CN209883930U - Bowl cover part, cup part and cooking machine - Google Patents

Abstract

The application provides a cup lid component, cup body component and cooking machine. The cup cover component comprises a cover body assembly and an air exhaust device which can be assembled on the cover body assembly in a detachable mode, and the air exhaust device comprises a shell and an air exhaust module which is assembled in the shell. The cover body assembly is provided with a first coil, the air exhaust device is correspondingly provided with a second coil, the first coil is connected with the second coil in an electromagnetic induction mode, and the second coil is electrically connected with the air exhaust module. An induced potential is generated between the first coil and the second coil, so that the second coil provides electric energy for the work of the air pumping module, and the energy transfer efficiency is high.

Description

Bowl cover part, cup part and cooking machine

Technical Field

The application relates to cooking device technical field, relates to a cup cover part, cup body part and cooking machine.

Background

The food processer comprises a host computer component and a cup body component assembled on the host computer component, the cup body component is provided with a cup body component and a cup cover component, and the cup cover component covers the opening of the cup body component so as to form a closed space by a cavity in the cup body component. In the related art, the cup lid component includes a lid assembly, and a pressure relief assembly and an air extractor mounted on the lid assembly, wherein the air extractor is used for extracting air from the enclosed space to form a state similar to vacuum or low pressure.

Wherein, the air extractor is arranged in the cover body component. Specifically, a hollow mounting space is formed in the cover body assembly, and the air exhaust device is mounted in the cover body assembly and is powered through the cup body assembly. However, the overall size of the air extraction device is large, and accordingly, the overall size of the cover assembly is large, and the aesthetic appearance is poor.

Or the air exhaust device is externally arranged on the cover body assembly. Specifically, the air extraction device is detachably mounted on the surface of the cover body assembly and is powered by an energy storage element such as a storage battery. The energy storage element needs to be replaced or repeatedly charged, and user experience is poor.

SUMMERY OF THE UTILITY MODEL

In view of this, this application provides a cup lid component, cup body component and cooking machine.

Specifically, the method is realized through the following technical scheme:

the application provides a first aspect, discloses a cup cover part, including lid subassembly and detachable in the air exhaust device of lid subassembly, air exhaust device include the casing, assemble in air exhaust module in the casing, the lid subassembly is equipped with first coil, air exhaust device corresponds and is provided with the second coil, first coil with the second coil electromagnetic induction connects, the second coil with air exhaust module electric connection.

Optionally, the lid assembly includes a lid housing, the lid housing is provided with an air exhaust hole, the first coil is assembled in the lid housing, and the air exhaust device is hermetically connected to the lid housing and the air exhaust module is communicated to the air exhaust hole. The first coil is arranged in the cup cover shell, and the concealment is good. The air exhaust device is connected with the cup cover shell in a sealing mode, and the air exhaust effect is good.

Optionally, the lid assembly further includes a check valve slidably disposed in the lid housing and sealing the air extraction hole at an initial time, and the check valve moves when an air pressure difference between the air extraction hole and the air extraction module reaches a preset threshold. The check valve opens or closes the air exhaust hole through the pressure difference generated in the working process of the air exhaust module, an external control assembly is not needed, and the operation is convenient.

Optionally, the cup cover shell comprises a blocking part protruding on the wall of the air suction hole, a sliding hole penetrating through the blocking part and at least one air hole, and the one-way valve is slidably arranged in the sliding hole and is attached to the blocking part to close the at least one air hole.

Optionally, the second coil is in wireless communication with the first coil. The first coil provides the electric energy for the second coil, can also send communication signal to the second coil to control air exhaust device's operation, convenient to use.

Optionally, the air exhaust device is detachably connected with the cover assembly, and at least part of the air exhaust device is sealed with the contact surface of the cover assembly. The air exhaust device is connected with the cup cover shell in a sealing mode, and is convenient to assemble and good in sealing effect.

Optionally, the housing includes a lower cover and an upper cover covering the lower cover, the second coil is fixed to the lower cover, the lower cover is provided with a mounting hole, and the air exhaust module is mounted on the upper cover and/or the lower cover and communicated with the mounting hole. The air exhaust module is flexibly installed in the shell and convenient to assemble. The second coil is fixed in the lower cover and is close to the cover body assembly, and the electromagnetic induction effect is good.

Optionally, the air extracting device further comprises a connecting member assembled to the housing, and the connecting member is attached to the surface of the cover assembly in an absorption manner. The connecting piece adsorbs with the lid subassembly to be connected, convenient assembling, and the leakproofness is good.

The second aspect that the application provided discloses a cup body part, including cup body subassembly and as above the cup cover part, cup cover part lid is located cup body subassembly, first coil with cup body subassembly electric connection.

The third aspect that the application provided discloses a cooking machine, including host computer part and as above the cup part, the cup part assemble in host computer part, host computer part with first coil electric connection.

The technical scheme provided by the embodiment of the application can have the following beneficial effects:

an induced potential is generated between the first coil and the second coil, so that the second coil provides electric energy for the work of the air pumping module, and the energy transfer efficiency is high. The cover body assembly and the air exhaust device are independently arranged, the electric energy is transmitted through the electromagnetic induction principle, the overall structure of the cover body assembly is small in size, and the attractiveness is good. The air exhaust device is detachably assembled and connected with the cover body assembly, so that the use is convenient, and the user experience is good.

Drawings

Fig. 1 is a schematic view of an assembly structure of a lid component according to an exemplary embodiment of the present application.

Fig. 2 is an exploded view of a lid component according to an exemplary embodiment of the present application.

Fig. 3 is an exploded view of a cover assembly according to an exemplary embodiment of the present application.

Figure 4 is a schematic diagram of an exploded configuration of a gas evacuation device shown in an exemplary embodiment of the present application.

Fig. 5 is a cross-sectional structural view of a cup assembly according to an exemplary embodiment of the present application.

Fig. 6 is an enlarged schematic view of a structure at a in fig. 5.

Fig. 7 is a schematic view of an assembly structure of a cup part according to an exemplary embodiment of the present application.

Fig. 8 is a schematic structural diagram of a food processor according to an exemplary embodiment of the present application.

In the drawings, a cover assembly 10; a cup cover shell 11; the air exhaust holes 111; an upper cup cover 112; a lower cup cover 113; a blocking portion 114; a slide hole 115; air holes 116; a sealing plane 117; a first coil 12; a check valve 13; a seal portion 131; a column part 132; a pressure relief module 14; a seal holder 15; air-guide holes 151; an air extraction device 20; a housing 21; an upper cover 211; a lower cover 212; mounting holes 213; a button 214; a second coil 22; an air extraction module 23; a suction pump 231; a circuit board assembly 232; a connecting member 24; a through hole 241; a cup body assembly 30; a stirring cup 31; a stirring blade group 32; a coupler 33; a host component 40.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

In one embodiment, as shown in fig. 1 to 4, the lid component includes a lid assembly 10 and an air extraction device 20 detachably mounted on the lid assembly, and the air extraction device 20 includes a housing 21 and an air extraction module 23 mounted in the housing 21. The cover assembly 10 is provided with a first coil 12, the air extractor 20 is correspondingly provided with a second coil 22, the first coil 12 is connected with the second coil 22 through electromagnetic induction, and the second coil 22 is electrically connected with the air extracting module 23.

The lid assembly 10 and the air extractor 20 are provided as two separate parts, wherein the lid assembly 10 can be independently covered on the opening of the container. The cover assembly 10 is provided with a first coil 12, the first coil 12 being provided in a coil structure. Correspondingly, the suction device 20 is provided with a second coil 22 corresponding to the first coil 12, which second coil 22 is provided as a coil structure. When the first coil 12 is energized, a current flows along the first coil 12. Accordingly, an induced potential and an induced current are generated in the second coil 22, so that the air extractor 20 operates under the driving of the induced potential and the induced current.

The second coil 22 and the first coil 12 realize wireless power transmission by the principle of electromagnetic induction, the air exhaust module 23 is driven by the second coil 22, and the cover assembly 10 and the air exhaust device 20 are convenient to disassemble and assemble. The second coil 22 is disposed in the casing 21, and the first coil 12 is disposed in the cover assembly 10, so that the casing 21 and the cover assembly 10 have flat outer surfaces, flexible appearance design, and good aesthetic property. The cover assembly 10 and the air extractor 20 are independently arranged and transmit electric energy through the principle of electromagnetic induction, and the cover assembly 10 is small in overall structure size and good in attractiveness.

In one embodiment, the lid assembly 10 includes a lid housing 11, the lid housing 11 defines a pumping hole 111, and the first coil 12 is assembled in the lid housing 11. The air extractor 20 is hermetically connected to the lid housing 11 and the air extracting module 23 is connected to the air extracting hole 111.

The air extracting device 20 is assembled on the lid housing 11 and covers the air extracting hole 111, and the air extracting module 23 is communicated with the air extracting hole 111. Air exhaust device 20 and lid subassembly 10 be assembled between/be connected, and air exhaust device 20 locates in casing 21 and can extract the gas of the extraction hole 111 department of lid subassembly 10, convenient to use, and user experience is good. The first coil 12 and the second coil 22 are electromagnetically induced and provide electric energy for the air pumping module 23, so that wireless power supply is realized. The first coil 12 is arranged in the cup cover shell 11, the second coil 22 is arranged in the shell 21, accordingly, the cup cover shell 11 and the shell 21 are smooth in appearance and good in attractiveness, and the tightness of sealing combination can be improved.

In one embodiment, as shown in fig. 5 and 6, the lid assembly 10 further includes a check valve 13 slidably disposed in the lid housing 11 and initially closing the pumping hole 111, wherein the check valve 13 moves when the air pressure difference between the pumping hole 111 and the pumping module 23 reaches a predetermined threshold.

The pumping hole 111 penetrates through the lid housing 11, or the pumping hole 111 is connected with a hole structure penetrating through the lid housing 11, so that gas on the other side of the lid housing 11 can be pumped out along the pumping hole 111. In an initial state where the air suction function is not performed, the check valve 13 is closed at the air suction hole 111, so that the cover assembly 10 is in a closed state. When the cover assembly 10 is closed at the opening of the container, the container is in a closed state.

The air extracting device 20 is assembled to the cover assembly 10, and the air extracting module 23 is communicated with the air extracting hole 111. When the pumping module 23 is driven by the power of the second coil 22 to work, the gas pressure of the first side of the one-way valve 13 is reduced, and the gas pressure of the second side is unchanged. When the pressure difference between the gas pressure at the second side of the check valve 13 and the gas pressure at the first side is greater than the gravity of the check valve 13 and/or the elastic force applied to the check valve 13, the check valve 13 moves and the spaces at the two sides of the check valve 13 are communicated, so that the air suction effect is good.

When the air exhaust module 23 is not in the air exhaust state, the one-way valve 13 automatically resets. For example, the check valve 13 is reset in a sliding manner under the action of gravity of the check valve 13, or the check valve 13 is reset in a sliding manner under the action of elastic force, so that the check valve 13 closes the pumping hole 111, and then the container is in a current low-pressure or normal-pressure state.

In one embodiment, lid housing 11 includes a blocking portion 114 protruding from the wall of pumping hole 111, a sliding hole 115 penetrating blocking portion 114, and at least one vent 116, and check valve 13 is slidably disposed in sliding hole 115 and closes at least one vent 116 when attached to blocking portion 114.

The blocking part 114 is arranged on the wall of the air suction hole 111 in a protruding mode, and the one-way valve 13 is arranged on the sliding hole 115 in a sliding mode. Optionally, the check valve 13 is provided with a sealing portion 131 and a guide pillar portion 132 protruding from the sealing portion 131, and the guide pillar portion 132 is inserted into the sliding hole 115 to drive the check valve 13 to slide along the sliding hole 115. The sealing portion 131 abuts against the blocking portion 114 and closes the ventilation hole 116, so that the check valve 13 can block the gas flow in one direction. The outer diameter of the sealing portion 131 is smaller than the inner diameter of the suction hole 111, and gas can flow along the gap between the sealing portion 131 and the suction hole 111 in the open state of the check valve 13. Optionally, the pumping hole 111 and the blocking portion 114 constitute a counterbore structure.

In one embodiment, as shown in fig. 2 and 3, the lid housing 11 includes a lower lid 113 and an upper lid 112 covering the lower lid 113, and the pumping hole 111 penetrates the upper lid 112 and the lower lid 113. In an alternative embodiment, the pumping hole 111 is a counterbore structure and opens into the upper cup cover 112, and the cover assembly 10 further includes a seal carrier 15 mounted between the upper cup cover 112 and the lower cup cover 113. The sealing frame 15 is provided with an air vent 151, one end of the air vent 151 is communicated with the air vent 116, and the other end is communicated with the air vent of the lower cover 212. When the cover assembly 10 is mounted on the container, the vent hole communicates with the receiving space of the container. The air-extracting module 23 is in the air-extracting working state, the air in the accommodating space flows in sequence along the air-exhausting hole, the air-guiding hole 151, the air-guiding hole 116 and the air-extracting hole 111, and the air flows smoothly.

When the container is in a low-pressure state, the one-way valve 13 can keep the state of closing the exhaust hole, and the whole tightness is good. The air extractor 20 is removed, the container can still keep a closed state, and the sealing effect is good.

In one embodiment, the lid assembly 10 further includes a pressure relief module 14 mounted to the lid housing 11, the pressure relief module 14 being configured to direct or block the flow of gas on both sides of the lid housing 11. When the gas in the container is pumped out by the air pumping device 20, the container is in a low pressure state. The user operates the pressure relief module 14 to cause air outside the cover assembly 10 to flow along the open channel of the pressure relief module 14.

In one embodiment, the first coil 12 surrounds the pumping hole 111, and the second coil 22 is disposed opposite to the first coil 12. The lid assembly 10 is a thin-walled structure, and a tubular structure is formed at the position of the upper lid 112 at the pumping hole 111. The first coil 12 surrounds the air extraction hole 111 and is opposite to the second coil 22, so that the induction area between the first coil 12 and the second coil 22 is enlarged, and the stability of the induction potential of the second coil 22 is improved.

Optionally, the second coil 22 and the first coil 12 are in a flat coil structure, and are arranged in parallel, so that the inductive area is large, and the stability of electromagnetic induction is good. Optionally, the sealing frame 15 is sleeved outside the wall of the pumping hole 111, and the first coil 12 is sleeved outside the sealing frame 15 and is close to the upper region of the upper cup cover 112.

Optionally, the second coil 22 is in wireless communication with the first coil 12. The second coil 22 and the first coil 12 are both provided with coil structures, and both can transmit corresponding control signals through the characteristics of the coils, so as to realize wireless signal transmission of both.

As shown in FIGS. 2 and 4, in one embodiment, the suction device 20 is removably attached to the lid assembly 10, and at least a portion of the suction device 20 is sealed to the interface of the lid assembly 10. The air extractor 20 can be assembled on the cup cover shell 11 in a detachable connection mode such as a buckle connection, a screwing connection, a plug connection, a sucker adsorption connection, a fastener locking connection and the like, wherein the contact part of the air extractor 20 and the cup cover shell 11 is at least partially sealed. For example, the contact surface of the air extractor 20 and the lid housing 11 is provided with a sealing plane 117 surrounding the air extracting hole 111. The sealing plane 117 may be formed by directly sealing and attaching the surface of the air extractor 20 to the lid housing 11, or by elastically sealing a sealing ring between the air extractor 20 and the lid housing 11.

In an alternative embodiment, the housing 21 includes a lower cover 212 and an upper cover 211 covering the lower cover 212, and the second coil 22 is fixed to the lower cover 212. The lower cover 212 is opened with an installation hole 213, and the air extraction module 23 is installed on the upper cover 211 and/or the lower cover 212 and communicated with the installation hole 213.

The case 21 is a thin-walled structure, and the air-extracting module 23 and the second coil 22 are housed in the case 21. The lower cover 212 is detachably connected with the upper cover 211, so that the second coil 22 and the air exhaust module 23 can be conveniently assembled. The lower cover 212 defines a mounting hole 213, the air extractor 20 is assembled to the cover assembly 10, the mounting hole 213 communicates with the air extracting hole 111, so that the air extracting module 23 can extract air from the air extracting hole 111 along the mounting hole 213 or through the mounting hole 213. The air exhaust module 23 is detachably mounted with the upper cover 211 and/or the lower cover 212, and the air exhaust module 23 is convenient to assemble. Alternatively, the second coil 22 is fitted to the lower cover 212 and surrounds the mounting hole 213.

As shown in FIGS. 4 and 6, in one embodiment, the suction device 20 further includes a connector 24 mounted to the housing 21, and the connector 24 is attached to the surface of the cover assembly 10 by suction. Alternatively, the connection member 24 is covered with the suction hole 111 and the suction hole 111 is located in the region surrounded by the surface sealing contact surface of the connection member 24 and the cover assembly 10. The connector 24 is assembled on the housing 21, and the air exhaust module 23 is communicated with the cover assembly 10 through the connector 24. The connecting member 24 has a through hole 241, and when the connecting member 24 is attached to the lid housing 11, the through hole 241 is communicated with the pumping hole 111.

In an alternative embodiment, attachment member 24 is of a suction cup configuration and is made of a resilient material with a small opening fixed to lower lid 212 at one end and capable of being pressed by an external force to adhere to lid housing 11 and sealingly engage the contact surface of lid housing 11. Correspondingly, the upper surface of the upper cup cover 112 is provided with a sealing plane 117, and the opening of the suction hole 111 is positioned in the sealing plane 117. The connection member 24 is attached to the sealing plane 117 so that the suction hole 111 communicates with the penetration hole 241.

The connecting member 24 is connected to the cover assembly 10 in an absorbing manner, so that the air extractor 20 and the cover assembly 10 can be easily disassembled. The surface of the connecting piece 24 and the cover body assembly 10 is in adsorption sealing connection, and the cover body assembly 10 only needs to be arranged on the sealing plane 117 in adsorption connection with the connecting piece 24, so that the appearance is good. After the air extracting step of the air extracting device 20 is completed, the connecting member 24 and the cover assembly 10 are conveniently disassembled.

In one embodiment, the air extraction module 23 comprises an air extraction pump 231 and a circuit board assembly 232 mounted on the air extraction pump 231, wherein the air extraction pump 231 is mounted on the upper cover 211 or the lower cover 212, and the circuit board assembly 232 is mounted on the upper cover 211. Optionally, the circuit board assembly 232 is provided with a control button, the upper cover 211 is provided with a corresponding button 214, and the air exhaust module 23 controls the air exhaust function to be turned on or off through the control button.

As shown in fig. 5 and 7, the cup cover component provided by the above embodiment is applied to the cup body component, so that the cup body component realizes automatic pressure relief and pressure maintaining, and the air extractor 20 can be detached at any time after the air extraction function is completed, and the use is convenient. In one embodiment, the cup assembly includes a body assembly 30 and a lid assembly as provided in the previous embodiments, the lid assembly is disposed on the body assembly 30, and the first coil 12 is electrically connected to the body assembly 30.

The cup body assembly 30 is provided with a containing space to form a container structure, and the cup cover component is covered on the opening of the cup body assembly 30, so that the cup body assembly 30 can be communicated with the outside air only through the air suction hole 111. When the air extracting device 20 is assembled to the cover assembly 10 and closes the air extracting hole 111, the accommodating space of the cup body assembly 30 is in a closed state. When the pumping module 23 is activated, the gas in the cup body assembly 30 can be pumped out along the pumping hole 111, so that the cup body assembly 30 is in a low pressure or vacuum state.

In an alternative embodiment, the cup body assembly 30 is provided with a power module, the lid member is disposed on the cup body assembly 30, and the power module is in communication with the first coil 12 in the lid assembly 10 to enable the first coil 12 to be inductively coupled to the second coil 22. Optionally, the cup body assembly 30 and the cover body assembly 10 are respectively provided with a pair of couplers 33, and when the cover body assembly 10 is covered on the cup body assembly 30, the two are used for transmitting electric energy and signals through the couplers 33.

As shown in fig. 5 and 8, in an embodiment, the cup body component is applied to a food processor, the food processor includes a main body component 40 and the cup body component provided in the above embodiment, the cup body component is assembled to the main body component 40, and the main body component 40 is electrically connected to the first coil 12.

In one embodiment, the host component 40 includes a base, a driving assembly mounted on the base, and a control module disposed in the base, wherein the driving assembly is electrically connected to the control module. The control module controls the drive assembly to operate according to the built-in program, so that the food processer executes corresponding food processing functions.

In an alternative embodiment, the first coil 12 is electrically connected to the control module. The cup body part is provided with an upper plug terminal, and the first coil 12 of the cup cover part is electrically connected with the upper plug terminal. The host part 40 further comprises a lower plug terminal mounted on the base, and the control module is electrically connected with the lower plug terminal; or the power supply assembly is electrically connected with the lower plug terminal. The cup body part is assembled on the base, and the upper plug terminal is connected with the lower plug terminal in a plug manner, so that the first coil 12 is electrically connected with the host machine part 40.

The main body component 40 is in driving connection with the cup body component, and optionally, the cup body component 30 includes a stirring cup 31, a tool holder installed on the stirring cup 31, and a stirring blade set 32 installed on the tool holder, the cup body component is assembled on the main body component 40, and the stirring blade set 32 is in driving connection with the main body component 40. An accommodating space for accommodating food materials is formed in the stirring cup 31, and the stirring blade group 32 is driven by the driving assembly to rotate so as to process the food materials in the stirring cup 31. The driving assembly may be provided as a motor assembly, and optionally, the driving assembly is directly mounted at the other end of the blending knife group 32 to drive the blending knife group 32 to rotate and process the food material of the blending cup 31. Optionally, the driving assembly is connected to the blending cutter assembly 32 through a clutch assembly in a plugging manner, so as to drive the blending cutter assembly 32 to rotate and process the food material of the cup body assembly 30.

Optionally, a heating element is disposed at the bottom of the cup body assembly 30, the heating element is electrically connected to the control module, and the control module controls the heating element to generate heat and provide electric energy for the heating element.

The above embodiments are merely preferred embodiments of the present application, which are not intended to limit the present application, and the above embodiments may be combined with each other without conflict. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A cup cover member, comprising a cover assembly (10) and an air extraction device (20) which can be assembled on the cover assembly (10), wherein the air extraction device (20) comprises a shell (21) and an air extraction module (23) which is assembled in the shell (21), and is characterized in that: the cover body assembly (10) is provided with a first coil (12), the air extracting device (20) is correspondingly provided with a second coil (22), the first coil (12) is connected with the second coil (22) in an electromagnetic induction mode, and the second coil (22) is electrically connected with the air extracting module (23).

2. The lid assembly of claim 1, characterized in that the lid assembly (10) includes a lid housing (11), the lid housing (11) is provided with an air extracting hole (111), the first coil (12) is fitted in the lid housing (11), the air extracting device (20) is hermetically connected to the lid housing (11) and the air extracting module (23) is communicated to the air extracting hole (111).

3. The lid assembly of claim 2, characterized in that the lid assembly (10) further comprises a check valve (13) slidably disposed in the lid housing (11) and initially closing the pumping aperture (111), the check valve (13) moving when a pressure differential between the pumping aperture (111) and the pumping module (23) reaches a predetermined threshold.

4. The cup lid component of claim 3, wherein the cup lid shell (11) comprises a blocking portion (114) protruding from the wall of the suction hole (111), a sliding hole (115) penetrating through the blocking portion (114), and at least one vent hole (116), and the check valve (13) is slidably disposed in the sliding hole (115) and closes the at least one vent hole (116) when attached to the blocking portion (114).

5. The lid assembly of claim 1, wherein the second coil (22) is in wireless communication with the first coil (12).

6. The lid component of claim 1, wherein the suction device (20) is removably connected to the lid assembly (10) and at least a portion of the suction device (20) seals against the contacting surface of the lid assembly (10).

7. The cup cover member of claim 6, wherein the housing (21) comprises a lower cover (212) and an upper cover (211) covering the lower cover (212), the second coil (22) is fixed to the lower cover (212), the lower cover (212) is provided with a mounting hole (213), and the air exhaust module (23) is mounted on the upper cover (211) and/or the lower cover (212) and is communicated with the mounting hole (213).

8. The lid assembly of claim 1, characterized in that the suction device (20) further includes a connector (24) mounted to the housing (21), the connector (24) being suction-connected to a surface of the lid assembly (10).

9. A cup member comprising a cup body assembly (30) and the cup cover member as claimed in any one of claims 1-8, the cup cover member being disposed over the cup body assembly (30), the first coil (12) being electrically connected to the cup body assembly (30).

10. A food processor, comprising a body member (40) and a cup member as claimed in claim 9, wherein the cup member is assembled to the body member (40), and the body member (40) is electrically connected to the first coil (12).

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