CN219846131U - Cooking inner container structure with microwave function and cooking machine - Google Patents

Abstract

The utility model relates to a cooking inner container structure with a microwave function and a cooking machine, comprising an inner container, wherein a microwave assembly is arranged at the top of the inner container, an installation groove is concavely formed in the inner top surface of the inner container, the microwave assembly comprises a wave stirring motor, a wave stirring device driven by the wave stirring motor to rotate and a glass ceramic plate, the wave stirring device is arranged in the installation groove, the glass ceramic plate is arranged in a notch of the installation groove, the size of the glass ceramic plate is matched with that of the installation groove, and the cooking inner container structure further comprises an annular lamp belt which is clamped between the periphery of the glass ceramic plate and the edge of the notch of the installation groove along the circumferential direction and seals a circumferential gap between the periphery of the glass ceramic plate and the notch of the installation groove. The utility model solves the problem of poor lighting effect in the prior art, and can prevent hot air and/or steam from leaking into the installation groove through the gap between the glass ceramic plate and the edge of the notch of the installation groove.

Description

Cooking inner container structure with microwave function and cooking machine

Technical Field

The utility model relates to the field of cooking equipment, in particular to a cooking liner structure with a microwave function and a cooking machine.

Background

At present, a cooking machine with a microwave function on the market generally adopts a bottom microwave discharging mode, and microwaves generated at the bottom in the mode can heat foods by the microwaves only through a vessel for containing the foods, so that the efficacy of the microwaves is greatly weakened. In order to solve the problem, chinese patent No. ZL 201920015730.7 (issued to the public No. CN 210185296U) discloses an inner container structure of a steaming and micro-drying integrated machine, in which a microwave assembly is disposed at the top of the inner container, and microwave energy generated by the microwave assembly enters the inner container to heat food. In the patent, the microwave component at the top can directly perform microwave action on food, so that the weakening of the vessel to the microwave is avoided, the microwave energy efficiency is improved, and the time required for the microwave action on the food is reduced.

However, the above patent still has the following problems: because the restriction of microwave function, the inner bag of cooking machine can't design the hole of great diameter, consequently, the cooking machine of taking microwave function at present adopts a plurality of apertures's mode to throw light on basically, however, a plurality of apertures throw light on can lead to the shadow stack, leads to the lighting effect to descend to need seal the opening region, make the assembly more complicated.

Disclosure of Invention

The first technical problem to be solved by the utility model is to provide a cooking liner structure with microwave function, which has high microwave energy efficiency and good internal lighting effect.

The second technical problem to be solved by the utility model is to provide a cooking liner structure with microwave function, which has high microwave energy efficiency and good liner sealing effect.

The third technical problem to be solved by the present utility model is to provide a cooking machine comprising the above cooking liner structure.

The utility model solves at least one of the technical problems by adopting the following technical proposal: the utility model provides a culinary art inner bag structure with microwave function, includes the inner bag, and the top of this inner bag is provided with microwave subassembly, and the concave mounting groove that is equipped with on the interior top surface of this inner bag, above-mentioned microwave subassembly includes the stirring wave motor, by stirring wave motor drive pivoted stirring wave ware and glass ceramic board, wherein, the stirring wave ware is installed in above-mentioned mounting groove, and glass ceramic board sets up in the notch of this mounting groove, its characterized in that, glass ceramic board's size and the notch phase-match of mounting groove still include annular lamp area, and this lamp area presss from both sides along circumference to establish between the peripheral edge of above-mentioned glass ceramic board and mounting groove notch to seal the circumference clearance between the two.

Further, the lamp belt comprises an annular belt body, and an annular groove into which the periphery of the glass ceramic plate is clamped is concavely arranged on the inner side of the belt body along the circumferential direction. The lamp strip is more stably clamped between the periphery of the glass ceramic plate and the edge of the notch of the mounting groove.

Further, the lower end of the outer side of the lamp strip body extends outwards along the circumferential direction and forms a sealing protruding edge, and the sealing protruding edge is abutted against the opening edge of the notch of the mounting groove along the circumferential direction. The glass ceramic plate is beneficial to better sealing the gap between the periphery of the glass ceramic plate and the edge of the notch of the mounting groove by the lamp belt, thereby improving the sealing effect on the inside of the liner.

Further, an annular gap is reserved between the upper end of the outer side of the lamp belt body and the groove side surface of the mounting groove along the circumferential direction. Under the condition of guaranteeing the sealing effect, the heat dissipation of the lamp strip is facilitated by forming an annular gap, and the working temperature of the lamp strip is prevented from being too high.

Further, a supporting structure for supporting the glass ceramic plate and the lamp strip is arranged on the inner top surface of the inner container. Thereby realizing the stable installation of the glass ceramic plate and the lamp strip.

Further, the supporting structure comprises at least two supporting frames which are oppositely arranged at two sides of the mounting groove, each supporting frame comprises a strip-shaped plate body which is horizontally arranged, one end of the plate body is fixed with the inner top surface of the inner container, and the other end of the plate body is turned downwards along the length direction and is propped against the bottom surface of the glass ceramic plate and the bottom surface of the lamp strip. Therefore, on one hand, the structure of the supporting structure is simple, and on the other hand, the glass ceramic plate and the lamp strip can be stably supported.

Further, the end edge of the other end of each supporting frame is tilted upwards along the length direction to form a limit convex edge. Can avoid the lamp area to deviate from the support frame through setting up spacing chimb, further guarantee the firm installation in lamp area.

Further, a heat dissipation fan blade is further arranged in the mounting groove, the heat dissipation fan blade and the wave stirrer are coaxially arranged, and a heat dissipation hole communicated with the outside is formed in the top wall of the mounting groove. Through setting up the heat dissipation flabellum, utilize stirring ripples motor drive heat dissipation flabellum to can dispel the heat to the mounting groove is inside, and then realize the heat dissipation to the lamp area, avoid the lamp area operational environment temperature too high.

Further, the heat dissipation fan blade is arranged on the wave stirrer. The rotation of the radiating fan blade is prevented from interfering the wave stirring action of the wave stirrer.

Further, the aperture of the heat dissipation holes is less than or equal to 5mm. Thus avoiding microwave leakage under the condition of ensuring the heat dissipation effect.

The technical scheme adopted for further solving the second technical problem is as follows: a cooking machine characterized by comprising the cooking liner structure with a microwave function.

Compared with the prior art, the utility model has the advantages that: the microwave assembly is arranged at the top of the inner container, so that the problem of low microwave energy efficiency in the prior art is avoided, the lamp strip is clamped between the periphery of the glass ceramic plate and the opening edge of the notch of the mounting groove along the circumferential direction, and the circumferential gap between the glass ceramic plate and the opening edge of the notch of the mounting groove is sealed, so that on one hand, the lamp strip can illuminate the inner container, the problem of poor illumination effect in the prior art is solved, and in addition, the lamp strip can play a sealing role at the same time, and hot air and/or steam is prevented from leaking into the mounting groove through the gap between the glass ceramic plate and the opening edge of the notch of the mounting groove.

Drawings

Fig. 1 is a schematic structural view of a cooking liner with microwave function according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the structure of FIG. 1 in another direction;

FIG. 3 is a cross-sectional view of a cooking liner structure having a microwave function in accordance with an embodiment of the present utility model;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a partially exploded view of a cooking liner with microwave function according to an embodiment of the present utility model;

fig. 6 is a schematic structural diagram of a support frame according to an embodiment of the utility model.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for purposes of describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and because the disclosed embodiments of the present utility model may be arranged in different orientations, these directional terms are merely for illustration and should not be construed as limitations, such as "upper", "lower" are not necessarily limited to orientations opposite or coincident with the direction of gravity. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly.

A cooking machine comprises a cooking liner structure with a microwave function, and in the embodiment, the cooking machine has the microwave function, the steaming function and the baking function. Further, as shown in fig. 1 to 6, the cooking liner structure with microwave function includes a liner 1, a microwave assembly 3 is disposed at the top of the liner 1, and an installation groove 20 is concavely disposed on the inner top surface of the liner 1, and the microwave assembly 3 includes a stirring motor 32, a stirrer 33 driven to rotate by the stirring motor 32, and a glass ceramic plate 34. Wherein the pulsator 33 is installed in the installation groove 20, and the glass ceramic plate 34 is disposed in a notch of the installation groove 20. Specifically, in this embodiment, a circular mounting opening 10 is formed at the center of the top wall of the liner 1, and a disk-shaped mounting cover 2 is covered on the top surface of the liner 1 at the mounting opening 10, so that the mounting groove 20 is formed on the top surface of the liner 1. In addition, the microwave assembly 3 further includes a waveguide 31 provided on the top surface of the inner container 1 and a magnetron (not shown) provided at the upper end of the upper back side of the inner container 1.

Further, the glass-ceramic plate 34 is a circular plate, the size of the glass-ceramic plate 34 is matched with the notch of the mounting groove 20, the glass-ceramic plate 34 is arranged in alignment with the notch of the mounting groove 20, and a uniform circumferential gap is formed between the periphery of the glass-ceramic plate 34 and the notch edge of the mounting groove 20. Also comprises an annular lamp band 4, wherein the lamp band 4 is circumferentially clamped between the periphery of the glass ceramic plate 34 and the opening edge of the notch of the mounting groove 20, and the circumferential gap between the periphery and the opening edge is sealed.

The microwave assembly 3 is arranged at the top of the inner container 1, so that the problem of low microwave energy efficiency in the prior art is avoided, the lamp strip 4 is circumferentially clamped between the periphery of the glass ceramic plate 34 and the opening edge of the notch of the mounting groove 20, and the circumferential gap between the glass ceramic plate 34 and the opening edge is sealed, so that the lamp strip 4 can be used for illuminating the inner part of the inner container 1, and the problem of poor illumination effect in the prior art is solved. In addition, the lamp strip 4 can simultaneously play a role in sealing, and hot air and/or steam is prevented from leaking into the inside of the installation groove 20 through the gap between the glass ceramic plate 34 and the edge of the notch of the installation groove 20.

The lamp band 4 further includes an annular band body 40, and a ring groove 41 into which the peripheral edge of the glass-ceramic plate 34 is engaged is recessed in the circumferential direction inside the band body 40. Thereby facilitating a more stable sandwiching of the lamp strip 4 between the peripheral edge of the glass-ceramic plate 34 and the rim of the notch of the mounting groove 20. At the same time, the lower end of the outer side of the band body 40 of the lamp band 4 extends radially outwards along the circumferential direction to form a sealing flange 42, and the sealing flange 42 is abutted against the opening edge of the notch of the mounting groove 20 along the circumferential direction. The lamp strip 4 is favorable for better sealing the gap between the periphery of the glass ceramic plate 34 and the opening edge of the notch of the mounting groove 20, thereby improving the sealing effect on the inside of the liner 1. In addition, an annular space 5 is left between the upper end of the outer side of the band body 40 of the lamp band 4 and the groove side surface of the installation groove 20 in the circumferential direction. Under the condition of ensuring the sealing effect, the heat dissipation of the lamp strip 4 is facilitated by forming the annular gap 5, and the working temperature of the lamp strip 4 is prevented from being too high.

Further, a supporting structure for supporting the glass-ceramic plate 34 and the lamp strip 4 is provided on the inner top surface of the inner container 1, so that the glass-ceramic plate 34 and the lamp strip 4 can be stably mounted. Specifically, the supporting structure includes at least two supporting frames 6 disposed opposite to each other on two sides of the mounting groove 20, each supporting frame 6 includes a long and horizontally disposed plate body 60, one end of the plate body 60 is fixed to the inner top surface of the inner container 1, and the other end of the plate body is turned downward along the length direction thereof and abuts against the bottom surface of the glass ceramic plate 34 and the bottom surface of the lamp strip 4. This enables on the one hand a simple structure of the support structure and on the other hand a stable support of the glass-ceramic plate 34 and the lamp strip 4. Preferably, the end edge of the other end of each supporting frame 6 is tilted upward along the length direction to form a limiting flange 61. The lamp strip 4 can be prevented from falling out of the supporting frame 6 by arranging the limiting convex edge 61, so that stable installation of the lamp strip 4 is further ensured.

Further, the installation groove 20 is further provided with a heat dissipation fan 7, the heat dissipation fan 7 and the agitator 33 are coaxially arranged (the heat dissipation fan 7 and the agitator 33 are both installed on the output shaft 321 of the agitator motor 32), and the top wall of the installation groove 20 is provided with a heat dissipation hole 8 communicated with the outside. Through setting up heat dissipation flabellum 7, utilize stirring ripples motor 32 drive heat dissipation flabellum 7 to can dispel the heat to the inside mounting groove 20, and then realize the heat dissipation to lamp area 4, avoid lamp area 4 operational environment temperature too high. Therefore, the present utility model does not need to provide a driving device, and the agitator 33 and the heat dissipation fan blade 7 are driven to rotate by the agitator motor 32. Preferably, the heat dissipation fan blade 7 is disposed above the agitator 33, so as to avoid the rotation of the heat dissipation fan blade 7 interfering with the agitation operation of the agitator 33. Further, it is preferable that the aperture of the above-mentioned heat radiation hole 8 is 5mm or less, so that the leakage of microwaves can be avoided while securing the heat radiation effect. In this embodiment, the plurality of heat dissipation holes 8 are provided around the outer periphery of the tip of the waveguide 31 and arranged in an array matching the shape of the tip of the waveguide 31.

Claims (11)

1. The utility model provides a culinary art inner bag structure with microwave function, including inner bag (1), the top of this inner bag (1) is provided with microwave subassembly (3), and the concave mounting groove (20) that is equipped with in interior top surface of this inner bag (1), above-mentioned microwave subassembly (3) include stir ripples motor (32), stir ripples ware (33) and glass ceramic board (34) of ripples motor (32) drive pivoted, wherein, stir ripples ware (33) and install in above-mentioned mounting groove (20), and glass ceramic board (34) set up in the notch of this mounting groove (20), a serial communication port, the size of glass ceramic board (34) and the notch phase-match of mounting groove (20), still include cyclic annular lamp area (4), this lamp area (4) are pressed from both sides along circumference and are established between the peripheral edge of the periphery of above-mentioned glass ceramic board (34) and mounting groove (20) notch to seal the circumference clearance between the two.

2. The cooking liner structure with microwave function according to claim 1, wherein the lamp strip (4) comprises an annular strip body (40), and a ring groove (41) into which the periphery of the glass-ceramic plate (34) is clamped is concavely arranged on the inner side of the strip body (40) along the circumferential direction.

3. Cooking liner structure with microwave function according to claim 2, characterized in that the lower end of the outer side of the strip body (40) of the lamp strip (4) extends radially outwards along the circumferential direction to form a sealing bead (42), and the sealing bead (42) is abutted against the opening edge of the notch of the mounting groove (20) along the circumferential direction.

4. A cooking liner structure with microwave function according to claim 3, characterized in that an annular gap (5) is left between the upper end of the outer side of the strip body (40) of the lamp strip (4) and the groove side surface of the mounting groove (20) along the circumferential direction.

5. The cooking liner structure with microwave function according to any one of claims 1 to 4, wherein a support structure for supporting the glass ceramic plate (34) and the lamp strip (4) is provided on the inner top surface of the liner (1).

6. The cooking liner structure with microwave function according to claim 5, wherein the supporting structure comprises at least two supporting frames (6) oppositely arranged at two sides of the mounting groove (20), each supporting frame (6) comprises a long and horizontally arranged plate body (60), one end of the plate body (60) is fixed with the inner top surface of the liner (1), and the other end of the plate body is turned downwards along the length direction and is propped against the bottom surface of the glass ceramic plate (34) and the bottom surface of the lamp strip (4).

7. The cooking liner structure with microwave function according to claim 6, wherein the end edge of the other end of the plate body (60) of each supporting frame (6) is tilted upward in the length direction to form a limit flange (61).

8. A cooking liner structure with microwave function according to any one of claims 1-4, wherein a heat dissipating fan blade (7) is further arranged in the mounting groove (20), the heat dissipating fan blade (7) is coaxially arranged with the stirrer (33), and a heat dissipating hole (8) communicating with the outside is formed in the top wall of the mounting groove (20).

9. The cooking liner structure with microwave function according to claim 8, wherein the heat dissipation fan blade (7) is arranged on the stirrer (33).

10. Cooking inner liner structure with microwave function according to claim 8, characterized in that the aperture of the heat dissipation holes (8) is less than or equal to 5mm.

11. A cooking machine comprising a cooking liner structure having a microwave function according to any one of claims 1 to 10.