CN213757943U - Bowl cover subassembly, whipping cup and cooking machine - Google Patents

Abstract

The utility model discloses a cup lid subassembly, whipping cup and cooking machine. The cup cover assembly comprises a cup cover and a movable shielding piece, and an opening is formed in the cup cover; the movable shielding piece is provided with a blocking part for attaching the opening and can be switched between a first position and a second position; when the movable shielding piece is positioned at the first position, the blocking part is far away from the open hole, and the open hole is communicated with the processing space; when the movable shielding piece is located at the second position, the blocking part covers the open hole, and the open hole is disconnected with the processing space. In the above arrangement, the communication between the opening and the processing space can be achieved by changing the position of the movable shielding member; when the movable shielding piece is positioned at the first position, the food material positioned in the food processor can be poured through the opening; when the movable shielding piece is located at the second position, the food materials in the food processor cannot be toppled over through the opening, so that the food materials are sealed and fresh-keeping, and the noise reduction effect can be realized; when the movable shielding piece is positioned at the second position, the noise reduction function can be realized.

Description

Bowl cover subassembly, whipping cup and cooking machine

Technical Field

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

Background

The food processor is a food processing appliance with a function of stirring or crushing food. Common food processors include wall breaking machines, juicers, soymilk makers, and the like. The inside of the beating cup of the food processor is provided with a cutter component. In the working process, the cutter component can be driven by the motor to rotate, so that the food in the whipping cup is whipped, and the food is crushed. The whipping cup comprises a cup body and a cup cover, wherein the cup cover covers the upper part of the cup body. When the crushed food materials need to be poured out and taken out, the cup cover and the cup body need to be separated.

However, such operation is complicated, and after the cup cover and the cup body are separated, food materials in the cup body are in large-area direct contact with the outside, so that the preservation is not easy to realize.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a cup cover subassembly, whipping cup and cooking machine, its dumping that both had conveniently eaten the material also is favorable to keeping fresh, can realize falling the noise simultaneously.

The first aspect of this application provides a bowl cover subassembly for on the lid fits the cup, and with the cup encloses into the processing space who holds edible material, the bowl cover subassembly includes:

the cup cover is provided with a through opening;

a movable shutter including a blocking portion for covering the aperture and switchable between a first position and a second position;

wherein when the movable shield is in the first position, the blocking portion is clear of the opening, which is in communication with a processing space; when the movable shielding piece is located at the second position, the blocking part is attached to and covers the opening, and the opening is disconnected with the processing space.

Furthermore, the cup cover comprises an upper cover plate and an outer side plate connected with the upper cover plate, and an inner space is defined by the upper cover plate and the outer side plate;

the outer side plate is provided with the through opening; when the movable shield is in the first position, the blocking portion is away from the opening communicating with the processing space through the inner space; when the movable shielding piece is located at the second position, the blocking part is attached to and covers the opening, and the opening is disconnected with the inner space.

Through the arrangement, the opening is formed in the outer side plate, so that the food materials in the processing space can be poured outwards through the opening.

Furthermore, the cup cover assembly also comprises an inner side plate, a sliding space for accommodating the movable shielding piece is enclosed by the inner side plate and the outer side plate, and the sliding space is communicated with the opening hole;

the movable shielding piece is arranged in the sliding space in a sliding mode.

Through the arrangement, the movable shielding piece is slidably arranged between the inner side plate and the outer side plate, so that the moving process of the movable shielding piece between the first position and the second position can be more stable.

Furthermore, a through sliding groove is formed in the upper cover plate and communicated with the sliding space;

the movable shielding piece comprises a top wall and a push rod part formed by upwards extending from the top wall, and the push rod part is arranged in the sliding groove in a sliding mode.

Through the arrangement, a user can operate the push rod part positioned in the sliding groove, so that the position of the movable shielding piece is changed, and the operation is simple and convenient.

Further, the top wall of the movable shielding piece is attached to the upper cover plate, and when the movable shielding piece is switched between the first position and the second position, the top wall is attached to and covers the bottom of the sliding groove.

Through the arrangement, the top wall of the movable shielding piece cuts off the communication relation between the sliding groove and the sliding space, so that the processing space is prevented from being in contact with the outside through the sliding space and the sliding groove, and the food material is kept fresh. Simultaneously, when the activity shielding piece was located the primary importance, and the user when empting edible material, can avoid edible material to loop through sliding space and sliding tray and outwards empty, guaranteed that edible material only can outwards empty through the trompil to guaranteed the stable controllability of empting the process.

Further, when the movable shielding piece is located at the first position or the second position, the push rod portion respectively abuts against two opposite ends of the sliding groove.

With the above arrangement, the position of the movable shutter can be restricted by restricting the limit position of the push rod portion.

Furthermore, a limit stop is arranged in the sliding space and is fixed on the inner side plate and/or the outer side plate;

the limit stop comprises a limit end face, and the lower end face of the movable shielding piece is abutted against the limit end face.

Through the arrangement, the movable shielding piece is prevented from shaking in the sliding process between the first position and the second position, so that the sliding stability of the movable shielding piece is improved.

Furthermore, the limit stop also comprises a guide surface;

in a vertically upward direction, the guide surface extends in a direction close to the center of the sliding space.

By means of the arrangement, the inclined guide surface can play a role in guiding the installation of the movable shielding piece.

Furthermore, the movable shielding piece also comprises an outer wall facing the opening, the outer wall comprises a juice outlet part and the blocking part, a juice outlet hole is formed in the juice outlet part of the outer wall, and the juice outlet hole is communicated with the inner space;

when the movable shielding piece is located at the first position, the juice outlet part faces the opening hole, and the juice outlet hole is communicated with the opening hole and the inner space; when the movable shielding piece is located at the second position, the juice outlet hole in the juice outlet part is far away from the open hole.

Through the arrangement, when the movable shielding piece is located at the first position, the juice outlet is communicated with the opening and the inner space, and food materials located in the processing space can be poured through the juice outlet and the opening in sequence; when the movable shielding piece is located at the second position, the juice outlet part is far away from the open hole, the blocking part covers the open hole, and the open hole is disconnected with the processing space.

In a second aspect of the present application, there is provided a whipping cup comprising a lid assembly as described above, a cup body and a cup holder;

the cup cover assembly, the cup body and the cup seat enclose a processing space for containing food materials.

A third aspect of the present application provides a food processor, which includes a base and the above-mentioned whipping cup;

the whipping cup is placed above the base.

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

in the arrangement, the communication relation between the opening and the inner space can be realized by changing the position of the movable shielding piece; when the movable shielding piece is located at the first position, the food material in the food processor can be poured through the opening, so that the operation is simple; meanwhile, the food material is communicated with the outside only through the opening, so that the contact area between the food material and the outside is small, and the food material is beneficial to sealing and fresh keeping; when the movable shielding piece is positioned at the second position, the food material positioned in the food processor cannot be poured through the opening; when the movable shielding piece is positioned at the second position, the noise reduction function can be realized.

Drawings

Fig. 1 is a schematic perspective view of the food processor in this embodiment.

Fig. 2 is a schematic cross-sectional structure diagram of the food processor in the embodiment.

Fig. 3 is an exploded schematic view of the food processor in this embodiment.

Fig. 4 is a schematic cross-sectional view of another food processor in this embodiment.

Fig. 5 is an exploded schematic view of another food processor in this embodiment.

Fig. 6 is an exploded view of a whipping cup of a food processor.

Fig. 7 is an exploded view of another whipping cup of the food processor.

Fig. 8 is a schematic perspective view of the cover assembly of the present embodiment.

Fig. 9 is another perspective view of the cover assembly of the present embodiment.

Fig. 10 is an exploded view of the lid assembly of the present embodiment.

Fig. 11 is a schematic cross-sectional view of the lid assembly of this embodiment.

Fig. 12 is an enlarged view at a region a in fig. 11.

Description of the reference numerals

Food processor 10

Whipping cup 100

Processing space 101

Debris space 1011

Fluid space 1012

Cup body 110

Opening 111

Food material channel 112

Filter screen 113

Spout 114

Cap assembly 120

Upper cover plate 121

Sliding groove 1211

Outer panel 122

Openings 1221

Interior space 123

Inner side plate 124

Sliding space 125

Limit stop 126

Limiting end surface 1261

Guide surface 1262

Cup holder 130

Center hole 140

Center cap 150

Stirring rod 151

Cutter assembly 160

Rotating shaft 161

Tool 162

Upper clutch 163

Movable shield 170

First position 1701

Second position 1702

Stopper 171

Top wall 172

Pushing rod part 173

Outer wall 174

Juice outlet 175

Juice outlet 176

Lower end face 177 of movable shielding piece

Engine base 200

Motor 210

Rotating output shaft 220

Lower clutch 230

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 manner in which the following exemplary embodiments are described does not represent all manner of consistency with the present application. Rather, they are merely examples of apparatus 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 defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention 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. Similarly, the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one, and if only "a" or "an" is denoted individually. "plurality" or "a number" means two or more. Unless otherwise indicated, "front", "rear", "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.

This embodiment discloses a cooking machine. The processor can be a wall breaking machine, a juice extractor, a soybean milk machine, or other food processing appliances with a whipping function and/or a heating function. The food processor can be provided with a stirring assembly and a heating device, and has the functions of stirring food materials and heating food materials. Or, the food processor can be only provided with the whipping assembly and only has the function of whipping food materials. Moreover, the food processor is provided with a controller for controlling the operation of the whipping device and/or the heating device and other components as a whole. The controller may be a main control chip disposed on the PCB.

As shown in fig. 1, the food processor 10 can include a whipping cup 100 and a base 200. In operation, the whipping cup 100 is placed above the base 200. In other embodiments, the whipping cup 100 can exist as a non-detachable part of the stand 200.

The lower end surface of the whipping cup 100 and the upper end surface of the base 200 can be provided with conductive contacts and mechanical connectors which are matched and connected with each other. The conductive contacts may be conventional electrical connectors and the mechanical coupling may be a shaft coupling. And a stopper may be provided on the base 200 to limit the whipping cup 100 placed on the base 200. After the whipping cup 100 is placed on the base 200, the conductive contacts and the mechanical connectors are connected, so that the whipping cup 100 is electrically and physically connected to the base 200, and the motor, the power supply (or the power adapter), the controller and the like disposed in the base 200 can respectively provide support for the whipping assembly disposed in the whipping cup 100 in terms of power, power supply, signal control and the like.

As shown in FIGS. 2 and 3, the whipping cup 100 can be assembled from a cup 110, a lid assembly 120, and a base 130. The lid assembly 120 may be closed over the opening 111 of the cup 110, with the bottom of the cup 110 being mounted over the cup base 130. The lid assembly 120, the cup 110, and the cup base 130 together define a processing space 101 for receiving and processing food materials. The lid assembly 120 includes a lid 128, the lid 128 defines a central opening 140, and the central opening 140 is connected to the processing space 101. The central bore 140 has a central cover 150 removably attached thereto the cap 128. When it is desired to place food material within the whipping cup 100, the lid assembly 120 and cup 110 can be separated, and food material can enter the processing volume 101 through the opening 111 in the cup 110. Alternatively, the central cover 150 may be separated from the lid 128, and the food material may enter the processing space 101 through the central hole 140 of the lid 128.

As shown in fig. 4 and 5, when the whipping cup 100 is a juice extracting cup for extracting juice, a food material passage 112 and a filter mesh 113 are further provided in the whipping cup 100. The food material channel 112 is provided with a cup cover 128, and a port of the food material channel 112 is used as a central hole 140 and is communicated with the processing space 101. The food material may enter the processing space 101 through the central hole 140 and follow the food material passage 112, and then be whipped by the whipping assembly. The center cover 150 is further provided with a stirring rod 151, and the outer contour of the stirring rod 151 is matched with the shape of the food material channel 112. The agitator bar 151 can enter the material passageway 112 and act to apply a force to the material located in the material passageway 112 towards the whipping assembly, thereby allowing the material located in the material passageway 112 to be extruded into the processing space 101 and whipped out of juice by the whipping assembly. The filter 113 is provided in the processing space 101, and divides the processing space 101 into a residue space 1011 located inside and a fluid space 1012 located outside. The whipping assembly is located in the debris space 1011 and the opening 111 of the cap 128 is in fluid communication with the fluid space 1012. The food material passage 112 is connected to the residue space 1011, and the food material enters the residue space 1011 through the food material passage 112, and juice is squeezed out by the whipping assembly, and fluid such as juice enters the fluid space 1012 through holes (not shown) on the filter screen 113 and can be poured out from the opening 111.

Within whipping cup 100 is a knife assembly 160, knife assembly 160 being the whipping assembly or at least a portion of the whipping assembly. The cutter assembly 160 may include a rotating shaft 161 and a cutter 162, the cutter 162 being mounted at one end of the rotating shaft 161, and the cutter 162 being disposed in the processing space 101, the rotating shaft 161 rotating the cutter 162 in the processing space 101. The other end of the rotating shaft 161, which extends out of the processing space 101 and extends in a direction close to the housing 200, is connected to an upper clutch 163.

The housing 200 is provided therein with a motor 210 and a rotation output shaft 220 fixedly connected to the motor 210. The rotational output shaft 220 rotates synchronously with the motor 210. One end of the rotation output shaft 220 extends in a direction to approach the whipping cup 100, and a lower clutch 230 is connected. When the whipping cup 100 is placed on the base 200, the lower clutch 230 is coupled to the upper clutch, so that the motor 210 can rotate the output shaft 220, the lower clutch 230, the upper clutch and the rotating shaft 161 to drive the cutter 162 to rotate, thereby achieving the operation of whipping food.

In a whipping cup 100, as shown in fig. 6, when the material in the processing space 101 is to be poured, the lid assembly 120 and the cup body 110 need to be separated, and the material needs to be poured through the opening 111 of the cup body 110, which is troublesome. Meanwhile, once the lid assembly 120 and the cup 110 are separated, the food material directly contacts the outside through the opening 111 of the cup 110. The opening 111 of the cup body 110 is large, which means that the food material is in large-area contact with the outside, and impurities and air can be in large-area contact with the food material, so that the food material is not beneficial to fresh keeping.

As shown in fig. 7, in another food processor 10, a hole 127 for discharging juice is formed in the lid assembly 120 of the whipping cup 100, and the food material can be directly poured out through the hole 127. Such a design eliminates the need to separate the lid assembly 120 from the cup 110 during pouring of the foodstuff. However, the hole 127 is always communicated with the outside and the processing space 101, and outside air and impurities can always enter the processing space 101 to pollute the food material in the processing space 101, which is also not beneficial to the preservation of the food material.

As shown in fig. 8 to 10, reference is made to fig. 2 and 3 as necessary. In this embodiment, the lid 128 defines an opening 1221. Wherein, when the movable shutter 170 is located at the first position 1701, the blocking portion 171 leaves the opening 1221, the opening 1221 communicates with the processing space 101, and the food material located in the processing space 101 can be poured outwardly through the opening 1221. When the movable shutter 170 is located at the second position 1702, the blocking portion 171 fits into and covers the opening 1221, and the opening 1221 is disconnected from the processing space 101. The food material located in the processing space 101 cannot be poured out through the opening 1221. When the user uses the food processor 10 to process the food material, the movable shielding piece 170 needs to be switched to the second position 1702, and at this time, the movable shielding piece 170 can not only avoid the overflow of the food material, and avoid the outside air and impurities from entering the processing space, but also play a role in reducing noise.

Further, in this embodiment, the cap assembly 120 further includes a movable blocking member 170. Lid 128 includes upper lid plate 121 and outer plate 122 connected to upper lid plate 121, where upper lid plate 121 and outer plate 122 form an outer contour of lid assembly 120 and enclose inner space 123. The inner space 123 serves as at least part of the process space 101.

As necessary, referring to fig. 2 and 3, the outer plate 122 is provided with the above-described opening 1221. The cup body 110 is provided with a spout 114 for discharging liquid, and the spout 114 is a part of the cup body 110. When the lid assembly 120 is closed on the cup 110, the outer panel 122 of the lid assembly 120 covers the mouth 114. Opening 1221 faces spout 114. The movable shutter 170 includes a blocking portion 171 for covering the opening 1221, and is switchable between a first position 1701 and a second position 1702. When the movable shutter 170 is in the first position 1701, the blocking portion 171 is away from the opening 1221, and the opening 1221 communicates with the internal space 123. In other words, when the movable shutter 170 is in the first position 1701, the opening 1221 is in communication with the treatment space 101 via the inner space 123, the opening 1221 is simultaneously in communication with the spout 114, and the foodstuff can be poured through the opening 1221. When the movable shade 170 is in the second position 1702, the blocking portion 171 fits over and covers/shades the opening 1221. At this time, the opening 1221 is disconnected from the inner space 123 due to the blocking of the blocking portion 171. In other words, when the movable shutter 170 is located at the second position 1702, the opening 1221 is disconnected from the processing space 101, and the food material cannot be poured through the opening 1221. Meanwhile, external air and impurities cannot enter the processing space 101 through the opening 1221 and contact the food material. Of course, in other embodiments, the opening 1221 may be opened on the upper cover plate 121, or opened at the connection point of the upper cover plate 121 and the outer side plate 122.

In the above arrangement, by changing the position of the movable shutter 170, the communication relationship of the opening 1221, the inner space 123 and the processing space 101 can be realized. When the movable shielding member 170 is located at the first position 1701, the food material in the food processor 10 can be poured through the opening 1221, and the operation is simple. Meanwhile, the food materials are communicated with the outside only through the openings 1221, the contact area of the food materials with the outside is small, and sealing and fresh keeping of the food materials are facilitated. When the movable shielding piece 170 is located at the second position 1702, the food material located in the food processor 10 cannot be poured through the opening 1221, and outside air and impurities cannot enter the processing space 101 through the opening 1221 and contact the food material, which is beneficial to the preservation of the food material.

Lid assembly 120 also includes an inner side plate 124, as shown in fig. 11 and 12. Inner side plate 124 and outer side plate 122 enclose a sliding space 125 for receiving movable shutter 170, and sliding space 125 communicates with opening 1221. In other words, the movable shutter 170 located in the sliding space 125 communicates with the processing space 101. In the present embodiment, the outer plate 122 and the inner plate 124 are both in an end-to-end annular configuration, and the sliding space 125 is an annular space between the inner plate 124 and the outer plate 122. The outer contour of the movable shutter 170 is also arc-shaped, and the movable shutter 170 is slidably disposed in the sliding space 125. With the above arrangement, movable shade 170 is slidably disposed between inner side 124 and outer side 122, thereby making the process of moving movable shade 170 between first position 1701 and second position 1702 more smooth.

The upper cover 121 is formed with a through sliding groove 1211, and the sliding groove 1211 communicates with the sliding space 125. The movable shutter 170 includes a top wall 172 and a push rod portion 173 formed to extend upward from the top wall 172. The push rod 173 is slidably disposed in the slide groove 1211. In this embodiment, the pushing rod 173 extends upward and protrudes out of the sliding groove 1211, but in other embodiments, the pushing rod 173 may be disposed inside the sliding groove 1211. With the above arrangement, the user can change the position of the movable shutter 170 by operating the push rod 173 in the slide groove 1211, and the operation is easy.

Further, as shown in fig. 8 and 9, when the movable shutter 170 is located at the first position 1701 or the second position 1702, the push rod portion 173 abuts against the two opposite ends of the sliding groove 1211, respectively. With the above arrangement, the position of the movable shutter 170 can be restricted by restricting the limit position of the push rod part 173. As shown in fig. 8, when the push lever portion 173 abuts against the wall surface to the right end of the slide groove 1211 in the drawing, the movable shutter 170 is located at the first position 1701; as shown in fig. 9, when the push rod 173 abuts against the wall surface of the left end of the slide groove 1211 in the figure, the movable shutter 170 is located at the second position 1702.

Further, the movable shield 170 also includes a top wall 172 and an outer wall 174. The top wall 172 and the outer wall 174 are disposed adjacent to each other such that the outer wall 174 may provide some support to the top wall 172. And, the outer wall 174 faces the opening 1221.

The top wall 172 of the movable shutter 170 fits against the upper cover plate 121, and the top wall 172 fits against and covers the bottom of the sliding groove 1211 when the movable shutter 170 is switched between the first position 1701 and the second position 1702. In the above arrangement, whether the movable shielding member 170 is located at the first position 1701 or the second position 1702, the top wall 172 of the movable shielding member 170 covers the bottom of the sliding groove 1211 and serves to cut off the communication relationship between the sliding groove 1211 and the sliding space 125 and the inner space 123, so as to prevent the food material in the processing space 101 from contacting the outside through the sliding space 125 and the sliding groove 1211 in sequence, thereby facilitating the preservation of the food material. Meanwhile, when the movable shielding member 170 is located at the first position 1701 and the user pours the food material, the food material can be prevented from being poured outward through the sliding space 125 and the sliding groove 1211 in sequence, and the food material can be guaranteed to be poured outward only through the opening 1221, thereby guaranteeing stable controllability of the pouring process.

As shown in fig. 12, and as necessary with reference to fig. 2 and 10, the outer wall 174 of the movable blinder 170 includes a juice outlet portion 175 and a blocking portion 171. A juice outlet hole 176 is formed in the juice outlet portion 175 of the outer wall 174. In other words, the portion of the outer wall 174 where the juice outlet hole 176 is opened is defined as the juice outlet portion 175, and the portion of the outer wall 174 distant from the juice outlet hole 176 is defined as the stopper portion 171. The juice outlet hole 176 communicates with the processing space 101 through the sliding space 125. When the movable shutter 170 is in the first position 1701, the juice outlet 175 faces the opening 1221, and the juice outlet 176 communicates with the opening 1221. At this time, the food material located in the processing space 101 may be poured through the juice outlet 176 and the opening 1221 in sequence. When the movable shade 170 is in the second position 1702, the juice outlet 175 is spaced away from the aperture 1221. At this time, the juice outlet hole 176 of the juice outlet part 175 is far from the opening 1221, the blocking part 171 covers the opening 1221, and the opening 1221 is disconnected from the processing space 101. The food material located in the processing space 101 cannot be poured through the opening 1221.

Referring to fig. 8 to 12, during the use of the food processor 10, when the food material is being whipped by the knife 162, or when the food material needs to be stored, the push rod 173 is pulled to fix or maintain the movable shutter 170 at the second position 1702. At this time, the blocking portion 171 of the movable shielding member 170 cuts off the communication between the processing space 101 and the outside, thereby preventing the overflow of the food material and preventing the contact of the external air and the foreign substances with the food material. When the food material needs to be poured, the push rod portion 173 is pulled and the movable shutter 170 is fixed or maintained at the first position 1701. At this time, the juice outlet 175 of the movable shade 170 faces the opening 1221, the outside and the processing space 101 are communicated through the opening 1221, the juice outlet 176 and the sliding space 125, and the food material in the processing space 101 can be poured outward.

Further, as shown in fig. 11 and 12, a limit stopper 126 is provided in the sliding space 125, and the limit stopper 126 is fixed to the outer plate 122. The limit stop 126 includes a limit end surface 1261, and the lower end surface 177 of the movable shutter 170 abuts against the limit end surface 1261. The inner side plate 124 and the outer side plate 122 of the cap assembly 120 enclose a sliding space 125 and limit the movement of the movable shutter 170 in the horizontal direction. The limiting end surface 1261 of the limiting stopper 126 and the upper cover plate 121 of the end cover can limit the movable shielding member 170 vertically. With the above arrangement, the shaking of the movable shutter 170 during sliding between the first position 1701 and the second position 1702 is prevented, thereby improving the stability of sliding of the movable shutter 170. Of course, in other embodiments, the limit stops 126 may also be fixed to the inner side plate 124, or there may be a plurality of limit stops 126, and both the outer side plate 122 and the inner baffle plate are fixedly provided with the limit stops 126.

The positive stop 126 also includes a guide surface 1262. In a vertically upward direction, the guide surface 1262 extends in a direction close to the center of the sliding space 125, thereby forming a diagonal shape. When it is necessary to place the movable shutter 170 in the sliding space 125, the movable shutter 170 is pushed into the sliding space 125 between the inner side plate 124 and the outer side plate 122 from the bottom up. In the process, the inclined guide surface 1262 functions as a guide. Meanwhile, when the movable shade 170 is mounted in place, the lower end surface of the movable shade 170 abuts against the limiting end surface 1261, and the push rod 173 extends out of the sliding groove 1211. With the above arrangement, the limit stop 126 facilitates the installation of the movable shielding member 170, and meanwhile, the limit stop 126 can ensure the stable sliding of the movable shielding member 170 and prevent the movable shielding member 170 from separating from the sliding space 125.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the scope of protection of the present application.

Claims (11)

1. A lid assembly for covering a cup (110) and enclosing a processing space (101) with the cup (110) for receiving a food material, the lid assembly (120) comprising:

the cup cover (128) is provided with an opening (1221);

a movable shutter (170) comprising a blocking portion (171) for covering said aperture (1221) and switchable between a first position (1701) and a second position (1702);

wherein, when the movable shutter (170) is in the first position (1701), the blocking portion (171) is clear of the opening (1221), the opening (1221) being in communication with the processing space (101); when the movable shutter (170) is in the second position (1702), the blocking portion (171) abuts and covers the opening (1221), and the opening (1221) is disconnected from the processing space (101).

2. The cup lid assembly of claim 1, characterized in that the cup lid (128) includes an upper lid plate (121) and an outer side plate (122) connected to the upper lid plate (121), the upper lid plate (121) and the outer side plate (122) enclosing an inner space (123);

the outer side plate (122) is provided with the through hole (1221); when the movable shutter (170) is in the first position (1701), the blocking portion (171) leaves the opening (1221), the opening (1221) communicating with the processing space (101) through the inner space (123); when the movable shade (170) is in the second position (1702), the blocking portion (171) fits over and covers the opening (1221), and the opening (1221) is disconnected from the inner space (123).

3. The cup lid assembly of claim 2, characterized in that the cup lid (128) further includes an inner side plate (124), the inner side plate (124) and the outer side plate (122) enclosing a sliding space (125) for receiving the movable shroud (170), the sliding space (125) communicating with the opening (1221);

the movable shielding piece (170) is arranged in the sliding space (125) in a sliding mode.

4. The lid assembly of claim 3, characterized in that the upper lid (121) is provided with a through sliding groove (1211), and the sliding groove (1211) is communicated with the sliding space (125);

the movable shielding piece (170) comprises a top wall (172) and a push rod part (173) formed by extending upwards from the top wall (172), and the push rod part (173) is arranged in the sliding groove (1211) in a sliding mode.

5. The lid assembly of claim 4, characterized in that a top wall (172) of the movable shield (170) abuts the upper lid panel (121), and the top wall (172) abuts and covers a bottom of the slide groove (1211) when the movable shield (170) is switched between the first position (1701) and the second position (1702).

6. The lid assembly of claim 4, wherein the push rod portion abuts opposite ends of the slide groove (1211) when the movable shutter (170) is in the first position (1701) or the second position (1702).

7. The cup lid assembly of claim 3, characterized in that a limit stop (126) is arranged in the sliding space (125), and the limit stop (126) is fixed on the inner side plate (124) and/or the outer side plate (122);

the limit stop (126) comprises a limit end surface (1261), and the lower end surface (177) of the movable shielding piece (170) abuts against the limit end surface (1261).

8. The lid assembly of claim 7, wherein the positive stop (126) further includes a guide surface (1262);

in a vertically upward direction, the guide surface (1262) extends in a direction close to the center of the sliding space (125).

9. The cup lid assembly of claim 1, wherein the movable shield (170) further includes an outer wall (174) facing the opening (1221), the outer wall (174) including a juice outlet portion (175) and the blocking portion (171), the juice outlet portion (175) of the outer wall (174) having a juice outlet hole (176) formed therein, the juice outlet hole (176) communicating with the processing space (101);

when the movable shutter (170) is in the first position (1701), the juice outlet portion (175) is directed towards the opening (1221), the juice outlet aperture (176) communicating the opening (1221) with the treatment space (101); when the movable shutter (170) is in the second position (1702), the juice outlet holes (176) of the juice outlet portion (175) are spaced apart from the opening (1221).

10. A whipping cup (100) comprising a lid assembly (120) as defined in any of claims 1-9, a cup body (110), and a cup holder (130);

the cup lid assembly (120), the cup body (110) and the cup seat (130) enclose a processing space (101) for containing food materials.

11. A food processor, characterized in that the food processor (10) comprises a base (200) and a whipping cup (100) according to claim 10;

the whipping cup (100) is placed above the base (200).

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