CN215272140U - Food processor - Google Patents

Abstract

The application provides a cooking machine. The cooking machine comprises a host machine component and a stirring cup component arranged on the host machine component. The stirring cup assembly is provided with a stirring cavity and a slurry outlet communicated with the stirring cavity. The food processer also comprises a pulp outlet valve component arranged at the pulp outlet and a driving component connected with the pulp outlet valve component. The slurry outlet valve component comprises a valve body and a valve core arranged in the valve body. The valve body is provided with a slurry inlet through hole and a slurry outlet through hole, the valve core is provided with a flow channel, and the valve core is connected with the driving assembly and rotates under the driving of the driving assembly so as to enable the flow channel to be communicated with or blocked from the slurry inlet through hole and the slurry outlet through hole. The slurry outlet valve assembly further comprises sealing elements which are positioned on two sides of the flow channel and are connected between the valve core and the valve body in a sealing mode. The application provides a cooking machine, be equipped with the sealing member between its play thick liquid valve module's case and the valve body for the case both can easily rotate and have good leakproofness again.

Description

Food processor

Technical Field

The application relates to the technical field of kitchen appliances, in particular to a food processor.

Background

The food processor is a common kitchen appliance, has various functions, is simple and convenient to operate, and is deeply loved by consumers. The food processor generally includes a main body and a stirring cup, in which food materials are pulverized, stirred, and heated. For traditional cooking machine, need the user to take up the stirring cup when drinking, pour the drink in the stirring cup from the rim of a cup of stirring cup. The stirring cup is usually provided with a cutter head, a stirring knife and other parts, so that the weight is heavy, and the stirring cup is inconvenient for a user to take up and pour. Therefore, the food processor capable of automatically discharging the slurry is also developed in the industry. Namely, the stirring cup is provided with a slurry discharging port, the slurry discharging port is provided with an electrically controlled slurry discharging valve, and the slurry discharging port is controlled to be opened or closed through the slurry discharging valve, so that automatic slurry discharging is realized. A thick liquid valve of arranging among the prior art includes valve body and case, and the case can be in the valve body internal rotation, all is equipped with the through-hole on valve body and the case. When the valve core rotates until the through hole on the valve core is communicated with the through hole on the valve body, slurry discharge can be realized; when the valve core rotates to the position that the through hole on the valve core is staggered with the through hole on the valve body, the slurry discharge is stopped. In order to reduce the leakage of slurry into the gap between the valve core and the valve body, the valve core and the valve body in the prior art often need to be tightly matched, however, the tight fit makes the valve core difficult to rotate because the peripheral surface of the valve core is in full-face contact with the valve body. And the valve core and the valve body are usually in hard fit, so that slurry still inevitably leaks into a gap between the valve core and the valve body, and the service performance of the slurry discharge valve is influenced in time.

Based on this, the prior art is in need of improvement.

SUMMERY OF THE UTILITY MODEL

The application provides a cooking machine, its play thick liquid valve module's case both can easily rotate and have good leakproofness again.

The application is realized by the following technical scheme: the utility model provides a cooking machine, its includes the host computer subassembly and locates the stirring cup subassembly of host computer subassembly, the stirring cup subassembly have the stirring chamber and with the play thick liquid mouth of stirring chamber intercommunication, cooking machine is still including locating play thick liquid valve subassembly of thick liquid mouth department and with go out the drive assembly that thick liquid valve subassembly links to each other, it includes the valve body and locates to go out thick liquid valve subassembly case in the valve body, the valve body has into thick liquid through-hole and play thick liquid through-hole, the case has flow channel, the case with drive assembly links to each other and is in drive assembly's drive is rotatory down, so that flow channel with advance thick liquid through-hole and play thick liquid through-hole and switch on or block, it still includes the sealing member to go out thick liquid valve subassembly, the sealing member is located flow channel's both sides and sealing connection in the case with between the valve body.

The application provides a cooking machine has a thick liquid valve module, is equipped with the sealing member between a case and the valve body of play thick liquid valve module for case and valve body assembly back, the position department of installation sealing member is for pasting tight cooperation, and other positions department has the clearance, thereby can reduce the area of contact of case and valve body, makes the case both can easily rotate and have good leakproofness again. The application provides a thick liquid valve module of play of cooking machine realizes the switching through the case in the inside rotation of valve body, and no horizontal or vertical direction displacement for overall structure size has the characteristics that the size is littleer in comparison of other switching modes after the design.

Optionally, the valve element includes a cylindrical main body portion, the flow passage radially penetrates through the cylindrical main body portion, and the sealing member is sleeved on the cylindrical main body portion. The sealing element is sleeved on the cylindrical main body part, is convenient to install and is not easy to fall off; in addition, in the installation mode, in the rotating process of the valve core, the contact area of the sealing element and the valve body is not changed, the rotating resistance of the valve core is small, the sealing element is not easy to deform, and the sealing reliability is ensured.

Optionally, the sealing element includes a first annular sealing ring and a second annular sealing ring sleeved on the cylindrical main body portion, the first annular sealing ring is located on one side of the central axis of the flow channel, and the second annular sealing ring is located on the other side of the central axis of the flow channel. The first annular sealing ring and the second annular sealing ring which are positioned on the two opposite sides of the central axis of the flow channel are adopted, so that leaked slurry can be limited between the first annular sealing ring and the second annular sealing ring, and the slurry is prevented from flowing to the two ends of the slurry outlet valve component; and two separated annular sealing rings are adopted, the contact area between the two annular sealing rings and the valve body is small, and the rotating resistance of the valve core can be reduced.

Optionally, a sealing element mounting groove is formed in the circumferential direction of the main body portion, and the first annular sealing ring and the second annular sealing ring are correspondingly mounted in the sealing element mounting groove. The arrangement of the sealing element mounting groove enables the fixing of the annular sealing ring to be more reliable.

Optionally, a gap is formed between the outer surface of the valve core and the inner surface of the valve body, and the size of the gap is 0.02-0.2 mm. Too large a gap can result in more slurry remaining in the gap, and the slurry can be easily degraded for a long time; too small a gap is detrimental to the installation of the seal. Through setting up the clearance in above-mentioned within range, can avoid the thick liquid on the one hand to remain excessively, on the other hand also is favorable to the installation of sealing member and with the sealed cooperation of valve body.

Optionally, the stirring cup assembly comprises a cup body and a cup base, the slurry outlet valve assembly is arranged between the cup body and the cup base, the slurry outlet is formed in the bottom of the cup body, an upper sealing ring is further arranged between the slurry outlet valve assembly and the cup body, and a lower sealing ring is further arranged between the slurry outlet valve assembly and the cup base. Through the upper sealing ring and the lower sealing ring which are arranged above and below the slurry outlet valve component, slurry enters the slurry outlet valve component from the cup body and is sealed in the whole flowing path flowing out of the slurry outlet valve component, and the sealing performance is good.

Optionally, the upper portion of the valve body compresses the upper seal ring, and the lower portion of the valve body compresses the lower seal ring. The upper sealing ring and the lower sealing ring are fixed through pressing, and the sealing reliability is enhanced.

Optionally, the central axes of the upper sealing ring and the lower sealing ring are perpendicular to the central axis of the sealing element. The upper sealing ring and the lower sealing ring realize the sealing of the slurry entering and flowing out in the horizontal direction when the slurry outlet valve component is used, and the sealing element realizes the sealing of the slurry in the circumferential direction of the valve core when the slurry is inside the slurry outlet valve component, so that the formed three-dimensional sealing system has good sealing property.

Optionally, the driving assembly comprises a motor, the motor is arranged on the main machine assembly, and the slurry outlet valve assembly is arranged on the stirring cup assembly. Go out thick liquid valve module setting on the stirring cup subassembly, its installation accuracy is high, can be better carry out switching control to a thick liquid mouth, and the installation and the power supply of motor setting easy motor on host computer subassembly.

Optionally, the host computer subassembly includes the confession the installation position of stirring cup subassembly installation, installation position department be equipped with the play thick liquid pipe that the grout outlet set up relatively. Be equipped with out the thick liquid pipe on the host computer subassembly, when stirring cup unit mount was on the installation position of host computer subassembly, the play thick liquid mouth can communicate with a play thick liquid pipe, makes things convenient for the thick liquid to flow to other parts that bear through a play thick liquid pipe.

Optionally, the cooking machine is still including connecing the juice cup, go out the thick liquid union coupling to connect the juice cup. Arrange the cup including connecing the juice cup, and connect the juice cup simple structure for the stirring cup subassembly, the user pours the juice through taking to connect the juice cup to pour out the juice and drinks than pouring out the juice through the stirring cup subassembly of taking, and it is more convenient to operate.

Drawings

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

Fig. 2 is an exploded perspective view of an embodiment of the food processor of the present application.

Fig. 3 is an exploded perspective view of a stirring cup assembly and a cup assembly mounting base in an embodiment of the food processor of the present application.

Fig. 4 is an exploded perspective view of a paddle valve assembly according to an embodiment of the present disclosure.

Fig. 5 is a perspective view of a stirring cup assembly in an embodiment of the food processor of the present application.

Fig. 6 is a perspective view of a cup assembly mounting base in an embodiment of the food processor of the present application.

FIG. 7 is a combined cross-sectional view of a blender cup assembly and cup assembly mount in an embodiment of the food processor of the present application, wherein the paddle valve assembly is in a conducting state.

Fig. 8 is a partial enlarged view at a in fig. 7.

FIG. 9 is a combined cross-sectional view of a blender cup assembly and cup assembly mount in an embodiment of the food processor of the present application, wherein the paddle valve assembly is in a blocking position.

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 according to aspects of the present application.

The application provides a cooking machine, it includes the host computer subassembly and locates the stirring cup subassembly of host computer subassembly. The stirring cup assembly is provided with a stirring cavity and a slurry outlet communicated with the stirring cavity. The cooking machine is still including locating go out thick liquid valve module of thick liquid mouth department and with go out the drive assembly that thick liquid valve module links to each other. The slurry outlet valve component comprises a valve body and a valve core arranged in the valve body. The valve body is provided with a slurry inlet through hole and a slurry outlet through hole, and the valve core is provided with a flow channel. The valve core is connected with the driving assembly and rotates under the driving of the driving assembly so as to enable the flow channel to be communicated with or blocked from the slurry inlet through hole and the slurry outlet through hole. The slurry outlet valve assembly further comprises sealing elements which are positioned on two sides of the flow channel and are connected between the valve core and the valve body in a sealing mode.

The application provides a cooking machine has a thick liquid valve module, is equipped with the sealing member between a case and the valve body of play thick liquid valve module for case and valve body assembly back, the position department of installation sealing member is for pasting tight cooperation, and other positions department has the clearance, thereby can reduce the area of contact of case and valve body, makes the case both can easily rotate and have good leakproofness again. The application provides a thick liquid valve module of play of cooking machine realizes the switching through the case in the inside rotation of valve body, and no horizontal or vertical direction displacement for overall structure size has the characteristics that the size is littleer in comparison of other switching modes after the design.

An embodiment of the food processor of the present application is described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and 2, in an embodiment of the food processor provided in the present application, the food processor includes a main unit assembly 100, a stirring cup assembly 200 disposed on the main unit assembly 100, a juice receiving cup 300 disposed on the main unit assembly 100, and a water tank 400 disposed on the main unit assembly 100. The stirring cup assembly 200, the juice receiving cup 300 and the water tank 400 are all installed on the host machine assembly 100, the stirring cup assembly 200 is relatively located at the position above the juice receiving cup 300, and the water tank 400 is installed at one side of the host machine assembly 100. The water tank 400 is in communication with the blender cup assembly 200 for adding water to the blender cup assembly 200. Referring to fig. 3, the mixing cup assembly 200 is connected to and disconnected from the juice receiving cup 300 through the juice outlet valve assembly 20, so that the food processor provided by the present application can realize the functions of automatically adding water, making milk and discharging milk, specifically, food materials are put into the mixing cup assembly 200; before or during the food material treatment process of the stirring cup assembly 200, controlling the stirring cup assembly 200 to pump water from the water tank 400; mixing water and food materials in the stirring cup assembly 200, and crushing to obtain slurry; the driving assembly 10 is actuated to drive the juice outlet valve assembly 20 to communicate the blender cup assembly 200 with the juice receiving cup 300, so that the juice flows into the juice receiving cup 300 through the juice outlet valve assembly 20. For slurries that require further heating to boil, the juice cup 300 may also heat the slurry.

Referring to fig. 5 to 8, the stirring cup assembly 200 includes a cup body 261 and a cup base 262, wherein the cup body 261 has a stirring cavity 260 and a slurry outlet 201 communicated with the stirring cavity 260. The slurry outlet valve assembly 20 is mounted to the blender cup assembly 200. Further, the stirring cup assembly 200 may further include a cutter head, a stirring blade, a heating plate, and the like, and a water inlet (not shown) communicated with the water tank 400 is further disposed at the bottom of the cup body 261. Referring to fig. 3, 6 and 7, the mainframe assembly 100 includes a cup assembly mounting base 161, the cup assembly mounting base 161 has a mounting position for mounting the stirring cup assembly 200, and the stirring cup assembly 200 is placed on the cup assembly mounting base 161 for use. The cup component mounting seat 161 is provided with a host machine water receiving opening 11, and when the stirring cup component 200 is placed on the cup component mounting seat 161, the host machine water receiving opening 11 is connected with the slurry outlet 201 through the slurry outlet valve component 20. A pulp outlet pipe 12 is connected below the water receiving port 11 of the main machine, and the pulp outlet pipe 12 extends to the juice receiving cup 300. The cup component mounting seat 161 is provided with a driving component 10, and the driving component 10 is connected with the slurry outlet valve component 20 to drive the slurry outlet valve component 20 to move, so that the opening and closing of the slurry outlet 201 are controlled. In this embodiment, the driving assembly 10 includes a motor, the motor is disposed on the main assembly 100, and the slurry outlet valve assembly 20 is disposed on the stirring cup assembly 200. The slurry outlet valve assembly 20 is arranged on the stirring cup assembly 200, the installation precision is high, the slurry outlet 201 can be better controlled to be opened and closed, and the motor is arranged on the main machine assembly 100, so that the motor is easy to install and supply power.

Referring to fig. 4, the slurry outlet valve assembly 20 includes a valve body 22 and a valve core 21 disposed in the valve body 22. The valve body 22 and the valve core 21 may be made of a material having self-lubricating properties, such as POM (polyoxymethylene), PPO (polyphenylene oxide), PTFE (polytetrafluoroethylene), and the like. The valve body 22 has a hollow valve cavity, and a slurry inlet through hole 221 and a slurry outlet through hole 222 which are vertically penetrated in the radial direction of the valve body. One of the left and right sides of the valve body is an opening for the valve core 21 to be installed in the valve cavity. The valve body 21 includes a cylindrical body portion 212, and the valve body 21 is provided with a flow passage 210 penetrating in a radial direction of the body portion 212 of the valve body 21. In this embodiment, the flow channel 210 has a diameter greater than 4 mm. A connection column 211 is disposed at one side end of the main body 212 of the valve core 21, the connection column 211 is connected to the driving assembly 10, and in this embodiment, the driving assembly 10 includes a motor. The slurry outlet valve assembly 20 further includes a valve cover 25, the valve core 21 is installed in the valve body 22, and the connecting rod 211 passes through the valve cover 25 and can be rotated by the driving assembly 10, so that the flow channel 210 is communicated with or blocked from the slurry inlet through hole 221 and the slurry outlet through hole 222. In this embodiment, a buckling position is arranged on the valve body 22, a buckle is arranged on the valve cover 25, and the valve cover 25 is fixed on the buckling position of the valve body 22 through the buckle. In other embodiments, the valve cover 25 may be fixed by screws, threads, or screwing. The valve core 21 is sleeved with a sealing element, in this embodiment, the sealing element includes a first annular sealing ring 231 and a second annular sealing ring 232 sleeved on the cylindrical main body portion 212, the first annular sealing ring 231 is located on one side of the central axis of the flow channel 210, and the second annular sealing ring 232 is located on the other side of the central axis of the flow channel 210. The sealing element is sleeved on the cylindrical main body part 212, is convenient to install and is not easy to fall off; in addition, in the installation mode, in the rotating process of the valve core 21, the contact area of the sealing element and the valve body 22 is not changed, the rotating resistance of the valve core 21 is small, in addition, the sealing element is not easy to deform, and the sealing reliability can be ensured. The first annular sealing ring 231 and the second annular sealing ring 232 which are positioned on the opposite sides of the central axis of the flow channel 210 can limit the slurry leaked between the clearance between the valve core 21 and the valve body 22 between the first annular sealing ring 231 and the second annular sealing ring 232, and prevent the slurry from flowing to the two ends of the slurry outlet valve assembly 20, and the two separated annular sealing rings have small contact area with the valve body 22, so that the resistance to the rotation of the valve core 21 can be reduced. In this embodiment, the main body 212 is provided with a sealing member mounting groove in the circumferential direction, the sealing member mounting groove corresponds to the first annular sealing ring 231 and the second annular sealing ring 232, and includes a first sealing member mounting groove 213 and a second sealing member mounting groove 214, and the first annular sealing ring 231 and the second annular sealing ring 232 are correspondingly mounted in the sealing member mounting groove. The arrangement of the sealing element mounting groove enables the fixing of the annular sealing ring to be more reliable. A gap is formed between the outer surface of the valve core 21 and the inner surface of the valve body 22, and the size of the first and second annular sealing rings 231 and 232 protruding out of the sealing member installation grooves is larger than that of the gap, so that the first and second annular sealing rings 231 and 232 can be ensured to be in close contact with the inner surface of the valve body 22. In some embodiments, the clearance between the outer surface of the valve spool 21 and the inner surface of the valve body 22 is 0.02-0.2mm in size. Too large a gap can result in more slurry remaining in the gap, and the slurry can be easily degraded for a long time; too small a gap is detrimental to the installation of the seal. Through setting up the clearance in above-mentioned within range, can avoid the thick liquid on the one hand to remain excessively, on the other hand also is favorable to the installation of sealing member and with the sealed cooperation of valve body. An upper sealing ring 241 and a lower sealing ring 242 are arranged at the slurry inlet through hole 221 and the slurry outlet through hole 222 of the valve body 22. Specifically, the slurry outlet valve assembly 20 is arranged between the cup body 261 and the cup base 262, the slurry outlet 201 is arranged at the bottom of the cup body 261, an upper sealing ring 241 is arranged between the upper surface of the valve body 22 of the slurry outlet valve assembly 20 and the cup body 261, and a lower sealing ring 242 is arranged between the lower surface of the valve body 22 of the slurry outlet valve assembly 20 and the cup base 262. The upper portion of the valve body 22 presses the upper seal ring 241, and the lower portion of the valve body 22 presses the lower seal ring 242. The upper and lower seal rings 241, 242 are fixed by pressing, and the sealing reliability can be enhanced. In this embodiment, the upper sealing ring 241 and the lower sealing ring 242 are arranged above and below the slurry outlet valve assembly 20, so that the slurry enters the slurry outlet valve assembly 20 from the cup body 261 and is sealed in the whole flow path flowing out from the slurry outlet valve assembly 20, and the sealing performance is good. In this embodiment, the central axes of the upper seal ring 241 and the lower seal ring 242 are perpendicular to the central axes of the first and second annular seal rings 231, 232. That is, the upper and lower sealing rings 241 and 242 achieve the sealing in the horizontal direction when the slurry enters and exits the slurry outlet valve assembly, and the first and annular sealing rings 231 and 232 achieve the sealing in the circumferential direction of the valve core 21 when the slurry is inside the slurry outlet valve assembly 20, so that the three-dimensional sealing system formed in this way has good sealing performance.

The working process of the food processor of the present application is described below with reference to fig. 1, 7 to 9: the stirring cup assembly 200 is placed on the installation position of the main machine assembly 100, so that the connection column 211 of the slurry outlet valve assembly 20 is coupled with the driving assembly 10 on the main machine assembly 100, and at this time, the slurry outlet valve assembly 20 is in the state shown in fig. 9, that is, the slurry outlet 201 is in a closed state; the food material is put into the stirring cup assembly 200, before or during the food material is processed by the stirring cup assembly 200, the controller controls the water to be pumped from the water tank 400 and added into the stirring cup assembly 200, and the water and the food material are mixed and stirred in the stirring cup assembly 200 to be made into slurry; when the juice making is finished, the controller controls the driving assembly 10 to start, the driving assembly 10 drives the valve core 21 to rotate, so that the flow channel 210 of the valve core 21 is communicated with the juice inlet through hole 221 and the juice outlet through hole 222 of the valve body 22, and the juice flows into the juice receiving cup 300 through the juice outlet 201, the juice outlet valve assembly 20 and the juice outlet pipe 12. For the serous fluid which needs to be further heated and boiled, the juice receiving cup 300 can also be used for heating and boiling the serous fluid, and the beverage after being heated and boiled can be used for a user to drink.

As can be known from the description of the above specific embodiment, the food processor provided by the present application has the slurry outlet valve assembly 20, the slurry outlet valve assembly 20 is opened and closed through the rotation of the valve core 21 inside the valve body 22, and there is no horizontal or vertical displacement, so that the overall structure size after design has a smaller size than other opening and closing modes. Moreover, a sealing element is arranged between the valve core 21 and the valve body 22 of the slurry outlet valve assembly 20, so that after the valve core 21 and the valve body 22 are assembled, the position where the sealing element is installed is in close fit, and gaps are arranged at other positions, so that the contact area between the valve core 21 and the valve body 22 can be reduced, and the valve core 21 can easily rotate and has good sealing performance.

Although the present application has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and all changes, substitutions and alterations that fall within the spirit and scope of the application are to be understood as being covered by the following claims.

Claims (11)

1. The utility model provides a food processer, its characterized in that includes host computer subassembly (100) and locates stirring cup subassembly (200) of host computer subassembly (100), stirring cup subassembly (200) have stirring chamber (260) and with go out thick liquid mouth (201) that stirring chamber (260) communicate, food processer is still including locating play thick liquid valve subassembly (20) of play thick liquid mouth (201) department and with go out drive assembly (10) that thick liquid valve subassembly (20) link to each other, go out thick liquid valve subassembly (20) including valve body (22) and locate case (21) in valve body (22), valve body (22) have into thick liquid through-hole (221) and play thick liquid through-hole (222), case (21) have flow channel (210), case (21) with drive assembly (10) link to each other and be in rotatory under the drive of drive assembly (10), so that flow channel (210) with advance thick liquid through-hole (221) and play thick liquid through-hole (222) and switch on or block, the slurry outlet valve assembly (20) further comprises sealing members which are positioned on two sides of the flow channel (210) and are connected between the valve core (21) and the valve body (22) in a sealing mode.

2. The food processor of claim 1, wherein the valve element (21) comprises a cylindrical main body portion (212), the flow channel (210) radially penetrates through the cylindrical main body portion (212), and the sealing member is sleeved on the cylindrical main body portion (212).

3. The food processor of claim 2, wherein the sealing member comprises a first annular sealing ring (231) and a second annular sealing ring (232) fitted over the cylindrical body portion (212), the first annular sealing ring (231) being located on one side of the central axis of the flow channel (210), the second annular sealing ring (232) being located on the other side of the central axis of the flow channel (210).

4. The food processor as claimed in claim 3, wherein the main body portion (212) is provided with a sealing member mounting groove in a circumferential direction, and the first annular sealing ring (231) and the second annular sealing ring (232) are correspondingly mounted in the sealing member mounting groove.

5. The food processor as claimed in claim 1, wherein a clearance is provided between the outer surface of the valve core (21) and the inner surface of the valve body (22), and the size of the clearance is 0.02-0.2 mm.

6. The food processor of claim 1, wherein the stirring cup assembly (200) comprises a cup body (261) and a cup base (262), the slurry outlet valve assembly (20) is arranged between the cup body (261) and the cup base (262), the slurry outlet (201) is arranged at the bottom of the cup body (261), an upper sealing ring (241) is further arranged between the slurry outlet valve assembly (20) and the cup body (261), and a lower sealing ring (242) is further arranged between the slurry outlet valve assembly (20) and the cup base (262).

7. The food processor of claim 6, wherein an upper portion of the valve body (22) presses the upper seal ring (241) and a lower portion of the valve body (22) presses the lower seal ring (242).

8. The food processor of claim 6, wherein the central axes of the upper and lower sealing rings (241, 242) are perpendicular to the central axis of the sealing member.

9. The food processor of claim 1, wherein the drive assembly (10) comprises a motor, the motor is disposed on the main assembly (100), and the slurry outlet valve assembly (20) is disposed on the stirring cup assembly (200).

10. The food processor of claim 9, wherein the main machine assembly (100) comprises a mounting position for mounting the stirring cup assembly (200), and a slurry outlet pipe (12) opposite to the slurry outlet (201) is arranged at the mounting position.

11. The machine according to claim 10, further comprising a juice cup (300), the outlet pipe (12) being connected to the juice cup (300).

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