CN216702372U - Arrange thick liquid valve gear, stirring cup device and food processor - Google Patents

Abstract

The utility model discloses a slurry discharge valve device, a stirring cup device and a food processor, wherein the slurry discharge valve device comprises a valve main body and a cleaning device, the valve main body comprises a valve seat assembly and a valve core arranged on the valve seat assembly, the valve seat assembly is provided with a discharge channel, the valve core is used for controlling the conduction and the closing of the discharge channel, and the cleaning device is arranged on the valve seat assembly and used for cleaning the discharge channel. The technical scheme of the utility model can realize the cleaning of the discharge pipeline.

Description

Arrange thick liquid valve gear, stirring cup device and food processor

Technical Field

The utility model relates to the field of household appliances, in particular to a slurry discharge valve device, a stirring cup device and a food processor.

Background

The food processor can be used for performing food material stirring, mixing, crushing and other operations for people, provides a great deal of convenience for the life of people, and is more and more widely applied to the life. Food materials are beaten, crushed and mixed by the food processor and flow into the pulp receiving cup through the pulp discharging device, however, most of discharge pipelines in the market are made of silica gel materials, and pipelines are bent, so that pulp is difficult to fall into the pulp receiving cup completely during pulp discharging, some pulp remains on the discharge pipelines and is difficult to clean, the remaining pulp becomes mildewed after a period of time, and when the food processor is used for the second time, the pulp remaining on the pipe wall can be brought into the pulp receiving cup by new pulp.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a slurry discharge valve device and aims to clean a discharge pipeline.

In order to achieve the above object, the present invention provides a slurry discharge valve device, comprising:

the valve comprises a valve body and a valve core, wherein the valve body comprises a valve seat assembly and the valve core is arranged on the valve seat assembly, the valve seat assembly is provided with a discharge channel, and the valve core is used for controlling the conduction and the closing of the discharge channel; and

and the cleaning device is arranged on the valve seat assembly and is used for cleaning the discharge channel.

Optionally, the valve seat assembly comprises a seat body and a discharge pipe mounted on the seat body, and the discharge pipe forms the discharge channel;

the cleaning device is a vibration device which acts on the discharge pipe to clean the discharge channel.

Optionally, the vibrating device is mounted on the base and abuts against the outside of the material discharge pipe, and the vibrating device drives the material discharge pipe to vibrate together with the material discharge pipe.

Optionally, the vibrating device includes the driving source and with the subassembly that cleans of driving source rotation connection, the power source install in the pedestal, clean the subassembly and stretch into in the discharge passage, in order to right discharge passage's inner wall washs.

Optionally, the power supply is a drive motor, the cleaning assembly comprises an elastic part and a stirring head, one end of the elastic part is connected with the stirring head, the other end of the elastic part is connected with the drive motor, a cleaning channel communicated with the discharge channel is formed in the base body, and the elastic part and the stirring head extend into the discharge channel through the cleaning channel.

Optionally, when the discharge channel is in a conducting state, the first driving motor drives the stirring head to extend into the discharge channel from the cleaning channel through the elastic member, and when the discharge channel is in a closing state, the first driving motor drives the stirring head to retract into the cleaning channel from the discharge channel through the elastic member.

Optionally, the outer diameter of the stirring head is reduced from one end connected with the elastic piece to the other end.

Optionally, a valve port and a material receiving port which are communicated with the material discharging channel are arranged in the base body, the valve core penetrates through the valve port, and the material receiving port is blocked to control the on-off of the material discharging channel.

Optionally, arrange the material pipe with the junction of pedestal is equipped with sealing, when closed condition, the case with sealing butt, in order to the shutoff connect the material mouth.

Optionally, the slurry discharge valve device further comprises a driving assembly, the driving assembly comprises a second driving motor and a screw rod, the screw rod is fixedly connected with a motor shaft of the second driving motor, and the valve core is in threaded connection with the screw rod.

Optionally, the slurry discharge valve device further comprises a first position detection device and a second position detection device, and the first position detection device and the second position detection device are used for generating detection signals when the valve core is matched to be in a closed state and a conducting state respectively.

Optionally, the first position detecting device and the second position detecting device are both microswitches, a guide groove is arranged on the seat body, the guide groove extends along a movement direction of the valve element, a gear convex rib which penetrates through the guide groove and protrudes out of the surface of the seat body is arranged on the valve element, and the gear convex rib respectively triggers the first position detecting device and the second position detecting device in a closed state and a conducting state.

Optionally, a mounting portion is provided on the valve seat assembly for mounting the discharge valve apparatus.

The utility model also provides a stirring cup device, which comprises a stirring cup and a slurry discharge valve device, wherein the slurry discharge valve device comprises a valve main body and a cleaning device, the valve main body comprises a valve seat assembly and a valve core arranged on the valve seat assembly, the valve seat assembly is provided with a discharge channel, the valve core is used for controlling the conduction and the closing of the discharge channel, and the cleaning device is arranged on the valve seat assembly and is used for cleaning the discharge channel. The stirring cup is provided with a discharge port, and the slurry discharge valve device is arranged on the stirring cup device and is in butt joint with the discharge port.

The utility model also provides a food processor, which comprises the stirring cup device.

According to the technical scheme, the cleaning device is arranged on the valve main body, the valve main body comprises a valve seat assembly and a valve core arranged on the valve seat assembly, the valve seat assembly is provided with a discharge channel, and the valve core is used for controlling the conduction and the closing of the discharge channel. The cleaning device is arranged on the valve seat assembly and used for cleaning the discharge channel. The valve core controls the opening and closing of the discharge channel, and further controls the working state of the cleaning device. When the valve core does not block the discharge channel, namely the slurry discharge device is in a conducting state, the cleaning device starts to work to clean residual slurry in the discharge channel and reduce the possibility that the slurry stays in the discharge channel; when the valve core blocks the discharge channel, namely the slurry discharge valve device is in a closed state, the cleaning device stops working. The cleaning of the discharge device is achieved by the cleaning of the discharge channel by the cleaning device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic perspective view of an embodiment of a slurry outlet valve device according to the present invention;

FIG. 2 is a schematic perspective view of the slurry outlet valve assembly of FIG. 1 at another angle;

FIG. 3 is a cross-sectional view of the slurry outlet valve assembly of FIG. 1 in a conducting state;

FIG. 4 is a cross-sectional view of the slurry outlet valve assembly of FIG. 1 in a closed state;

FIG. 5 is a schematic perspective view of another embodiment of a slurry outlet valve assembly according to the present invention;

FIG. 6 is a schematic perspective view of the slurry discharge valve assembly of FIG. 5 at another angle;

FIG. 7 is a cross-sectional view of the slurry outlet valve assembly of FIG. 5 in a conducting state;

FIG. 8 is a cross-sectional view of the slurry outlet valve assembly of FIG. 5 in a closed state;

FIG. 9 is a schematic perspective view of a food processor according to an embodiment of the present invention;

fig. 10 is a schematic perspective view of another embodiment of the food processor of the present invention.

The reference numbers illustrate:

the implementation, functional features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The present invention provides a slurry outlet valve assembly 100 for use in a food processor 300, and the slurry outlet valve assembly 100 is typically mounted within the food processor 300 for aesthetic reasons and for appearance integrity of the food processor 300. The food processor 300 has a discharge port, and is extended from the discharge pipe 123 of the slurry discharge valve device 100 to the outside of the food processor. After being processed by the food processor, the food flows into the receiving cup through the discharge hole, but part of the feed liquid is stuck on the discharge channel 121 in the discharging process. If not in time clear up, probably make when using next along with new feed liquid flow into connect the material cup, if do not use this food processor again for a long time, also can make the remaining feed liquid of remaining row material pipe 123 moldy.

So this food processor 300 has operating condition and clean state, and during operating condition, the thick liquid valve of arranging is closed, and cleaning device 140 does not begin work this moment, and the process of arranging is carried out until food processor 300 finishes handling, and discharge channel 121 carries out the cleanness of arranging material channel 121, with the possibility that reduces residual feed liquid and stop in discharge channel 121 when arranging material channel 121 and arrange the material. After the operating condition is accomplished, food processor 300 gets into clean state, and food processor 300 clears up its inside components at first, like stirring subassembly etc. cleaning device 140 does not also begin work this moment, and when accomplishing up to the cleanness, when discharging cleaning solution outside food processor 300, when discharge channel 121 carries out the discharge of cleaning solution, cleaning device 140 carries out discharge channel 121 and cleans, with the possibility that reduces remaining cleaning solution and stops in discharge channel 121, thereby accomplish the cleaning of whole food processor 300.

In the embodiment of the present invention, as shown in fig. 1 to 8, the slurry discharge valve device 100 includes a valve body 110 and a cleaning device 140, the valve body 110 includes a valve seat assembly 120 and a valve element 130 mounted on the valve seat assembly 120, the valve seat assembly 120 has a discharge passage 121, and the valve element 130 is used for controlling the opening and closing of the discharge passage 121. A cleaning device 140 is mounted to the valve seat assembly 120 for cleaning the discharge passageway 121.

Specifically, the valve core 130 is mounted on the valve seat assembly 120 and is movable relative to the discharge channel 121 to control the opening and closing of the discharge channel 121, and when the valve core 130 does not block the discharge channel 121, the slurry discharge valve device 100 is in a conducting state (refer to fig. 3 and 7); when the valve element 130 blocks the discharge passage 121, the discharge valve device 100 is in a closed state (refer to fig. 4 and 8), thereby achieving the conduction and the closing of the discharge passage 121. The cleaning device 140 is mounted on the valve seat assembly 120, and when the slurry discharge valve device 100 is in a conducting state, the cleaning device 140 starts to work to clean the residual slurry in the discharge channel 121, so as to reduce the possibility that the slurry stays in the discharge channel 121; when the slurry discharge valve device 100 is in the closed state, the cleaning device 140 stops operating.

According to the technical scheme of the utility model, the cleaning device 140 is arranged on the valve main body 110, the valve main body 110 comprises a valve seat assembly 120 and a valve core 130 installed on the valve seat assembly 120, the valve seat assembly 120 is provided with a discharge channel 121, and the valve core 130 is used for controlling the conduction and the closing of the discharge channel 121. A cleaning device 140 is mounted to the valve seat assembly 120 for cleaning the discharge passageway 121. So that the valve core 130 controls the on and off of the discharge passage 121, and thus controls the working state of the cleaning device 140. When the valve core 130 does not block the discharge channel 121, that is, the slurry discharge valve device 100 is in a conducting state, the cleaning device 140 starts to work to clean the residual slurry in the discharge channel 121, so as to reduce the possibility that the slurry stays in the discharge channel 121; when the valve core 130 blocks the discharge passage 121, that is, the slurry discharge valve device 100 is in a closed state, the cleaning device 140 stops working. The cleaning of the discharge channel 121 is effected by the sweeping of the discharge channel 121 by the cleaning device 140.

Further, in one embodiment, valve seat assembly 120 includes a seat body 122 and a discharge tube 123 mounted on seat body 122, discharge tube 123 forming a discharge channel 121; cleaning device 140 is a vibrating device 141, and vibrating device 141 acts on discharge pipe 123 to perform cleaning of discharge channel 121. Specifically, the discharge pipe 123 is communicated with the seat body 122 to form the discharge channel 121. The cleaning device 140 is installed on the valve seat assembly 120, and the cleaning device 140 is a vibrating device 141, and the vibrating device 141 shakes off the slurry adhered to the inner wall of the discharge pipe 123 by vibration, so that the slurry is difficult to stay in the discharge channel 121, and the cleaning of the discharge channel 121 is completed.

In this embodiment, the base body 122 and the discharge pipe 123 are integrally formed, so that the installation processes of the base body 122 and the discharge pipe 123 can be reduced, the possibility of the base body 122 being separated from the discharge pipe 123 can be reduced, the possibility of the liquid leaking from between the base body 122 and the discharge pipe 123 can be further reduced, and the structural integrity of the valve seat assembly 120 can be improved. Of course, in other embodiments, discharge pipe 123 and seat 122 may be fixed in a plugging or clamping manner.

When vibration device 141 acts on the outer wall of discharge pipe 123, in an embodiment, referring to fig. 5 to 8, vibration device 141 is mounted on base 122 and abuts against the outside of discharge pipe 123, and vibration device 141 drives discharge pipe 123 to vibrate therewith. Specifically, the vibrating device 141 itself may generate vibration, and the vibrating device 141 abuts on the outside of the discharge pipe 123, so that the discharge pipe 123 generates resonance with the vibrating device 141, thereby facilitating the vibrating action to shake off the slurry adhered on the inner wall of the discharge pipe 123, so that the slurry is difficult to stay in the discharge channel 121, and the cleaning of the discharge channel 121 in the discharge pipe 123 is completed. The vibration device 141 is mounted on the valve seat assembly 120, and a fixing structure is provided on an outer wall of the valve seat assembly 120, so that the vibration device 141 is fixed on the slurry discharge valve device 100 and abuts against an outer wall of the discharge pipe 123. Compared with the scheme that the vibrating device 141 extends into the discharging pipe 123, the vibrating device 141 has a simpler structure, can be realized by only one vibrating device 141 arranged on the valve seat assembly 120, and is convenient to install.

When the vibrating device 141 acts on the inner wall of the discharge pipe 123, in another embodiment, please refer to fig. 1 to 4, the vibrating device 141 includes a driving source 142 and a cleaning assembly 143 rotatably connected to the driving source 142, the driving source 142 is mounted on the base 122, and the cleaning assembly 143 extends into the discharge channel 121 to clean the inner wall of the discharge channel 121. Specifically, the driving source 142 is fixed on the base 122, and the cleaning assembly 143 is rotatably connected to the driving source 142, and the cleaning device can extend into the discharge channel 121 to clean the inner wall of the discharge pipe 123 under the driving of the driving source 142. Cleaning the inside of the discharge channel 121 by the cleaning device can smoothly clean the slurry adhered to the inner wall of the discharge pipe 123, reduce the possibility of the slurry adhered to the inner wall of the discharge pipe 123, and further complete the cleaning of the discharge channel 121 in the discharge pipe 123. The base 122 is also provided with a fixing structure for fixing the driving source 142, and the connection between the cleaning assembly 143 and the driving source 142 is facilitated.

Further, in an embodiment, the driving source 142 is a first driving motor 144, the sweeping assembly 143 includes an elastic member 145 and a stirring head 146, one end of the elastic member 145 is connected to the stirring head 146, the other end of the elastic member is connected to the first driving motor 144, the seat body 122 is provided with a cleaning channel 124 communicated with the discharging channel 121, and the elastic member 145 and the stirring head 146 extend into the discharging channel 121 from the cleaning channel 124.

Specifically, one end of the elastic member 145 is connected to the stirring head 146, and the other end is connected to the first driving motor 144. And the clean channel 124 is arranged above the discharge channel 121, when the slurry discharge valve device 100 is in a closed state, the clean channel 124 is blocked, the stirring head 146 stays in the clean channel 124 and does not start to work, then the slurry discharge valve device 100 is in a conducting state, the clean channel 124 is opened, the stirring head 146 falls into the discharge channel 121 due to self weight and starts to work under the action of the first driving motor 144, and slurry attached in the discharge pipe 123 is smoothly swept away through the rotation of the stirring head 146 and the contact with the inner wall of the discharge pipe 123. And the elastic action of the spring is utilized to make the spring reset so as to ensure that the stirring head 146 smoothly returns to the cleaning pipeline when the slurry discharge valve device 100 is in the closed state again. And the cleaning device 140 has a simple structure and is convenient to install. And compare in the scheme of being used for vibrating device 141 on arranging the material pipe 123 outer wall, the cleaning of this scheme is cleaner, can be more contact arrange the material pipe 123 inner wall, and then clean effect is better. The elastic member 145 may be a spring, or may be a rubber band or other structure having an elastic recovery function.

In this embodiment, when the discharge channel 121 is in the on state, the first driving motor 144 drives the stirring head 146 to extend from the cleaning channel 124 into the discharge channel 121 through the elastic member 145, and when the discharge channel 121 is in the off state, the first driving motor 144 drives the stirring head 146 to retract from the discharge channel 121 into the cleaning channel 124 through the elastic member 145. Specifically, when the slurry discharge valve device 100 is in a conducting state, i.e., the discharge channel 121 is opened, the cleaning channel 124 is also opened, and the cleaning device 140 starts to work; when the slurry discharge valve device 100 is in a closed state, i.e. the discharge channel 121 is closed, and the cleaning channel 124 is also closed, the cleaning device 140 stops working, and the stirring head 146 is driven by the elastic member 145 to retreat from the discharge channel 121 to the cleaning channel 124, i.e. when the slurry discharge valve device 100 is always in accordance with the working states of the discharge channel 121 and the cleaning channel 124. When the cleaning assembly 143 is not in operation, it is located in the cleaning channel 124, and when the cleaning assembly 143 is in operation, it is located in the discharge channel 121, and it will not fall out of the discharge channel 121, so it is difficult for users to see the cleaning assembly 143 at the discharge opening.

In another embodiment, the driving source 142 is a first driving motor 144, the sweeping assembly 143 includes an elastic member 145 and a brush head, one end of the elastic member 145 is connected to the brush head, the other end of the elastic member 145 is connected to the first driving motor 144, the seat body 122 is provided with a cleaning channel 124 communicated with the discharge channel 121, and the elastic member 145 and the brush head extend into the discharge channel 121 from the cleaning channel 124.

In one embodiment, the outer diameter of the stirring head 146 is set to be smaller from one end connected to the elastic member 145 to the other end. Specifically, the outer diameter of the stirring head 146 is decreased from the end connected with the elastic member 145 to the other end, that is, the trend of the outer diameter of the stirring head 146 decreasing from the end connected with the elastic member 145 to the other end may be decreased progressively, at this time, the contact surface between the stirring head 146 and the pipe wall is a conical surface; the stirring head 146 and the pipe wall can be arranged in a sudden change mode, and in this case, the contact surface of the stirring head 146 and the pipe wall is a curved surface. In the embodiment, the end of the stirring head 146 connected to the elastic member 145 is a flat surface, so that the possibility of slurry staying on the stirring head 146 can be reduced. Of course, in other embodiments, the end of the stirring head 146 connected to the elastic member 145 may also be curved.

Referring to fig. 1 to 8 again, in an embodiment, a pilot valve port 125 and a receiving port 126 are disposed in the seat body 122 and are communicated with the discharge channel 121, and the valve core 130 passes through the pilot valve port 125 and controls the opening and closing of the discharge channel 121 by blocking the receiving port 126. Specifically, the pilot port 125 and the receiving port 126 are both in communication with the discharge channel 121, and the slurry flows into the slurry discharge valve assembly 100 through the receiving port 126 and then flows out through the discharge channel 121. The valve core 130 passes through the valve guide port 125, and the valve core 130 can slide relative to the valve guide port 125 to open and close the discharge passage 121 by plugging the receiving port 126.

A guide support can be provided at the end of the pilot valve opening 125 facing away from the discharge channel 121, i.e. a guide channel is provided in the seat body 122, which channel communicates with the discharge channel 121. The guide channel can provide a guide supporting function for the reciprocating sliding of the valve core 130, and the motion stability of the valve core 130 is improved. In this embodiment, the valve core 130 is installed between the material receiving opening 126 and the discharging passage 121 through the valve guide opening 125. Of course, in other embodiments, the valve core 130 may be installed before the receiving port 126.

In order to improve the sealing of the valve core 130 to the material receiving opening 126, in an embodiment, a sealing portion 150 is disposed at a connection portion of the discharging pipe 123 and the base body 122, and in a closed state, the valve core 130 abuts against the sealing portion 150 to seal the material receiving opening 126. Specifically, the connecting portion of the discharging pipe 123 and the base body 122 is provided with a sealing portion 150, when the valve core 130 blocks the material receiving opening 126, the sealing portion 150 is annularly connected to the valve core 130, so as to further block the discharging channel 121, thereby improving the sealing degree of the slurry discharging valve device 100. The sealing portion 150 may be a seal ring made of a flexible material having a sealing function such as rubber, or may be another sealing structure having a sealing function.

Referring to fig. 1 to 8 again, in an embodiment, the slurry discharge valve device 100 further includes a driving assembly 160, the driving assembly 160 includes a second driving motor 161 and a screw 162, the screw 162 is rotatably mounted on the second driving motor 161, and the valve core 130 is in threaded connection with the screw 162. Specifically, the driving assembly 160 is installed in a direction away from the discharge channel 121 of the seat body 122, the driving assembly 160 includes a second driving motor 161 and a screw 162, the second driving motor 161 can drive the screw 162 to rotate along an axis, and the valve core 130 is in threaded connection with the screw 162, the thread is an oblique thread, and the rotation of the screw 162 is converted into the sliding of the valve core 130 through the rotation of the screw 162 along the axis and the effect of the oblique thread, so that the valve core 130 slides back and forth through the valve guide port 125, thereby realizing the control of the valve core 130 on the connection and the disconnection of the discharge channel 121. Wherein the screw 162 is also mounted in the guide channel. And the axis of the screw 162 is approximately coincident with the axis of the slide guide channel, and the second driving assembly 160 is fixedly installed at a side of the slide guide channel away from the discharge channel 121.

Further, in an embodiment, the second driving motor 161 is provided with a plug 163, the plug 163 is plugged into an end of the screw 162 away from the valve core 130, and the connecting screw 164 penetrates through the plug 163 and the screw 162. Specifically, the second driving motor 161 is provided with a plug 163, and the plug 163 is plugged into an end of the screw 162 departing from the valve core 130, that is, the screw 162 is movably connected with the second driving motor 161, so that the screw 162 is conveniently replaced and the second driving motor 161 is convenient to install. And the connecting screw 164 is inserted into the plug 163 and the screw 162, the plug 163 is connected with the screw 162 through the connecting screw 164, and the axial movement direction of the screw 162 and the plug 163 is limited, so that the possibility that the screw 162 and the second driving motor 161 are accidentally separated in the working process is reduced. Of course, in other embodiments, the second driving motor 161 and the screw 162 may be fixed by other connection methods.

Referring to fig. 3, 4, 7 and 8, in an embodiment, the slurry discharge valve apparatus 100 further includes a first position detecting device 170 and a second position detecting device 180, wherein the first position detecting device 170 and the second position detecting device 180 are configured to cooperate with the valve core 130 to generate a detection signal in the closed state and the open state, respectively.

Specifically, the valve element 130 reciprocates between an on state and an off state of the slurry discharge valve device 100 through the pilot port 125. The first position detecting device 170 is installed at a corresponding position where the corresponding valve core 130 completely blocks the material receiving port 126, and the second position detecting device 180 is installed at a corresponding position where the corresponding valve core 130 does not completely block the material receiving port 126. In the closed state, the first position detection device 170 detects the position corresponding to the valve core 130, and determines the state of the slurry discharge valve device 100 according to the position, and transmits a detection signal to the driving assembly 160, so as to control the second driving motor 161 to stop working; in the on state, the second position detecting device 180 detects the position corresponding to the valve element 130, and determines the state of the slurry discharge valve device 100 according to the position, and transmits a detection signal to the driving assembly 160, thereby controlling the second driving motor 161 to stop working. To reduce the possibility of excessive movement of the valve spool 130 interfering with other internal components of the slurry discharge valve apparatus 100.

Further, in an embodiment, the first position detecting device 170 and the second position detecting device 180 are both microswitches, the seat body 122 is provided with a guide groove 127, the guide groove 127 extends along a moving direction of the valve element 130, the valve element 130 is provided with a gear rib 131 that passes through the guide groove 127 and protrudes out of the surface of the seat body 122, and the gear rib 131 respectively triggers the first position detecting device 170 and the second position detecting device 180 in the off state and the on state.

Specifically, the first position detecting device 170 is provided with a first gear convex portion 171, the second position detecting device 180 is provided with a second gear convex portion 181, and both the first gear convex portion 171 and the second gear convex portion 181 extend toward the gear convex rib 131; in the closed state, the first shift protrusion 171 abuts against the shift rib 131, and in the on state, the second shift protrusion 181 abuts against the shift rib 131. When the valve core 130 is mounted on the first gear convex portion 171 and completely blocks the material receiving port 126, the position of the gear convex rib 131 is located; when the valve core 130 is mounted on the second stopping convex portion 181 and the material receiving port 126 is not completely blocked, the position of the stopping convex rib 131 is located. The first position detecting device 170 is a first microswitch and the second position detecting device 180 is a second microswitch. When the valve core 130 is in a closed state, the first gear convex portion 171 is abutted to the gear convex rib 131, the first abutting section and the first pressing section which are sequentially connected are arranged on the first gear convex portion 171, the gear convex rib 131 can push the first abutting section, and then the first pressing section is pressed to the first microswitch, so that the second driving motor 161 stops moving, the valve core 130 stops moving, and the possibility of interference between the valve core 130 and the discharge channel 121 is reduced. When the valve element is in the on state, the second stop convex portion 181 abuts against the stop convex rib 131, the second stop convex portion 181 is provided with a second abutting section and a second pressing section which are sequentially connected, the second abutting section can be pushed by the stop convex rib 131, and the second pressing section is pressed to the second microswitch, so that the second driving motor 161 stops moving, and the valve element 130 stops moving.

To facilitate installation of the slurry discharge valve assembly, in one embodiment, a mounting portion 128 is provided on the valve seat assembly 120 for mounting the slurry discharge valve apparatus 100. Specifically, a mounting portion 128 is provided on the valve seat assembly 120 to facilitate smooth installation of the slurry discharge valve apparatus 100.

The present invention further provides a stirring cup device 200, the stirring cup device 200 includes a stirring cup 210 and a slurry discharge valve device 100, the specific structure of the slurry discharge valve device 100 refers to the above embodiments, and since the stirring cup device 200 adopts all technical solutions of all the above embodiments, at least all the beneficial effects brought by the technical solutions of the above embodiments are achieved, and no further description is given here.

Wherein, be provided with the bin outlet on the stirring cup 210, arrange thick liquid valve device 100 install in stirring cup 210 and with the bin outlet butt joint. Specifically, the stirring cup device 200 is used for processing food, the stirring cup device 200 further includes a stirring cutter, a stirring cup 210 and a driving device, the driving device drives the stirring cutter to break the food into a material liquid, a material discharge opening is formed in a side wall close to the bottom of the stirring cup 210, the material receiving opening 126 is communicated with the material discharge opening, the stirring cup 210 flows into the material discharge channel 121 through the material receiving opening 126, the material flows out from the material discharge channel 121, and the material receiving cup is arranged below the material discharge opening to facilitate material receiving, so that the material liquid processed by the stirring cup device 200 smoothly flows into the material receiving cup.

The present invention further provides a food processor 300, wherein the food processor 300 includes a stirring cup device, the specific structure of the soymilk valve maker refers to the above embodiments, and since the food processor 300 adopts all technical solutions of all the above embodiments, all beneficial effects brought by the technical solutions of the above embodiments are at least achieved, and are not repeated herein.

Wherein, the food processor 300 of this application can be machines such as soybean milk machine, cooking machine, broken wall machine, juice extractor, mixer, coffee machine on the market.

In one embodiment, the food processor 300 further comprises a heating device including a heating element, a control circuit and a protective electric device for heating the food placed in the blending cup 210 of the food processor 300, and an automatic water supply device including a water pump, a water tank and a one-way valve for adding a preset amount of water to the food in the blending cup 210. The user places food in the stirring cup 210, and the automatic water supply device delivers a preset amount of water to the stirring cup 210, and then the heating device heats the food, and the stirring cup device stirs and breaks the food into slurry. In this process, the slurry discharge valve device 100 is always in a closed state, and after the process is completed, the slurry flows into the material receiving port 126 of the slurry discharge valve device 100 through the material discharge port of the stirring cup 210, and flows into the material receiving cup through the material discharge channel 121 from the material discharge port. Meanwhile, the cleaning device 140 operates. After the discharge is completed, the food processor 300 enters a clean state.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (15)

1. A slurry discharge valve apparatus, comprising:

the valve comprises a valve body and a valve core, wherein the valve body comprises a valve seat assembly and the valve core is arranged on the valve seat assembly, the valve seat assembly is provided with a discharge channel, and the valve core is used for controlling the conduction and the closing of the discharge channel; and

and the cleaning device is arranged on the valve seat assembly and is used for cleaning the discharge channel.

2. The slurry discharge valve apparatus as recited in claim 1, wherein said valve seat assembly comprises a seat body and a discharge tube mounted to said seat body, said discharge tube defining said discharge channel therein;

the cleaning device is a vibration device which acts on the discharge pipe to clean the discharge channel.

3. The slurry discharge valve assembly as recited in claim 2, wherein said vibration means is mounted to said housing and abuts an exterior of said discharge conduit, said vibration means causing said discharge conduit to vibrate therewith.

4. The slurry discharge valve device according to claim 2, wherein the vibration device comprises a driving source and a cleaning assembly rotatably connected to the driving source, the driving source is mounted to the base body, and the cleaning assembly extends into the discharge passage to clean an inner wall of the discharge passage.

5. The slurry outlet valve device according to claim 4, wherein the driving source is a first driving motor, the cleaning assembly comprises an elastic member and a stirring head, one end of the elastic member is connected to the stirring head, the other end of the elastic member is connected to the first driving motor, the base body is provided with a cleaning channel communicated with the discharging channel, and the elastic member and the stirring head extend into the discharging channel from the cleaning channel.

6. The slurry discharge valve apparatus as claimed in claim 5, wherein said first driving motor drives said agitator head to extend from said cleaning channel into said discharge channel through said elastic member when said discharge channel is in a conducting state, and said first driving motor drives said agitator head to retract from said discharge channel into said cleaning channel through said elastic member when said discharge channel is in a closed state.

7. The mud valve apparatus as claimed in claim 6, wherein the outer diameter of said mixing head is reduced from one end connected to said elastic member to the other end.

8. The slurry discharge valve device according to claim 2, wherein a valve guide opening and a material receiving opening are formed in the seat body and are communicated with the material discharge channel, and the valve element penetrates through the valve guide opening and controls the material discharge channel to be opened or closed by blocking the material receiving opening.

9. The slurry discharge valve device according to claim 8, wherein a sealing portion is provided at a connection portion of the slurry discharge pipe and the base body, and in a closed state, the valve core abuts against the sealing portion to seal the material receiving port.

10. The mud valve apparatus as claimed in claim 8, further comprising a driving assembly, wherein said driving assembly comprises a second driving motor and a screw, said screw is fixedly connected to a motor shaft of said second driving motor, and said valve core is threadedly connected to said screw.

11. The slurry discharge valve assembly as recited in claim 2, further comprising first and second position sensing devices for cooperating with said spool to generate sensing signals in the closed and open states, respectively.

12. The slurry outlet valve device according to claim 11, wherein the first position detecting device and the second position detecting device are both micro switches, the base has a guide groove extending along a moving direction of the valve element, the valve element has a protruding rib protruding from a surface of the base, and the protruding rib respectively triggers the first position detecting device and the second position detecting device when the valve element is in an off state and when the valve element is in an on state.

13. A slurry discharge valve assembly according to any of claims 1 to 12, wherein a mounting portion is provided on said valve seat assembly for mounting said slurry discharge valve assembly.

14. A blender cup apparatus, comprising a blender cup and a slurry discharge valve apparatus as claimed in any one of claims 1 to 13, said blender cup being provided with a discharge opening, said slurry discharge valve apparatus being mounted within said blender cup apparatus and interfacing with said discharge opening.

15. A food processor comprising the blender cup assembly of claim 14.

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