CN211671164U - Combined kitchen electric appliance - Google Patents

Abstract

The application relates to the technical field of kitchen appliances, and discloses a combined kitchen appliance, include: a frame comprising a plurality of receiving cavities; each kitchen electric module is detachably arranged in one accommodating cavity; the heat dissipation part is arranged in the frame, is communicated with the outside of the frame and is configured to discharge heat generated by the kitchen power module out of the frame. The heat dissipation part is communicated with the outside of the frame, so that a flow channel for communicating hot air flow inside and outside the frame can be formed, heat generated by each kitchen electric module can be dissipated to the outside of the combined kitchen electric module through the heat dissipation part in a heat convection mode, and the heat dissipation effect is improved.

Description

Combined kitchen electric appliance

Technical Field

The application relates to the technical field of kitchen appliances, for example to a combined kitchen appliance.

Background

At present, with the improvement of living standard, the variety of kitchen household appliances is continuously increased, and the use frequency is increased year by year, but common kitchen household appliances such as coffee machine, dish washer, oven, microwave oven all independently place, and the independent use leads to kitchen household appliances to put in the kitchen in a mixed and disorderly way, occupation space is big. The kitchen appliance has the advantages that the kitchen appliance is arranged into combined kitchen electricity in the prior art in an up-and-down superposed mode, the kitchen space is greatly saved, but the existing kitchen appliance arranged in the up-and-down superposed mode mainly dissipates heat in a heat conduction mode between heat radiation and the kitchen appliances, the heat dissipation effect is poor, the kitchen electricity using environment in the combined mode is relatively closed, and heat generated by the kitchen appliance cannot be well dissipated.

SUMMERY OF THE UTILITY MODEL

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview nor is intended to identify key/critical elements or to delineate the scope of such embodiments but rather as a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides a combined kitchen appliance to solve the technical problem that the heat dissipation of the existing combined kitchen appliance is not good.

In some embodiments, a combined kitchen appliance includes: a frame comprising a plurality of receiving cavities; each kitchen electric module is detachably arranged in one accommodating cavity; and a heat dissipation unit disposed in the frame, communicating with the outside of the frame, and configured to discharge heat generated by each kitchen electrical module outside the frame.

The combined kitchen power provided by the embodiment of the disclosure can realize the following technical effects: the independent heat dissipation part is arranged in the frame, and the heat dissipation part is communicated with the outside of the frame to form a flow channel for communicating hot air flow inside and outside the frame, so that heat generated by the kitchen electric modules can be dissipated to the outside of the combined kitchen electric module through the heat dissipation part in a heat convection mode, and the heat dissipation effect is improved.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the accompanying drawings and not in limitation thereof, in which elements having the same reference numeral designations are shown as like elements and not in limitation thereof, and wherein:

FIG. 1 is a schematic diagram of a combined kitchen appliance according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a combined kitchen appliance according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of a combined kitchen appliance according to an embodiment of the present disclosure;

FIG. 4 is a partial schematic view of a combined kitchen appliance according to an embodiment of the present disclosure;

FIG. 5 is a partial schematic view of a combined kitchen appliance according to an embodiment of the present disclosure;

FIG. 6 is a partial schematic view of a combined kitchen appliance according to an embodiment of the present disclosure;

FIG. 7 is a schematic view of a blocking mechanism provided by embodiments of the present disclosure;

FIG. 8 is a schematic view of a blocking mechanism provided by embodiments of the present disclosure;

FIG. 9 is a cross-sectional view of a modular kitchen appliance provided by an embodiment of the present disclosure;

FIG. 10 is a cross-sectional view A-A of FIG. 3 provided by an embodiment of the present disclosure;

FIG. 11 is a partial schematic view of a combined kitchen appliance according to an embodiment of the present disclosure;

FIG. 12 is a schematic diagram of a combined kitchen appliance according to an embodiment of the present disclosure;

FIG. 13 is a schematic diagram of a combined kitchen appliance control module according to an embodiment of the present disclosure;

fig. 14 is a schematic diagram of a combined kitchen electrical control module according to an embodiment of the disclosure.

Reference numerals:

1: a frame; 2: a kitchen electric module; 3: a bearing part; 311: a roller way assembly; 312: a slide rail assembly; 313: a ball transfer unit; 32: a backstop device; 321: a one-way wheel; 322: a toothed strip; 323: a switch; 4: a heat dissipating section; 41: a heat dissipation channel; 42: a heat dissipation port; 43: a fan; 51: a first transmitting device; 52: a first receiving device; 53: a second receiving device; 54: a second transmitting device; 55: a third transmitting device; 56: a third receiving means; 57: a fourth receiving means; 58: a fourth transmitting means; 59: a control panel; 6: a blocking mechanism; 61: a stopper; 62: an elastic member; 63: an electromagnet; 7: an accommodating cavity.

Detailed Description

So that the manner in which the features and elements of the disclosed embodiments can be understood in detail, a more particular description of the disclosed embodiments, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown in simplified form in order to simplify the drawing.

As shown in fig. 1-3, the present disclosure provides a combined kitchen appliance, which includes a frame 1 and a kitchen appliance module 2. The frame 1 forms a plurality of accommodating cavities 7, and the kitchen electric module 2 is arranged in the accommodating cavities 7.

In some embodiments, the combined kitchen appliance further includes a supporting portion 3 disposed in a part or all of the accommodating cavity 7 and disposed along a depth direction of the accommodating cavity 7, and the kitchen appliance module 2 is disposed on the supporting portion 3 and can be drawn out of the accommodating cavity 7 or pushed into the accommodating cavity 7 along the depth direction of the accommodating cavity 7.

The frame 1 can be in various forms, can be a framework formed by combining aluminum alloy sections, is externally provided with a decorative plate, can also be formed by punching and forming steel materials and then assembling the steel materials or formed by welding the steel materials. Optionally, the accommodating cavity 7 is of a cubic or rectangular structure as a whole. Optionally, the opening of the accommodating cavity 7 is arranged on the front surface of the combined kitchen appliance, so that the kitchen appliance module 2 can be conveniently taken and placed. The sizes of the accommodating cavities 7 can be the same or different, depending on the design of the kitchen electric modules 2. When the peripheral sizes of the kitchen electric modules 2 are the same, the sizes of the corresponding accommodating cavities 7 are also the same; when the peripheral dimensions of the cooking electric modules 2 are different, the dimensions of the corresponding receiving cavities 7 are also different, for example, the volume of the dishwasher module is usually larger than that of the oven, so the receiving cavity 7 for receiving the dishwasher module is larger than the receiving cavity 7 for receiving the oven. Alternatively, the outer circumference of each cooking module 2 is determined according to its own structural layout and a predetermined size table. For example, the peripheral dimensions of the oven and the microwave are set to be the same, while the peripheral dimensions of the dishwasher and the coffee maker are set to be the same, and are larger than those of the oven and the microwave as a whole.

Alternatively, the accommodating cavities 7 can be stacked up and down, or can be arranged side by side in the horizontal direction. Correspondingly, the kitchen electric modules 2 can also be arranged in an up-and-down stacked or horizontal side-by-side arrangement manner.

In order to increase the flexibility of the combined kitchen appliance, the kitchen appliance module 2 is detachably connected to the frame 1, i.e. the kitchen appliance module can be pushed into the accommodating cavity 7 along the opening of the accommodating cavity 7 or pulled out of the accommodating cavity 7 along the opening of the accommodating cavity 7.

As shown in fig. 4-6, the supporting portion 3 includes a drawing auxiliary component, which is disposed in the frame 1 along the depth direction of the accommodating cavity 7, and the kitchen electric module 2 can be drawn out or pushed into the accommodating cavity 7 along the drawing auxiliary component. The drawing auxiliary assembly comprises one or more of a sliding rail assembly 312, a roller way assembly 311 or a universal ball assembly 313. The movement direction of the kitchen electrical module 2 in the accommodating cavity 7 is along the depth direction of the accommodating cavity 7, so that the drawing auxiliary assembly is arranged along the depth direction of the accommodating cavity 7.

Alternatively, the kitchen electrical module 2 can be detachably connected to the pull-out aid assembly or can also abut against the pull-out aid assembly. For example, when the drawing auxiliary component is the slide rail component 312, the kitchen electrical module 2 may be detachably connected to the slide block of the slide rail component 312 by means of a screw connection, or may abut against the slide block. Therefore, sliding friction between the kitchen electric module 2 and the frame 1 can be changed into rolling friction inside the drawing auxiliary assembly, so that the movement resistance of the kitchen electric module 2 when the kitchen electric module is drawn out or pushed in is reduced, and the replacement of the kitchen electric module 2 is more convenient.

Optionally, a roller way assembly 311 is disposed at the bottom of the accommodating cavity 7, and when the kitchen electrical module 2 is installed, the bottom surface of the kitchen electrical module 2 is placed on the roller way assembly 311, and then the kitchen electrical module 2 is pushed into the frame 1 along the depth direction of the accommodating cavity 7. Optionally, roller assemblies 311, sliding rail assemblies 312 or ball gimbal assemblies 313 may be disposed on two side surfaces and/or top surfaces of the accommodating cavity 7, so as to further reduce the resistance to the movement of the kitchen electric module 2 and perform a guiding function. The slide rail assembly 312, the roller assembly 311, or the ball gimbal assembly 313 may be used in any combination, for example, the roller assembly 311 is provided on the bottom surface of the accommodating chamber 7, and the slide rail assemblies 312 are provided on both the left and right sides of the accommodating chamber 7.

Optionally, the sliding rail assemblies 312 are symmetrically disposed on two sides of the accommodating cavity 7 along the center of the accommodating cavity 7, and two sides of the kitchen electric module abut against the sliding rail assemblies 312. For example, the slide rail assembly 312 is disposed in the middle of the left and right sides of the accommodating cavity 7 along the depth direction of the accommodating cavity 7, and the sliders on the left and right sides have a certain clamping function on the kitchen photovoltaic module 2 in the middle, and when the kitchen photovoltaic module 2 moves, the sliders are driven to move along the slide rails.

Alternatively, the number of the ball transfer units 313 is even, and the ball transfer units 313 are symmetrically arranged at the bottom of the accommodating chamber 7 along the center of the accommodating chamber 7. The universal ball assemblies 313 are generally in a strip shape, so that the universal ball assemblies are arranged in an even number and symmetrically arranged along the center of the accommodating cavity 7, so that the kitchen electric module 2 can be kept balanced better, and the resistance of the kitchen electric module 2 in the movement process is reduced. In some embodiments, the number of the ball transfer units 313 is an odd number, wherein an even number of the ball transfer units 313 are symmetrically arranged at the bottom of the accommodating cavity 7 along the center of the accommodating cavity 7, and the last ball transfer unit 313 is arranged along the center of the accommodating cavity 7.

Optionally, the supporting portion 3 further includes a retaining device 32, and the retaining device 32 is disposed parallel to the roller assembly 311 and configured to prevent the kitchen photovoltaic module 2 from coming out of the accommodating cavity 7. One or more retaining devices 32 can be provided, and optionally, the number of the retaining devices 32 is the same as that of the roller way assemblies 311. The kitchen electrical module 2 is often heavier, and the retaining device 32 arranged along the arrangement direction of the roller assembly 311 can be always limited by the retaining device 32 in the movement process of the kitchen electrical module 2 and cannot be disengaged from the accommodating cavity 7, so that the kitchen electrical module 2 is prevented from being accidentally disengaged from the accommodating cavity 7 in the installation or use process.

Optionally, the backstop device 32 comprises a one-way wheel 321 and a toothed bar 322. The one-way wheel 321 is disposed on the kitchen electrical module 2, and has locking teeth on the surface thereof, so as to be capable of rotating in the direction in which the kitchen electrical module 2 is pushed in and locking the rotation in the opposite direction. The toothed bar 322 is parallel to the roller way assembly 311, and the one-way wheel 321 is meshed with the toothed bar 322 and can move along the toothed bar 322. For example, the one-way wheel 321 is a ratchet wheel, the ratchet wheel is uniformly provided with a plurality of locking teeth along the circumferential direction and is arranged on the kitchen electrical module 2, the toothed bar 322 is arranged at a corresponding position of the frame 1, and the surface of the toothed bar 322 is provided with teeth meshed with the locking teeth. In the operating state, the ratchet wheel engages with the toothed bar 322 and can roll in the direction in which the toothed bar 322 is pushed in toward the kitchen electrical module 2, but cannot roll in the opposite direction. Thus, when the kitchen electric module 2 has a movement tendency of being pulled out from the accommodating cavity 7, the movement tendency can be prevented under the matching of the ratchet wheel and the toothed bar 322, so that the kitchen electric module 2 is not easy to be pulled out.

Optionally, the retaining device 32 further includes a switch 323, and the switch 323 is disposed on the kitchen electric module 2 and configured to controllably release the locking of the rotation of the one-way wheel 321 in the opposite direction. When the kitchen electrical module 2 is installed or used normally, the kitchen electrical module 2 needs to be locked to prevent the kitchen electrical module 2 from falling out of the accommodating cavity 7 to cause safety accidents, but when the kitchen electrical module 2 needs to be repaired or replaced, the kitchen electrical module 2 needs to be pulled out along the depth direction of the accommodating cavity 7, and at the moment, the locking of the kitchen electrical module 2 by the retaining device 32 needs to be released. For example, the switch 323 may be a fork mounted on the kitchen electrical module 2 and having teeth, and may rotate along a fixed shaft, and when the switch is rotated to a first position, the teeth of the fork may engage with the locking teeth of the one-way wheel 321, so that the one-way wheel 321 may not rotate, and when the switch is rotated to a second position, the teeth of the fork may disengage from the teeth of the one-way wheel 321, so that the one-way wheel 321 may rotate freely in both directions.

Optionally, the combined kitchen appliance further includes a lock disposed in each receiving cavity 7 and configured to block the non-extracted kitchen appliance module 2 from being extracted when a set number of kitchen appliance modules 2 are in the extracted state. When the combined kitchen electricity is stacked up and down, after an excessive number of kitchen electricity modules 2 are drawn out, the gravity center of the combined kitchen electricity moves forward and deviates from the geometric center of the combined kitchen electricity, which easily causes the combined kitchen electricity to topple. Therefore, the interlocking device is arranged, when a set number of kitchen electric modules 2 are extracted, the rest kitchen electric modules 2 which are not extracted are locked, and the toppling caused by the further forward movement of the gravity center after the kitchen electric modules are extracted is prevented.

Optionally, the interlock comprises a blocking mechanism 6, the blocking mechanism 6 is arranged in each accommodating cavity 7 and can be controlled to switch between an extending position and a retracting position, and the blocking mechanism blocks the extraction of the kitchen electric module 2 when in the extending position. The interlocking device further comprises a detection device (not shown in the figure) for detecting the number and the positions of the extracted kitchen electric modules 2, and when the number and the positions of the extracted kitchen electric modules 2 meet preset conditions, the blocking mechanism 6 is controlled to be switched to the extending state to block the extraction of the rest kitchen electric modules 2. When the number and the position of the extracted kitchen electric modules 2 do not meet the preset conditions, the blocking mechanism 6 keeps the retraction state, and the rest kitchen electric modules 2 can be extracted. Optionally, an opening is provided at a position of the kitchen electric module 2 corresponding to the blocking mechanism 6, and when the blocking mechanism 6 is in the extended state, a part of the blocking mechanism 6 is embedded into the opening.

As shown in fig. 7 to 8, the blocking mechanism 6 includes a stopper 61, an elastic member 62, and an electromagnet 63. The stopper 61 is a pin-like structure made of a magnetic material, and the switching of the extended and retracted positions is achieved by moving in its own axial direction. The elastic member 62 is disposed around the stopper 61 and compresses or rebounds along with the movement of the stopper 61. The electromagnet 63 can be controlled to attract the stopper 61 to press the elastic member 62 to move to the retracted position, or to cancel the attraction to the stopper 61 to move the stopper 61 to the extended position by the elastic force of the elastic member 62. The stopper 61 is driven to move back and forth by the combined action of the elastic member 62 and the electromagnet 63.

As shown in fig. 9-11, in some embodiments, the combined kitchen appliance further includes a heat dissipation portion 4 disposed in the frame 1, communicating with the outside of the frame 1, and configured to discharge heat generated by the kitchen appliance module 2 to the outside of the frame 1. The heat dissipation part 4 is communicated with the outside of the frame 1, so that a flow channel for hot air flow communicating the inside and the outside of the frame 1 can be formed, heat generated by each kitchen electric module 2 can be dissipated to the outside of the combined kitchen electric module through the heat dissipation part in a heat convection mode, and the heat dissipation effect is improved.

Alternatively, the heat dissipation portion 4 includes heat dissipation channels 41 and heat dissipation ports 42. The heat dissipation channel 41 is in communication with a heat generating portion of one or more kitchen electrical modules 2, and the heat dissipation opening 42 is located on the top, side wall or back plate of the frame 1 and configured to communicate the heat dissipation channel 41 with the outside of the frame 1. The heat dissipation opening 42 may be a circular or square opening, a louvered opening, or an opening provided with a filter screen. This prevents foreign materials from entering through the heat dissipation port 42. Since the density of hot air is lower than that of cold air and there is a natural tendency to move upward, the heat-radiating holes 42 are provided at the top of the frame 1 or at a position above the back plate for the combined kitchen appliances stacked one above the other. In this way, the heat generated by the kitchen electric module 2 can be discharged to the outside of the frame 1 through the heat release opening 42 without using an external force. Alternatively, when the plurality of receiving cavities 7 are arranged side by side, the heat dissipation opening 42 is located on a side wall or a back plate of the frame 1.

The heat dissipation channel 41 is arranged to better collect and discharge the heat generated by each kitchen electric module 2 together, so that the hot air flows more smoothly in the heat dissipation channel 41. The heat generating part of each kitchen electric module 2 is provided with a heat discharging port, the heat dissipation channel 41 is provided with a butt joint port communicated with the heat discharging port at the corresponding position of each heat discharging port, and the tail end of the heat dissipation channel 41 is communicated with the heat dissipation port 42. Thus, heat is discharged from the heat generating portion through the heat discharge port, the interface, the tubular heat dissipation channel 41, and the heat discharge port 42 in this order.

Optionally, the heat dissipation channel 41 is surrounded by sidewalls. Alternatively, the heat dissipation channel 41 may be a channel surrounded by four side walls and having a rectangular cross section, or a channel surrounded by side walls and having a circular or elliptical cross section.

Alternatively, when a plurality of receiving cavities 7 are stacked up and down, the heat dissipation channel 41 is disposed on one side of the frame 1 close to the back surface in the vertical direction, and the upper end of the heat dissipation channel 41 is communicated with the heat dissipation port 42. Or when the accommodating cavities 7 are arranged side by side, the heat dissipation channel 41 is arranged on one side of the frame 1 close to the back surface along the horizontal direction, and the left end and/or the right end of the heat dissipation channel 41 are/is communicated with the heat dissipation port 42.

Optionally, the heat dissipation portion 4 further includes a fan 43 disposed at the heat dissipation port 42 and configured to forcibly discharge heat inside the heat dissipation portion 4. The fan 43 can be controlled by the control panel 59, and works when the combined kitchen electric appliance is started and stops working when the combined kitchen electric appliance is shut down; alternatively, a temperature sensor is provided, and the fan 43 is controlled to start or stop according to a temperature value detected by the temperature sensor.

In some embodiments, the combined cooking appliance further comprises a control module, connected to each cooking appliance module 2, configured to control each cooking appliance module 2. Usually, each kitchen electrical module 2 is provided with its own separate control module for controlling the kitchen electrical module 2, and for the convenience of operation of a user, the control module is usually disposed on the front side of the kitchen electrical module 2, which erodes the working space inside the kitchen electrical module 2. When the control module is connected with all the kitchen power modules 2 and can be used for controlling any one of the kitchen power modules 2, only one control module needs to be arranged on the whole combined kitchen power module, and one control module does not need to be arranged on each kitchen power module 2, so that the internal space of the combined kitchen power module is saved, and the waste of space is reduced.

As shown in fig. 12-14, the control module includes a control board 59 and a connection. The control panel 59 is disposed on the front side of the combined kitchen appliance, and keys and/or a display screen are disposed thereon for man-machine interaction. The connection portion connects the control board 59 and each of the kitchen electric modules 2, and is configured to enable communication between the control board 59 and each of the kitchen electric modules 2. Wherein the front side of the combined kitchen appliance comprises the front panel or frame 1 of a particular one of the kitchen appliance modules 2. For example, the control panel 59 may be arranged on the front panel of the kitchen electrical module 2 adapted to the average height of the user or at a corresponding height of the frame 1.

The control board 59 may be connected to the connection unit by wire or wirelessly. When in wired connection, the mutual influence among the kitchen electric modules 2 can be avoided to the maximum extent, the connection is reliable, and the communication quality is high. When the wireless connection is carried out, the kitchen electric module 2 is not affected by replacement, and the kitchen electric module 2 can be drawn out or pushed in at any time according to needs without rewiring.

Optionally, the connection comprises a first transmitting device 51 and a first receiving device 52. The first transmitting device 51 is electrically connected to the control board 59 and configured to transmit a control signal of the control board 59 in a wireless manner. The first receiving device 52 is electrically connected to each kitchen electrical module 2, and configured to receive the control signal in a wireless manner. After the first sending device 51 is wirelessly connected with the first receiving device 52, a user sends an instruction through the control board 59, then the instruction is sent to the first receiving device 52 through the first sending device 51, and the first receiving device 52 receives the instruction and then transmits the instruction to the kitchen electric module 2 electrically connected with the first receiving device 52, so that open-loop control over the kitchen electric module 2 is realized.

Optionally, the connection further comprises a second receiving means 53 and a second transmitting means 54. The second receiving device 53 is electrically connected to the control board 59, and is configured to receive information of each kitchen electric module 2 in a wireless manner. The second transmitting device 54 is electrically connected to each cooking module 2, and is configured to wirelessly transmit information of each cooking module 2. Similarly, the information of the kitchen electric module 2 can be fed back to the control board 59 through the wireless connection between the second receiving device 53 and the second transmitting device 54, so that the control board 59 can perform closed-loop control on the kitchen electric module 2.

Optionally, the connection comprises a third transmitting device 55 and a third receiving device 56. The third transmitting device 55 is electrically connected to the control board 59, and is configured to transmit a control signal of the control board 59 by wire. The third receiving device 56 is electrically connected to each kitchen electric module 2, and configured to receive the control signal in a wired manner. The third sending device 55 and the third receiving device 56 are both provided with communication interfaces, a control line connects the third sending device 55 and the third receiving device 56 together through the communication interfaces, and instructions are transmitted through the control line, so that open-loop control of the control board 59 on the kitchen electric module 2 is realized.

Optionally, the connection portion further comprises a fourth receiving means 57 and a fourth transmitting means 58. The fourth receiving device 57 is electrically connected to the control board 59 and configured to receive information of each kitchen electric module 2 by wire. The fourth transmitting device 58 is electrically connected to each of the kitchen electric modules 2, and is configured to transmit information of each of the kitchen electric modules 2 by wire. Similarly, the control line is connected together through the communication interfaces of the fourth receiving device 57 and the fourth transmitting device 58, so that information can be transmitted, and the information of the kitchen electric module 2 is fed back to the control board 59, thereby realizing the closed-loop control of the control board 59 on the kitchen electric module 2.

In order to make the structure compact and facilitate manufacturing, the first transmitting device 51, the second receiving device 53, the third transmitting device 55, and the fourth receiving device 57 may be directly disposed on the back of the control board 59, forming an integrated structure. Likewise, the first receiving device 52, the second transmitting device 54, the third receiving device 56 and the fourth transmitting device 58 may be arranged directly on the kitchen electrical module 2.

The above description and drawings sufficiently illustrate embodiments of the disclosure to enable those skilled in the art to practice them. Portions and features of some embodiments may be included in or substituted for those of others. Each embodiment may be described with emphasis on differences from other embodiments, and like parts may be referred to each other between the respective embodiments. As used in this application, although the terms "first," "second," etc. may be used in this application to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element, unless the meaning of the description changes, so long as all occurrences of the first element are renamed consistently and all occurrences of the second element are renamed consistently. The first and second elements are both elements, but may not be the same element.

Claims (10)

1. A combined kitchen appliance, comprising:

a frame comprising a plurality of receiving cavities;

the kitchen electric modules are detachably arranged in the accommodating cavities;

and a heat dissipation unit disposed in the frame, communicating with the outside of the frame, and configured to discharge heat generated by the kitchen electric modules to the outside of the frame.

2. The combined kitchen appliance according to claim 1, characterized in that said plurality of receiving chambers are stacked one above the other or arranged side by side.

3. The combined kitchen power of claim 1, characterized in that said heat sink portion comprises:

the heat dissipation channel is communicated with the heating parts of one or more kitchen electric modules;

a heat sink located at the top, side wall or back plate of the frame and configured to communicate the heat sink channel with the outside of the frame.

4. The combined kitchen appliance according to claim 3,

when the accommodating cavities are vertically superposed, the heat dissipation port is positioned at the top of the frame or the back plate; or,

when the plurality of accommodating cavities are arranged side by side, the heat dissipation port is positioned on the side wall or the back plate of the frame.

5. The combination kitchen appliance according to claim 3, wherein said heat sink portion is surrounded by sidewalls.

6. The combined kitchen appliance according to claim 3,

when the accommodating cavities are vertically superposed, the heat dissipation channel is arranged on one side of the frame close to the back surface in the vertical direction; or,

when the plurality of accommodating cavities are arranged side by side, the heat dissipation channel is arranged on one side, close to the back, of the frame along the horizontal direction.

7. The combined kitchen power of claim 3, characterized in that said heat sink portion further comprises:

and a fan disposed on the heat-dissipating port and configured to forcibly discharge heat in the heat-dissipating portion.

8. The combined kitchen appliance according to claim 1, further comprising:

the kitchen power module is arranged on the bearing part and can be drawn out of the accommodating cavity or pushed into the accommodating cavity along the depth direction of the accommodating cavity.

9. The combined kitchen appliance according to claim 8, characterized in that said support comprises:

the drawing auxiliary assembly is arranged in the frame along the depth direction of the accommodating cavity, and the kitchen electric module can be drawn out or pushed into the accommodating cavity along the drawing auxiliary assembly.

10. The combined kitchen appliance according to claim 9, characterized in that said support further comprises:

the anti-return device is arranged in parallel with the drawing auxiliary assembly and is configured to prevent the kitchen electric module from being separated from the accommodating cavity.

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