CN221083442U - Interlocking structure and contain its equipment of toasting a little - Google Patents

Abstract

The utility model relates to the technical field of micro-steaming and baking equipment, in particular to an interlocking structure and micro-steaming and baking equipment comprising the same. The interlocking structure comprises a first micro-switch and a second micro-switch, wherein the first micro-switch and the second micro-switch are used for being respectively arranged on the left side and the right side of the cavity and on the opposite sides of the cavity, the first micro-switch is used for being abutted with one side of the oven door, the second micro-switch is used for being abutted with the other side of the oven door, and the first micro-switch and the second micro-switch are both used for being connected with a microwave circuit. Through the first micro-gap switch and the second micro-gap switch on both sides about the cavity, control microwave circuit jointly, when the furnace gate was closed, under the condition that cavity front bezel and furnace gate laminate, microwave circuit just switched on when first micro-gap switch and second micro-gap switch all closed, can prevent that furnace gate and cavity front bezel from cooperating not in place and not laminating and leading to microwave leakage, solved the interlocking structure in current micro-steaming roast equipment and only set up the defect problem that the microwave leaked appears easily in the control microwave break-make in one side of furnace gate.

Description

Interlocking structure and contain its equipment of toasting a little

Technical Field

The utility model relates to the technical field of micro-steaming and baking equipment, in particular to an interlocking structure and micro-steaming and baking equipment comprising the same.

Background

The micro-steaming and baking equipment is used as a kitchen utensil, the safety problem of people in use is considered for the microwave function design of the micro-steaming and baking equipment, and the interlocking structural design for controlling the on-off of microwaves through the switch of the oven door is an indispensable key.

At present, an interlocking structure in the existing micro-steaming and baking equipment is only arranged on one side of a furnace door to control the on-off of microwaves, when the cavity of the micro-steaming and baking equipment is deformed, the other side of the furnace door is not matched with a cavity front plate in place, the furnace door is not attached to the cavity front plate, and the functions of microwaves are not disconnected, so that microwaves leak out from gaps to harm human health.

Therefore, there is a need to design an interlocking structure capable of preventing microwave leakage and a micro-steaming and baking apparatus including the same.

Disclosure of utility model

In view of the above, the utility model provides an interlocking structure and a micro-steaming and baking device comprising the same, which are used for solving the defect that the interlocking structure of the micro-steaming and baking device in the prior art is easy to cause microwave leakage.

In order to solve the technical problem, the technical scheme adopted by the utility model is to provide an interlocking structure, the interlocking structure comprises a first micro-switch and a second micro-switch, the first micro-switch and the second micro-switch are respectively arranged at the left side and the right side of the cavity, the first micro-switch is used for being abutted with one side of the oven door so as to enable the first micro-switch to be closed, the second micro-switch is used for being abutted with the other side of the oven door so as to enable the second micro-switch to be closed, the first micro-switch and the second micro-switch are both used for being connected with a microwave circuit, and when the first micro-switch and the second micro-switch are both closed, the microwave circuit is conducted.

As one embodiment of the utility model, the interlocking structure further comprises an interlocking assembly, the interlocking assembly comprises an interlocking bracket, an interlocking lever and a primary micro switch, the interlocking bracket is used for being arranged on the outer side wall of the cavity, the interlocking lever is rotatably arranged on the interlocking bracket, the primary micro switch is fixed on the interlocking bracket, the interlocking lever is provided with a first rotating arm and a second rotating arm, when the oven door is abutted against the first rotating arm, the second rotating arm rotates along a first direction, so that the second rotating arm is abutted against the primary micro switch, and the primary micro switch is used for being connected with the microwave circuit.

As an embodiment of the present utility model, the interlocking assembly further includes an elastic member, the interlocking bracket has a first boss, the interlocking lever has a second boss, both ends of the elastic member have a first hook and a second hook, the first hook is hooked to the first boss, the second hook is hooked to the second boss, and the elastic member generates a rebound force for the interlocking lever to rotate in a second direction, and the first direction is opposite to the second direction.

As an embodiment of the present utility model, the interlocking structure further includes a monitoring switch, the monitoring switch is fixed on the interlocking bracket, the interlocking lever has a third rotating arm, when the interlocking lever rotates along the first direction, the third rotating arm first abuts against the monitoring switch, and the second rotating arm abuts against the primary micro switch.

As one embodiment of the present utility model, the interlocking structure further includes a bracket fixing plate and an adjusting member, the bracket fixing plate is used for being connected with the outer side wall of the cavity, the bracket fixing plate is provided with a fixing hole, the interlocking bracket is provided with an adjusting hole corresponding to the fixing hole, the adjusting hole is wider than the fixing hole, and the adjusting member passes through the adjusting hole to be assembled with the fixing hole, so that the interlocking bracket is fixed on the bracket fixing plate.

As one embodiment of the utility model, the interlocking bracket is provided with a protruding shaft, the interlocking lever is provided with a shaft hole matched with the protruding shaft, and the shaft hole of the interlocking lever is sleeved on the protruding shaft so that the interlocking lever can rotate around the protruding shaft.

As one embodiment of the utility model, the interlocking bracket is provided with two pairs of limit frames, wherein one pair of limit frames forms a first installation frame, the primary micro switch is clamped into the first installation frame, the other pair of limit frames forms a second installation frame, and the monitoring switch is clamped into the second installation frame.

As one embodiment of the utility model, the interlocking bracket is provided with two pairs of buckles, one pair of buckles is buckled with the primary micro switch, and the other pair of buckles is buckled with the monitoring switch.

As an embodiment of the present utility model, the second micro switch is provided with a button, and the button is used for protruding the front plate of the cavity and being pressed by the oven door.

The utility model also provides micro-steaming and baking equipment for solving the technical problems, and the micro-steaming and baking equipment comprises the interlocking structure.

Compared with the prior art, the interlocking structure and the micro-steaming and baking equipment with the interlocking structure provided by the embodiment of the utility model have the following advantages:

1. In the interlocking structure provided by the utility model, the interlocking structure comprises a first micro switch and a second micro switch, wherein the first micro switch and the second micro switch are respectively arranged at the left side and the right side of the cavity, the first micro switch is used for being abutted against one side of the oven door so as to enable the first micro switch to be closed, the second micro switch is used for being abutted against the other side of the oven door so as to enable the second micro switch to be closed, the first micro switch and the second micro switch are both used for being connected with a microwave circuit, and when the first micro switch and the second micro switch are both closed, the microwave circuit is conducted. Through the first micro-gap switch and the second micro-gap switch on both sides about the cavity, control microwave circuit jointly, when the furnace gate was closed, under the condition that cavity front bezel and furnace gate laminate, microwave circuit just switched on when first micro-gap switch and second micro-gap switch all closed, can prevent that furnace gate and cavity front bezel from cooperating not in place and not laminating and leading to microwave leakage, solved the interlocking structure in current micro-steaming roast equipment and only set up the defect problem that the microwave leaked appears easily in the control microwave break-make in one side of furnace gate.

2. The functions of the micro-steaming and baking equipment provided by the utility model are the same as those of the interlocking structure, and are not repeated here.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

fig. 1 is a schematic perspective view showing an interlocking structure and a part of micro-steaming and baking equipment according to a first embodiment of the present utility model;

FIG. 2 shows an enlarged view of A in FIG. 1;

Fig. 3 is a schematic perspective view showing an interlocking structure and a part of micro-steaming and baking equipment in a state that a furnace door is opened according to the first embodiment of the present utility model;

FIG. 4 shows an enlarged view of B in FIG. 3;

fig. 5 is a schematic perspective view showing an interlocking structure and a part of micro-steaming and baking equipment in a closed state of a furnace door according to the first embodiment of the present utility model;

FIG. 6 shows an enlarged view of C in FIG. 5;

FIG. 7 is a schematic view of a portion of an interlocking structure according to a first embodiment of the present utility model;

fig. 8 shows an exploded view of a portion of an interlocking structure provided in accordance with a first embodiment of the present utility model.

The attached drawings are used for identifying and describing:

1. An interlocking structure; 2. micro steaming and baking equipment;

11. A first microswitch; 12. a second microswitch; 13. a monitor switch; 14. a bracket fixing plate;

15. An adjusting member; 21. a furnace door; 23. a cavity front plate; 24. an outer sidewall; 26. a door hook;

111. An interlocking bracket; 112. an interlock lever; 113. a primary microswitch; 114. an elastic member; 141. a fixing hole; 121. a button; 221. a cavity; 231. a mating hole;

1111. A first boss; 1112. an adjustment aperture; 1113. a protruding shaft; 1114. limiting frames; 1115. a buckle; 1121. a first rotating arm; 1122. a second rotating arm; 1123. a second boss; 1124. a shaft hole;

1125. a third rotating arm; 1141. a first hook; 1142. a second hook;

11141. A first mounting frame; 11142. and a second mounting frame.

Detailed Description

In order that the application may be readily understood, a more complete description of the application will be rendered by reference to the appended drawings. Embodiments of the application are illustrated in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

The terms "disposed," "configured," "connected," "coupled," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Example 1

The first embodiment of the present utility model discloses an interlocking structure 1, which is suitable for a cooking device or other products with a sliding door type and a microwave function, for example, the interlocking structure can be used in a micro-steaming and baking device 2, a microwave oven, an air fryer and an integrated kitchen range, and is used for controlling the on-off of a microwave circuit.

As shown in fig. 1-4, the interlocking structure 1 includes a first micro switch 11 and a second micro switch 12, the first micro switch 11 and the second micro switch 12 are respectively disposed on two opposite sides of the cavity 221, the first micro switch 11 is used for abutting against one side of the oven door 21 to enable the first micro switch 11 to be closed, the second micro switch 12 is used for abutting against the other side of the oven door 21 to enable the second micro switch 12 to be closed, the first micro switch 11 and the second micro switch 12 are both used for being connected with a microwave circuit, and when the first micro switch 11 and the second micro switch 12 are both closed, the microwave circuit is turned on.

Specifically, as shown in fig. 4 and 5, the first micro switch 11 is disposed on the right side of the cavity 221, the second micro switch 12 is disposed on the left side of the cavity 221, when the oven door 21 is in a closed state, and the cavity front plate 23 is attached to the left and right sides of the oven door 21, the oven door 21 abuts against the first micro switch 11 and the second micro switch 12, so that the first micro switch 11 and the second micro switch 12 can be closed, and only when the first micro switch 11 is closed and the second micro switch 12 is also closed, the microwave circuit can be conducted to start the microwave function, thereby protecting against microwave leakage.

Further, the second micro switch 12 is provided with a button 121, and the button 121 is used for protruding the cavity front plate 23 and being pressed by the oven door 21.

Specifically, the second micro switch 12 is a button switch in the prior art, and the button 121 protrudes from the cavity front plate 23, and when the oven door 21 is closed, the left side of the oven door 21 presses the button 121, so that the second micro switch 12 is closed.

Further, as shown in fig. 5 and 6, the interlocking structure 1 further includes an interlocking assembly, the interlocking assembly includes an interlocking bracket 111, an interlocking lever 112 and a primary micro switch 113, the interlocking bracket 111 is configured to be disposed on the outer sidewall 24 of the cavity 221, the interlocking lever 112 is rotatably disposed on the interlocking bracket 111, the primary micro switch 113 is fixed on the interlocking bracket 111, the interlocking lever 112 has a first rotating arm 1121 and a second rotating arm 1122, when the oven door 21 abuts against the first rotating arm 1121, the second rotating arm 1122 rotates along a first direction, so that the second rotating arm 1122 abuts against the primary micro switch 113, and the primary micro switch 113 is configured to be connected with the microwave circuit.

Specifically, when the oven door 21 abuts against the first rotating arm 1121, the first rotating arm 1121 is forced to rotate in the first direction, and the first rotating arm 1121 rotates in the first direction together with the second rotating arm 1122, and when the oven door 21 is successfully closed, the first rotating arm 1121 and the second rotating arm 1122 stop rotating, and the second rotating arm 1122 abuts against and presses the primary micro switch 113.

Further, as shown in fig. 7 and 8, the interlocking assembly further includes an elastic member 114, the interlocking bracket 111 has a first boss 1111, the interlocking lever 112 has a second boss 1123, two ends of the elastic member 114 have a first hook 1141 and a second hook 1142, the first hook 1141 is hung on the first boss 1111, the second hook 1142 is hung on the second boss 1123, and the elastic member 114 generates a resilience force for rotating the interlocking lever 112 along a second direction, and the first direction is opposite to the second direction.

Specifically, when the door 21 is closed, the first rotating arm 1121 rotates in the first direction against the elastic force of the elastic member 114 when the door 21 is closed, and when the door 21 is opened, the first rotating arm 1121 does not rotate in the second direction against the elastic force of the elastic member 114 when the door 21 is opened.

Alternatively, the elastic member 114 is any one of a coil spring, a scroll spring, a plate spring, a disc spring, a ring spring, and a profile spring. In the first embodiment of the present utility model, the elastic member 114 is a coil spring.

Specifically, as shown in fig. 3 and 4, when the door 21 is closed, the door hook 26 is disposed on the door 21, and the door hook 26 can abut against the first rotating arm 1121 and apply force to the first rotating arm 1121, so that the interlocking lever 112 can rotate along the first direction and drive the elastic member 114 to stretch, the interlocking lever 112 rotates against the elastic force of the elastic member 114 to a first position, and the second rotating arm 1122 of the interlocking lever 112 abuts against the primary micro switch 113 to close the primary micro switch 113. When the door 21 is opened, the door 21 withdraws from the first rotating arm 1121 and the force applied thereto is withdrawn, and at this time, the interlocking lever 112 is rotated in a second direction opposite to the first direction by the resilience of the elastic member 114, to be rotated to a second position.

More specifically, the door hook 26 is disposed on the oven door 21 at a position corresponding to the interlocking lever 112, the cavity front plate 23 is provided with a matching hole 231 corresponding to the door hook 26, the first rotating arm 1121 of the interlocking lever 112 in the first micro switch 11 abuts against the edge of the matching hole 231, and when the oven door 21 is closed, the door hook 26 passes through the matching hole 231 to prop up the first rotating arm 1121, and forces the interlocking lever 112 to rotate around the protruding shaft 1113 of the interlocking bracket 111 in the first micro switch 11.

It should be noted that, in the first embodiment of the present utility model, the first direction is clockwise, the second direction is counterclockwise, the first position is the final position where the interlocking lever 112 rotates when the oven door 21 is closed, and the second position is the final position where the interlocking lever 112 rotates when the oven door 21 is opened.

Further, as shown in fig. 5 and 6, the interlocking bracket 111 is provided with a protruding shaft 1113, the interlocking lever 112 is provided with a shaft hole 1124 matching with the protruding shaft 1113, and the interlocking lever 112 is sleeved on the protruding shaft 1113 through the shaft hole 1124, so that the interlocking lever 112 can rotate around the protruding shaft 1113.

Specifically, the interlock lever 112 rotates around the protruding shaft 1113 when rotated, and rotates around the protruding shaft 1113 as a center point.

Further, the interlocking structure 1 further includes a bracket fixing plate 14 and an adjusting member 15, the bracket fixing plate 14 is used for being connected with the outer side wall 24 of the cavity 221, the bracket fixing plate 14 is provided with a fixing hole 141, the interlocking bracket 111 is provided with an adjusting hole 1112 corresponding to the fixing hole 141, the adjusting hole 1112 is wider than the fixing hole 141, and the adjusting member 15 is assembled with the fixing hole 141 through the adjusting hole 1112, so that the interlocking bracket 111 is fixed on the bracket fixing plate 14.

It can be understood that the interlocking bracket and the bracket fixing plate 14 are provided with an adjustable structure, and the rotation degree of the interlocking bracket 111 can be adjusted by adjusting the specific position of the adjusting piece 15 in the width direction of the adjusting hole 1112, so that the pressing amounts of the interlocking bracket 111, the primary micro switch 113 and the monitoring switch 13 can be adjusted, and the problem that the pressing of the switch is not in place due to part errors during production and assembly can be solved.

Further, the interlocking structure 1 further includes a monitor switch 13, the monitor switch 13 is fixed on the interlocking bracket 111, the interlocking lever 112 has a third rotating arm 1125, when the interlocking lever 112 rotates along the first direction, the third rotating arm 1125 first abuts against the monitor switch 13, and the second rotating arm 1122 abuts against the primary micro switch 113.

Specifically, the monitoring switch 13 is opened first, and the primary micro switch 113 is closed later.

It will be appreciated that the monitoring switch 13 serves a dual protection function. Specifically, in the embodiment of the present utility model, the primary micro switch 113 and the secondary micro switch are normally open switches in the prior art, are located in a main loop of the microwave circuit, and are closed when the door is closed, that is, are on, the microwave circuit can safely work, the monitoring switch 13 is a transfer switch or a normally closed switch in the prior art, and is located between the primary micro switch 113 and the secondary micro switch, and the primary micro switch 113 and the secondary micro switch are both closed, so that the microwave circuit can safely work, and the monitoring switch 13 is required to be opened to work, and finally the microwave function can be opened, thereby playing a dual protection role.

More specifically, since the length of the third rotating arm 1125 is greater than the length of the second rotating arm 1122, the third rotating arm 1125 is firstly abutted against the monitoring switch 13, and the second rotating arm 1122 is then abutted against the primary micro switch 113, when the oven door 21 is closed, the monitoring switch 13 is firstly operated, then the secondary micro switch is closed to conduct the circuit, and finally the primary micro switch 113 is closed to conduct the circuit; when the oven door 21 is opened, the primary micro-switch 113 is turned off first, then the secondary micro-switch is turned off, and finally the monitoring switch 13 is operated. When the furnace door 21 is opened, if the primary micro switch 113 and the secondary micro switch cannot be disconnected due to damage faults or abnormal conditions, and the state of the furnace door 21 cannot be displayed correctly, the monitoring switch 13 can short-circuit all loads, and a protective tube in a circuit is burnt to cut off working current, so that a safety protection effect is achieved. The microwave operation can be performed only when the door 21 is closed, and the microwave operation can be stopped when the primary micro switch 113 and the secondary micro switch are abnormal after the door 21 is opened.

The second micro switch 12 is a secondary micro switch.

Further, as shown in fig. 7 and 8, the interlocking bracket 111 is provided with two pairs of limiting frames 1114, wherein one pair of limiting frames 1114 forms a first mounting frame 11141, the primary micro switch 113 is clamped into the first mounting frame 11141, the other pair of limiting frames 1114 forms a second mounting frame 11142, and the monitoring switch 13 is clamped into the second mounting frame 11142.

Further, the interlocking bracket 111 is provided with two pairs of buckles 1115, wherein one pair of buckles 1115 is buckled with the primary micro switch 113, and the other pair of buckles 1115 is buckled with the monitoring switch 13.

It will be appreciated that the limit frame 1114 has a fixing function of preventing the primary micro switch 113 and the monitor switch 13 from being shifted in the left-right direction, the buckle 1115 has a fixing function of preventing the primary micro switch 113 and the monitor switch 13 from being shifted in the up-down and front-back directions, that is, the limit frame 1114 and the buckle 1115 cooperate together to fix the primary micro switch 113 and the monitor switch 13 on the interlocking bracket 111.

In the first embodiment of the utility model, the first micro switch 11 and the second micro switch 12 on the left and right sides of the cavity 221 are used for jointly controlling the microwave circuit, when the oven door 21 is closed and the cavity front plate 23 is attached to the oven door 21, the microwave circuit is conducted when the first micro switch 11 and the second micro switch 12 are both closed, so that the problem that the microwave leakage is caused by the fact that the oven door 21 is not matched in place and is not attached to the cavity front plate 23 is solved, and the defect that the interlocking structure 1 in the traditional micro steaming and baking equipment 2 is only arranged on one side of the oven door 21 to control the on-off of the microwave and the microwave leakage is easy to occur is solved.

Example two

A second embodiment of the present utility model discloses a micro-steaming and baking apparatus including the interlocking structure of the first embodiment.

The function of the micro-steaming and baking device provided by the second embodiment of the present utility model is the same as that of the interlocking structure in the first embodiment, and will not be described here again.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. An interlocking structure, characterized in that: the interlocking structure comprises a first micro-switch and a second micro-switch, wherein the first micro-switch and the second micro-switch are used for being arranged on the left side and the right side of the cavity respectively, the first micro-switch is used for being abutted to one side of the oven door so that the first micro-switch is closed, the second micro-switch is used for being abutted to the other side of the oven door so that the second micro-switch is closed, the first micro-switch and the second micro-switch are both used for being connected with a microwave circuit, and when the first micro-switch and the second micro-switch are both closed, the microwave circuit is conducted.

2. The interlock structure of claim 1 wherein: the interlocking structure further comprises an interlocking assembly, the interlocking assembly comprises an interlocking support, an interlocking lever and a primary micro switch, the interlocking support is used for being arranged on the outer side wall of the cavity, the interlocking lever is rotatably arranged on the interlocking support, the primary micro switch is fixed on the interlocking support, the interlocking lever is provided with a first rotating arm and a second rotating arm, when the oven door is abutted to the first rotating arm, the second rotating arm rotates along a first direction, so that the second rotating arm is abutted to the primary micro switch, and the primary micro switch is used for being connected with a microwave circuit.

3. The interlock structure of claim 2 wherein: the interlocking assembly further comprises an elastic piece, the interlocking support is provided with a first boss, the interlocking lever is provided with a second boss, two ends of the elastic piece are provided with a first hook and a second hook, the first hook is hooked on the first boss, the second hook is hooked on the second boss, the elastic piece is used for generating resilience force rotating along a second direction on the interlocking lever, and the first direction is opposite to the second direction.

4. The interlock structure of claim 2 wherein: the interlocking structure further comprises a monitoring switch, the monitoring switch is fixed on the interlocking support, the interlocking lever is provided with a third rotating arm, when the interlocking lever rotates along the first direction, the third rotating arm is firstly abutted to the monitoring switch, and the second rotating arm is then abutted to the primary micro switch.

5. The interlock structure of claim 2 wherein: the interlocking structure further comprises a support fixing plate and an adjusting piece, wherein the support fixing plate is used for being connected with the outer side wall of the cavity, a fixing hole is formed in the support fixing plate, an adjusting hole corresponding to the fixing hole is formed in the interlocking support, the adjusting hole is wider than the fixing hole, and the adjusting piece penetrates through the adjusting hole to be assembled with the fixing hole, so that the interlocking support is fixed on the support fixing plate.

6. The interlock structure of claim 2 wherein: the interlocking support is provided with a protruding shaft, the interlocking lever is provided with a shaft hole matched with the protruding shaft, and the interlocking lever is sleeved on the protruding shaft through the shaft hole, so that the interlocking lever can rotate around the protruding shaft.

7. The interlock structure of claim 4 wherein: the interlocking support is provided with two pairs of limit frames, one pair of limit frames forms a first installation frame, the primary micro-switch is clamped into the first installation frame, the other pair of limit frames forms a second installation frame, and the monitoring switch is clamped into the second installation frame.

8. The interlock structure of claim 7 wherein: the interlocking support is provided with two pairs of buckles, wherein one pair of buckles are buckled with the primary micro switch, and the other pair of buckles are buckled with the monitoring switch.

9. The interlock structure of claim 1 wherein: the second micro switch is provided with a button, and the button is used for protruding the cavity front plate and being pressed by the furnace door.

10. A micro-steaming and baking device, which is characterized in that: comprising an interlocking structure according to any one of claims 1-9.