CN116649812A - Food processor with simplified structure - Google Patents

Abstract

The utility model discloses a food processor with a simplified structure, which relates to the field of household appliances, and comprises a cup body with a liquid outlet, a liquid discharge valve arranged outside the cup body, a pulp receiving cup and a residual water box which are arranged below the liquid discharge valve, wherein the liquid discharge valve comprises a valve body and a valve core arranged in the valve body, the bottom of the valve core is provided with a liquid discharge port, the structure that a pulp discharge nozzle is additionally arranged and communicated with the valve core to realize liquid discharge is omitted, so that pulp can be directly discharged outwards through the valve core, the situation that residual stains and peculiar smell are generated and bacteria are even bred due to the fact that the pulp discharge nozzle is attached to pulp food after the pulp passes through the valve core and is discharged outwards for a long time is avoided, a pulp discharge channel and a waste discharge channel which are communicated with the liquid discharge port are arranged in the valve core, the whole food processing and self-cleaning process are more intelligent and automatic, and the use experience of users is improved.

Description

Food processor with simplified structure

Technical Field

The utility model relates to the technical field of household appliances, in particular to a food processor with a simplified structure.

Background

The existing food processor generally comprises a machine body and a cup body which is arranged on the machine body and provided with a crushing cavity, wherein a liquid discharge hole communicated with the crushing cavity is formed in the bottom of the cup body, a liquid discharge valve for controlling the liquid discharge hole to open and close is arranged at the liquid discharge hole, and after the food material is processed in the crushing cavity, the liquid discharge valve can open the liquid discharge hole and discharge the liquid to the pulp receiving cup outwards.

As disclosed in chinese patent No. 201810006500.4, a food processor is provided with a liquid discharge pipe, a pulp receiving cup and a residual water box below the liquid discharge pipe, the liquid discharge pipe is rotatably switched between the pulp receiving cup and the residual water box to discharge pulp or waste water, a liquid discharge valve for controlling on/off is arranged between the liquid discharge pipe and the crushing cup, the liquid discharge valve comprises a static valve plate with a communication hole, a driving device driven by a motor, a movable valve plate for opening or closing the communication hole and a driven component for driving the liquid discharge pipe to rotate, the movable valve plate and the driven component are driven by the driving device, when the motor drives the driving device to operate, the driven component and the movable valve plate do not rotate simultaneously, the structure scheme controls the communication hole to be opened or closed through the movable valve plate, and the driven component drives the liquid discharge pipe to rotate so as to realize communication with the pulp receiving cup or the residual water box, although the liquid discharge valve can realize the discharge of pulp and cleaning water, the structure of the whole liquid discharge valve is complex and the occupied space is large. Meanwhile, the flowing speed of the slurry after flowing into the liquid discharge pipe is greatly reduced, so that the slurry food materials are adhered in the liquid discharge pipe after long-time use, so that the slurry is in residual stains, peculiar smell is generated and even bacteria are bred, the taste of the slurry discharged outwards through the liquid discharge pipe is poor, even the peculiar smell exists, and the use experience of consumers is seriously influenced.

As another example, chinese patent No. 202220567370.3 discloses a food processor, a pulp discharging port is opened on a side wall of a heating disc, a pulp discharging valve is installed on the heating disc at the pulp discharging port, the pulp discharging valve includes a valve housing and a valve core body located in the valve housing, the valve core body is in a cylindrical structure, a flow channel is obliquely arranged in the valve core body along a horizontal direction, one end of the flow channel is located on the side wall of the valve core body and forms a valve core inlet, the other end of the flow channel is located at the bottom of the valve core body and forms a valve core outlet, the connection and disconnection between the valve core inlet and the pulp discharging port are realized while the valve core body rotates, and meanwhile, when the valve core inlet and the pulp discharging port are connected, pulp can be discharged outwards into a pulp receiving cup through the flow channel and the valve core outlet. This kind of structure is although can realize the switching to the pulp discharging port, but current food processor all generally includes self-cleaning function, accomplishes the back at self-cleaning, if use this kind of model then need manual the pulp receiving cup of pulp discharging valve below change into surplus water box, can't realize the switching of pulp discharging position and waste discharging position voluntarily, and user's use experience is relatively poor.

Disclosure of Invention

The utility model aims to provide a food processor with a simplified structure, which is used for solving the problems that slurry is easy to remain in a slurry discharging pipe in the existing food processor to generate peculiar smell and even bacteria are bred, and a valve core cannot automatically complete the switching between a slurry discharging position and a waste discharging position.

In order to achieve the above object, the utility model provides a simplified food processor, which comprises a cup body with a liquid outlet, a liquid discharge valve arranged outside the cup body, a pulp receiving cup and a residual water box, wherein the liquid discharge valve is arranged below the liquid discharge valve; when the waste water box is positioned at the waste water discharge position, the waste water discharge channel is communicated with the liquid outlet, and the liquid outlet is communicated with the residual water box.

According to the utility model, the liquid draining port exposed above the pulp receiving cup and the residual water box is formed in the bottom of the valve core, so that a structure of additionally arranging the pulp draining nozzle and communicating with the valve core to realize liquid draining is omitted, on one hand, the structure of the whole liquid draining valve is simplified, so that pulp can be directly drained outwards through the valve core, the situation that residual stains, peculiar smell and even bacteria are generated due to the fact that the pulp draining nozzle is attached to pulp food materials after the pulp draining nozzle is used for a long time after the pulp passes through the valve core and is outwards drained through the pulp draining nozzle is avoided, the situation that the pulp taste is poor and even the pulp is deteriorated due to the fact that the pulp draining nozzle is polluted by the pulp is avoided, the cleanliness of the liquid draining valve is ensured, the dead angle of dirt is reduced, and the use experience of a user is improved; on the other hand, the number of parts of the liquid discharge valve is simplified, the production cost and the assembly time are reduced, the structure for driving the slurry discharge nozzle to rotate through the valve core is omitted, the working stability of the whole machine is higher, and the related failure rate of the liquid discharge valve is lower. Meanwhile, the liquid outlet is arranged in a transversely offset mode relative to the rotation axis of the valve core, the liquid outlet does not cover the rotation axis, the liquid outlet is guaranteed to have a larger transverse movement distance, and then the liquid outlet is guaranteed to be switched over the pulp receiving cup and the residual water box.

Simultaneously, a pulp discharging channel and a waste discharging channel which are communicated with the liquid discharging port are also arranged in the valve core, when the valve core is positioned at a pulp discharging position, the pulp discharging channel is communicated with the liquid outlet, and the liquid discharging port is communicated with the pulp receiving cup, so that after a user finishes processing food materials by using the food processing machine, the liquid discharging port of the valve core rotates to be communicated with the pulp receiving cup, and meanwhile, the valve core opens the liquid outlet to enable pulp in the crushing cavity to be discharged into the pulp receiving cup through the pulp discharging channel; when being located the waste position, waste channel and liquid outlet intercommunication and leakage fluid dram and surplus water box intercommunication promptly: can carry out self-cleaning after food processor arranges thick liquid and accomplish, self-cleaning accomplishes the back, and the case rotates and makes leakage fluid dram and surplus water box intercommunication, and the liquid outlet is opened to the case simultaneously so that smash the washing water of intracavity and discharge into surplus water box through the channel of wasting discharge, and whole food processing and self-cleaning process are more intelligent, automatic, have liberated user's both hands, can realize automatic row thick liquid and washing under the circumstances that need not the user to participate in, have promoted user's use experience.

In a preferred implementation of the simplified food processor, the rotation axis is located on a central plane of the adjacent inner wall of the pulp receiving cup and the inner wall of the residual water box, and a lateral distance from the inner wall of the side of the liquid drain close to the rotation axis is not smaller than a distance from the central plane to the inner wall of the pulp receiving cup or the inner wall of the residual water box.

Through setting up the rotation axis as being located on the central plane of adjacent thick liquid cup inner wall and surplus water box inner wall for whole case is located surplus water box and connects directly over the thick liquid cup, thereby can make the offset distance of leakage fluid dram relative rotation axis shorten, and then help reducing the lateral dimension of case, reduce its occupation space, help promoting the compactedness of complete machine structure. Meanwhile, the lateral distance between the inner wall of one side of the liquid outlet close to the rotating axis and the rotating axis is not smaller than the distance between the central plane and the inner wall of the pulp receiving cup or the inner wall of the residual water box, so that the liquid outlet can be positioned above the pulp receiving cup and the residual water box when the valve core rotates to the pulp discharging position and the waste discharging position, liquid can be smoothly discharged into the pulp receiving cup and the residual water box, the situation that the liquid falls outside the pulp receiving cup or the residual water box when the lateral distance between the inner wall of one side of the liquid outlet close to the rotating axis and the rotating axis is smaller than the distance between the central plane and the inner wall of the pulp receiving cup or the inner wall of the residual water box is caused, and the smooth proceeding of liquid discharging is ensured.

In a preferred implementation of the simplified food processor, the pulp discharge channel and the waste discharge channel have collinear channels communicating with each other, and the ends of the collinear channels communicate with the drain port.

The slurry discharging channel and the waste discharging channel are provided with the collinear channels which are communicated with each other, and the tail ends of the collinear channels are communicated with the liquid outlet, so that slurry can be discharged outwards through the collinear channels after the slurry is discharged through the collinear channels, the collinear channels are cleaned, the conditions of residual stains, peculiar smell and even bacteria are prevented from being generated due to the fact that slurry food materials are adhered to the collinear channels are avoided, and the cleanliness of the valve core is further ensured; on the other hand, the structure of the valve core is further simplified, and the situation that the production cost is high due to the fact that the inner structure of the valve core is complex and difficult to produce as the tail ends of the waste discharge channel and the slurry discharge channel which are arranged in the valve core are communicated with the liquid outlet is avoided.

In a preferred implementation of the simplified food processor, the waste channel has a waste outlet at the end and a waste inlet communicable with the liquid outlet, and the waste channel has a waste inlet communicable with the liquid outlet, the waste outlet communicating with the waste inlet.

Through setting up the exhaust export into with the pulp outlet intercommunication for whole pulp discharging passageway is collinearly passageway, thereby make pulp discharging passageway after accomplishing the pulp discharging, wash water just can outwards be discharged through pulp discharging passageway after passing through the exhaust passageway, realized the washing to whole pulp discharging passageway, thereby avoided being stained with the condition that the thick liquid food material leads to its remaining spot, produces peculiar smell and breeds the bacterium even in the pulp discharging passageway, further reduced dirty dead angle, promoted user's use experience. And the length of the waste discharge channel can be effectively shortened, the internal structure of the valve core is further simplified, and the production cost is reduced.

In a preferred implementation of the simplified-structure food processor, the pulp discharge channel comprises a transverse section which extends transversely and can be communicated with the liquid outlet, and a vertical section which extends vertically and is communicated with the transverse section and the liquid outlet, and the waste discharge channel extends obliquely downwards transversely and is communicated with the transverse section; or alternatively, the process may be performed,

the inner diameter of the pulp discharging channel is larger than that of the waste discharging channel.

Through setting up the pulp discharging channel to including transversely extending and can with the horizontal section of liquid outlet intercommunication and vertical section that extends and intercommunication horizontal section and leakage fluid dram, and the waste discharging passageway transversely inclines downwardly extending and with horizontal section intercommunication, namely: the transverse section slope of the waste discharge channel relative to the slurry discharge channel extends upwards, so that when the valve core is positioned at the slurry discharge position, after slurry enters the slurry discharge channel, the slurry discharge channel is communicated with the waste discharge channel, if part of slurry enters the waste discharge channel, the slurry can flow back to the slurry discharge channel under the action of gravity due to the inclined waste discharge channel, and the slurry is prevented from being wasted due to the fact that the slurry remains in the waste discharge channel.

Through setting the internal diameter of the slurry discharge channel to be greater than the internal diameter of the waste discharge channel, when being located at the slurry discharge position, the slurry can be discharged outwards through the slurry discharge more easily after entering the slurry discharge channel, so that the condition that the slurry is easier to enter the waste discharge channel after entering the slurry discharge channel due to the internal diameter of the slurry discharge channel being less than the internal diameter of the waste discharge channel is avoided, and the smooth proceeding of the slurry discharge is ensured.

In a preferred implementation of the simplified food processor, a valve sleeve is further arranged between the valve body and the valve core, the valve sleeve is provided with sealing ribs extending inwards, and when the valve core is positioned at the pulp discharging position, the sealing ribs seal the waste discharging channel; when the sealing rib is positioned at the waste discharge position, the sealing rib seals the slurry discharge channel.

The valve sleeve is further arranged between the valve body and the valve core, the valve sleeve is provided with the sealing rib extending inwards, when the valve core is positioned at the pulp discharge position, the sealing rib seals the waste discharge channel, so that when the valve core rotates to the pulp discharge position and the pulp discharge channel is communicated with the liquid outlet, pulp can be discharged outwards from the pulp discharge channel and through the liquid outlet, if the pulp discharge channel is communicated with the waste discharge channel, the pulp can spread into the waste discharge channel, and the pulp can be effectively prevented from flowing into a gap between the valve core and the valve sleeve through the waste discharge channel by virtue of the sealing effect of the sealing rib; meanwhile, when the valve core rotates to the waste discharge position and the waste discharge channel is communicated with the liquid outlet, cleaning water can be discharged outwards from the waste discharge channel and through the liquid outlet, if the waste discharge channel is communicated with the waste discharge channel, the cleaning water can spread into the waste discharge channel, and the sealing effect of the sealing rib is utilized, so that the cleaning water is effectively prevented from flowing into a gap between the valve core and the valve sleeve through the waste discharge channel, and the tightness of the liquid discharge valve is ensured.

In a preferred implementation of the simplified food processor, the waste discharge channel is provided with a waste discharge inlet which can be communicated with the liquid outlet, the pulp discharge channel is provided with a pulp discharge inlet which can be communicated with the liquid outlet, the sealing ribs comprise first sealing ring ribs and second sealing ring ribs which are circumferentially arranged at intervals, and when the valve core is positioned at the pulp discharge position, the first sealing ring ribs are abutted with the peripheral ring of the waste discharge inlet; when the second sealing ring rib is positioned at the waste discharge position, the second sealing ring rib is abutted with the peripheral ring of the slurry discharge inlet.

The sealing ribs are arranged into a first sealing ring rib and a second sealing ring rib which are circumferentially arranged at intervals, and when the valve core is positioned at the slurry discharge position, the first sealing ring rib is abutted with the peripheral ring of the waste discharge inlet; when being located the waste position, the second seal ring muscle and the peripheral circle butt of row's thick liquid entry have realized the omnidirectionally sealed to row's waste inlet and row thick liquid entry circumference, have effectively avoided the thick liquid to spill over outward through row waste inlet or the condition that wash water overflowed outward through row thick liquid inlet.

In a preferred implementation of the simplified food processor, the valve core further comprises a closing position disconnected from the liquid outlet, the valve body is provided with an induction element, the valve core is provided with an induction magnet capable of being matched with the induction element, and when the valve core is located at the closing position, the induction magnet is matched with the induction element in an alignment mode.

Through being equipped with sensing element with the valve body, the case is equipped with can with sensing element complex sensing magnet, and the case is located when closing the position, sensing magnet and sensing element counterpoint cooperation for the closing position of case realizes discernment through the counterpoint of sensing element and sensing magnet, guarantees the accuracy of position discernment, and then promotes the accuracy that the case position switched, guarantees the stability of complete machine work.

In a preferred implementation of the simplified food processor, a limit structure is further provided between the valve body and the valve core to limit the rotation of the valve core to the slurry discharge position or the waste discharge position.

Through still being equipped with limit structure between valve body and case, realize rotating the case to the limit of arranging the thick liquid position or arrange when useless position, guarantee the case and rotate the position of arranging thick liquid position or arrange the position when useless position with the help of limit structure assurance case, avoid the case to rotate the position or rotate and put in place and lead to arranging thick liquid or arrange useless unsmooth even unable condition, further guarantee the stability of arranging thick liquid and wasting discharge.

In a preferred implementation mode of the food processor with a simplified structure, the liquid discharge valve is further provided with a driving gear, the side wall of the valve core is provided with incomplete meshing teeth, the driving gear is meshed with the meshing teeth, the valve body is provided with a protruding part for accommodating the meshing teeth, the limiting structure comprises a first limiting step and a second limiting step which are arranged on the protruding part, and when the valve core is positioned at the pulp discharge position, the meshing teeth are abutted with the first limiting step; when the gear is positioned at the waste discharge position, the meshing teeth are abutted with the second limiting step.

Through being equipped with incomplete meshing tooth with the case lateral wall, drive gear and meshing tooth meshing, drive gear rotates through the meshing tooth drive case, thereby realize the case and arrange the thick liquid position and arrange the switching between the useless position, limit structure is including locating the first spacing step of bulge and the spacing step of second simultaneously, the case is located when arranging thick liquid position, meshing tooth and the spacing step butt of first, and be located when arranging the useless position, meshing tooth and the spacing step butt of second, the restriction case is located the position, avoid the case to continue to rotate, the mechanical spacing of meshing tooth and the spacing step of first spacing step or second is spacing moreover, spacing more reliable and stable, the case that can avoid spacing inefficacy to lead to rotates not in place can be avoided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a cross-sectional view of a valve cartridge in a food processor in accordance with one embodiment of the present utility model in a slurry discharge position;

fig. 2 is an enlarged view of a portion a in fig. 1;

FIG. 3 is a cross-sectional view of a drain valve with a spool in a drain position in accordance with one embodiment of the present utility model;

FIG. 4 is a cross-sectional view of the drain valve at another angle with the valve spool in the drain position in one embodiment of the present utility model;

FIG. 5 is a cross-sectional view of a valve cartridge in a food processor in accordance with one embodiment of the present utility model in a waste position;

FIG. 6 is an enlarged view of portion B of FIG. 5;

FIG. 7 is a cross-sectional view of a waste valve with a spool in a slurry discharge position in accordance with one embodiment of the present utility model;

FIG. 8 is a cross-sectional view of the waste valve at another angle with the valve spool in the slurry discharge position in one embodiment of the present utility model;

FIG. 9 is a cross-sectional view of the waste valve with the valve spool in the closed position in one embodiment of the present utility model;

FIG. 10 is a cross-sectional view of the waste valve at another angle with the valve spool in the closed position in one embodiment of the present utility model.

Reference numerals illustrate:

1-a cup body and 11-a liquid outlet; 2-a slurry receiving cup; 3-a residual water box; 4-drain valve, 41-valve core, 411-drain port, 412-slurry discharge channel, 4121-slurry discharge inlet, 413-waste discharge channel, 4131-waste discharge inlet, 4132-waste discharge outlet, 414-collinear channel, 415-engagement tooth, 42-valve body, 421-first limit step, 422-second limit step, 43-valve sleeve, 431-first seal ring rib, 432-second seal ring rib; 5-drive gear.

Detailed Description

In order to more clearly illustrate the general inventive concept, reference will be made in the following detailed description, by way of example, to the accompanying drawings.

It should be noted that in the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than as described herein, and therefore the scope of the present utility model is not limited by the specific embodiments disclosed below.

As shown in fig. 1 to 10, the present utility model provides a simplified food processor, which comprises a cup body 1 having a liquid outlet 11, a liquid discharge valve 4 arranged outside the cup body 1, a pulp receiving cup 2 and a residual water box 3 arranged below the liquid discharge valve 4, wherein the liquid discharge valve 4 comprises a valve body 2 and a valve core 41 arranged in the valve body 2, the valve core 41 moves relative to the valve body 2 to control the opening and closing of the liquid outlet 11, the bottom of the valve core 41 is provided with a liquid discharge port exposed above the pulp receiving cup 2 and the residual water box 3, the liquid discharge port 411 is arranged in a transverse offset manner relative to the rotation axis of the valve core 41, the liquid discharge port 411 does not cover the rotation axis, a pulp discharge channel 412 and a waste discharge channel 413 which are communicated with the liquid discharge port 411 are also arranged in the valve core 41, the valve core 41 can rotate to have a pulp discharge position and a waste discharge position, and when the liquid discharge valve core 41 is positioned in the pulp discharge position, the pulp discharge channel 412 is communicated with the liquid outlet 11 and the liquid discharge port 411 is communicated with the pulp receiving cup 2. When the waste water tank is positioned at the waste water discharge position, the waste water discharge channel 413 is communicated with the liquid outlet 11, and the liquid outlet 411 is communicated with the residual water box 3.

According to the utility model, the liquid outlet 411 exposed above the pulp receiving cup and the residual water box is formed at the bottom of the valve core 41, so that a structure for additionally arranging the pulp discharging nozzle and communicating with the valve core 41 to realize liquid discharging is omitted, on one hand, the structure of the whole liquid discharging valve 4 is simplified, so that pulp can be directly discharged outwards through the valve core 41, the situation that residual stains, peculiar smell and even bacteria are bred due to the fact that the pulp discharging nozzle is attached with pulp food after the pulp discharging nozzle is used for a long time due to the fact that the pulp passing through the valve core 41 is discharged outwards again through the pulp discharging nozzle is avoided, the situation that the pulp mouth is polluted to cause poor taste and even deterioration of the pulp is avoided, the cleanliness of the liquid discharging valve 4 is ensured, the dirty dead angle is reduced, and the use experience of a user is improved; on the other hand, the number of parts of the liquid discharge valve 4 is simplified, the production cost and the assembly time are reduced, the structure for driving the slurry discharge nozzle to rotate through the valve core 41 is omitted, the working stability of the whole machine is higher, and the related failure rate of the liquid discharge valve 4 is lower. Meanwhile, the liquid outlet 411 is arranged in a transversely offset mode relative to the rotation axis of the valve core 41, the liquid outlet 411 does not cover the rotation axis, the liquid outlet 411 is guaranteed to have a larger transverse movement distance, the liquid outlet 411 is further guaranteed to be switched above the pulp receiving cup 2 and the residual water box 3, meanwhile, the position switching mode is simple and reliable, and the running of the whole machine and the stability of pulp discharging are further improved.

Meanwhile, a pulp discharging channel 412 and a waste discharging channel 413 which are communicated with the liquid discharging port 411 are also arranged in the valve core 41, when the valve core 41 is positioned at a pulp discharging position, the pulp discharging channel 412 is communicated with the liquid outlet 11, and the liquid discharging port 411 is communicated with the pulp receiving cup 2, so that after a user finishes food processing by using a food processing machine, the liquid discharging port 411 of the valve core 41 rotates to be communicated with the pulp receiving cup 2, and meanwhile, the valve core 41 opens the liquid outlet 11 to enable pulp in a crushing cavity to be discharged into the pulp receiving cup 2 through the pulp discharging channel 412; when being positioned at the waste discharge position, the waste discharge channel 413 is communicated with the liquid outlet 11, and the liquid outlet 411 is communicated with the residual water box 3, namely: can carry out self-cleaning after food processor arranges thick liquid and accomplish, self-cleaning accomplishes the back, and case 41 rotates and makes leakage fluid dram 411 and surplus water box 3 intercommunication, and case 41 opens liquid outlet 11 simultaneously so that smash the washing water of intracavity and discharge into surplus water box 3 through waste discharge passageway 413, and whole food processing and self-cleaning process are more intelligent, automatic, have liberated user's both hands, can realize automatic row thick liquid and washing under the circumstances that need not the user to participate in, have promoted user's use experience. In the present utility model, when the valve element 41 is located at the pulp discharge position and the waste discharge position, the relative positions of the liquid discharge port 411 and the pulp receiving cup 2 or the waste water box 3 are not particularly limited, and may be that guide cylinders which are communicated with the inside are arranged on both the pulp receiving cup 2 and the waste water box 3, and when the valve element 41 rotates to the pulp discharge position or the waste discharge position, the liquid discharge port 411 is communicated with the guide cylinders, so that the pulp is discharged into the pulp receiving cup 2 or the cleaning water is discharged into the waste water box 3.

As a preferred embodiment of the present utility model, as shown in fig. 2, the rotation axis is located on the central plane of the inner wall of the adjacent receiving cup 2 and the inner wall of the residual water box 3, and the lateral distance of the inner wall of the side of the liquid outlet 411 near the rotation axis from the rotation axis is not smaller than the distance of the central plane from the inner wall of the receiving cup 2 or the inner wall of the residual water box 3.

Through setting the rotation axis to be located on the central plane of adjacent connect thick liquid cup 2 inner wall and surplus water box 3 inner wall for whole case 41 is located and connects directly over between thick liquid cup 2 and the surplus water box 3, thereby can make the offset distance of leakage fluid dram 411 relative rotation axis shorten, and then help reducing the lateral dimension of case 41, reduce its occupation space, help promoting the compactedness of complete machine structure. Meanwhile, the lateral distance between the inner wall of one side of the liquid outlet 411, which is close to the rotation axis, and the rotation axis is not smaller than the distance between the center plane and the inner wall of the pulp receiving cup 2 or the inner wall of the residual water box 3, so that when the valve core 41 rotates to the pulp discharging position and the waste discharging position, the liquid outlet 411 can be positioned above the pulp receiving cup 2 and the residual water box 3, and liquid can be smoothly discharged into the pulp receiving cup 2 and the residual water box 3, and the situation that the liquid falls outside the pulp receiving cup 2 or the residual water box 3 when the liquid outlet 411 discharges liquid outwards due to the fact that the lateral distance between the inner wall of one side of the liquid outlet 411, which is close to the rotation axis, and the rotation axis is smaller than the distance between the center plane and the inner wall of the pulp receiving cup 2 or the residual water box 3 is avoided.

It should be noted that, the arrangement of the liquid discharge port 411 and how the waste discharge channel 412 and the slurry discharge channel 412 are communicated with the liquid discharge port 411 are not particularly limited in the present utility model, and may be any of the following embodiments:

example 1: in this embodiment, as shown in fig. 2, a liquid discharge port 411 is provided, and a pulp discharge passage 412 and a waste discharge passage 413 are each communicated with the liquid discharge port 411.

Through setting drain 411 to one, and drain passageway 412 and waste channel 413 all communicate with drain 411 for thick liquid and washing water all can outwards be discharged through a drain 411, have simplified the transformation degree of difficulty to original case 41, help reducing transformation cost, improve production efficiency. Meanwhile, after the liquid outlet 411 is used for discharging the slurry, the cleaning water is still discharged outwards through the liquid outlet 411, so that the liquid outlet 411 can be cleaned, the situation that residual stains, peculiar smell and even bacteria are bred due to the fact that slurry food materials are adhered to the liquid outlet 411 is avoided, and the cleanliness of the valve core 41 is further guaranteed.

Further, as shown in fig. 6, the pulp discharge passage 412 and the waste discharge passage 413 have a collinear passage 414 communicating with each other, and the end of the collinear passage 414 communicates with the liquid discharge port 411.

By arranging the slurry discharging channel 412 and the waste discharging channel 413 to be provided with the collinear channel 414 which are mutually communicated, and the tail end of the collinear channel 414 is communicated with the liquid discharging port 411, on one hand, the collinear channel 414 exists between the slurry discharging channel 412 and the waste discharging channel 413, so that after the slurry is discharged through the collinear channel 414 during the slurry discharging, cleaning water can be discharged outwards through the collinear channel 414, the collinear channel 414 is cleaned, the situation that residual stains, peculiar smell and even bacteria are bred due to the fact that slurry food materials are adhered in the collinear channel 414 is avoided, and the cleanliness of the valve core 41 is further ensured; on the other hand, the structure of the valve core 41 is further simplified, and the situation that the waste discharge channel 413 and the tail end of the slurry discharge channel 412 which are arranged in the valve core 41 are communicated with the liquid discharge port 411 to cause the high production cost due to the complex internal structure of the valve core 41 is avoided.

It should be further noted that, in the present utility model, how the slurry discharge channel 412 and the waste discharge channel 413 are in communication is not particularly limited, and as a preferred embodiment of this embodiment, as shown in fig. 3 and 7, the waste discharge channel 413 has a waste discharge outlet 4132 at the end and a waste discharge inlet 4131 that can be in communication with the liquid outlet 11, and the slurry discharge channel 412 has a slurry discharge inlet 4121 that can be in communication with the liquid outlet 11, and the waste discharge outlet 4132 is in communication with the slurry discharge inlet 4121.

Through setting up exhaust outlet 4132 to with the pulp inlet 4121 intercommunication for whole pulp passage 412 is collinearly passageway 414, thereby make pulp passage 412 after accomplishing the pulp discharge, wash water just can outwards discharge through pulp passage 412 after passing through exhaust passageway 413, the washing of whole pulp passage 412 has been realized, thereby the condition that the attached thick liquid food material in the pulp passage 412 leads to its residual spot, produces peculiar smell and breeds the bacterium even has been avoided, further reduced dirty dead angle, promote user's use experience. And the length of the waste discharging passage 413 can be effectively shortened, the internal structure of the valve core 41 can be further simplified, and the production cost can be reduced.

As a preferred implementation of this embodiment, as shown in fig. 3, the pulp discharge channel 412 includes a lateral section extending laterally and communicable with the liquid outlet 11, and a vertical section extending vertically and communicable with the lateral section and the liquid discharge port 411, and the waste discharge channel 413 extends laterally obliquely downward and communicates with the lateral section.

By arranging the pulp discharge passage 412 to include a lateral section that extends laterally and can communicate with the liquid outlet 11 and a vertical section that extends vertically and communicates the lateral section with the liquid discharge port 411, and the waste discharge passage 413 extends laterally obliquely downward and communicates with the lateral section, namely: the waste discharge channel 413 extends obliquely upwards relative to the transverse section of the waste discharge channel 412, so that when the valve core 41 is positioned at the slurry discharge position, after the slurry enters the waste discharge channel 412, as the slurry discharge channel 412 is communicated with the waste discharge channel 413, if part of the slurry enters the waste discharge channel 413, the slurry can flow back into the slurry discharge channel 412 under the action of gravity due to the inclined waste discharge channel 413, and the condition that the slurry is wasted due to the residue of the slurry in the waste discharge channel 413 is avoided.

As a preferred embodiment of this example, the inner diameter of the discharge passage 412 is larger than the inner diameter of the discharge passage 413.

Through setting the internal diameter of the slurry discharge channel 412 to be larger than the internal diameter of the waste discharge channel 413, when the valve core 41 is positioned at the slurry discharge position, slurry can be discharged outwards through the slurry after entering the slurry discharge channel 412 more easily, the condition that the slurry is easier to enter the waste discharge channel 413 after the slurry is discharged into the slurry discharge channel 412 due to the fact that the internal diameter of the slurry discharge channel 412 is smaller than the internal diameter of the waste discharge channel 413 is avoided, and smooth slurry discharge is ensured.

Example 2: in this embodiment, the drain 411 includes a first drain and a second drain, the pulp discharge passage 412 communicates with the first drain, and the waste discharge passage 413 communicates with the second drain.

By arranging the first liquid outlet communicated with the pulp discharging channel 412 and the second liquid outlet communicated with the waste discharging channel 413, when the pulp discharging device is positioned at a pulp discharging position, pulp is discharged into the pulp receiving cup 2 through the first liquid outlet when pulp is discharged outwards through the pulp discharging channel 412, and meanwhile, when the pulp discharging device is positioned at a waste discharging position, cleaning water is discharged into the residual water box 3 through the second liquid outlet when cleaning water is discharged outwards through the waste discharging channel 413, so that pulp discharging and waste discharging of each liquid outlet are clear.

It should be further noted that, in this embodiment, only one of the first liquid outlet and the second liquid outlet may be offset with respect to the rotation axis, specifically, if the first liquid outlet coincides with the rotation axis of the valve core 41, and the second liquid outlet does not coincide with the rotation axis of the valve core 41, the slurry receiving cup 2 is located directly under the first liquid outlet, and the waste water box 3 is located directly under the position where the second liquid outlet 411 is located when the valve core 41 rotates to the waste water discharge position; of course, when the positions of the first liquid outlet and the second liquid outlet are not coincident with the rotation axis of the valve core 41, the pulp receiving cup 2 is located under the position of the first liquid outlet when the valve core 41 rotates to the pulp discharging position, and the residual water box 3 is located under the position of the second liquid outlet when the valve core 41 rotates to the waste discharging position.

As a preferred embodiment of the present utility model, as shown in fig. 3 and 7, a valve sleeve 43 is further arranged between the valve body 2 and the valve core 41, the valve sleeve 43 is provided with a sealing rib extending inwards, and when the valve core 41 is positioned at the slurry discharging position, the sealing rib seals the waste discharging channel 413; when in the waste position, the sealing ribs seal the slurry discharge channel 412.

By arranging the valve sleeve 43 between the valve body 2 and the valve core 41, the valve sleeve 43 is provided with a sealing rib extending inwards, and when the valve core 41 is positioned at the slurry discharge position, the sealing rib seals the waste discharge channel 413, so that when the valve core 41 rotates to the slurry discharge position and the slurry discharge channel 412 is communicated with the liquid outlet 11, slurry can be discharged outwards from the slurry discharge channel 412 and through the liquid outlet 411, if the slurry discharge channel 412 is communicated with the waste discharge channel 413, the slurry can spread into the waste discharge channel 413, and the slurry is effectively prevented from flowing into a gap between the valve core 41 and the valve sleeve 43 through the waste discharge channel 413 by virtue of the sealing effect of the sealing rib; meanwhile, when the valve core 41 is positioned at the waste discharge position, the sealing rib seals the pulp discharge channel 412, so that when the valve core 41 rotates to the waste discharge position and the waste discharge channel 413 is communicated with the liquid outlet 11, cleaning water can be discharged outwards from the waste discharge channel 413 and through the liquid outlet 411, if the pulp discharge channel 412 is communicated with the waste discharge channel 413, the cleaning water can spread into the pulp discharge channel 412, and the cleaning water is effectively prevented from flowing into a gap between the valve core 41 and the valve sleeve 43 through the pulp discharge channel 412 by means of the sealing effect of the sealing rib, so that the tightness of the liquid discharge valve 4 is ensured.

Further, as shown in fig. 3 and 7, the waste discharge channel 413 has a waste discharge inlet 4131 capable of communicating with the liquid outlet 11, the slurry discharge channel 412 has a slurry discharge inlet 4121 capable of communicating with the liquid outlet 11, the sealing ribs include a first sealing ring rib 431 and a second sealing ring rib 432 which are circumferentially spaced apart, and when the valve core 41 is located at the slurry discharge position, the first sealing ring rib 431 abuts against the circumference of the waste discharge inlet 4131; when the sealing ring is at the waste discharge position, the second sealing ring rib 432 abuts against the circumference of the slurry discharge inlet 4121.

By arranging the sealing ribs as a first sealing ring rib 431 and a second sealing ring rib 432 which are arranged at intervals in the circumferential direction, and when the valve core 41 is positioned at the slurry discharge position, the first sealing ring rib 431 is abutted with the circumferential ring of the waste discharge inlet 4131; when the slurry discharge device is positioned at the waste discharge position, the second sealing ring rib 432 is abutted with the circumference of the slurry discharge inlet 4121, so that the circumferential omnibearing sealing of the waste discharge inlet 4131 and the slurry discharge inlet 4121 is realized, and the condition that slurry overflows outwards through the waste discharge inlet 4131 or cleaning water overflows outwards through the slurry discharge inlet 4121 is effectively avoided.

As a preferred embodiment of the present utility model, as shown in fig. 9 and 10, the valve core 41 further includes a closing position disconnected from the liquid outlet 11, the valve body 2 is provided with a sensing element, the valve core 41 is provided with a sensing magnet capable of being matched with the sensing element, and when the valve core 41 is located at the closing position, the sensing magnet is matched with the sensing element in an alignment manner.

Through being equipped with sensing element with valve body 2, case 41 are equipped with can with sensing element complex sensing magnet, and case 41 is located when closing the position, and sensing magnet and sensing element counterpoint cooperation for the closing position of case 41 is through sensing element and sensing magnet's counterpoint cooperation realization discernment, guarantees the accuracy of position discernment, and then promotes the accuracy that case 41 position switched, guarantees the stability of complete machine work.

As a preferred embodiment of the present utility model, as shown in fig. 4 and 8, a limiting structure is further provided between the valve body 2 and the valve core 41 to limit the rotation of the valve core 41 to the slurry discharge position or the waste discharge position.

Through still being equipped with limit structure between valve body 2 and case 41, realize the spacing when rotating to the case 41 and arrange thick liquid position or exhaust the position, guarantee the case 41 and rotate to arrange thick liquid position or arrange the position when arranging the position with the help of limit structure and guarantee the place of case 41, avoid case 41 to rotate the position or rotate and put in place and lead to arranging thick liquid or arrange useless unsmooth even unable condition, further guarantee the stability of arranging thick liquid and wasting discharge.

It should be noted that, the limit structure is not specifically limited, as a preferred embodiment of the present utility model, as shown in fig. 4 and 8, the liquid discharge valve 4 is further provided with a driving gear 5, the side wall of the valve core 41 is provided with incomplete meshing teeth 415, the driving gear 5 is meshed with the meshing teeth 415, the valve body 2 is provided with a protruding portion for accommodating the meshing teeth 415, the limit structure includes a first limit step 421 and a second limit step 422 provided on the protruding portion, and when the valve core 41 is located at the slurry discharge position, the meshing teeth 415 are abutted against the first limit step 421; when in the waste position, the engaging teeth 415 are abutted with the second limiting step 422.

Through be equipped with incomplete meshing tooth 415 with case 41 lateral wall, drive gear 5 and meshing tooth 415 meshing, make drive gear 5 rotate and be able to drive case 41 through meshing tooth 415 and rotate, thereby realize case 41 and arrange thick liquid position and the switching between the waste position, limit structure is including locating the first spacing step 421 and the second spacing step 422 of bulge simultaneously, case 41 is located when arranging thick liquid position, meshing tooth 415 and first spacing step 421 butt, and be located when arranging the waste position, meshing tooth 415 and the spacing step 422 butt of second, limit case 41 place, avoid case 41 to continue to rotate, and the mechanical spacing of meshing tooth 415 and first spacing step 421 or the spacing step 422, spacing is more reliable stable, the case that case 41 rotation that can avoid spacing inefficacy to lead to is not in place.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "vertical", "inner", "circumferential", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

The description as it relates to "first", "second", etc. in the present utility model is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature.

The technical solution protected by the present utility model is not limited to the above embodiments, and it should be noted that, the combination of the technical solution of any one embodiment with the technical solution of the other embodiment or embodiments is within the scope of the present utility model. While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (10)

1. The utility model provides a food processor of simplified structure, includes the cup that has the liquid outlet, sets up the flowing back valve in the cup outside and set up connect thick liquid cup and surplus water box below the flowing back valve, the flowing back valve include the valve body with install in the valve body the case, the case relatively the valve body motion is in order to control the switching of liquid outlet, its characterized in that, the liquid outlet that exposes in connect thick liquid cup and surplus water box top is seted up to the case bottom, the liquid outlet transversely offset setting relative to the rotation axis of case, just the liquid outlet does not cover the rotation axis, still be equipped with in the case with liquid outlet intercommunication drain passageway and waste water drain passageway, the case rotatable in order to have and arrange thick liquid position and waste water position, when being located in the thick liquid position, liquid drain passageway with liquid outlet intercommunication and liquid outlet with connect thick liquid cup intercommunication; when the waste water box is positioned at the waste water discharge position, the waste water discharge channel is communicated with the liquid outlet, and the liquid outlet is communicated with the waste water box.

2. The simplified food processor as in claim 1, wherein said axis of rotation is located on a central plane of adjacent said inner wall of said receiving cup and said inner wall of said waste water box, and wherein a lateral distance of an inner wall of said drain adjacent said axis of rotation from said axis of rotation is not less than a distance of said central plane from said inner wall of said receiving cup or said inner wall of said waste water box.

3. The simplified food processor as set forth in claim 1, wherein said pulp discharge channel and said waste discharge channel have collinear channels communicating with each other, ends of said collinear channels communicating with said drain.

4. A simplified food processor according to claim 3, wherein the waste channel has a waste outlet at a distal end and a waste inlet communicable with the liquid outlet, the waste channel having a waste inlet communicable with the liquid outlet, the waste outlet communicating with the waste inlet.

5. A simplified food processor according to claim 3 wherein the pulp discharge channel comprises a transverse section extending transversely and communicating with the liquid outlet and a vertical section extending vertically and communicating the transverse section with the liquid outlet, the waste discharge channel extending obliquely laterally and downwardly and communicating with the transverse section; or alternatively, the process may be performed,

the inner diameter of the pulp discharging channel is larger than that of the waste discharging channel.

6. The simplified food processor as set forth in claim 1, wherein a valve sleeve is further provided between said valve body and said valve core, said valve sleeve being provided with inwardly extending sealing ribs, said sealing ribs sealing said waste discharge passage when said valve core is in said slurry discharge position; when the sealing rib is positioned at the waste discharge position, the sealing rib seals the pulp discharge channel.

7. The simplified food processor of claim 6 wherein said waste channel has a waste inlet communicable with said liquid outlet, said seal bars include first and second seal ring bars circumferentially spaced apart, said first seal ring bar abutting a perimeter of said waste inlet when said valve cartridge is in said discharge position; when being located the waste discharge position, the second seal ring rib is in butt joint with the circumference of the slurry discharge inlet.

8. The simplified food processor of claim 1 wherein said valve cartridge further comprises a closed position in communication with said outlet, said valve body having a sensing element, said valve cartridge having a sensing magnet engageable with said sensing element, said sensing magnet being in alignment with said sensing element when said valve cartridge is in said closed position.

9. The simplified food processor of claim 1 wherein a limit structure is further provided between said valve body and said valve core to limit rotation of said valve core to either said slurry discharge position or said waste discharge position.

10. The simplified food processor as set forth in claim 9, wherein said drain valve further includes a drive gear, said valve core side wall includes incomplete teeth, said drive gear engages said teeth, said valve body includes a projection for receiving said teeth, said stop structure includes a first stop step and a second stop step provided on said projection, said teeth abutting said first stop step when said valve core is in said slurry drain position; when being located the waste discharge position, the meshing tooth with the second spacing step butt.