring switch. 201 is out of cooperation, and the monitoring switch 201 can be turned off.
- the first door hook 11 can be used to drive the first lever 30 to rotate in two directions to trigger and reset the monitoring switch 201 , which is beneficial to simplifying the structure of the interlock device 100 .
- the structure that drives the first lever 30 to return includes, but is not limited to, the second drive arm 32 cooperating with the first door hook 11.
- a spring or other return member may also be provided to adjust the first door hook 32 to the first door hook 11. After the hook 11 moves in the door-opening direction, it can drive the first lever 30 to rotate and reset in the second direction.
- the interlocking device 100 may further include an elastic member 34 connecting the interlocking bracket 20 and the first lever 30 .
- the elastic member 34 can be a coil spring, and there can be one or more coil springs.
- the elastic members 34 are tension springs, and there are two.
- the first lever 30 is provided with a connecting portion 35, and the connecting portion 35 It is a protrusion provided on the side of the first lever 30 facing away from the first driving part 33 .
- One end of each tension spring is connected to the interlocking bracket 20, and the other end is connected to the connecting portion 35, and the one ends of the two tension springs are separated by a certain distance.
- the elastic member 34 has a first driving state. In the first driving state, the elastic member 34 applies a driving force to the first lever 30 to rotate in the first direction, so that the second driving arm 32 drives the first door hook 11 to move in the closing direction.
- the first door hook 11 moves in the closing direction, moves between the first driving arm 31 and the second driving arm 32 and offsets the first driving arm 31 , to drive the first lever 30 to start rotating in the first direction; when the first lever 30 starts to rotate in the first direction or after rotating at a smaller angle, the elastic member 34 is in the first driving state to automatically drive the first lever 30 to rotate in the first direction.
- Rotating in one direction causes the second driving arm 32 to drive the first door hook 11 to continue moving in the closing direction, thereby realizing the automatic closing function.
- the door body 200 can still be ensured to be closed in place, and the first door hook 11 can be moved in the closing direction until all three switches are triggered. On the one hand, it makes the user's operation labor-saving and convenient; on the other hand, it can avoid the problem of not closing the door in place.
- the elastic member 34 has a second driving state.
- the elastic member 34 applies a driving force to the first lever 30 to rotate in the second direction.
- the first door hook 11 can resist the first driving arm 31 so that the elastic member 34 switches from the second driving state to the first driving state.
- the first lever 30 in the door-opening state, under the action of the elastic member 34, the first lever 30 can be maintained at the required position. On the one hand, the first lever 30 is prevented from rotating in the first direction without being acted upon by the first door hook 11. On the other hand, the false triggering of the monitoring switch 201 can ensure that the first door hook 11 can smoothly move between the first driving arm 31 and the second driving arm 32 during the closing process, preventing the first lever 30 from rotating and affecting the first door.
- the hook 11 cooperates with the first lever 30 .
- the first door hook 11 and the first driving arm 31 are offset to drive the first lever 30 to rotate in the first direction, so that the elastic member 34 switches the driving state in time with the rotation of the first lever 30, ensuring that the elastic member 34 can drive in time. Closing effect.
- the elastic member 34 In the closed state, the elastic member 34 is in the first driving state, so that the first lever 30 can offset the first door hook 11 through the second driving arm 32 to ensure that the door body 200 remains in the closed state.
- the user controls the first door hook 11 to move in the door opening direction and offset the second driving arm 32 to cause the first lever 30 to rotate in the second direction.
- the elastic member 34 switches from the first driving state to the second driving state, so that the elastic member 34 can drive the first lever 30 to rotate in the second direction and release the first door hook in time.
- the resistance of 11 enables the door 200 to be opened easily.
- the length of the second driving arm 32 may be smaller than the length of the first driving arm 31, so that during the closing process, the first door hook 11 It is easier to move between the first driving arm 31 and the second driving arm 32 to avoid the second driving arm 32 from interfering with the movement of the first door hook 11 .
- the thickness of the second driving arm 32 is smaller than the thickness of the first driving arm 31, and the thickness difference causes the second driving arm 32 to be thicker than the first driving arm 31.
- the gap between the second driving arm 32 and the interlocking bracket 20 is larger than the gap between the first driving arm 31 and the interlocking bracket 20 .
- the first door hook 11 and the first driving arm 31 are not easily deformed, causing the first door hook 11 to move to the side of the first driving arm 31 away from the second driving arm 32 , ensuring the stability of the first door hook 11 and the first lever 30 working together.
- one side surface of the second driving arm 32 is provided with a thinned area 39 to allow the first lever 30 to be installed.
- the second driving arm 32 is provided with a thinned area 39 to form a certain gap with the interlocking bracket 20 .
- the first door hook 11 can be forcibly passed through the gap and moved to the first driving arm 31 and the second driving arm 31 by closing the door. Between the driving arms 32, the first door hook 11 can drive the first lever 30 to rotate and reset in the second direction through the door opening action.
- the interlocking bracket 20 includes a bracket body 22 and a cover 23, and the first lever 30 is installed between the bracket body 22 and the cover 23.
- the thinned area 39 can be a notch groove provided on the side of the second driving arm 32 facing the bracket body 22 , so that the above-mentioned gap is formed between the second driving arm 32 and the bracket body 22 .
- the thickness of the first door hook 11 can decrease along the closing direction, so that the thickness of the rear end of the first door hook 11 as shown in Figure 1 is smaller and the thickness of the front end is larger.
- the thick front and thin structure of the first door hook 11 makes it easier for the first door hook 11 to move from the thinned area 39 to the first driving arm 31 and the second driving arm 31 . Between the arms 32, it is easier to solve the problem of abnormal triggering.
- the interlocking bracket 20 may be provided with a first limiting part 21 .
- the first limiting portion 21 can resist the first lever 30 to prevent the first lever 30 from rotating in the first direction.
- the first limiting portion 21 can limit the limit position of the first lever 30 in the first direction to prevent the first lever 30 from causing damage to the monitoring switch 201 or the first door hook 11 due to an excessive rotation angle.
- the elastic member 34 drives the first lever 30 to rotate in the first direction to drive the first door hook 11 to move in the closing direction to realize the automatic closing action; when the first lever 30 is rotated to When it offsets the first limiting part 21 , the limiting effect of the first limiting part 21 balances the force of the first lever 30 and does not continue to rotate under the driving of the elastic member 34 .
- the first lever 30 can remain in contact with the first lever 30 .
- a door hook 11 cooperates stably to keep the door body 200 in a closed state.
- the interlocking device 100 may further include a buffer door closing assembly 50 .
- the buffer closing assembly 50 connects the interlocking bracket 20 and the first lever 30 , for example, is connected to the first driving arm 31 of the first lever 30 .
- the buffer closing assembly 50 is used to apply a buffering force in the opposite direction to the first lever 30 to achieve the closing buffering effect, avoid violent collision between the door body 200 and the machine body during the closing process, and also help reduce the door closing process. noise.
- the buffer closing assembly 50 may include a damper, a spring, or a compression spring.
- the buffer door closing assembly 50 includes a buffer member 51 and a connecting member 52 .
- One end of the buffer member 51 is rotatably connected to the interlocking bracket 20
- the connecting member 52 is rotatably connected to the other end of the buffer member 51 and the first driving arm 31 respectively, so that during the rotation of the first lever 30 , the buffer member 51 It can play a buffering role, and the rotatable connection structure can adapt to the rotation of the first lever 30 to avoid jamming.
- the first driving arm 31 has a driving surface 36
- the connecting piece 52 is rotatably mounted on the first driving arm 31, and as shown in Figure 4, when opening the door In this state, the connecting member 52 and the driving surface 36 are at a preset angle, and the other end of the buffer member 51 is rotatably connected to the connecting member 52 .
- the driving surface 36 can resist the connecting member 52 to drive the connecting member 52 to rotate.
- the connecting member 52 and the driving surface 36 are arranged at a preset angle in the door-opening state, when the first door hook 11 just contacts the first lever 30 and drives the first lever 30 to rotate in the first direction, the buffer member 51 does not A buffering force will be applied to the first lever 30, making it easier for the first door hook 11 to drive the first lever 30 to rotate.
- the first driving arm 31 is provided with a groove 37 on one side facing the buffer door closing assembly 50, and the bottom wall surface of the groove 37 is formed to drive the door.
- Surface 36 one side of the groove 37 is connected to the hole axis of the connector 52 , and the other side of the groove 37 is provided with a curved hook 38 spaced a certain distance away from the driving surface 36 .
- the buffer member 51 is a damper, and the damper is connected to the hole axis of the connecting member 52 by the notch of the groove 37 .
- the interlocking device 100 also includes an elastic member 34 connected to the first lever 30 .
- the elastic member 34 applies a driving force to the first lever 30 to rotate in the second direction, so that the first door hook 11 can smoothly move to offset the first driving arm 31.
- the connecting member 52 and the driving surface 36 At a preset angle, the damper does not produce buffering force.
- the first door hook 11 contacts the first driving arm 31 and drives the first lever 30 to rotate in the first direction. Since the damper has no buffering force, the first door hook 11 only needs to overcome the problem to drive the first lever 30.
- the driving force of the elastic member 34 has smaller resistance; when the connecting member 52 is rotated to offset the driving surface 36, the elastic member 34 switches state to apply a driving force to rotate in the first direction to the first lever 30 to actively drive the first lever 30.
- the first door hook 11 moves and the door body 200 closes, the damper generates a buffering force to reduce the closing noise.
- the first door hook 11 pulls the first lever 30 to rotate in the second direction, and the connecting piece 52 rotates relative to the first driving arm 31 so that a certain angle is formed between the connecting piece 52 and the driving surface 36. It offsets the connecting piece 52 to prevent the included angle from being too large, prevent the connecting piece 52 from coming out of the groove 37 , and ensure that the connecting piece 52 is stably connected to the first lever 30 .
- the buffer door closing assembly 50 may include a buffer member 51, which is an elastic piece or a compression spring, and the buffer door closing assembly 50 is formed as a buffer energy storage assembly. Specifically, one end of the elastic piece is connected to the interlocking bracket 20, the first lever 30 is against the other end of the elastic piece, and the elastic piece can elastically deform to store energy.
- the first lever 30 rotates along the first direction and squeezes the other end of the elastic piece, causing the elastic piece to increase its bending degree and accumulate energy, thereby playing a buffering and energy storage role; during the process of opening the door, the elastic piece can release all the energy.
- the stored energy is used to apply a driving force to the first lever 30 to rotate in the second direction, so that the first lever 30 can push the first door hook 11 and the door body 200 to move in the door opening direction, thereby assisting in opening the door.
- the direction of the driving force exerted by the elastic piece on the first lever 30 points to the rotation center of the first lever 30 or near the rotation center.
- the elastic piece does not provide a component force in the rotation direction of the first lever 30 or only provides a small component. The component force ensures that the door 200 can be tightly closed.
- the second lever 40 includes: a first rotating arm 41, a second rotating arm 42 and a third rotating arm 43.
- the rotating arm 42 and the third rotating arm 43 are arranged sequentially along the second direction (clockwise direction as shown in Figure 3).
- the first door hook 11 can resist the first rotating arm 41 to drive the second lever 40 to rotate in the second direction, thereby driving the second rotating arm 42 and the third rotating arm 42 .
- the rotating arm 43 rotates in the second direction
- the second rotating arm 42 can trigger the first micro switch 202
- the third rotating arm 43 can trigger the second micro switch 203, so that one lever can drive two micro switches to open in an orderly manner.
- At least two of the first rotating arm 41 , the second rotating arm 42 and the third rotating arm 43 are staggered along the axial direction of the second lever 40 so that the The angle between the first rotating arm 41 , the second rotating arm 42 and the third rotating arm 43 along the second direction is small and positional interference is not easy to occur, which is beneficial to making the structure of the interlocking device 100 in the moving direction of the first door hook 11 more precise. compact.
- the first rotating arm 41 and the third rotating arm 43 are located at the same position, and the second rotating arm 42 is staggered from the other two rotating arms.
- the corresponding first micro switch 202 and the second micro switch 203 can be arranged in two layers along the axial direction of the second lever 40, and the first door hook 11
- the second lever 40 can be driven by the side of the first rotating arm 41 facing away from the third rotating arm 43, thereby preventing the first door hook 11, the first micro switch 202 and the second micro switch 203 from interfering with each other.
- the second rotating arm 42 may be provided with a second driving part 44a so that the second rotating arm 42 and the first micro switch 202 can be at least partially offset in the axial direction to meet space layout requirements.
- the interlocking bracket 20 may include a bracket body 22 and a cover 23 , and the cover 23 covers the bracket body 22 so that the cover 23 and the bracket body 22
- the cooperation can define an installation space 204.
- the first lever 30 and the second lever 40 are installed in the installation space 204 to limit the first lever 30 and the second lever 40 to ensure that the two levers can rotate stably and are not easily moved by other levers. Structural interference or contact affects normal operation.
- the first door hook 11 can extend into the installation space 204 to contact the first lever 30 and the second lever 40.
- the installation space 204 can also be opposite to the first door.
- the matching structure of the hook 11 and the lever provides shielding and protection to ensure smooth driving. At the same time, it can also guide the first door hook 11 to ensure that the first door hook 11 can accurately contact the first lever 30 and the second lever 40 .
- the bracket body 22 can be provided with a first mounting post 222 and a second mounting post 223.
- the first lever 30 is sleeved on the first mounting post 222, and the second lever 40 sets are installed on the second mounting column 223.
- the ends of the first mounting post 222 and the second mounting post 223 are inserted into the cover 23 to limit the positions of the bracket body 22 and the cover 23 by cooperating with the cover 23 to prevent the cover 23 from being in contact with the bracket body. 22 Dislocation or deformation affects the trigger switch component.
- the monitoring switch 201 is provided on the side of the cover 23 facing away from the bracket body 22, and the cover 23 is provided with a first through hole. 231, the first lever 30 is provided with a first driving part 33, and the first driving part 33 can pass through the first through hole 231 to extend to the side of the cover 23 facing away from the bracket body 22. During the rotation of the first lever 30 , the first driving part 33 rotates in the first through hole 231 to trigger the monitoring switch 201 .
- the monitoring switch 201 can be installed outside the installation space 204 to avoid positional interference with components in the installation space 204, such as to avoid interference with the buffer closing assembly 50, so that the position arrangement is more reasonable.
- the first micro switch 202 is provided on the side of the cover 23 facing away from the bracket body 22
- the second micro switch 203 is provided in the installation space 204
- the cover 23 may also have a second through hole 232
- the second lever 40 is provided with a second driving part 44a.
- the second driving part 44a may pass through the second through hole 232 to extend to the cover 23 facing away from the bracket body. 22 on one side.
- the second driving part 44 a rotates in the second through hole 232 to trigger the first micro switch 202 located outside the installation space 204 .
- the part of the second lever 40 located in the installation space 204 can trigger the second micro switch 203 located in the installation space 204 .
- the first micro switch 202 and the second micro switch 203 are located on different sides of the cover 23 so that there will be no interference between them.
- the projections of the first micro switch 202 and the second micro switch 203 along the axial direction of the second lever 40 can at least partially overlap, so that the arrangement of the two micro switches is more compact, and the second lever 40 triggers the two micro switches in sequence.
- a micro switch is also faster.
- the microwave oven 1000 according to a specific embodiment of the present application is described in detail below with reference to the accompanying drawings. It is worth understanding that the following description is only an illustrative description and cannot be understood as a limitation of the application.
- a microwave oven 1000 includes a door 200 , a body and an interlocking device 100 .
- the interlocking device 100 includes a first door hook 11, a second door hook 12, an interlocking bracket 20, a first lever 30, a second lever 40, a monitoring switch 201, a first micro switch 202, a second micro switch 203, The elastic member 34, the buffer closing assembly 50, the driving member 53 and the inclined block 54.
- the door body 200 is rotatably mounted on the machine body around a vertical axis.
- the first door hook 11 and the second door hook 12 are fixed on the door body 200
- the second door hook 12 is located above the first door hook 11 .
- the interlocking bracket 20 is installed on the machine body and includes a bracket body 22 and a cover 23 to define an installation space 204 .
- the first lever 30 and the second lever 40 are rotatably installed in the installation space 204.
- the first lever 30 includes a first driving arm 31, a second driving arm 32 and a first driving part 33.
- the first driving part 33 passes through through the first through hole 231 of the cover 23;
- the second lever 40 includes a first rotating arm 41, a second rotating arm 42, a third rotating arm 43 and a second driving part 44a.
- the second driving part 44a passes through the cover 23 the second through hole 232.
- the second micro switch 203 is provided in the installation space 204 , and the monitoring switch 201 and the first micro switch 202 are provided on the side of the cover 23 facing away from the bracket body 22 .
- the bracket body 22 is provided with a third through hole 221.
- the elastic member 34 is provided on a side of the bracket body 22 facing away from the cover 23, and the connecting portion 35 of the first lever 30 passes through the third through hole 221 to be connected to the elastic member 34. .
- the inclined block 54 is vertically movably installed on the bracket body 22 , and both ends of the driving member 53 respectively resist the inclined block 54 and the bracket body 22 to apply an upward driving force to the inclined block 54 .
- the first door hook 11 and the second door hook 12 are separated from the machine body.
- the driving member 53 drives the ramp block 54 to be in a high position.
- the first lever 30 rotates in the clockwise direction under the pulling force of the elastic member 34 to the limit position against the edge of the bracket body 22, and disengages from the monitoring switch 201; the second lever 40 is in contact with the first micro switch 202 and The second micro switch 203 is in the separated position.
- the door body 200 is pushed to cause the first door hook 11 and the second door hook 12 to move in the closing direction, that is, move backward.
- the rear end of the first door hook 11 extends between the first driving arm 31 and the second driving arm 32 and offsets the first driving arm 31 to push the first lever 30 to rotate in the counterclockwise direction;
- the first lever 30 rotates At the preset angle, the pulling force direction of the elastic member 34 is switched to drive the first lever 30 to rotate in the counterclockwise direction, so that the second driving arm 32 of the first lever 30 automatically pulls the first door hook 11 to move backward, and the connecting member 52 is in contact with the driving surface 36, the driving surface 36 drives the connecting piece 52 to move, and the buffering member 51 plays a buffering role;
- the first lever 30 rotates to cause the first driving part 33 to trigger the monitoring switch 201; then the first door hook 11 moves to connect with the first When the two levers 40 are in contact, the second lever 40 is driven to rotate in a clockwise direction, and the second driving part 44a and
- the inclined block 54 compresses the driving member 53 to move the hook portion of the second door hook 12 to the rear side of the inclined block 54, so that the inclined block 54 can move against the second door hook 12. limit to keep the door 200 closed.
- the door body 200 rotates reversely to open, causing the first door hook 11 to move forward.
- the resisting force on the second lever 40 is first removed, and the second lever 40 rotates counterclockwise under the rebound force of the first micro switch 202 and the second micro switch 203 to release the resisting force on the first micro switch.
- the switch 202 and the second micro switch 203 are triggered; during the movement of the first door hook 11, it also offsets the second driving arm 32 to drive the first lever 30 to overcome the elastic force of the elastic member 34 and rotate clockwise, so that the first driving part 33 releases the triggering of the monitoring switch 201; when the pulling force direction of the elastic member 34 is switched to drive the first lever 30 to rotate in the clockwise direction, driven by the elastic member 34, the first lever 30 automatically resets to the position consistent with the bracket body. 22 and stay in this position, and the first lever 30 can drive the first door hook 11 to move forward, so that the door body 200 pops open.
- the second door hook 12 is against the inclined block 54 again, and the inclined block 54 compresses the driving member 53 so that the hook portion of the second door hook 12 moves to the front side of the inclined block 54 and contacts the inclined block 54 against the second door.
- the limit of the hook 12 enables the door 200 to be opened.
- the three switch parts are triggered respectively.
- the switch parts do not directly contact the first door hook 11, and the three switch parts can be controlled according to the monitoring switch 201 and the first micro switch.
- the dynamic switch 202 and the second micro switch 203 are triggered in an orderly manner, ensuring the safety of the equipment.
- a microwave oven 1000 may include a body, a door body 200 and an interlocking device 100 of the microwave oven 1000 according to the embodiment of the present application.
- the door body 200 is installed on the machine body, for example, rotatably installed on the machine body, so as to open and close the holding cavity of the machine body, and to switch between the open state and the closed state of the door body 200 .
- the interlocking device 100 can switch to implement corresponding functions according to the state of the door body 200 .
- the interlocking device 100 of the microwave oven 1000 may include: a first door hook 11 , an interlocking bracket 20 and a second lever 40 .
- the first door hook 11 can be installed on the door body 200 to move relative to the body along with the opening and closing action of the door body 200 .
- the interlocking bracket 20 is installed on the machine body so that the first door hook 11 can cooperate with the interlocking bracket 20 and the components on the interlocking bracket 20 when moving relative to the machine body.
- the interlocking bracket 20 is provided with two switch components, which are a first micro switch 202 and a second micro switch 203 respectively.
- the first micro switch 202 and the second micro switch 203 need to be triggered in sequence to ensure that the microwave oven 1000 can be powered on and work normally.
- the second lever 40 is rotatably installed on the interlocking bracket 20 , and the second lever 40 may include a first fitting portion 45 .
- the first fitting part 45, the second fitting part 44 and the third fitting part 46 are sequentially arranged in the first direction around the rotation axis of the second lever 40 (clockwise as shown in Figure 21).
- it is beneficial to realize interlocking support The reasonable arrangement of the micro switches on the rack 20 realizes the compactness of the body structure of the microwave oven 1000.
- the first door hook 11 is adapted to move along the closing direction to offset the first matching portion 45 and drive the second lever 40 to rotate in the first direction, so that the second lever 40 rotates in the first direction.
- the second matching part 44 triggers the first micro switch 202
- the third matching part 46 triggers the second micro switch 203
- orderly triggering of the first micro switch 202 and the second micro switch 203 can be achieved for detecting the door 200
- the opening and closing state of the micro switch ensures that the microwave oven 1000 can work normally, avoids confusion in the triggering sequence, and avoids potential safety hazards in the microwave oven 1000 due to confusion in the triggering sequence of the micro switch.
- first micro switch 202 and the second micro switch 203 may be provided with elastic pieces, and the second mating part 44 and the third mating part 46 realize triggering of the first micro switch 202 and the second micro switch 202 through the elastic pieces.
- the micro switches on the interlock bracket 20 should be arranged reasonably.
- the angle between the elastic piece of the first micro switch 202 and the second matching part 44 with respect to the rotation axis should be smaller than the elastic piece of the second micro switch 203. and the angle between the third matching portion 46 and the rotation axis.
- the door body 200 is rotatably mounted on the machine body around a vertically extending rotation axis.
- the door body 200 rotates so that the first door hook 11 generally moves along the direction of Figure 17.
- the front-to-back direction shown moves backward relative to the interlocking bracket 20.
- the first door hook 11 first contacts the first matching portion 45 and drives the second lever 40 to rotate in the first direction (clockwise direction as shown in FIG. 17 ).
- the second matching part 44 and the third matching part 46 also rotate at the same angle in the first direction.
- the second matching portion 44 can contact the first micro switch 202 to trigger the first micro switch 202 .
- the third matching portion 46 contacts the second micro switch 203 and triggers the second micro switch 203 .
- the first fitting part 45 , the second fitting part 44 and the third fitting part 46 are sequentially arranged along the first direction, that is, the first fitting part 45 , the second fitting part 44
- the projections of the third matching portion 46 on the cross-section perpendicular to the axis of the second lever 40 are sequentially staggered, so that the first micro switch 202 and the second micro switch 203 can be triggered in an orderly manner without adding the first rotating arm 41 and the second micro switch 203 .
- the second rotating arm 42 and the arm length of the second rotating arm 42 reduce space occupation, ensure orderly triggering of the micro switches, and make the structure of the interlock device 100 more compact. Moreover, it can be installed in a microwave oven 1000 with a smaller volume, has good versatility, and can effectively reduce processing costs.
- the first fitting part 45, the second fitting part 44 and the third fitting part 46 are sequentially arranged in the first direction around the rotation axis of the second lever 40.
- the second fitting part 44 and the third fitting part 46 can trigger the corresponding micro switches in sequence, ensuring the orderliness of triggering the micro switches and avoiding the problem of confusing triggering sequences. , thereby effectively detecting the opening and closing status of the microwave oven 1000.
- the arm length of the rotating arm can be effectively reduced, occupying a small space, and achieving a compact structure of the interlocking device 100 . Therefore, the interlocking device 100 of the present application can be applied to a smaller microwave oven 1000, has strong versatility, and can effectively reduce production costs.
- the door 200 of the microwave oven 1000 may also include a second door hook 12.
- the first door hook 11 is a lower door hook
- the second door hook 12 is an upper door hook.
- the lower door hook is located on the lower side of the upper door hook.
- it can also include a third door hook or more door hooks, etc., with multiple door hooks distributed vertically at intervals.
- the first door hook 11 and the second lever 40 cooperate to indirectly trigger the two switch members, thereby ensuring the orderliness of the switching of the two switch members.
- the first door hook 11 can be a fixed door hook, that is, fixed relative to the door body 200 so that its position and structure are stable when the first door hook 11 drives the second lever 40 to rotate.
- the position change of 11 affects the orderly triggering of the micro switch; other door hooks such as the second door hook 12 and the third door hook can be fixed door hooks or movable door hooks, for example, they can be rotatable or removable.
- the door hook is movably installed on the door body 200 .
- the microwave oven 1000 according to the second embodiment of the present application surrounds the first fitting part 45, the second fitting part 44 and the third fitting part 46.
- the rotation axes of the two levers 40 are arranged in sequence along the first direction.
- the second fitting part 44 and the third fitting part 46 can trigger the corresponding micro switches in sequence, ensuring that The orderliness of triggering micro switches avoids the problem of confusing triggering sequences, thereby enabling effective detection of the opening and closing status of the microwave oven 1000.
- the arm length of the rotating arm can be effectively reduced, occupying a small space, and achieving a compact structure of the interlocking device 100 . Therefore, the interlocking device 100 of the present application can be applied to a smaller microwave oven 1000, has strong versatility, and can effectively reduce production costs.
- the angle between the first fitting part 45 and the second fitting part 44 with respect to the axis of the second lever 40 may be ⁇
- the second fitting part 44 and the third fitting part may be ⁇ .
- the angle between the portion 46 and the axis of the second lever 40 can be ⁇ , where ⁇ , on the one hand, the effect of orderly triggering of the micro switch can be better, and on the other hand, by reducing the size of the first matching portion 45 and the third
- the angle between the two matching parts 44 reduces the space occupied by the second lever 40 of the interlocking device 100 .
- the second lever 40 needs to continue to rotate the second preset angle in order for the third matching part 46 to trigger the second micro switch 203.
- the distance between the second fitting part 44 and the third fitting part 46 on the plane perpendicular to the rotation axis can be increased, so that the larger the second preset angle is, the more orderly triggering can be achieved.
- the micro switch works better.
- the angle between the second fitting part 44 and the third fitting part 46 with respect to the axis of the second lever 40 is constant, the angle between the first fitting part 45 and the second fitting part 44 with respect to the second lever 40 can be reasonably reduced.
- the angle between the axis of the lever 40 can ensure the orderly triggering of the micro switch, while also reducing the space resources occupied by the second lever 40 in the interlock device 100 and avoiding collision with other components in the interlock device 100 Positional interference is beneficial to achieving a compact structure of the interlocking device 100 .
- the distance between the first fitting part 45 and the axis of the second lever 40 may be greater than or equal to the distance between the second fitting part 44 and the axis of the second lever 40, and greater than or It is equal to the distance between the third matching part 46 and the axis of the second lever 40.
- the space occupied by the second lever 40 can be small, which is conducive to achieving a compact structure of the interlocking device 100.
- the distance between the first fitting part 45 and the axis of the second lever 40 is constant, the distance between the second fitting part 44 and the rotation axis, and the distance between the third fitting part 46 and the rotation axis can be reasonably reduced.
- the second lever 40 occupies less space resources, and the structure of the second lever 40 is more compact, which in turn can make the structure of the interlocking device 100 more compact.
- the distance between the first fitting part 45 and the axis of the second lever 40 can be reasonably increased.
- the first door hook 11 can contact the first fitting part 45 more quickly when moving in the closing direction to drive the second lever 40 to rotate, and then the second fitting part 44 and the third fitting part 46 can By triggering the first micro switch 202 and the second micro switch 203 in sequence faster, the microwave oven 1000 can quickly enter the working state.
- the interlocking bracket 20 may have an installation space 204, and the side wall of the installation space 204 is provided with an avoidance groove 205.
- the arm 41 can be located in the avoidance groove 205, which can effectively prevent long strip-shaped objects or fingers from being inserted into the installation space 204 along the door closing direction and then contact the first rotating arm 41 to rotate the second lever 40, thereby avoiding accidentally touching the first micro.
- the micro switch 202 and the second micro switch 203 are examples of the first micro switch 203.
- the first fitting part 45 can extend into the installation space 204
- the first door hook 11 is suitable to extend into the installation space 204
- the first door hook 11 can move in the closing direction in the installation space 204 to close the microwave oven 1000.
- the first door hook 11 may contact the first matching portion 45 extending into the installation space 204 to drive the second lever 40 to rotate.
- the first fitting part 45 can be flexibly arranged on the first rotating arm 41 according to actual needs, the position of the first fitting part 45 on the first rotating arm 41 can be changed to ensure that the first door hook 11 can be It contacts the first fitting part 45 to drive the second lever 40 to rotate, and fingers of other thin strip-shaped objects are not easy to come into contact with the first fitting part 45 in the installation space 204, which can effectively avoid objects other than the first door hook 11.
- the micro switch is accidentally touched due to contact with the first matching portion 45 to ensure the safety of use of the microwave oven 1000 .
- the first fitting part 45 is located on the side of the top of the first rotating arm 41. On the one hand, it can effectively avoid positional interference between the first fitting part 45 and other components in the installation space 204. On the other hand, it can avoid other long The strip-shaped object contacts the first matching part 45 to cause the second lever 40 to rotate, and the safety performance of the microwave oven 1000 is better.
- the cover 23 covers the bracket body 22 so that the cover 23 cooperates with the bracket body 22 to define an installation space 204 .
- the first micro switch 202 is provided on the side of the cover 23 facing away from the bracket body 22, and the second micro switch 203 is provided in the installation space 204.
- the cover 23 may also have a second through hole 232 , through which the second fitting portion 44 of the second lever 40 can pass to extend to the side of the cover 23 facing away from the bracket body 22 .
- the second matching portion 44 rotates in the second through hole 232 to trigger the first micro switch 202 located outside the installation space 204 .
- the third matching part 46 is located in the installation space 204 and can trigger the second micro switch 203 located in the installation space 204 .
- the first micro switch 202 and the second micro switch 203 are located on different sides of the cover 23 so that there will be no interference between them.
- the projections of the first micro switch 202 and the second micro switch 203 along the axial direction of the second lever 40 can at least partially overlap, so that the arrangement of the two micro switches is more compact, and the second lever 40 triggers the two micro switches in sequence.
- a micro switch is also faster.
- the interlocking bracket 20 may include a first baffle 25, and the first baffle 25 may partially block the avoidance groove 205 and the The communication opening of the installation space 204 can prevent fingers or other objects from touching the first rotating arm 41 and causing the second lever 40 to rotate.
- the first baffle 25 can also limit the position of the first rotating arm 41 .
- the first rotating arm 41 may be displaced along the rotation axis in the escape groove 205.
- the stable state of the rotating lever cannot be satisfied; on the other hand, if part or all of the first rotating arm 41 moves out of the escape groove, In the groove 205 , fingers or other long objects can still drive the second lever 40 through the first rotating arm 41 without obstruction, but there is still a risk of causing the second lever 40 to rotate by accidental touch.
- the first baffle 25 partially blocks the communication opening between the avoidance groove 205 and the installation space 204, so that the first rotating arm 41 can be stably located in the avoidance groove 205 and cannot move to the installation space 204. Avoid accidentally touching the first rotating arm 41 with your fingers.
- the first baffle 25 can also play a role in limiting and guiding the first rotating arm 41 .
- Hook 11 on the first door When the second lever 40 is driven to rotate by resisting the first matching portion 45, the first baffle 25 can form a matching groove with the side of the interlocking bracket 20 facing the first rotating arm 41, and the first rotating arm 41 can be in the matching groove. Smooth rotation prevents the second fitting part 44 and the third fitting part 46 from being misaligned with the corresponding micro switch and causing the micro switch to not be triggered accurately and affecting the working state of the microwave oven 1000 .
- the first baffle 25 partially blocks the communication opening between the avoidance groove 205 and the installation space 204, rather than completely blocking it. If the first baffle 25 completely blocks the communication opening, the first rotating arm 41 cannot enter the avoidance space through the communication opening. Through partial shielding, it avoids accidental contact and plays a position limiting role, and at the same time facilitates the installation of the first rotating arm 41, which can effectively save man-hours and improve assembly efficiency.
- the interlocking bracket 20 may have an installation space 204, and the second rotating arm 42 is located in the installation space 204, Moreover, a second baffle 26 is provided in the installation space 204. At least a part of the second baffle 26 is located on the side of the second rotating arm 42 close to the first door hook 11. By providing the second baffle 26, contact with fingers and the like can be avoided.
- the second rotating arm 42 prevents the second lever 40 from rotating due to accidentally touching the second rotating arm 42, and prevents the second lever 40 from rotating and accidentally touching the micro switch, thereby affecting the use safety of the microwave oven 1000.
- the second baffle 26 and The second rotating arms 42 are at least partially staggered, and the second baffle 26 is located on a side away from the first door hook 11 .
- fingers or long objects are inserted into the installation space 204 along the door closing direction, they can contact the second baffle 26 but not the second rotating arm 42 easily, thereby avoiding accidentally touching the second rotating arm 42 and causing the second lever to move. 40 turns.
- the installation space 204 is defined by the bracket body 22 and the cover 23
- at least one of the bracket body 22 and the cover 23 is provided with a second baffle 26, that is, the second baffle 26 can be provided on the bracket body 22.
- the second baffle 26 can also be provided on the cover 23 , or on both the bracket body 22 and the cover 23 , to prevent fingers or other objects from accidentally touching the second rotating arm 42 .
- the bracket body 22 and the cover 23 are both provided with second baffles 26.
- the two second baffles 26 can be spliced into one body, and then rotate parallel to the In the direction of the axis, the distance that the second baffle 26 extends after splicing is longer, thereby achieving a better effect of preventing fingers or other objects from accidentally touching the second rotating arm 42 .
- the projection of at least a part of the second baffle 26 along the direction of the rotation axis may be an arc segment as shown in FIG. 46 , with one end of the arc segment extending toward the first door hook 11 in the closing direction, and the arc segment The other end of the segment extends in the upward direction as shown in Figure 28 perpendicular to the door closing direction. It can also be in other shapes, and the embodiments of this application are not particularly limited.
- a portion of the second baffle 26 may extend in the door-closing direction and be located on the second lever 40.
- the rotating shaft and the first door hook 11 On the one hand, it can play a limiting and guiding role for the first door hook 11, and a part of the second baffle 26 can be used as a track for the first door hook 11 to move.
- the hook 11 moves along the door closing direction on this part of the second baffle 26, and then accurately offsets the first matching portion 45 to drive the second lever 40 to rotate.
- this part is located between the rotating shaft and the first door hook 11, which is helpful to prevent foreign objects such as fingers from touching the rotating shaft of the second lever 40 and causing false triggering of the micro switch.
- the interlocking bracket 20 may have an installation space 204, the third rotating arm 43 is located in the installation space 204, and a third baffle 27 is provided in the installation space 204.
- the baffle is located on the side of the third rotating arm 43 close to the first door hook 11, which can prevent fingers or other objects from contacting the third rotating arm 43, and avoid accidentally touching the third rotating arm 43 and driving the second lever 40 to rotate and thereby affecting the impact.
- Microwave oven 1000 is safe to use.
- the projection of the third baffle 27 and the door hook at least partially overlap.
- the third baffle 27 is closer to the first door hook 11 than the third rotating arm 43 in the closing direction, and the third baffle 27 can block foreign objects such as fingers.
- the interlocking bracket 20 is defined by a bracket body 22 and a cover 23, as shown in Figure 44, at least one of the bracket body 22 and the cover 23 is provided with a third baffle, that is, the third baffle can be provided on
- the bracket body 22 can also be provided on the cover 23 , or a third baffle can be provided on both the bracket body 22 and the cover 23 to prevent fingers or other objects from accidentally touching the third rotating arm 43 .
- the interlocking device 100 further includes a monitoring switch 201 and a first lever 30.
- the monitoring switch 201 is provided on the interlocking bracket 20
- the first lever 30 is rotatably provided on the interlocking bracket 20
- the first door hook 11 drives the first lever 30 to rotate in the second direction before driving the second lever 40 to rotate.
- the first micro switch 202 and the second micro switch 203 can be achieved.
- the first door hook 11 first contacts the first lever 30 on the interlock bracket 20 and drives the first lever 30 to rotate in the second direction (counterclockwise as shown in Figure 29) to the preset position.
- the first lever 30 triggers the monitoring switch 201 at an angle.
- the first door hook 11 contacts the second lever 40 and drives the second lever 40 to rotate in the second direction (clockwise as shown in Figure 29).
- the first micro switch 202 is triggered.
- the second micro switch 203 when it continues to rotate to the second preset angle.
- the monitoring switch 201, the first micro switch 202 and the second micro switch 203 are triggered in sequence and in an orderly manner.
- the first lever 30 may include a first driving arm 31 , and the first driving arm 31 may be provided with a first driving part 33 for Drive monitoring switch 201.
- the installation position of the first driving part 33 on the first driving arm 31 can be flexibly set according to actual conditions such as space layout.
- the first driving part 33 may be provided at any position such as the middle part or the end part of the first driving arm 31 .
- the first driving part 33 may be a protrusion provided on one side of the first driving arm 31 in the axial direction, so that when the first driving part 33 cooperates with the monitoring switch 201, it is not affected by the first driving arm 31. interference to avoid the risk of the first driving arm 31 accidentally touching the monitoring switch 201.
- the monitoring switch 201 is provided on the back side of the cover 23
- the cover 23 is provided with a first through hole 231
- the first lever 30 is provided with a first driving part 33.
- the first driving part 33 can pass through the first through hole 231 to extend to the cover.
- the body 23 faces away from the side of the bracket body 22 .
- the first driving part 33 rotates in the first through hole 231 to trigger the monitoring switch 201 .
- the monitoring switch 201 can be installed outside the installation space 204 to avoid positional interference with components in the installation space 204, such as to avoid interference with the buffer closing assembly 50, so that the position arrangement is more reasonable.
- the first lever 30 may also include a second driving arm 32, and the second driving arm 32 is located close to the first driving arm 31.
- the first driving arm 31 is located on the leading side of the second driving arm 32 along the second direction.
- the first door hook 11 is adapted to offset the first driving arm 31 to drive the first lever 30 to rotate. As shown in Figures 28 to 32, during the closing process, the first door hook 11 can resist the first driving arm 31 to drive the first driving arm 31 to rotate in the second direction around the rotation axis of the first lever 30, thereby The first driving part 33 is driven to rotate, so that the first driving part 33 can rotate to a position that triggers the monitoring switch 201, so that the monitoring switch 201 is turned on.
- the first fitting part 45 is located between the first driving arm 31 and the second driving arm 32 , which can ensure that the first fitting part 45 is not contacted by fingers or other objects.
- a finger or other object when inserted into the installation space 204, it will initially touch the first driving arm 31, causing the first lever 30 to rotate in the second direction.
- the second driving arm 31 will rotate.
- the arm 32 will interfere with the position of the fingers, etc., preventing the fingers from continuing to be inserted, so that they will not hit the first matching part 45 of the second lever 40, the second lever 40 will not be touched and rotated, and the first micro switch 202 and the second lever 40 will not rotate.
- the second micro switch 203 will not be triggered; and after the first door hook 11 is inserted into the installation space 204, since the first door hook 11 is provided with a recess to avoid the second driving arm 32, the second driving arm 32 will not hinder the first door hook 11. As the door hook 11 continues to be inserted, the first door hook 11 can hit the first matching part 45, thereby driving the second lever 40 to rotate.
- At least one side surface of the second driving arm 32 may be provided with a thinned area 39, so as to When the first lever 30 is installed on the interlocking bracket 20 , the second driving arm 32 is provided with a thinned area 39 to form a certain gap with the interlocking bracket 20 .
- the first door hook 11 can be forcibly passed through the gap and moved to the first driving arm 31 and the second door hook 11 by closing the door. Between the driving arms 32, the first door hook 11 can drive the first lever 30 to rotate and reset in the first direction through the door opening action.
- the interlocking bracket 20 includes a bracket body 22 and a cover 23.
- the first lever 30 is installed between the bracket body 22 and the cover 23.
- the thinned area 39 can be provided on the second driving arm 32.
- the notch groove facing the side of the bracket body 22 forms the above-mentioned gap between the second driving arm 32 and the bracket body 22 .
- the thickness of the first door hook 11 can decrease along the closing direction, so that the thickness of the rear end of the first door hook 11 as shown in Figure 57 is smaller. , the front end is thicker.
- the thick front and thin structure of the first door hook 11 makes it easier for the first door hook 11 to move from the thinned area 39 to the first driving arm 31 and the second driving arm 31 . Between the arms 32, it is easier to solve the problem of abnormal triggering.
- the first driving arm 31 and the first mating portion 45 may be spaced apart by a predetermined gap to ensure the first driving
- the arm 31 rotates in the second direction to the position of the first fitting part 45
- the first driving arm 31 does not contact the first fitting part 45, and thus does not drive the second lever 40 to rotate, thus preventing the door 200 from being completely closed. Monitor the abnormal situation when switch 201 and the micro switch are all triggered.
- the interlocking device 100 further includes an elastic member 34 connecting the interlocking bracket 20 and the first lever 30 .
- the elastic member 34 can be a coil spring, and there can be one or more coil springs.
- the elastic members 34 are tension springs, and there are two.
- the first lever 30 is provided with a connecting portion 35, and the connecting portion 35 It is a protrusion provided on the side of the first lever 30 facing away from the first driving part 33 .
- One end of each tension spring is connected to the interlocking bracket 20, and the other end is connected to the connecting portion 35, and the one ends of the two tension springs are separated by a certain distance.
- the elastic member 34 has a first driving state. In the first driving state, the elastic member 34 applies a driving force to the first lever 30 to rotate in the second direction, so that the second driving arm 32 drives the first door hook 11 to move in the closing direction.
- the first door hook 11 moves in the closing direction, moves between the first driving arm 31 and the second driving arm 32 and offsets the first driving arm 31 , to drive the first lever 30 to start rotating in the second direction; when the first lever 30 starts to rotate in the second direction or after rotating a smaller angle, the elastic member 34 is in the first driving state to automatically drive the first lever 30 to rotate in the second direction.
- Rotating in two directions causes the second driving arm 32 to drive the first door hook 11 to continue moving in the closing direction, thereby realizing the automatic closing function.
- the door body 200 can still be ensured to be closed in place, and the first door hook 11 can be moved in the closing direction until all three switches are triggered. On the one hand, it makes the user's operation labor-saving and convenient; on the other hand, it can avoid the problem of not closing the door in place.
- the elastic member 34 has a second actuation state.
- the elastic member 34 applies a driving force to the first lever 30 to rotate in the first direction.
- the first door hook 11 can resist the first driving arm 31, so that the elastic member 34 switches from the second driving state to the second driving state.
- a driving state In the second driving state, the elastic member 34 applies a driving force to the first lever 30 to rotate in the first direction.
- the first door hook 11 can resist the first driving arm 31, so that the elastic member 34 switches from the second driving state to the second driving state.
- a driving state is actuation state.
- the first lever 30 in the door-opening state, under the action of the elastic member 34, the first lever 30 can be maintained at the required position. On the one hand, the first lever 30 is prevented from rotating in the first direction without being acted upon by the first door hook 11. On the other hand, the false triggering of the monitoring switch 201 can ensure that the first door hook 11 can smoothly move between the first driving arm 31 and the second driving arm 32 during the closing process, preventing the first lever 30 from rotating and affecting the first door.
- the hook 11 cooperates with the first lever 30 .
- the first door hook 11 and the first driving arm 31 are offset to drive the first lever 30 to rotate in the second direction, so that the elastic member 34 switches the driving state in time with the rotation of the first lever 30, ensuring that the elastic member 34 can drive in time. Closing effect.
- the elastic member 34 In the closed state, the elastic member 34 is in the first driving state, so that the first lever 30 can offset the first door hook 11 through the second driving arm 32 to ensure that the door body 200 remains in the closed state.
- the user controls the first door hook 11 to move in the door opening direction and offset the second driving arm 32 to cause the first lever 30 to rotate in the first direction.
- the elastic member 34 switches from the first driving state to the second driving state, so that the elastic member 34 can drive the first lever 30 to rotate in the first direction and release the first door hook in time.
- the resistance of 11 enables the door 200 to be opened easily.
- the elastic member 34 is a spring
- the spring always remains in a stretched state regardless of the first driving state or the second driving state.
- the interlocking bracket 20 may be provided with a first limiting portion 21.
- the first limiting portion 21 can resist the first lever 30 to prevent the first lever 30 from rotating in the second direction.
- the first limiting part 21 can limit the limit position of the first lever 30 in the second direction to prevent the first lever 30 from causing damage to the monitoring switch 201 or the first door hook 11 due to an excessive rotation angle.
- the elastic member 34 drives the first lever 30 to rotate in the second direction to drive the first door hook 11 to move in the closing direction to realize the automatic closing action; when the first lever 30 is rotated to When it offsets the first limiting part 21 , the limiting effect of the first limiting part 21 balances the force of the first lever 30 and does not continue to rotate under the driving of the elastic member 34 .
- the first lever 30 can remain in contact with the first lever 30 .
- a door hook 11 cooperates stably to keep the door body 200 in a closed state.
- the interlocking bracket 20 may be provided with a second limiting portion 24.
- the second limiting portion 24 can resist the first lever 30 to prevent the first lever 30 from rotating in the first direction.
- the second limiting portion 24 can limit the limit position of the first lever 30 in the first direction to prevent the first lever 30 from rotating at an excessively large angle in the first direction, thereby preventing position interference when the first door hook 11 closes the door. It cannot normally contact and cooperate with the first lever 30 to avoid affecting the user's experience.
- the interlocking device 100 may further include a buffer door closing assembly 50.
- the buffer closing assembly 50 connects the interlocking bracket 20 and the first lever 30 , for example, is connected to the first driving arm 31 of the first lever 30 .
- the buffer closing assembly 50 is used to apply a buffering force in the opposite direction to the first lever 30 to realize the closing buffering effect, avoid violent collision between the door body 200 and the machine body during the closing process, and also help reduce the door closing process. noise.
- the buffer closing assembly 50 may include a damper, a spring, or a compression spring.
- the buffer door closing assembly 50 includes a buffer member 51 and a connecting member 52 .
- One end of the buffer member 51 is rotatably connected to the interlocking bracket 20
- the connecting member 52 is rotatably connected to the other end of the buffer member 51 and the first driving arm 31 respectively, so that during the rotation of the first lever 30 , the buffer member 51 It can play a buffering role, and the rotatable connection structure can adapt to the rotation of the first lever 30 to avoid jamming.
- the first driving arm 31 has a driving surface 36
- the connecting member 52 is rotatably mounted on the first driving arm 31, and as shown in Figures 26 and 27 , in the door-opening state, the connecting member 52 and the driving surface 36 are at a preset angle, and the other end of the buffer member 51 is rotatably connected to the connecting member 52 .
- the driving surface 36 can resist the connecting member 52 to drive the connecting member 52 to rotate.
- the connecting member 52 and the driving surface 36 are arranged at a preset angle in the door-opening state, when the first door hook 11 just contacts the first lever 30 and drives the first lever 30 to rotate in the second direction, the buffer member 51 does not A buffering force will be applied to the first lever 30, making it easier for the first door hook 11 to drive the first lever 30 to rotate.
- a groove 37 is provided on the side of the first driving arm 31 facing the buffer closing assembly 50, and the bottom wall of the groove 37 is formed to drive the door.
- Surface 36 one side of the groove 37 is connected to the hole axis of the connector 52 , and the other side of the groove 37 is provided with a curved hook 38 spaced a certain distance away from the driving surface 36 .
- the buffer member 51 is a damper, and the damper is connected to the hole axis of the connecting member 52 by the notch of the groove 37 .
- the interlocking device 100 also includes an elastic member 34 connected to the first lever 30 .
- the elastic member 34 applies a driving force to the first lever 30 to rotate in the first direction, so that the first door hook 11 can smoothly move to offset the first driving arm 31.
- the connecting member 52 and the driving surface 36 At a preset angle, the damper does not produce buffering force.
- the first door hook 11 contacts the first driving arm 31 and drives the first lever 30 to rotate in the second direction. Since the damper has no buffering force, the first door hook 11 only needs to overcome the problem to drive the first lever 30.
- the driving force of the elastic member 34 has smaller resistance; when the connecting member 52 is rotated to offset the driving surface 36, the elastic member 34 switches state to apply a driving force to rotate in the second direction to the first lever 30 to actively drive the first lever 30.
- the first door hook 11 moves and the door body 200 closes, the damper generates a buffering force to reduce the closing noise.
- the first door hook 11 pulls the first lever 30 to rotate in the first direction, and the connecting piece 52 rotates relative to the first driving arm 31 so that a certain angle is formed between the connecting piece 52 and the driving surface 36. 38 offsets the connecting piece 52 to prevent the included angle from being too large, prevent the connecting piece 52 from protruding from the groove 37, and ensure the stable connection between the connecting piece 52 and the first lever 30.
- the buffer door closing assembly 50 may include a buffer member 51, which is an elastic piece or a compression spring, and the buffer door closing assembly 50 is formed as a buffer energy storage assembly. Specifically, one end of the elastic piece is connected to the interlocking bracket 20, the first lever 30 is against the other end of the elastic piece, and the elastic piece can elastically deform to store energy.
- the first lever 30 rotates along the first direction and squeezes the other end of the elastic piece, causing the elastic piece to increase its bending degree and accumulate energy, thereby playing a buffering and energy storage role; during the process of opening the door, the elastic piece can release all the energy.
- the stored energy is used to apply a driving force to the first lever 30 to rotate in the first direction, so that the first lever 30 can push the first door hook 11 and the door body 200 to move in the door opening direction, thereby assisting in opening the door.
- the direction of the driving force exerted by the elastic piece on the first lever 30 points to the rotation center of the first lever 30 or near the rotation center.
- the elastic piece does not provide a component force in the rotation direction of the first lever 30 or only provides a small component. The component force ensures that the door 200 can be tightly closed.
- the side of the connecting piece 52 may be provided with an escape notch 521 for avoiding the first mating part 45 .
- the avoidance notch 521 there is a gap between the end surface of the connecting piece 52 and the first fitting part 45 in the axial direction of the first lever 30 , which can ensure that the connecting piece 52 and the first fitting part 45 are avoided during the rotation of the first lever 30
- the contact triggers the rotation of the second lever 40 to avoid confusion in the triggering sequence of the monitoring switch 201 and the micro switch.
- a microwave oven 1000 includes a door 200, a body and an interlocking device 100.
- the interlocking device 100 includes a first door hook 11, a second door hook 12, an interlocking bracket 20, a first baffle 25, a second baffle 26, a third baffle, a first lever 30, a second lever 40, a monitoring Switch 201, first micro switch 202, second micro switch 203, elastic member 34, buffer closing assembly 50, driving member 53 and ramp block 54.
- the door body 200 is rotatably installed on the machine body around the vertical axis, the first door hook 11 and the second door hook 12 are fixed on the door body 200, and the second door The hook 12 is located above the first door hook 11.
- the interlocking bracket 20 is installed on the machine body and includes a bracket body 22 and a cover 23 to define an installation space 204 .
- the side wall of the installation space 204 is provided with an avoidance groove 205.
- the bracket body 22 includes a first baffle 25.
- the first baffle 25 partially blocks the communication opening between the avoidance groove 205 and the installation space 204.
- the second baffle 26 and the third baffle 27 are provided in the installation space 204 .
- the second baffle 26 is a slide-shaped plate
- the third baffle 27 is a rectangular plate.
- the first lever 30 and the second lever 40 are rotatably installed in the installation space 204.
- the first lever 30 includes a first driving arm 31 and a second driving arm. 32 and the first driving part 33.
- the first driving part 33 passes through the first through hole 231 of the cover 23;
- the second lever 40 includes a first rotating arm 41 with a first fitting part 45, a second fitting part 45
- the second rotating arm 42 of 44 and the third rotating arm 43 are provided with a third fitting part 46.
- the second fitting part 44 passes through the second through hole 232 of the cover 23.
- the arc-shaped section of the second baffle 26 is located on the side of the second rotating arm 42 close to the first door hook 11 , and the straight section is located between the rotating shaft of the second lever 40 and the first door hook 11 .
- the third baffle is located on the side of the third rotating arm 43 close to the first door hook 11 .
- the first rotating arm 41 is located in the escape groove 205 , and the first fitting portion 45 extends into the installation space 204 .
- the second micro switch 203 is located in the installation space 204, and the monitoring switch 201 and the first micro switch 202 are located on the cover 23 facing away from the bracket body. 22 on one side.
- the bracket body 22 is provided with a third through hole 221.
- the elastic member 34 is provided on a side of the bracket body 22 facing away from the cover 23, and the connecting portion 35 of the first lever 30 passes through the third through hole 221 to be connected to the elastic member 34. .
- the inclined block 54 is vertically movably installed on the bracket body 22 , and both ends of the driving member 53 respectively resist the inclined block 54 and the bracket body 22 to apply an upward driving force to the inclined block 54 .
- the first door hook 11 and the second door hook 12 are separated from the machine body.
- the driving member 53 drives the ramp block 54 to be in a high position.
- the first lever 30 rotates in the clockwise direction under the pulling force of the elastic member 34 to the limit position against the edge of the bracket body 22, and disengages from the monitoring switch 201; the second lever 40 is in contact with the first micro switch 202 and The second micro switch 203 is in the separated position.
- the door body 200 is pushed to cause the first door hook 11 and the second door hook 12 to move in the closing direction, that is, move backward.
- the first door hook 11 moves in the closing direction under the restriction of the second baffle 26 .
- the rear end of the first door hook 11 extends between the first driving arm 31 and the second driving arm 32 and offsets the first driving arm 31 to push the first lever 30 to rotate in the counterclockwise direction; the first lever 30 rotates At the preset angle, the pulling force direction of the elastic member 34 is switched to drive the first lever 30 to rotate in the counterclockwise direction, so that the second driving arm 32 of the first lever 30 automatically pulls the first door hook 11 to move backward, and the connecting member 52 is in contact with the driving surface 36, the driving surface 36 drives the connecting piece 52 to move, and the buffering member 51 plays a buffering role; the first lever 30 rotates to cause the first driving part 33 to trigger the monitoring switch 201; then the first door hook 11 moves to connect with the first When the first matching portions 45 of the two levers 40 come into contact, the second lever 40 can be driven to rotate in the clockwise direction.
- the second fitting part 44 and the third fitting part 45 of the second lever 40 trigger the first micro switch 202 and the second micro switch 203 in sequence.
- the second door hook 12 is against the inclined block 54, and the inclined block 54 compresses the driving member 53 to move the hook portion of the second door hook 12 to the rear side of the inclined block 54, thereby realizing the movement of the inclined block 54 to the second door hook 12. limit to keep the door 200 closed.
- the door body 200 rotates reversely to open, causing the first door hook 11 to move forward.
- the resisting force on the second lever 40 is first removed, and the second lever 40 rotates counterclockwise under the rebound force of the first micro switch 202 and the second micro switch 203 to release the resisting force on the first micro switch.
- the switch 202 and the second micro switch 203 are triggered; during the movement of the first door hook 11, it also offsets the second driving arm 32 to drive the first lever 30 to overcome the elastic force of the elastic member 34 and rotate clockwise, so that the fourth part 45 Release the triggering of the monitoring switch 201; when the direction of the pulling force of the elastic member 34 is switched to drive the first lever 30 to rotate in the clockwise direction, the first lever 30 is automatically reset to the position consistent with the first limit under the driving of the elastic member 34.
- the first lever 30 can drive the first door hook 11 to move forward, so that the door body 200 springs open.
- the second door hook 12 again resists the inclined block 54, and the inclined block 54 compresses the driving member 53 to move the hook portion of the second door hook 12 to the front side of the inclined block 54. , releasing the restriction of the second door hook 12 by the inclined block 54, so that the door body 200 can be opened.
- the three switch parts are triggered respectively.
- the switch parts do not directly contact the first door hook 11, and the three switch parts can be controlled according to the monitoring switch 201 and the first micro switch.
- the dynamic switch 202 and the second micro switch 203 are triggered in an orderly manner, ensuring the safety of the equipment.
- the interlocking device 100 has a compact structure and low production cost.
- FIG. 59 and FIG. 60 shows a microwave oven 1000 according to a fourth embodiment of the present application.
- the microwave oven 1000 includes a door 200, an interlocking bracket 20 and a damping assembly 30a.
- the door body 200 has a second door hook 12 and a first door hook 11.
- the door body 200 is movably connected to an interlocking bracket 20.
- a first switch 21a, a second switch 22a and a third switch 23a are fixed on the interlocking bracket 20.
- the damping assembly 30a is installed on the interlocking bracket 20.
- the damping assembly 30a includes a damper 31a and a driving lever 32a.
- the driving lever 32a is rotationally connected to the interlocking bracket 20 and the damper 31a.
- the microwave oven 1000 is configured to close the door 200 during the closing process.
- the first door hook 11 directly contacts the first switch 21a to trigger the first switch 21a
- the second door hook 12 directly contacts the second switch 22a to trigger the second switch 22a
- the first door hook 11 triggers the third switch through the driving lever 32a. 23a.
- the first door hook 11 directly contacts the first switch 21a to trigger the first switch 21a
- the second door hook 12 directly contacts the second switch 22a to trigger the second switch 22a. This can ensure that the first switch 21a is triggered. 21a, the second switch 22a and the third switch 23a are triggered in sequence, which avoids the problem of confusing the switch triggering sequence.
- the microwave oven 1000 includes a door 200.
- the door 200 may be made of double-layer glass; the door may also be made of anti-wave glass.
- a handle can be provided on the outer surface of the door body 200 to facilitate the user to open and close the door.
- Two door hooks are installed on the door body 200, and the two door hooks are the second door hook 12 and the first door hook 11 respectively.
- the microwave oven 1000 includes a first switch 21a, a second switch 22a, and a third switch 23a.
- the first switch 21a can be a monitoring switch, which is used to monitor the circuit of the entire microwave oven 1000; the second switch 22a can be a secondary switch, which is used to control the turning on of lights, cooling fans or other components; the third switch 23a It may be a primary switch, and the primary switch is used to control the microwave function of the microwave oven 1000.
- the second door hook 12 is used to trigger the second switch 22a, that is to say, the second door hook 12 triggers the secondary switch; the first door hook 11 directly triggers the first switch 21a, that is to say, the first door hook 11
- the monitoring switch is directly triggered; the first door hook 11 triggers the third switch 23a through the driving lever 32a, that is to say, the first door hook 11 indirectly triggers the primary switch.
- the triggering sequence of the three switches is particularly important.
- the triggering sequence should be: first trigger the monitoring switch, then trigger the secondary switch, and finally trigger the primary switch. In this way, users' safety can be guaranteed.
- the triggering sequence should be: first trigger the primary switch, then trigger the secondary switch, and finally trigger the monitoring switch. In this way, users' safety can be guaranteed.
- due to different door hook layouts or movable door hooks it is easy to cause confusion in the triggering sequence of the three switches during the closing process.
- the first door hook 11 directly conflicts with the monitoring switch to trigger the monitoring switch
- the second door hook 12 directly conflicts with the secondary switch to trigger the secondary switch
- the first door hook 11 triggers the primary switch through the driving lever 32a.
- the second door hook 12 and/or the first door hook 11 are fixed on the door body 200 .
- the second door hook 12 and the first door hook 11 can further ensure that the first switch 21a, the second switch 22a and the third switch 23a are triggered in sequence.
- the materials of the second door hook 12 and the first door hook 11 can be selected from metals, such as iron, aluminum, stainless steel and alloys.
- the whole of the second door hook 12 and the first door hook 11 It is in the shape of a long strip with a hook at the end for easy snapping.
- the door body 200 includes two door hooks, namely the second door hook 12 and the first door hook 11 .
- the door body 200 may also include multiple door hooks to assist in opening and closing the door.
- the number of door hooks may be set according to the actual situation. For example, the number of door hooks may be 3, 4, or more. 4, no limit here.
- the second door hook 12 is fixed on the door body 200 , and the first door hook 11 can be movably installed on the door body 200 .
- the first door hook 11 is fixed on the door body 200
- the second door hook 12 can be movably installed on the door body 200 .
- both the second door hook 12 and the first door hook 11 are fixed on the door body 200 . In this way, the fixed door hook can ensure the stability of the trigger switch and avoid situations such as delayed triggering and trigger failure due to door hook activity. Fixing the door hook on the door body 200 can also ensure the stability of the connection.
- the damping assembly 30a further includes a swing block 33a.
- the swing block 33a is rotatably connected to the driving lever 32a and the damper 31a.
- the swing block 33a is rotationally connected to the driving lever 32a and the damper 31a, realizing a split rotational connection, which can avoid the door closing being unsmooth or even stagnant.
- the damper 31a is rotationally connected to the driving lever 32a through the swinging block 33a, realizing a split rotational connection, that is, the swinging block 33a is rotationally connected to the driving lever 32a, and the swinging block 33a is rotationally connected to the damper 31a.
- the driving lever 32a rotates at a preset angle and drives the swing block 33a to compress the damper 31a.
- the damper 31a When the damper 31a is compressed, it provides damping to the first door hook 11 and rotates.
- the damping assembly 30a is installed on the interlocking bracket 20, and the driving lever 32a can be rotatably connected to the interlocking bracket 20 through the rotating shaft on the interlocking bracket 20.
- the damper 31a may be a linear damper. It can be understood that in other embodiments, the damper 31a may also be other dampers, such as a rotational damper.
- the driving lever 32a is provided with an accommodating groove 321.
- the top of the accommodating groove 321 is provided with a rotation space 322.
- the bottom of the accommodating groove 321 is provided with a swing space 323.
- the swing block 33a is One end is rotatably received in the rotation space 322, and the other end of the swing block 33a is received in the swing space 323.
- the swing space 323 is used to provide a space for the driving lever 32a to rotate relative to the swing block 33a.
- the driving lever 32a can drive the swing block 33a to rotate after rotating through the preset angle.
- the driving lever 32a is provided with an accommodating groove 321, and the top of the accommodating groove 321 includes a rotation space 322, and the rotation space 322 can accommodate the top end of the swing block 33a.
- the rotation space 322 is generally cylindrical, and the top end of the swing block 33a is in a cylindrical shape matching the rotation space 322 .
- the bottom of the accommodation groove 321 includes a swing space 323. The other end of the swing block 33a is received in the swing space 323.
- the swing space 323 is used to provide a space for the driving lever 32a to rotate at a preset angle.
- the setting of the swing space 323 can prevent the swing block 33a from acting on the swing block 33a when the driving lever 32a first starts to rotate, and thus the damper 31a will not be compressed, so that the first door hook 11 will not be affected by the damper in the initial stage of contacting the driving lever 32a.
- the resistance of 31a causes rebound or even stagnation.
- the size of the swing space 323 can determine the size of the preset angle, which can be calibrated according to the actual situation.
- the driving lever 32a includes a first engaging area 301 and a second engaging area 302 spaced apart.
- the first engaging area 301 is provided with an accommodating space.
- the second engaging area 302 can hook the first door hook 11 to drive the first door hook 11 to accelerate closing the door.
- the damping assembly 30a includes an elastic member 34.
- the elastic member 34 and the driving lever 32a are located on opposite sides of the interlocking bracket 20.
- the interlocking bracket 20 is provided with a third
- the driving lever 32a is connected to the elastic member 34 through the third through hole 221.
- the elastic member 34 is used to drive the driving lever 32a to accelerate rotation so that the driving lever 32a drives the door body 200 to accelerate.
- the elastic member 34 and the driving lever 32a located on the opposite sides of the interlocking bracket 20 can disperse the relevant structural parts to avoid too many structural parts on the same side of the interlocking bracket 20, resulting in reduced space and excessive concentration of weight. Not conducive to the configuration of structural parts.
- the elastic member 34 can provide a pulling force to the driving lever 32a so that the driving lever 32a drives the first door hook 11 to accelerate, and can also provide a pushing force to the driving lever 32a so that the driving lever 32a drives the first door hook 11 to accelerate. In the embodiment shown in FIGS. 66 and 67 , the elastic member 34 provides a pulling force to the driving lever 32 a so that the driving lever 32 a drives the first door hook 11 to accelerate.
- the driving lever 32a can drive the first door hook 11 to accelerate, the door 200 can be closed by relying on the force of the driving lever 32a during the acceleration phase.
- the damper 31a is compressed.
- the swing block 33a continues to compress the damper 31a, the compression amount of the damper 31a increases, and the damping force provided also increases.
- the damping force provided by the damper 31a is greater than the driving force provided by the driving lever 32a , the first door hook 11 begins to decelerate.
- the noise when the door body 200 is closed is not too loud.
- blocking When the nip 31a is compressed, it can rotate, and can cooperate with the rotating member and the swing block 33a to rotate, so that the first door hook 11 enters the cavity more smoothly.
- a cover 23 is also installed on the interlocking bracket 20 , and a storage space is provided in the cover 23 .
- the cover 23 can be installed on the interlocking bracket 20 through screws, interference fit, welding, buckles, etc. In the embodiment shown in FIG. 59 , the cover 23 is installed on the interlocking bracket 20 through buckles.
- the force direction of the elastic member 34 on the driving lever 32a is located at the connection between the elastic member 34 and the driving lever 32a and the rotation axis of the driving lever 32a.
- the connecting line when the driving lever 32a is acted upon by the first door hook 11, the direction of the force exerted by the elastic member 34 on the driving lever 32a is located at the connection between the elastic member 34 and the driving lever 32a and the connecting line of the rotation axis of the driving lever 32a.
- the driving lever 32a can have different rotation tendencies before closing the door and when closing the door, which is beneficial to achieving tight closing of the door.
- the direction F of the force F exerted by the elastic member 34 on the driving lever 32a is located above the connection point L between the elastic member 34 and the driving lever 32a and the connection line L of the rotation axis of the driving lever 32a.
- the driving lever 32a is on Under the force of the elastic member 34, it has a tendency to rotate in the first direction.
- the direction F of the force F exerted by the elastic member 34 on the driving lever 32a is located below the connection point L between the elastic member 34 and the driving lever 32a and the connection line L of the rotating shaft of the driving lever 32a.
- the driving lever 32a is under the force of the elastic member 34. , with a tendency to rotate in the second direction.
- the first direction is different from the second direction. In the illustration, the first direction is clockwise and the second direction is counterclockwise.
- the driving lever 32a When the first door hook 11 has not contacted the driving lever 32a, the driving lever 32a is stationary, and the force of the elastic member 34 acts on the driving lever 32a, so that the driving lever 32a has a tendency to rotate clockwise.
- the driving lever 32a When the first door hook 11 contacts the driving lever 32a (such as contacting the first engaging area 301), the driving lever 32a rotates counterclockwise under the action of the first door hook 11, so that the elastic member 34 and the driving lever 32a are in contact with each other.
- the connection point also rotates counterclockwise, and the force direction of the elastic member 34 on the driving lever 32a is switched to below the above-mentioned connection line.
- the driving lever 32a switches from a clockwise rotation tendency to a counterclockwise rotation tendency. At this time, the driving lever 32a is not affected by The limiter, under the action of the elastic member 34, continues to rotate counterclockwise and thereby drives the first door hook 11 to accelerate.
- the driving lever 32a has a rotation trend conversion process, which causes the driving lever 32a to rotate at a larger angle.
- the larger rotation angle of the driving lever 32a can drive the first door hook 11, thereby making the door 200 close more tightly.
- the distance (angle) between the connection position of the elastic member 34 and the driving lever 32a and the critical position where the rotation tendency of the driving lever 32a changes is smaller than the preset angle.
- the position of the connection between the elastic member 34 and the driving lever 32a is close to the critical position where the rotation tendency of the driving lever 32a changes, so that when the first door hook 11 abuts the driving lever 32a, the initial speed is relatively high.
- the large first door hook 11 can cause the driving lever 32a to rotate counterclockwise to change the rotation direction without spending too much kinetic energy of the first door hook 11 to change the rotation direction.
- the elastic member 34 includes a first elastic member 341 and a second elastic member 342.
- the driving lever 32a is provided with a connecting structure 324.
- the first elastic member 341 and the second elastic member 342 are connected to each other.
- the elastic members 342 are all connected to the connection structure 324, and the included angle formed between the first elastic member 341 and the second elastic member 342 is an acute angle.
- the driving lever 32a is driven by the combined force of the first elastic member 341 and the second elastic member 342.
- both the first elastic member 341 and the second elastic member 342 may be tension springs.
- the first elastic member 341 is located above the second elastic member 342 .
- One end of the first elastic member 341 hooks the positioning post on the interlocking bracket 20 , and the other end hooks the connecting structure 324 .
- the angle formed by the first elastic member 341 and the second elastic member 342 is an acute angle, and the acute angle may be 30 degrees, 35 degrees, 40 degrees, etc., and is not specifically limited here.
- a protection block 24a is installed on the interlocking bracket 20.
- the protection block 24a is movably installed on the interlocking bracket 20. Between the first door hook 11 and the driving lever 32a When disengaged, the protection block 24a limits the driving lever 32a. During the closing process of the door body 200, the first door hook 11 drives the protection block 24a to move to release the restriction of the driving lever 32a by the protection block 24a.
- the protection block 24a can prevent the driving lever 32a from rotating when the first door hook 11 is disengaged from the driving lever 32a.
- the protection block 24a can move on the interlocking bracket 20.
- the way the protection block 24a moves on the interlocking bracket 20 includes movement, rotation or other compound movements.
- the movement mode of the protection block 24a can limit the driving lever 32a. and release the limit, there is no limit here.
- the protection block 24a can hinder the rotation of the driving lever 32a.
- the protection block 24a can move in the vertical direction on the interlocking bracket 20. When closing the door, In this case, the first door hook 11 pushes the protection block 24a in the vertical downward direction, so that the protection block 24a releases the restriction on the driving lever 32a, and the driving lever 32a can rotate normally.
- a limiting slot is provided in the protection block 24a, and the limiting slot is used to receive part of the driving lever 32a.
- the protection block 24a can hinder the rotation of the driving lever 32a.
- the microwave oven 1000 includes: a slope block 40a and a third elastic member 50a.
- the slope block 40a and the third elastic member 50a are installed on the interlocking bracket 20.
- the third elastic member 50a resists Connected to the bottom of the inclined block 40a, the top of the inclined block 40a has a guide inclined surface, and the guide inclined surface tilts upward along the vertical direction toward the inside of the interlocking bracket 20.
- the end of the second door hook 12 contacts the guide inclined surface.
- the inclined block 40a is lowered to compress the third elastic member. 50a, when the end of the second door hook 12 crosses the guide slope, the inclined block 40a blocks the second door hook 12 under the action of the third elastic member 50a.
- the inclined block 40a and the third elastic member 50a cooperate with the second door hook 12 to ensure that the second door hook 12 can directly resist the second switch 22a to trigger the second switch 22a.
- the top of the inclined block 40a is a guide inclined surface, and the guide inclined surface slopes upward along the vertical direction toward the inside of the interlocking bracket 20. It can also be understood that the height of the end of the inclined block 40a close to the second door hook 12 is lower than the height of the end of the inclined block 40a away from the inclined block 40a. The height of one end of the second door hook 12.
- the guide slope is an inclined plane with a certain angle, and the second door hook 12 can move from below the plane to above the plane.
- the third elastic member 50a includes a compression spring.
- the inclined block 40a of the second door hook 12 generates force, so that the third elastic member 50a is always in a compressed state.
- the third elastic member 50a stretches, and the inclined block 40a moves upward under the action of the third elastic member 50a.
- the end of the inclined block 40a away from the second door hook 12 can catch the second door hook 12.
- the force used to open and close the door is different.
- the force to open the door is usually greater than the force to close the door.
- the user can use a larger force to directly move the second door hook 12 from the diagonal.
- One end of the block 40a is pulled out, so that the inclined block 40a no longer blocks the second door hook 12, so that the door opening structure can be simplified and the door can be closed tightly.
- the microwave oven 1000 further includes a cavity, the door 200 is rotatably connected to one side of the cavity, and the interlocking bracket 20 is installed in the cavity.
- the cavity is used to store items or food, and the interlocking bracket 20 is installed on the cavity to ensure the stability of the installation.
- the household appliance 1000 may include a cavity (not shown), the interlocking bracket 20 may be fixed in the cavity, and the door body 200 is rotatably connected to the cavity.
- the cavity is provided with a chamber, and the front side of the chamber has an opening, and the door 200 is used to close and open the opening. Food to be heated can be placed in the chamber.
- the door 200 is rotatably connected to one side of the cavity, for example, to the left or right side of the front panel of the cavity to form a side-door microwave oven 1000.
- the interlocking bracket 20 can be fixed on the front panel of the cavity.
- a chamber is provided in the cavity for storing items or food.
- the microwave oven 1000 can perform operations such as thawing and cooking on items placed in the chamber.
- the microwave oven 1000 also includes a casing outside the cavity. The casing can protect the electrical components and structural components in the microwave oven 1000 while also preventing harm to the user.
- connection should be understood in a broad sense.
- connection or integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be an internal connection between two components.
- connection or integral connection
- connection or integral connection
- connection can be a mechanical connection or an electrical connection
- it can be a direct connection or an indirect connection through an intermediate medium
- it can be an internal connection between two components.
- specific meanings of the above terms in this application can be understood on a case-by-case basis.
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Abstract
Description
Claims (42)
- 一种微波炉的联锁装置,其中,包括:第一门勾;联锁支架,所述联锁支架上设有监控开关、第一微动开关和第二微动开关;第一杠杆和第二杠杆,所述第一杠杆和所述第二杠杆分别可转动地安装于所述联锁支架,其中,所述第一门勾在所述微波炉关门过程中依次驱动所述第一杠杆和所述第二杠杆转动,以使所述第一杠杆触发所述监控开关后,所述第二杠杆依次触发所述第一微动开关和所述第二微动开关。
- 根据权利要求1所述的微波炉的联锁装置,其中,所述第一杠杆的转轴设于所述第二杠杆的转轴的靠近所述第一门勾的一侧。
- 根据权利要求1或2所述的微波炉的联锁装置,其中,所述第一杠杆的转轴和所述第二杠杆的转轴分别位于所述第一门勾垂直于关门方向的两侧。
- 根据权利要求1-3中任一项所述的微波炉的联锁装置,其中,所述第一杠杆包括:第一驱动臂,所述第一驱动臂设有用于触发所述监控开关的第一驱动部,在关门过程中,所述第一门勾与所述第一驱动臂相抵以驱动所述第一杠杆沿第一方向转动。
- 根据权利要求4所述的微波炉的联锁装置,其中,所述第一杠杆还包括:第二驱动臂,所述第二驱动臂位于所述第一驱动臂靠近所述第一门勾的一侧,在关门过程中,所述第一门勾伸至所述第一驱动臂和所述第二驱动臂之间,在开门过程中,所述第一门勾与所述第二驱动臂相抵以驱动所述第一杠杆沿第二方向转动,所述第二方向与所述第一方向相反。
- 根据权利要求5所述的微波炉的联锁装置,其中,还包括:弹性件,所述弹性件连接所述联锁支架和所述第一杠杆,且具有第一驱动状态,在所述第一驱动状态,所述弹性件向所述第一杠杆施加沿所述第一方向转动的驱动力,以使所述第二驱动臂带动所述第一门勾沿关门方向移动。
- 根据权利要求6所述的微波炉的联锁装置,其中,所述弹性件还具有第二驱动状态,在所述第二驱动状态,所述弹性件向所述第一杠杆施加沿所述第二方向转动的驱动力,在关门过程中,所述第一门勾适于与所述第一驱动臂相抵以使所述弹性件由所述第二驱动状态切换至所述第一驱动状态。
- 根据权利要求5-7中任一项所述的微波炉的联锁装置,其中,所述第二驱动臂的长度小于所述第一驱动臂的长度;和/或,在所述第一杠杆的轴向上,所述第二驱动臂的厚度小于所述第一驱动臂的厚度。
- 根据权利要求4-8中任一项所述的微波炉的联锁装置,其中,所述联锁支架设有第一限位部,在关门状态下,所述第一限位部与所述第一杠杆相抵,以阻止所述第一杠杆沿所述第一方向转动。
- 根据权利要求4-9中任一项所述的微波炉的联锁装置,其中,还包括:缓冲关门组件,所述缓冲关门组件连接所述联锁支架和所述第一驱动臂,在关门过程中,所述缓冲关门组件用于向所述第一杠杆施加与所述第一方向相反的缓冲力。
- 根据权利要求10所述的微波炉的联锁装置,其中,所述缓冲关门组件包括:缓冲件,所述缓冲件的一端与所述联锁支架可转动连接;连接件,所述第一驱动臂具有驱动面,所述连接件可转动地安装于所述第一驱动臂且与所述驱动面呈预设角度,所述缓冲件的另一端与所述连接件可转动连接,在关门过程中,所述第一杠杆沿所述第一方向转动所述预设角度后,所述驱动面与所述连接件相抵以带动所述连接件转动。
- 根据权利要求1-11中任一项所述的微波炉的联锁装置,其中,所述第二杠杆包括:第一转动臂,在关门过程中,所述第一门勾适于与所述第一转动臂相抵以驱动所述第二杠杆沿第二方向转动;第二转动臂和第三转动臂,所述第一转动臂、所述第二转动臂和所述第三转动臂沿所述第二方向依次排布,所述第二转动臂和所述第三转动臂分别用于触发所述第一微动开关和所述第二微动开关。
- 根据权利要求12所述的微波炉的联锁装置,其中,所述第一转动臂、所述第二转动臂和所述第三转动臂中的至少两个沿所述第二杠杆的轴向错开。
- 根据权利要求1-13中任一项所述的微波炉的联锁装置,其中,所述联锁支架包括支架本体和盖体,所述盖体与所述支架本体配合限定出安装空间,所述第一杠杆和所述第二杠杆安装于所述安装空间,所述监控开关设于所述盖体的背向所述支架本体的一侧,所述盖体具有用于使所述第一杠杆的第一驱动部穿过的第一通孔;所述第一微动开关和所述第二微动开关中的一个设于所述安装空间、另一个设于所述盖体的背向所述支架本体的一侧,所述盖体具有用于使所述第二杠杆的第二驱动部穿过的第二通孔。
- 一种微波炉的联锁装置,其中,包括:第一门勾;联锁支架,所述联锁支架设有第一微动开关和第二微动开关;转第二杠杆,所述第二杠杆可转动地安装于所述联锁支架,所述第二杠杆包括设有第一配合部的第一转动臂、设有第二配合部的第二转动臂和设有第三配合部的第三转动臂,所述第一配合部、所述第二配合部和所述第三配合部绕所述第二杠杆的转动轴线沿第一方向依次排布,所述第一门勾适于沿关门方向移动,以与所述第一配合部相抵并驱动所述第二杠杆沿所述第一方向转动,使所述第二配合部触发所述第一微动开关后所述第三配合部触发所述第二微动开关。
- 根据权利要求15所述的微波炉的联锁装置,其中,所述联锁支架具有安装空间,所述安装空间的侧壁设有避让凹槽,所述第一转动臂位于所述避让凹槽内,所述第一配合部伸入所述安装空间内,所述第一门勾适于伸入所述安装空间内。
- 根据权利要求16所述的微波炉的联锁装置,其中,所述联锁支架包括第一挡板,所述第一挡板部分遮挡所述避让凹槽与所述安装空间的连通口。
- 根据权利要求15-17中任一项所述的微波炉的联锁装置,其中,所述联锁支架具有安装空间,所述第二转动臂位于所述安装空间内,所述安装空间内设有第二挡板,所述第二挡板的至少一部分位于所述第二转动臂的靠近所述第一门勾的一侧。
- 根据权利要求18所述的微波炉的联锁装置,其中,所述第二挡板的一部分沿所述关门方向延伸,且位于所述第二杠杆的转轴与所述第一门勾之间。
- 根据权利要求15-19中任一项所述的微波炉的联锁装置,其中,所述联锁支架具有安装空间,所述第三转动臂位于所述安装空间内,所述安装空间内设有第三挡板,所述第三挡板位于所述第三转动臂的靠近所述第一门勾的一侧。
- 根据权利要求15-20中任一项所述的微波炉的联锁装置,其中,所述第一配合部和所述第二配合部关于所述第二杠杆轴线的夹角为α,所述第二配合部和所述第三配合部关于所述第二杠杆轴线的夹角为β,α<β。
- 根据权利要求15-21中任一项所述的微波炉的联锁装置,其中,所述第一配合部与所述第二杠杆轴线的间距大于或等于所述第二配合部与所述第二杠杆轴线的间距,且大于或等于所述第三配合部与所述第二杠杆轴线的间距。
- 根据权利要求15-22中任一项所述的微波炉的联锁装置,其中,还包括:监控开关,所述监控开关设于所述联锁支架;驱第一杠杆,所述第一杠杆可转动地设于所述联锁支架,所述第一门勾在驱动所述第二杠杆转动之前,驱动所述第一杠杆沿第二方向转动以触发所述监控开关。
- 根据权利要求23所述的微波炉的联锁装置,其中,所述第一杠杆包括第一驱动臂和第二驱动臂,所述第一驱动臂设有用于触发所述监控开关的第一驱动部,所述第二驱动臂位于所述第一驱动臂靠近所述第一门勾的一侧,所述第一门勾适于与所述第一驱动臂相抵以驱动所述第一杠杆转动,在关门状态下,所述第一配合部位于所述第一驱动臂和所述第二驱动臂之间。
- 根据权利要求24所述的微波炉的联锁装置,其中,在所述第一杠杆的轴向上,所述第二驱动臂的至少一侧表面设有减薄区域;和/或,所述第一门勾的端部厚度沿关门方向递减。
- 根据权利要求24或25所述的微波炉的联锁装置,其中,在所述第一杠杆的轴向上,所述第一驱动臂与所述第一配合部间隔开预定间隙。
- 根据权利要求23-26中任一项所述的微波炉的联锁装置,其中,还包括:弹性件,所述弹性件连接所述联锁支架和所述第一杠杆,且具有驱动所述第一杠杆沿所述第二方向转动的第一驱动状 态、及驱动所述第一杠杆沿所述第一方向转动的第二驱动状态,在关门过程中,所述第一门勾适于与所述第一杠杆相抵以使所述弹性件由所述第二驱动状态切换至所述第一驱动状态。
- 根据权利要求23-27中任一项所述的微波炉的联锁装置,其中,所述联锁支架设有第一限位部和第二限位部,在关门状态下,所述第一限位部与所述第一杠杆相抵限位,在开门状态下,所述第二限位部与所述第一杠杆相抵限位。
- 根据权利要求24-26中任一项所述的微波炉的联锁装置,其中,还包括:缓冲关门组件,所述缓冲关门组件连接所述联锁支架和所述第一杠杆,在关门过程中,所述缓冲关门组件用于向所述第一杠杆施加与所述第二方向相反的缓冲力。
- 根据权利要求29所述的微波炉的联锁装置,其中,所述缓冲关门组件包括:缓冲件,所述缓冲件的一端与所述联锁支架可转动连接;连接件,所述第一杠杆具有驱动面,所述连接件可转动地安装于所述第一驱动臂且与所述驱动面呈预设角度,所述缓冲件的另一端与所述连接件可转动连接,在关门过程中,所述第一杠杆沿所述第二方向转动所述预设角度后,所述驱动面与所述连接件相抵以带动所述连接件转动。
- 根据权利要求30所述的微波炉的联锁装置,其中,在所述第一杠杆的轴向上,所述连接件的侧面设有用于避让所述第一配合部的避让缺口。
- 一种微波炉,其中,包括:机体和安装于所述机体的门体;根据权利要求1-31中任一项所述的微波炉的联锁装置,所述第一门勾安装于所述门体,所述联锁支架安装于所述机体。
- 一种微波炉,其中,包括:门体,所述门体具有第二门勾和第一门勾;支联锁支架,所述门体活动连接所述联锁支架,所述联锁支架上固定有第一开关、第二开关和第三开关;阻尼组件,安装在所述联锁支架上,所述阻尼组件包括阻尼器和驱动杠杆,所述驱动杠杆转动连接所述联锁支架和所述阻尼器,所述微波炉被配置为在所述门体关闭的过程中,所述第一门勾直接抵触所述第一开关以触发所述第一开关,所述第二门勾直接抵触所述第二开关以触发所述第二开关,所述第一门勾通过所述驱动杠杆触发所述第三开关。
- 根据权利要求33所述的微波炉,其中,所述第二门勾和/或所述第一门勾是固定在所述门体。
- 根据权利要求33或34所述的微波炉,其中,所述阻尼组件还包括摆动块,所述摆动块转动连接所述驱动杠杆和所述阻尼器。
- 根据权利要求35所述的微波炉,其中,所述驱动杠杆开设有容置槽,所述容置槽的顶部开设转动空间,所述容置槽的底部开设有摆动空间,所述摆动块的一端转动收容在所述转动空间,所述摆动块的另一端收容在所述摆动空间,所述摆动空间用于提供所述驱动杠杆相对于所述摆动块转动的空间。
- 根据权利要求33-36中任一项所述的微波炉,其中,所述阻尼组件包括弹性件,所述弹性件和所述驱动杠杆位于所述联锁支架的相背两侧,所述联锁支架开设有第三通孔,所述驱动杠杆通过所述第三通孔连接所述弹性件,所述弹性件用于带动所述驱动杠杆加速转动以使所述驱动杠杆带动所述门体加速。
- 根据权利要求37所述的微波炉,其中,在所述第一门勾与所述驱动杠杆分离的情况下,所述弹性件对所述驱动杠杆的作用力方向位于所述弹性件与所述驱动杠杆的连接处和所述驱动杠杆转轴的连线上方,在所述驱动杠杆受到所述第一门勾作用力的情况下,所述弹性件对所述驱动杠杆的作用力方向位于所述弹性件与所述驱动杠杆的连接处和所述驱动杠杆转轴的连线下方。
- 根据权利要求37或38所述的微波炉,其中,所述弹性件包括第一弹性件和第二弹性件,所述驱动杠杆上设有连接结构,所述第一弹性件与所述第二弹性件均连接所述连接结构,所述第一弹性件与所述第二弹性件之间形成的夹角为锐角。
- 根据权利要求33-39中任一项所述的微波炉,其中,所述联锁支架上安装有保护块,所述保护块活动地安装在所述联锁支架上,在所述第一门勾与所述驱动杠杆脱离的情况下,所述保护块对所述驱动杠杆进行限位,在所述门体关闭过程中,所述第一门勾驱动所述保护块移动以解除所述保护块对所述驱动杠杆的限位。
- 根据权利要求33-40中任一项所述的微波炉,其中,所述微波炉包括:斜块和第三弹性件,所述斜块和所述第三 弹性件安装在所述联锁支架上,所述第三弹性件抵接所述斜块的底部,所述斜块的顶部具有一导向斜面,所述导向斜面沿竖直面向所述联锁支架内部向上倾斜,在所述门体关闭过程中,所述第二门勾的末端与所述导向斜面抵接而使所述斜块下降压缩所述第三弹性件,在所述第二门勾的末端跨过所述导向斜面的情况下,所述斜块在所述第三弹性件的作用下卡住所述第二门勾。
- 根据权利要求33-41中任一项所述的微波炉,其中,所述微波炉还包括腔体,所述门体转动地连接在所述腔体的一侧,所述联锁支架安装在所述腔体。
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