CN209883937U - 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 cup cover component and an exhaust cover component detachably mounted on the cup cover component, and the cup cover component is provided with an exhaust hole, a stop part and a clamping part. The locking part is formed by locally protruding the hole wall of the exhaust hole, and the clamping part is formed by locally protruding or sinking the hole wall of the exhaust hole. The exhaust cover assembly is inserted into the exhaust hole and abutted against the stop part, and the exhaust cover assembly is connected with the clamping part in a buckling mode and forms an exhaust channel with the hole wall of the exhaust hole. The stop part is convexly arranged on the inner wall of the exhaust hole, and the influence on the appearance of the cup cover assembly is small. The stop part is positioned in the direction that the exhaust cover component is inserted into the exhaust hole, so that the exhaust cover component can be accurately positioned, and the positioning precision is high. The pore wall department in exhaust hole is located to joint portion, and the exhaust cover subassembly is connected with joint portion buckle, easy dismounting.

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 cooking machine comprises a host machine component, a cup body component assembled on the host machine component and a cup cover component covered on the cup body component, the cup cover component comprises a cup cover main body and an exhaust cover detachably mounted on the cup cover main body, and an exhaust channel is formed between the exhaust cover and the cup cover main body.

In the related art, the cup cover main body is provided with an exhaust hole and a plurality of positioning ribs arranged on the peripheral surface of the cup cover main body, and the positioning ribs are distributed outside the exhaust hole at intervals and distributed around the exhaust hole. The exhaust cover is connected with the exhaust hole in an inserting mode and abutted against the positioning rib, so that the positioning rib supports and limits the installation position of the exhaust cover.

The positioning ribs protrude out of the outer peripheral surface of the cup cover main body at intervals, and influence the overall appearance of the cup cover component. The positioning ribs are formed by locally protruding from the surface of the cup cover main body, and the cleaning difficulty of a user is high. The exhaust cover and the cup cover main body are connected in a screwing and fixing fit mode through the boss and the groove, and the exhaust cover is poor in buckling hand feeling. In addition, the matching between the exhaust cover and the cup cover main body is easy to loose, so that the matching tightness between the exhaust cover and the cup cover main body 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 cup cover subassembly and demountable installation in the exhaust cover subassembly of cup cover subassembly, the cup cover subassembly is equipped with exhaust hole, locking part and joint portion, the locking part certainly the local protrusion in pore wall in exhaust hole forms, joint portion certainly the local protrusion in pore wall in exhaust hole or sunken formation, the exhaust cover subassembly inserts exhaust hole and butt in the locking part, the exhaust cover subassembly with joint portion buckle connect and with form exhaust passage between the pore wall in exhaust hole.

Optionally, the clamping portion includes at least two stopping ribs protruding from the wall of the exhaust hole at intervals, and the exhaust cover assembly abuts against the stopping ribs.

Optionally, the stopping rib comprises a guiding part formed by partially protruding from the hole wall of the exhaust hole and a blocking part protruding from the guiding part, and the exhaust cover assembly slides along the guiding part and abuts against the blocking part.

Optionally, the bowl cover subassembly still includes and is the protruding exhaust fender muscle of locating of annular exhaust hole pore wall, the detent extends to exhaust fender muscle, the exhaust cover subassembly with exhaust fender muscle between form inlet channel, inlet channel with exhaust channel slope is crossing and is communicate.

Optionally, the joint portion from the pore wall undercut of exhaust hole forms, the exhaust cap subassembly is followed joint portion slides and rotates preset angle.

Optionally, the joint portion includes guiding groove, the crossing joint groove to the guiding groove of slope and locates the positioning groove in joint groove, the exhaust cap subassembly certainly the guiding groove slides in the exhaust hole and rotates until being connected with the positioning groove buckle along the joint groove.

Optionally, the exhaust cover subassembly includes the lid main part and the protruding joint boss of locating the lid main part, the lid main part insert the exhaust hole and the butt in the stop part, the exhaust cover subassembly rotates around the axis of exhaust hole, joint boss buckle connect in joint portion.

Optionally, the joint boss includes boss portion and protruding locating boss portion's location muscle, boss portion hook joint in joint portion, the location muscle is detained in joint portion.

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

The third aspect that the application provided discloses a cooking machine, including host computer part and as above the cup part, host computer part with cup body subassembly drive is connected.

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

the stop part is convexly arranged on the inner wall of the exhaust hole, and the influence on the appearance of the cup cover assembly is small. The stop part is positioned in the direction that the exhaust cover component is inserted into the exhaust hole, so that the exhaust cover component can be accurately positioned, and the positioning precision is high. The pore wall department in exhaust hole is located to joint portion, and the exhaust cover subassembly is connected with joint portion buckle, easy dismounting.

Drawings

Fig. 1 is a schematic cross-sectional view of a lid component according to an exemplary embodiment of the present application.

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

Fig. 3 is a schematic cross-sectional view of a lid component at a snap-fit connection in accordance with an exemplary embodiment of the present application.

Fig. 4 is a cross-sectional view of a lid component at a stop according to an exemplary embodiment of the present application.

Fig. 5 is a schematic perspective view of a lid assembly according to an exemplary embodiment of the present application.

FIG. 6 is a schematic partial cross-sectional view of a lid assembly according to an exemplary embodiment of the present application.

FIG. 7 is a schematic illustration of a structure of a vent cover assembly according to an exemplary embodiment of the present application.

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

Fig. 9 is an exploded view of the food processor according to an exemplary embodiment of the present application.

In the figures, the exhaust cap assembly 10; a cover main body 11; a cylindrical portion 111; a lid portion 112; clamping the boss 12; a boss portion 121; positioning ribs 122; a centering boss 13; a lid assembly 20; an exhaust hole 21; a straight hole portion 211; a chamfered portion 212; a stepped portion 213; a stopper portion 22; a guide part 221; a blocking portion 222; the inclined surface 223; a clip portion 23; a guide groove 231; a snap groove 232; a positioning groove 233; an exhaust passage 24; an exhaust rib 25; the guide surface 251; an intake passage 26; a cup body assembly 30; 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 and 2, the lid component includes a lid assembly 20 and a vent cover assembly 10 detachably mounted on the lid assembly 20, the lid assembly 20 is provided with a vent hole 21, a stopper 22 and a latch 23, the stopper 22 partially protrudes from a hole wall of the vent hole 21, and the latch 23 partially protrudes or is recessed from the hole wall of the vent hole 21. The exhaust cover assembly 10 is inserted into the exhaust hole 21 and abuts against the stop portion 22, and the exhaust cover assembly 10 is connected with the snap portion 23 in a snap manner and forms an exhaust channel 24 with the hole wall of the exhaust hole 21.

The vent hole 21 penetrates through the cap assembly 20 to communicate two sides of the cap assembly 20. The vent cover assembly 10 is inserted into the vent hole 21 and detachably connected with the lid assembly 20, a vent channel 24 is formed between the outer peripheral wall of the vent cover assembly 10 and the wall of the vent hole 21, and gas on one side of the lid assembly 20 can flow to the other side along the vent channel 24.

The hole wall of the exhaust hole 21 is partially protruded to form a stop part 22, the stop part 22 is formed by a plurality of columnar protrusions or rib-shaped protrusions which are distributed at intervals, the exhaust cover assembly 10 is inserted into the exhaust hole 21 and abuts against the stop part 22, so that the axial positioning of the exhaust cover assembly 10 is completed, and the positioning precision is high. The stopping part 22 is arranged in the vent hole 21 and positioned in the extending direction of the vent cover assembly 10 inserted into the vent hole 21, and has little influence on the external appearance of the cup cover assembly 20 and high integral aesthetic degree.

The clamping portion 23 is disposed on the hole wall of the exhaust hole 21, and optionally, the clamping portion 23 partially protrudes from the hole wall of the exhaust hole 21 to form a barb structure. Optionally, the clamping portion 23 is partially recessed from the hole wall of the exhaust hole 21 to form a sliding groove structure. The exhaust cover assembly 10 is inserted into the exhaust hole 21 and is connected with the clamping portion 23 in a buckling mode, and the assembly and disassembly are convenient. The clamping portion 23 is arranged on the hole wall of the exhaust hole 21, the influence on the external appearance of the cup cover assembly 20 is small, and the overall attractiveness is high.

As shown in fig. 3 and 4, in an embodiment, the locking portion 23 includes at least two stopping ribs protruding from the hole wall of the exhaust hole 21 at intervals, and the exhaust cover assembly 10 abuts against the stopping ribs. The stop ribs are spaced apart from the vent holes 21 to accurately position the vent cover assembly 10. The exhaust cover assembly 10 is positioned by the plurality of stop convex ribs at the same time, the stress of the exhaust cover assembly 10 is balanced, and the positioning position is stable. In an alternative embodiment, four retaining ribs are provided. In an alternative embodiment, the stop ribs are uniformly distributed on the hole wall of the exhaust hole 21.

In an alternative embodiment, the stopping rib comprises a guiding portion 221 partially protruding from the hole wall of the exhaust hole 21 and a stopping portion 222 protruding from the guiding portion 221, and the exhaust cover assembly 10 slides along the guiding portion 221 and abuts against the stopping portion 222.

The guide part 221 extends from the first end of the exhaust hole 21 to the second end direction, and the exhaust cap assembly 10 is inserted from the first end of the exhaust hole 21 and slides along the guide part 221 to the second end direction. The stopping portion 222 is protruded from the guiding portion 221 so that the stopping rib has a rib structure similar to an "L" shape. The exhaust cover assembly 10 slides to the stopper 222 along the guide part 221, and the movement direction is stable and the positioning accuracy is high.

In an alternative embodiment, the guiding portion 221 is provided with an inclined surface 223, and the inclined surface 223 forms an angle greater than zero with the axis of the exhaust hole 21. The stopper 222 is located at one end of the inclined surface 223, and the exhaust cap assembly 10 slides along the inclined surface 223 and abuts against the stopper 222. The inclined surface 223 is arranged on the guiding part 221, so that the guiding parts 221 distributed at intervals on the hole wall of the exhaust hole 21 form a conical surface, automatic centering of the exhaust cover assembly 10 is realized, and the guiding effect is good.

In one embodiment, as shown in fig. 5 and 6, the lid assembly 20 further includes an exhaust rib 25 annularly protruding on the wall of the exhaust hole 21, and the blocking portion 222 extends to the exhaust rib 25. An air inlet channel 26 is formed between the exhaust cover assembly 10 and the exhaust baffle rib 25, and the air inlet channel 26 obliquely intersects and communicates with the exhaust channel 24.

The exhaust blocking rib 25 is arranged on the hole wall of the exhaust hole 21 in a protruding mode and is of an annular convex rib structure, and therefore the flowing direction of gas is changed. Wherein the exhaust rib 25 protrudes in the radial direction of the exhaust hole 21. Alternatively, the protruding direction of the exhaust bead 25 is perpendicular to the axis of the exhaust hole 21. Alternatively, the projecting direction of the exhaust bead 25 obliquely intersects the axis of the exhaust hole 21.

An air inlet channel 26 is formed between the exhaust cover assembly 10 and the exhaust blocking rib 25, in an embodiment, the clamping portion 23 extends to the exhaust blocking rib 25, and an end portion of the exhaust cover assembly 10 abuts against the clamping portion 23 and forms the air inlet channel 26 with the exhaust blocking rib 25. The intake passage 26 is curved with respect to the exhaust passage 24 to prevent foreign matter from entering directly from the end of the exhaust passage 24 to cause clogging.

In an alternative embodiment, the exhaust stopper rib 25 is provided with a guide surface 251, the guide surface 251 is inclined toward the center line direction of the exhaust hole 21, and the stopper portion 222 extends to the guide surface 251. The guide surface 251 is inclined toward the center line of the exhaust hole 21, and the guide surface 251 constitutes a tapered surface structure. When the condensed liquid flows into the air inlet channel 26 along the air outlet channel 24, the condensed liquid can drop along the guide surface 251, the liquid is prevented from being detained at the air outlet baffle rib 25, and the sanitation and tidiness are good.

In an alternative embodiment, the exhaust blocking rib 25 is arranged at an opening at one end of the exhaust hole 21, the distance between the end of the exhaust cover assembly 10 and the exhaust blocking rib 25 forms an air inlet channel 26, and the minimum width of the air inlet channel 26 is set to be D1, wherein D1 is more than or equal to 2 mm. For example, the distance between the end of the exhaust cover assembly 10 and the exhaust bead 25 is set to 2mm, 3mm, 5mm, or the like. In an alternative embodiment, the minimum distance between the exhaust cover assembly 10 and the wall of the exhaust hole 21 is D2, wherein D2 is greater than or equal to 2 mm. For example, the distance between the exhaust cover assembly 10 and the wall of the exhaust hole 21 is set to 2mm, 3mm, 5mm, etc.

The clamping portion 23 is designed to be a groove structure or a boss structure, and the exhaust cover assembly 10 is inserted into the exhaust hole 21 and rotated, so that the exhaust cover assembly 10 is connected with the clamping portion 23 in a buckling manner. In one embodiment, the locking portion 23 is formed by recessing downward from the hole wall of the exhaust hole 21, and the exhaust cover assembly 10 slides along the locking portion 23 and rotates by a predetermined angle, so that the exhaust cover assembly 10 is locked to the locking portion 23.

The clamping portion 23 is designed to be a groove-shaped structure for limiting the connecting position of the exhaust cover assembly 10 and the cup lid assembly 20. In one embodiment, the exhaust cover assembly 10 includes a cover body 11 and a locking boss 12 protruding from the cover body 11, and the cover body 11 is inserted into the exhaust hole 21 and abuts against the stopper 22. The exhaust cover assembly 10 rotates a preset angle around the axis of the exhaust hole 21, and the clamping boss 12 is connected to the clamping portion 23 in a buckling mode. For example, when the exhaust cover assembly 10 rotates 10 degrees, 15 degrees, 20 degrees, etc. around the axis of the exhaust hole 21, the latch boss 12 slides into the latch portion 23 and hooks with the sidewall of the latch portion 23.

The cover main body 11 is provided with a columnar or tubular structure, and the clamping boss 12 is convexly arranged on the surface of the cover main body 11. The cover main body 11 is inserted into the exhaust hole 21 until the clamping boss 12 extends into the preset position of the exhaust hole 21, and the exhaust cover assembly 10 is rotated to enable the clamping boss 12 to be buckled into the clamping portion 23.

In an alternative embodiment, the locking portion 23 includes a guiding groove 231, a locking groove 232 obliquely intersecting with the guiding groove 231, and a positioning groove 233 disposed in the locking groove 232, and the exhaust cover assembly 10 slides into the exhaust hole 21 from the guiding groove 231 and along the locking groove 232 until being locked with the positioning groove 233.

The guiding groove 231 and the clamping groove 232 form an approximate L-shaped structure, and the clamping boss 12 of the exhaust cover assembly 10 slides to the position of the clamping groove 232 along the guiding groove 231. The exhaust cover assembly 10 is rotated integrally to allow the latch bosses 12 to be snap-fit into the latch grooves 232. The clamping boss 12 and the clamping groove 232 form a barb matching structure, so that the exhaust cover assembly 10 is prevented from being separated from the cup cover assembly 20 along the axis of the exhaust hole 21, and the mounting precision is high.

As shown in fig. 2 and 7, in an alternative embodiment, the clamping boss 12 includes a boss portion 121 and a positioning rib 122 protruding from the boss portion 121, the boss portion 121 is hooked on the clamping portion 23, and the positioning rib 122 is buckled into the clamping portion 23.

The positioning ribs 122 protrude from the surface of the boss portion 121 to form an approximately "L" -shaped, "chevron-shaped structure. When the exhaust cover assembly 10 is rotated about the axis of the exhaust hole 21, the positioning ribs 122 and the wall surfaces of the catching grooves 232 abut against each other, and there is a corresponding frictional resistance. The boss 121 slides along the snap groove 232 until the positioning rib 122 is buckled into the positioning groove 233, so that the exhaust cover assembly 10 and the cup cover assembly 20 have good hand feeling during screwing. It should be mentioned that the positioning groove 233 is disposed on the clamping boss 12, and the positioning rib 122 is disposed in the clamping groove 232, so that the exhaust cover assembly 10 and the cup cover assembly 20 can be screwed together with good hand feeling.

In an alternative embodiment, the exhaust cover assembly 10 further includes a centering boss 13 protruding in a radial direction of the cover main body 11, and the centering boss 13 is in an annular structure and abuts against the snap-in portion 23.

The cover main body 11 is provided with a centering boss 13 in an annular convex rib structure, the centering boss 13 is used for guiding the automatic centering of the cover main body 11 and the exhaust hole 21, and the positioning precision is high. Centering boss 13 is the loop configuration and slides along joint portion 23, specifically, centering boss 13 butt slides in the inclined plane 223 of the protruding muscle of locking, and the tip butt of covering main part 11 is in stopping portion 222, and centering is effectual. In an alternative embodiment, the centering boss 13 is provided at the end of the cover body 11.

The centering boss 13 protrudes in the radial direction of the cover main body 11, which can increase the distance between the cover main body 11 and the hole wall of the exhaust hole 21, enlarge the size of the exhaust passage 24, and improve the exhaust efficiency. Alternatively, the distance between the edge of the centering boss 13 and the hole wall of the exhaust hole 21 is set to D2.

In an alternative embodiment, as shown in fig. 4, the cap body 11 includes a cylindrical portion 111 and a cap portion 112, and the cylindrical portion 111 and the cap portion 112 form a structure similar to a "T" shape. The centering boss 13 and the clamping boss 12 both protrude along the radial direction of the column 111, and are disposed at two ends of the column 111 together with the cover 112. The outer size of the cover portion 112 is larger than that of the cylindrical portion 111, and the cover portion 112 is used for shielding the opening of the exhaust hole 21.

In an optional embodiment, the exhaust hole 21 includes a straight hole portion 211, a chamfered portion 212 and a stepped portion 213, wherein the diameter of the straight hole portion 211 is smaller than that of the stepped portion 213, the chamfered portion 212 obliquely intersects the straight hole portion 211 from the stepped portion 213, and the locking portion 23 and the stopper portion 22 are disposed on the straight hole portion 211.

The cylindrical portion 111 passes through the stepped portion 213 and the chamfered portion 212 and is connected to the engaging portion 23 in the straight hole portion 211 in a snap-fit manner, and the cover portion 112 is located in the stepped portion 213 and covers the chamfered portion 212, so that the exhaust passage 24 is communicated with the outside atmosphere, and the gas flows smoothly.

The lid assembly disclosed in the embodiments above is applied to a bowl assembly as shown in fig. 8 and 9. In one embodiment, the bowl portion includes a body portion 30 and a lid portion as provided in the previous embodiments, the lid portion being attached to the body portion 30. The cup body assembly 30 is a container structure having a containing space for containing food materials, the cup body assembly 30 is covered by the cup cover component, and gas in the cup body assembly 30 is exhausted outwards through the exhaust passage 24 of the cup cover component.

In an alternative embodiment, the cup assembly includes a heating assembly mounted to the body assembly 30. The heating assembly is installed on the cup body assembly 30, and can transfer heat generated by heating to the cup body assembly 30 so as to heat food materials in the cup body assembly 30.

Be applied to among the cooking machine with foretell cup part to adjust the gas pressure when cooking machine processing edible material. In one embodiment, the food processor includes a main body component 40 and a cup body component as provided in the previous embodiments, the main body component 40 being in driving connection with the cup body assembly 30.

The cup assembly is placed on the main assembly 40 and the main assembly 40 is drivingly connected to the cup assembly. In an optional embodiment, the host component 40 includes a base, a driving assembly installed on the base, and a control module disposed in the base, the driving assembly is electrically connected to the control module, and the control module controls the driving assembly to operate according to a built-in program, so that the food processor executes a corresponding function of the material machine.

In an optional embodiment, the cup body component further includes a stirring blade set mounted on the cup body assembly 30, the stirring blade set is in driving connection with the driving assembly, and the stirring blade set is driven by the driving assembly to rotate to stir the food material in the cup body assembly 30. Wherein, the driving assembly can be set as a motor assembly, optionally, the driving assembly is directly assembled at one end of the stirring knife set to drive the stirring knife set to rotate and process the food material in the cup body assembly 30. Optionally, the driving assembly is connected to the stirring blade set through a clutch assembly in an inserting manner so as to drive the stirring blade set to rotate and process the food material of the cup body assembly 30.

The cup body component further comprises an upper plug terminal arranged on the cup body component 30, and the heating component is electrically connected with the upper plug terminal. The cup body component is assembled on the base, the upper plug terminal is electrically connected with the control module, so that the heating assembly is electrically connected with the control module, and the control module controls the heating assembly to generate heat and provide electric energy for the heating assembly.

In an alternative embodiment, the lid member covers the opening of the cup body assembly 30, and the stirring knife assembly stirs the food material and the heating assembly heats the food material, so as to equalize the overall temperature of the food material. Gas such as vapor generated by the food materials can be exhausted through the exhaust channel 24 and the pressure relief holes, so that the use safety is good.

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. The utility model provides a cup cover component, characterized in that, including cup cover component (20) with demountable installation in exhaust cover component (10) of cup cover component (20), cup cover component (20) are equipped with exhaust hole (21), detent (22) and joint portion (23), detent (22) certainly the local protrusion of pore wall of exhaust hole (21) forms, joint portion (23) certainly the local protrusion of pore wall or sunken formation of exhaust hole (21), insert exhaust cover component (10) exhaust hole (21) and butt in detent (22), exhaust cover component (10) with joint portion (23) buckle connect and with form exhaust passage (24) between the pore wall of exhaust hole (21).

2. The cup cover member of claim 1, wherein the snap-fit portion (23) includes at least two retaining ribs projecting from a wall of the vent hole (21) at intervals, and the vent cover assembly (10) abuts against the retaining ribs.

3. The lid member of claim 2, wherein the stopper rib includes a guide portion (221) partially protruding from the wall of the vent hole (21) and a stopper portion (222) protruding from the guide portion (221), and the vent cover assembly (10) slides along the guide portion (221) and abuts against the stopper portion (222).

4. The cup cover assembly (20) of claim 1, further comprising an exhaust baffle rib (25) annularly protruding on a wall of the exhaust hole (21), wherein the stopper (22) extends to the exhaust baffle rib (25), an air inlet channel (26) is formed between the exhaust cover assembly (10) and the exhaust baffle rib (25), and the air inlet channel (26) is obliquely intersected and communicated with the exhaust channel (24).

5. The cup cover assembly of claim 1, wherein the catching portion (23) is formed by recessing a wall of the vent hole (21) downward, and the vent cover assembly (10) slides along the catching portion (23) and rotates by a predetermined angle.

6. The cup cover component of claim 5, wherein the clamping portion (23) comprises a guide groove (231), a clamping groove (232) obliquely intersecting with the guide groove (231), and a positioning groove (233) formed in the clamping groove (232), and the exhaust cover component (10) slides into the exhaust hole (21) from the guide groove (231) and rotates along the clamping groove (232) until being in snap-fit connection with the positioning groove (233).

7. The cup cover component of claim 1, wherein the vent cover component (10) comprises a cover body (11) and a clamping boss (12) protruding from the cover body (11), the cover body (11) is inserted into the vent hole (21) and abuts against the stop portion (22), the vent cover component (10) rotates around the axis of the vent hole (21), and the clamping boss (12) is connected to the clamping portion (23) in a snap-fit manner.

8. The cup cover component of claim 7, wherein the clamping boss (12) comprises a boss portion (121) and a positioning rib (122) protruding from the boss portion (121), the boss portion (121) is hooked to the clamping portion (23), and the positioning rib (122) is buckled into the clamping portion (23).

9. A cup member comprising a cup body assembly (30) and a cup cover member as claimed in any one of claims 1 to 8, the cup cover member being arranged to cover the cup body assembly (30).

10. A food processor comprising a main body component (40) and a cup body component as claimed in claim 9, wherein the main body component (40) is in driving connection with the cup body assembly (30).

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