CN218105669U - Cup cover assembly and food processor - Google Patents

Abstract

The application provides a cup lid subassembly and cooking machine. A cup cover assembly comprises a cup cover and an exhaust cover. The bowl cover includes main part, first venthole, holds chamber and barricade. The accommodating cavity is positioned on the outer side of the retaining wall and communicated with the first air outlet hole. The exhaust cap includes a top wall and a first blocking wall extending from the top wall. The roof is equipped with the second venthole. The first air outlet hole and the second air outlet hole are positioned on two sides of the first retaining wall. The bottom end of the first blocking wall is positioned in the accommodating cavity. The first blocking wall and the retaining wall enclose a first exhaust gap. The bottom end of the first blocking wall and the main body part form a second exhaust gap in an enclosing mode. The first air outlet hole, the first exhaust gap, the second exhaust gap and the second air outlet hole are communicated in sequence to form an exhaust channel. The liquid that steam or foam formed after through first venthole remains and holds the intracavity, and after first wall is kept off in the water storage capacity, form the water seal, can effectually prevent that the noise from discharging through exhaust passage to reduce the noise in the cooking machine working process.

Description

Cup cover assembly and food processor

Technical Field

The application relates to the field of small household appliances, in particular to a cup cover assembly and a food processor.

Background

With the increasing living standard of people, many different types of food processors appear on the market. The functions of the food processor mainly include, but are not limited to, functions of making soybean milk, squeezing fruit juice, making rice paste, mincing meat, shaving ice, making coffee and/or blending facial masks and the like. The food processor can comprise a soybean milk machine, a stirrer or a wall breaking food processor and other machines for crushing and stirring food. Relevant cooking machine includes the bowl cover subassembly. The cup cover assembly comprises a cup cover and an exhaust cover assembled to the cup cover. The exhaust cover is provided with an air outlet. When the food processer is used, the noise is discharged from the air outlet, and the work time of the food processer generates larger noise to influence the use experience of customers.

SUMMERY OF THE UTILITY MODEL

The application provides a bowl lid subassembly and cooking machine can reduce the noise that the cooking machine during operation produced.

The utility model provides a cup cover subassembly, including the bowl cover and set up in the exhaust lid of bowl cover, the bowl cover include main part, first venthole and set up in the barricade of main part with hold the chamber, it is located to hold the chamber the outside of barricade and with first venthole intercommunication, the exhaust lid includes the roof and certainly the first wall that keeps off that the roof extends, the roof is equipped with the second venthole, first venthole and the second venthole is located respectively the both sides of first wall that keeps off, the bottom of first wall that keeps off is located hold the intracavity, first wall that keeps off with the barricade encloses into first exhaust clearance, the bottom of first wall that keeps off with the main part encloses into second exhaust clearance, first venthole, first exhaust clearance, second exhaust clearance and second venthole communicate in proper order in order to form exhaust passage.

In some embodiments, due to the arrangement of the accommodating cavity in the technical scheme, liquid formed after water vapor or foam passes through the first air outlet hole remains in the accommodating cavity, and when the water storage capacity exceeds the first blocking wall, a water seal is formed to prevent noise from being discharged through the exhaust channel, so that the noise in the working process of the food processor is reduced; meanwhile, the formation of the closed space enables the crushing cup to form a pressure higher than the atmospheric pressure when the crushing cup is stirred or heated, food is easier to be crushed and is more beneficial to curing of the food in the accommodating space, and after the pressure of the accommodating space reaches a certain degree, the air pressure can still release pressure through the surface of the slurry surface of the accommodating cavity, so that the crushing cup is safer and more reliable compared with a directly sealed exhaust channel; moreover, the foam that overflows also turns into a large amount of liquid through holding behind the chamber, prevents to overflow from the second venthole with the form of foam bulky, prevents effectively that the edible material from overflowing to high-power boil out edible material, the taste is better.

Further, when the bottom end of the first blocking wall is located in the liquid stored in the containing cavity, the first air outlet hole and the second air outlet hole can be separated, so that gas or noise is prevented from being discharged from the second air outlet hole.

Further, first venthole set up in the barricade, the barricade still is equipped with the equipment hole, the exhaust lid include certainly the location portion that the roof extends, location portion equipment extremely the equipment hole.

In some embodiments, the above described venting cap is easy to assemble.

Further, the barricade includes the top, the top with the roof is parallel, the equipment hole and first venthole set up in the top, first venthole is located the outside in equipment hole.

In some embodiments, the arrangement of the first air outlet hole in the technical scheme can prolong the exhaust channel, reduce noise and temperature after steam is exhausted, and prevent scalding; meanwhile, the food materials can be prevented from overflowing upwards, and the anti-overflow effect is improved.

Further, the exhaust cover is accommodated in the accommodating cavity, and the top surface of the top wall is not higher than the top surface of the main body part.

In some embodiments, the cup lid assembly of the above technical scheme is neat in appearance.

Furthermore, the first retaining wall is annular and surrounds the outer side of the retaining wall.

In some embodiments, the accommodating cavity of the above technical solution can be set larger, so that more liquid can be stored, and outflow of liquid is prevented.

Furthermore, the exhaust cover comprises a second blocking wall extending from the top wall, the second blocking wall surrounds the outer side of the first blocking wall, the second air outlet hole is formed in the second blocking wall and between the first blocking wall, and the second blocking wall is attached to and sealed with the cup cover.

In some embodiments, the sealing between the exhaust cover and the cup cover of the above technical scheme is better, so as to prevent air leakage or overflow of food materials between the exhaust cover and the cup cover.

Further, the bottom end of the first retaining wall is lower than the bottom end of the second retaining wall.

In some embodiments, the accommodating cavity of the above technical solution can be set larger, so that more liquid can be stored, and outflow of liquid is prevented.

Further, the position of the second air outlet hole is higher than the position of the second air exhaust gap, the hardness of the air exhaust cover is smaller than that of the cup cover, the width of the first air exhaust gap is larger than or equal to 0.5mm and smaller than or equal to 2mm, or the height of the second air exhaust gap is larger than or equal to 0.5mm and smaller than or equal to 2.5mm, or the ratio of the minimum width of the accommodating cavity to the height of the second air exhaust gap is larger than or equal to 3.

In some embodiments, the arrangement of the first exhaust gap and the second exhaust gap in the technical scheme ensures the smoothness of exhaust and reduces the size of the cup cover assembly as much as possible; the containing cavity of the technical scheme increases the siphon effect, so that the liquid in the containing cavity can flow back, and the liquid is prevented from flowing outwards; meanwhile, defoaming can be carried out in the reflux process, so that the taste of the food materials after being decocted is better.

The embodiment of the application provides a food processer, include host computer, water tank set spare, smash the cup subassembly and connect the juice cup subassembly, connect the juice cup subassembly including holding the portion for it eats the material to be used for holding, the host computer includes the casing and is located motor in the space that the casing encloses, smash the cup subassembly including smash the cup, set up in smash in the cup and pass through motor control's crushing sword and foretell cup cover subassembly, the water tank set spare can according to the culinary art procedure to carry water in smashing the cup, the host computer or smash the cup subassembly still including arranging the thick liquid valve, arrange the thick liquid valve and be set up to steerable thick liquid in smashing the cup and flow in according to the culinary art procedure in the portion of holding, the bowl cover equipment extremely smash the cup.

Drawings

Fig. 1 is an exploded view of a food processor according to an exemplary embodiment of the present application.

Fig. 2 is an assembled cross-sectional view of the food processor shown in fig. 1.

Figure 3 is a cross-sectional schematic view of the shredder cup assembly of figure 1.

Figure 4 is an exploded view of the grinding cup assembly of the food processor shown in figure 1.

FIG. 5 is a schematic view of a lid of the pulverizing cup assembly shown in FIG. 4.

Figure 6 is a schematic view of the exhaust cover of the shredder cup assembly shown in figure 4.

Fig. 7 is a schematic cross-sectional view of the vent cover shown in fig. 6.

FIG. 8 is a cross-sectional schematic view of the lid assembly of FIG. 4, with arrows indicating venting paths.

Fig. 9 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 8.

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 devices 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. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. "plurality" or "a number" means two or more. Unless otherwise indicated, "front," "back," "lower," and/or "upper," and the like are for convenience of description, and are not limited to one position or one spatial orientation. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. As used in this specification 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.

Referring to fig. 1-2, the food processor includes a main body 1, a juice receiving cup assembly 2, a water tank assembly 3, and a grinding cup assembly 4. The water tank assembly 3 is detachably assembled to the main body 1. The crushing cup component 4 and the main machine 1 can be detached or fixed and can not be detached. The main body 1 comprises a support table 15 for placing the juice receiving cup assembly 2.

Smash cup subassembly 4 can dismantle, can take out and wash, conveniently washs smash cup subassembly 4. The crushing cup component 4 can heat food materials or not, and the processed food materials flow into the juice receiving cup component 2 to be heated. The food in the crushing cup assembly 4 is only stirred and is not heated, so that the phenomenon that the food in the crushing cup assembly 4 is burnt can be prevented, and the crushing cup assembly 4 is easy to clean; meanwhile, the overflow phenomenon in the heating process can be prevented, which is beneficial to the cleaning of the food processor and the protection of the food processor from being damaged; secondly, the food materials are heated in the juice receiving cup assembly 2, so that the cooking condition of the food materials can be conveniently observed, and the use experience of a user is improved; moreover, the area of the bottom of the juice receiving cup assembly 2 is relatively large, so that the uniformity of heated food materials can be improved, and the mouthfeel of the processed food materials is improved.

The main machine 1 comprises a shell 10, a steam generating device 11 positioned in a space enclosed by the shell 10, a motor 12, an air outlet assembly 13 communicated with the steam generating device 11, and an upper clutch 14 arranged on the motor 12. Steam generator 11 with 3 intercommunications of water tank set spare, water in the water tank set spare 3 can flow into steam generator 11 according to the culinary art procedure to steam production, in order to be used for giving connect the edible material heating in the juice cup subassembly 2 to the cooking material for more even of heating can prevent to lead to eating the phenomenon of sticking with paste the end because of local high temperature, heats through the mode of slowly cooking, makes the edible material taste better.

The housing 10 is provided with a receiving space 1010. At least a portion of the grinding cup assembly 4 is received in the receiving space 1010. The upper clutch 14 is located in the receiving space 1010.

In one embodiment, the steam generator 11 is connected to the water tank assembly 3 and the milling cup assembly 4, and the water in the water tank assembly 3 is heated by the steam generator 11 and flows into the milling cup assembly 4. In the process of stirring and beating the food materials by the crushing cup assembly 4, hot water is added, so that the cooking time of the food materials can be shortened; meanwhile, the crushing cup assembly 4 can be more effectively cleaned by hot water, so that the crushing cup assembly can be cleaned more cleanly.

The main body 1 further comprises a pump assembly (not shown) arranged such that water in the water tank assembly 3 can be pumped into the crushing cup assembly 4 after passing through the steam generating device 11 according to a cooking program; or, the water in the water tank assembly 3 can flow through the steam generating device 11 according to the cooking program to generate steam so as to heat and boil the food in the juice receiving cup assembly 2.

In one embodiment, the pump assembly includes a first pump (not shown) and a second pump (not shown). The first pump and the second pump are respectively communicated with the water tank assembly 3 and the steam generating device 11. The working flow of the first pump is less than the working flow of the second pump. The water flows through the first pump and then enters the steam generating device 11 to form steam so as to heat food materials in the juice receiving cup assembly 2, and the water flows through the second pump and then enters the steam generating device 11 to generate hot water so as to be pumped into the smashing cup assembly 4. The pump assembly comprises a first pump and a second pump, and the service life of the first pump and the service life of the second pump can be prolonged.

In one embodiment, the first pump has an operating flow rate of 20ml/min or more and 50ml/min or less, and the second pump has an operating flow rate of 200ml/min or more and 800ml/min or less.

In one embodiment, the first pump may be a solenoid pump and the second pump may be a motor pump.

The pump assembly is provided with only one pump, which saves space and cost. The pump assembly operates at a flow rate of between 20ml/min and 400ml/min, with a small flow rate when steam is required to be provided to the juice cup assembly 2 according to a cooking program, and a large flow rate when hot water is required to be supplied to the grating cup assembly 4 according to a cooking program.

The juice receiving cup assembly 2 comprises a juice receiving cup 20 and an air inlet assembly 24 arranged on the juice receiving cup 20. The juice receiving cup 20 encloses an accommodating portion 2010 for accommodating food materials. When the juice receiving cup assembly 2 is placed on the supporting table 15, the air inlet assembly 24 is communicated with the air outlet assembly 13, so that steam generated by the steam generating device 11 enters the accommodating part 2010 through the air outlet assembly 13 and the air inlet assembly 24, and food materials in the accommodating part 2010 are heated and boiled.

In one embodiment, a heating element may also be provided at the bottom of the support platform 15 or the juice receiving cup 20 to heat the food material in the juice receiving cup 20. The heating member may be a heating pipe or a heating plate, etc.

The grinding cup assembly 4 includes a discharge valve 42. The discharge valve 42 is configured to control the flow of food material from the shredding cup assembly 4 into the receiving portion 2010 in accordance with a cooking program. The slurry discharge valve 42 may be provided in the main unit 1. The discharge valve 42 is switchable between a first state and a second state. In the first state, the slurry discharge valve 42 cuts off the grinding cup assembly 4 and the juice receiving cup 20, and the food materials in the grinding cup assembly 4 cannot flow out; in the second state, the slurry discharge valve 42 communicates the grinding cup assembly 4 with the juice receiving cup 20, and the food in the grinding cup assembly 4 can flow out.

Referring to fig. 3-5, the grinding cup assembly 4 includes a grinding cup 43, a cap assembly 44 and a blade holder assembly 45. The knife holder assembly 45 and the grinding cup 43 enclose an accommodating space 430 for accommodating food materials. The holder unit 45 includes a holder 450, a knife shaft 451 provided to the holder 450, and a crushing knife 452 and a lower clutch 453 provided to the knife shaft 451. The crushing blade 452 is positioned in the receiving space 430 to whip the food material. When the pulverizing cup assembly 4 is assembled to the main body 1, the upper clutch 14 of the main body 1 is assembled with the lower clutch 453 of the pulverizing cup assembly 4, so that the motor 12 can drive the pulverizing blade 452 to rotate to whip food materials. The grinding cup 43 and the tool holder 450 can be fixed by means of a snap or a threaded connection.

The pulverizing cup 43 is provided with a cup opening 431. Lid assembly 44 is assembled to rim 431. The cap assembly 44 includes a cap 441 and a vent cap 442 and a seal 443 assembled to the cap 441. The exhaust cover 442 has a hardness less than that of the cover 441. In one embodiment, the exhaust cover 442 may be made of silicone or rubber or viton, and the cover 441 may be made of plastic, so that the cover assembly 44 has a simple structure and is cost-effective compared to a cover made of a double-layer plastic material.

The sealing member 443 is in fit sealing with the pulverizing cup 43 and the cup cover 441 to prevent air leakage at the cup opening 431.

The cup cover 441 includes a main body 4410, a retaining wall 4411 extending from the main body 4410, and an assembling portion 4412 extending downward from the main body 4410. The main body 4410 is provided with a receiving chamber 44101 for receiving a liquid, such as a slurry overflowing from the grinding cup 43, condensed water generated during heating, or a manually added liquid. The retaining wall 4411 is located in the accommodating chamber 44101. The retaining wall 4411 is provided with an assembling hole 44112 and a first air outlet hole 44110. One or more first air outlet holes 44110 may be provided. The first gas outlet hole 44110 is located at the outer side of the assembly hole 44112.

The retaining wall 4411 includes a top 44114, and the assembling hole 44112 and the first gas outlet hole 44110 are formed at the top 44114.

The sealing member 443 is sleeved to the assembling portion 4412. After the cup cover assembly 44 is assembled to the pulverizing cup 43, the main body 4410 covers the pulverizing cup 43, and the assembling part 4412 is assembled into the cup opening 431.

Referring to fig. 6 to 9, the degassing cover 442 includes a top wall 4420, a second blocking wall 4421 extending downward from the top wall 4420, a first blocking wall 4422, and a positioning part 4423. The top wall 4420 is provided with a second outlet hole 44201. The second outlet holes 44201 may be provided in one or more. When the exhaust cover 442 is assembled to the cup cover 441, the top wall 4420 is positioned above the top 44114 and parallel to the top 44114.

The exhaust cover 442 is received in the receiving cavity 44101, and the top surface of the top wall 4420 is not higher than the top surface of the main body 4410, so that the lid assembly 44 has a neat appearance.

The second blocking wall 4421 and the first blocking wall 4422 are both annular. The second blocking wall 4421 is surrounded to the outside of the first blocking wall 4422. The second air outlet hole 44201 is located between the second blocking wall 4421 and the first blocking wall 4422. The first blocking wall 4422 is surrounded to the outside of the positioning portion 4423.

After the exhaust cover 442 is assembled to the cup cover 441, the positioning portion 4423 is assembled into the assembly hole 44112 to fix the exhaust cover 442 to the cup cover 441. The first blocking wall 4422 is located between the second outlet hole 44201 and the first outlet hole 44110. The first blocking wall 4422 surrounds the blocking wall 4411. A first exhaust gap 44221 is formed between the first blocking wall 4422 and the blocking wall 4411. The second blocking wall 4421 is located in the accommodating cavity 44101 and is in close contact with the main body 4410, so that air leakage from a gap between the second blocking wall 4421 and the main body 4410 is prevented. The first blocking wall 4422 is located in the accommodating cavity 44101 and forms a second venting gap 44220 with the main body 4410. The first outlet hole 44110, the first exhaust gap 44221, the second exhaust gap 44220 and the second outlet hole 44201 are sequentially communicated to form an exhaust passage. The second outlet hole 44201 is located higher than the second exhaust gap 44220. Exhaust passage is longer, has prolonged the route when the noise is discharged, has reduced the noise of cooking machine during operation.

The bottom end of the first blocking wall 4422 is lower than the bottom end of the second blocking wall 4421, so that the receiving chamber 44101 can contain more liquid to prevent the outflow of the liquid.

When the food processor is used, the gas in the accommodating space 430 is discharged to the outside through the exhaust passage. When the water vapor or foam in the accommodating space 430 passes through the first air outlet 44110, the formed liquid 5 remains in the accommodating cavity 44101, and when the water storage capacity exceeds the first blocking wall 4422, the accommodating space 430 is sealed into a closed space by water, so that the noise in the accommodating space 430 can be effectively prevented from being discharged through an exhaust channel, and the noise in the working process of the food processor can be reduced; meanwhile, the crushing cup 43 can form a pressure higher than the atmospheric pressure when stirring or heating, so that the food can be more easily crushed and stirred in the accommodating space 430 and can be more favorably cured, when the pressure of the accommodating space 430 reaches a certain degree, the air pressure can still release the pressure through the serous fluid surface of the accommodating cavity 44101, and the air pressure is safer and more reliable compared with the method of directly sealing and sealing the exhaust channel; furthermore, the overflowing foam passing through the accommodating cavity 44101 is also converted into liquid in a large amount, so that the overflowing foam is prevented from overflowing from the second air outlet hole 44201 in the form of large volume of foam, and the overflowing of food materials is effectively prevented. When the temperature in the receiving space 430 is reduced or the slurry in the receiving space 430 is discharged to the juice receiving cup 20, a negative pressure is formed in the receiving space 430, and the slurry in the receiving cavity 44101 flows back into the receiving space 430 along the exhaust passage under the action of the atmospheric pressure, so that a siphon phenomenon is formed, the water level in the receiving cavity 44101 can be prevented from being continuously increased, and the slurry can be prevented from flowing out. The first blocking wall 4422 is located between the second air outlet 44201 and the first air outlet 44110, and the air exhaust channel is designed in a non-linear manner, so that the slurry stirred in the accommodating space 430 can be prevented from directly splashing out, and the food material can be prevented from overflowing.

The space above the liquid level of the accommodation chamber 44101 communicates with the second gas outlet hole 44201, i.e., coincides with the external air pressure.

The width W of the first exhaust gap 44221 is greater than or equal to 0.5mm and less than or equal to 2mm, so that the first exhaust gap 44221 is prevented from being blocked by food materials, and normal exhaust is ensured; the siphon effect is better, and the liquid that holds in the chamber 44101 is less, promotes user's use and experiences.

The height H of the second exhaust gap 44220 is more than or equal to 0.5mm and less than or equal to 2.5mm, so that the second exhaust gap 44220 is prevented from being blocked by food materials, and normal exhaust is ensured; the siphon effect is better, and the liquid that holds in the chamber 44101 is less, promotes user's use and experiences.

The distance between the top wall 4420 and the top 44114 is greater than or equal to 0.5mm and less than or equal to 2mm, so that the height of the cup cover assembly 44 is reduced as much as possible without affecting air exhaust, and the development trend of the miniaturization of the food processor is met.

The ratio of the minimum width of the receiving chamber 44101 to the height of the second venting gap 44220 is greater than or equal to 3, which provides a better siphon effect and ensures that the liquid in the receiving chamber 44101 can flow back.

In one embodiment, the receiving cavity 44101 may be provided in plurality, and each of the receiving cavities is located outside the retaining wall 4411, and the bottom end of the first blocking wall 4422 is located in the receiving cavity 44101.

The exhaust cover 442 can be applied to any type of food processor, such as a wall breaking machine or a hand-held food processor.

Although the present invention has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the present invention.

Claims (10)

1. A cup cover assembly is characterized by comprising a cup cover (441) and a gas exhaust cover (442) arranged on the cup cover (441), wherein the cup cover (441) comprises a main body portion (4410), a first gas outlet hole (44110) and a retaining wall (4411) and a containing cavity (44101) which are arranged on the main body portion (4410), the containing cavity (44101) is positioned outside the retaining wall (4411) and communicated with the first gas outlet hole (44110), the gas exhaust cover (442) comprises a top wall (4420) and a first blocking wall (4422) extending from the top wall (4420), the top wall (4420) is provided with a second gas outlet hole (44201), the first gas outlet hole (44110) and the second gas outlet hole (44201) are respectively positioned on two sides of the first blocking wall (4422), the bottom end of the first blocking wall (4422) is positioned in the containing cavity (44101), the first blocking wall (4422) and the retaining wall (4411) enclose a first gas exhaust gap (44221), and the first gas exhaust gap (44220) and the second gas exhaust channel (44110) and the first gas outlet hole (44220) are sequentially communicated with the first gas outlet hole (44110).

2. The lid assembly of claim 1, wherein the first outlet hole (44110) and the second outlet hole (44201) are blocked to prevent gas or noise from being discharged through the second outlet hole (44201) when the bottom end of the first blocking wall (4422) is located in the liquid stored in the receiving chamber (44101).

3. The cup cover assembly of claim 1, wherein the first air outlet hole (44110) is provided to the retaining wall (4411), the retaining wall (4411) is further provided with an assembly hole (44112), and the exhaust cover (442) includes a positioning portion (4423) extending from the top wall (4420), the positioning portion (4423) being assembled to the assembly hole (44112).

4. The cup lid assembly of claim 3, wherein the retaining wall (4411) includes a roof portion (44114), the roof portion (44114) being parallel to the top wall (4420), the assembly hole (44112) and the first air outlet hole (44110) being provided in the roof portion (44114), the first air outlet hole (44110) being located outside the assembly hole (44112).

5. The cup lid assembly of claim 1, wherein the vent cover (442) is received in the receiving cavity (44101), and a top surface of the top wall (4420) is no higher than a top surface of the body portion (4410).

6. The cup cover assembly of claim 1, wherein the first retaining wall (4422) is annular and surrounds an outer side of the retaining wall (4411).

7. The lid assembly of claim 1, wherein the venting cover (442) includes a second baffle wall (4421) extending from the top wall (4420), the second baffle wall (4421) being circumscribed to an outer side of the first baffle wall (4422), the second vent hole (44201) being located between the second baffle wall (4421) and the first baffle wall (4422), the second baffle wall (4421) being in sealing engagement with the lid (441).

8. The lid assembly of claim 7, wherein a bottom end of the first wall (4422) is lower than a bottom end of the second wall (4421).

9. The cup lid assembly of any one of claims 1-7, characterized in that the second vent hole (44201) is located higher than the second vent gap (44220), the rigidity of the vent cover (442) is less than the rigidity of the cup lid (441), the width of the first vent gap (44221) is greater than or equal to 0.5mm and less than or equal to 2mm, or the height of the second vent gap (44220) is greater than or equal to 0.5mm and less than or equal to 2.5mm, or the ratio of the minimum width of the receiving cavity (44101) to the height of the second vent gap (44220) is greater than or equal to 3.

10. A food processor, comprising a host (1), a water tank assembly (3), a grinding cup assembly (4) and a juice cup assembly (2), wherein the juice cup assembly (2) comprises a receiving portion (2010) for receiving food materials, the host (1) comprises a housing (10) and a motor (12) located in a space enclosed by the housing (10), the grinding cup assembly (4) comprises a grinding cup (43), a grinding blade (452) arranged in the grinding cup (43) and controlled by the motor (12), and the cup cover assembly of any one of claims 1 to 9, wherein the water tank assembly (3) can convey water into the grinding cup (43) according to a cooking program, the host (1) or the grinding cup assembly (4) further comprises a slurry discharge valve (42), the slurry discharge valve (42) is arranged to control the flow of the grinding cup in the grinding receiving portion (43) according to the cooking program, and the grinding cup (441) is assembled to the grinding cup (43).

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