CN219613706U - Food processor with convenient liquid discharge - Google Patents

Abstract

The utility model provides a food processor with convenient liquid discharge, which relates to the technical field of food processing, and comprises: the stirring cup assembly comprises a cup body arranged on the main machine, and a liquid discharge channel is arranged at the lower end of the cup body; the air inlet assembly comprises a pump body arranged on the host machine and an inlet communicated with the aeration of the stirring cup assembly, and the inlet is positioned between the liquid discharge channel and the cup body; the liquid receiving component is oppositely arranged below the liquid discharge channel for receiving liquid; the liquid collecting device comprises a main machine and a liquid collecting component, wherein an identifiable sensing device is arranged between the main machine and the liquid collecting component, and the air inlet component is used for assisting in draining or cleaning a liquid draining channel by identifying the position of the liquid collecting component. According to the utility model, through arranging the positions of the air inlet and the liquid discharge channel, the cleaning dead angle of the pipeline is realized, and the liquid receiving component and the air inlet component are associated through the sensing device, so that the pneumatic flushing is more reliable.

Description

Food processor with convenient liquid discharge

Technical Field

The utility model relates to the technical field of food processing, in particular to a food processing machine capable of draining liquid and facilitating cleaning.

Background

Along with the development of food processing technology in the market, the existing food processor can automatically clean a cup body through stirring and flushing, but the defect that cleaning is not thorough still exists, for example, most of current washing-free food processor products are discharged through a slurry discharge pipeline, only the dead weight of slurry is relied on for diversion in the static slurry discharge process, the flow rate of the discharged liquid is limited, and residues are often easy to adhere to or deposit in the pipeline, so that the discharged liquid pipeline is difficult to clean.

In order to solve the problem of cleaning a liquid discharge pipeline, as disclosed in the prior art with the patent number of CN202221768953.9, the cleaning purpose is achieved by blowing air into a main flow channel through a fan, and although the cleaning can be carried out along the main flow channel of the liquid discharge pipeline, the problem of cleaning the pipeline is solved to a certain extent, but because the air channel is positioned at the downstream of the main flow channel, a cleaning blind area of a valve structure still exists; moreover, whether the corresponding liquid receiving cup structure exists at the outlet of the channel can not be clearly determined when the air-charging cleaning is performed, and materials can be directly blown out to the table top of the host machine when the fan is started, so that the use experience of a user is seriously affected.

Disclosure of Invention

The utility model aims to provide a food processor with convenient liquid discharge, which can respectively control an air inlet assembly to assist in pulping or cleaning a liquid discharge pipeline under different working stages through the position identification of a liquid receiving cup body.

The technical problems of the utility model are mainly solved by the following technical proposal:

a liquid-draining convenience food processor comprising: the stirring cup assembly comprises a cup body arranged on the main machine, and a liquid discharge channel is arranged at the lower end of the cup body; the air inlet assembly comprises a pump body arranged on the host machine and an inlet communicated with the aeration of the stirring cup assembly, and the inlet is positioned between the liquid discharge channel and the cup body; the liquid receiving component is oppositely arranged below the liquid discharge channel for receiving liquid; the liquid collecting device comprises a main machine and a liquid collecting component, wherein an identifiable sensing device is arranged between the main machine and the liquid collecting component, and the air inlet component is used for assisting in draining or cleaning a liquid draining channel by identifying the position of the liquid collecting component.

Further, connect the liquid subassembly to include at least that is used for connecing the first cup of thick liquid and is used for the useless second cup of row, induction system is including setting up the thick liquid signal of the supplementary flowing back of trigger inlet assembly on the first cup and setting up the washing signal that triggers inlet assembly and wash the flowing back passageway on the second cup.

Further, when the slurry discharging signal is triggered, the air inlet assembly discharges slurry after the slurry is inflated and stirred into the cup body along the leading-in port at the slurry discharging front; and/or the air inlet assembly is used for inflating and guiding the slurry to accelerate the slurry discharge along the guide inlet to the liquid discharge channel in the slurry discharge process.

Further, when the cleaning signal is triggered, the air inlet assembly is filled with air flow along the guide inlet to accelerate and drive cleaning water flow to flush the cup body and the liquid discharge channel; and/or the air inlet assembly is used for air-drying the cup body and the liquid discharge channel by filling air flow along the inlet after the cleaning wastewater is discharged.

Further, the inlet comprises a gas supply end and a liquid supply end, the pump body comprises a gas pump arranged on the host and communicated with the gas supply end and a water pump communicated with the liquid supply end, and the sensing device is used for identifying to control the gas pump and/or the water pump to work.

Further, the air inlet assembly further comprises a mixing cavity communicated with the air supply end and the liquid supply end, and a gas-liquid mixing outlet is further arranged on the opposite side of the air supply end and the liquid supply end in the mixing cavity.

Further, a drain valve is arranged in the drain channel, the drain valve comprises a valve casing fixed in the section of the drain channel, and a valve core accommodated in the valve casing, and the drain channel is controlled to be opened or closed by driving the valve core to move relatively.

Further, the air inlet assembly is arranged between the drain valve and the cup body, and the diversion tangential direction of the guide inlet is opposite to the valve core so as to clean the valve casing.

Further, the liquid draining process of the food processor comprises a pulp draining stage and a waste water draining stage, and when the pulp draining stage is carried out, the air inlet assembly is filled with air along the inlet for assisting in pulp draining; and/or, when the waste water draining stage is carried out, the air inlet assembly is filled with air and/or liquid along the inlet to assist in cleaning the liquid draining channel.

Further, the air inlet assembly comprises a first power for assisting in draining and a second power for cleaning the drain channel, wherein the first power is not higher than the second power.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model provides a food processor with convenient liquid discharge, which is characterized in that a corresponding signal on a liquid receiving cup body is identified through a sensing device between a host machine and a liquid receiving component, liquid receiving types are distinguished to realize effective regulation and control of an air inlet component, and air is filled into the cup body or a liquid discharge channel in different directions through switching the air inlet component, so that auxiliary liquid discharge in a pulp discharge stage is realized, the problem that slurry adheres to the side wall of the cup body or the liquid discharge channel to clean a user is avoided, meanwhile, the liquid discharge channel can be effectively flushed in a cleaning stage, and the phenomenon that the cup body or a pipeline accumulates slag and deposits are avoided. Further promote the inside and outside gas exchange of food processor, avoid long-term use in the cup produce the peculiar smell, influence user's use experience.

2. Through the liquid receiving component cup of different grade type, correspond to realize different grade type signal discernment, distinguish the air inlet operation of supplementary pulp discharging process and the air inlet operation of wasing the flowing back passageway, can make thick liquid misce bene in pulp discharging process to guide through the gas velocity of flow that is gentle relatively and drive the pulp discharging, both can promote thick liquid homogeneity, bring better taste, simultaneously can suitably accelerate the pulp discharging again, reduce the stickness of thick liquid and passageway, reduce the washing burden. In the cleaning process, the viscous matters on the side wall of the channel can be flushed through the large air flow rate to the greatest extent, the optimal cleaning effect is realized by matching with the cleaning water flow, and meanwhile, the cleaning process can be further performed after the cleaning process is finished, so that accumulated water inside the cup body or the pipeline is prevented from breeding bacteria.

3. The air inlet assembly is communicated with the cup body and the liquid discharge channel through the inlet, the inlet comprises an air supply end and a liquid supply end, air and/or liquid are/is respectively filled into the processing cavity in a controlled manner according to the working mode identified by the sensing device, so that the pulp discharge stage or independent air inlet auxiliary pulp discharge under the non-working stage is realized, the water inlet is matched under the cleaning stage to promote the flushing effect and the specific drying scene, the air inlet assembly is ensured to promote the liquid discharge efficiency and the cleanliness under the premise of not influencing the normal pulp making work, and the use experience of a user is increased.

4. The liquid discharge valve arranged in the liquid discharge channel can intercept the liquid discharge channel through relative movement, the internal space of the crushing cavity is closed or unblocked through the control of the host driving module, the air inlet assembly is arranged between the liquid discharge valve and the cup body, the control on the conduction direction of the air inlet assembly can be further realized, the air guide to the inside of the cup body or the air guide to the inside of the liquid discharge channel can be realized according to the actual process requirement, a driving steering structure is not required to be arranged for the air inlet assembly independently, and the process manufacturing cost is reduced. The diversion tangential direction of the guide inlet is opposite to the valve core, so that a rotating gap between the valve core and the valve shell can be further cleaned, and the cleaning problem in the valve body is solved.

5. In addition, food processor still includes reducing mechanism, in crushing slurrying in-process, the accessible host computer control air inlet unit is aerifyd to the cup is inside to stir the material, can form turbulent flow relative crushing stirring direction simultaneously to supplementary reducing mechanism whipps and smashes, with this crushing efficiency that accelerates.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the overall structure of a food processor according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a slurry discharge of an air intake assembly according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of cleaning and draining an air intake assembly according to an embodiment of the present utility model.

Icon: 1-host machine, 2-stirring cup component, 3-air inlet component, 4-liquid receiving component and 5-induction device;

21-cup body, 22-liquid discharge channel, 23-liquid discharge valve and 24-crushing device;

31-a pump body, 32-an inlet, 33-an air supply end, 34-a liquid supply end and 35-a mixing cavity;

41-first cup, 42-second cup.

Detailed Description

The terms "first," "second," "third," and the like are used merely for distinguishing between descriptions and not for indicating a sequence number, nor are they to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal," "vertical," "overhang," and the like do not denote a requirement that the component be absolutely horizontal or overhang, but rather may be slightly inclined. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "inner", "outer", "left", "right", "upper", "lower", etc., are based on directions or positional relationships shown in the drawings, or directions or positional relationships conventionally put in use of the product of the application, are merely for convenience of describing the present utility model and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "disposed," "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements.

The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings.

Fig. 1-3 are schematic views illustrating a whole structure of a food processor according to an embodiment of the utility model. The utility model provides a food processor of flowing back convenience includes host computer 1 and stirring cup subassembly 2, wherein, is provided with on the host computer 1 and can be linked together with stirring cup subassembly 2 the subassembly 3 that admits air, and stirring cup subassembly 2's below is provided with the liquid subassembly 4 that connects the thick liquid greatly, discerns the relative position that connects liquid subassembly 4 through host computer 1 to the control is admitted air subassembly 3 and is directed into the air current in stirring cup subassembly 2, so realizes that the air current carries out auxiliary processing to cavity system thick liquid and cleaning process.

Specifically, the stirring cup assembly 2 comprises a cup body 21, a liquid discharge channel 22 arranged at the bottom of the cup body 21 and a liquid discharge valve 23 for controlling the discharge of slurry, and the liquid discharge channel 22 is opened and closed by controlling the relative movement of the liquid discharge valve 23.

The liquid receiving component 4 is arranged below the liquid discharging channel 22 and comprises a first cup 41 for containing slurry and a second cup 42 for containing washing wastewater, the host computer 1 is correspondingly provided with a sensing device 5 for identifying the first cup 41 and the second cup 42, and the sensing device 5 comprises a first signal for identifying the first cup 41 and a second signal for identifying the second cup 42.

Preferably, the first cup 41 or the second cup 42 is triggered corresponding to the sensing device 5 on the host 1, so that the host 1 can drive the drain valve 23 correspondingly, and the drain channel 22 can be turned on or off, and the air inlet assembly 3 can be controlled to be started only when the sensing device 5 is triggered.

Specifically, after the first cup 41 is correspondingly placed in place, a first identification signal is triggered corresponding to the host 1, and at this time, the host 1 controls the food processor to allow a pulp discharging program to be performed after the pulp is completely made, and meanwhile, the air inlet assembly 3 can be controlled to work to assist in rapid pulp discharging; when the second cup 42 is placed in place, a second identification signal is triggered by the host 1, and the host 1 controls the food processor to allow the liquid draining process after the cleaning, and the air inlet assembly 3 is controlled to work to assist in cleaning the liquid draining channel 22.

It can be appreciated that when the first cup 41 and the second cup 42 are simultaneously placed to trigger, a user can optionally select a pulping or cleaning procedure according to actual use requirements; when neither the first cup 41 nor the second cup 42 is activated, neither of the mixing cup assembly 2 will drain outwardly.

In the process of pulping or cleaning, when the liquid discharge channel 22 is not conducted by the liquid discharge valve 23, the air inlet assembly 3 charges air into the stirring cup assembly 2 in advance, the bottom of the air cup body 21 rolls upwards to form air flow, and the air flow is used for disturbing the material, so that the slurry in the cup body is uniformly mixed, and the bottom deposition is avoided; when the liquid discharge channel 22 is rotated to the conducting position by the liquid discharge valve 23, the air inlet assembly 3 correspondingly charges the air guide direction into the liquid receiving assembly 4 so as to accelerate the flow speed of the slurry, so that the slurry can flow out quickly along the liquid discharge channel 22, and the cleaning difficulty is prevented from being increased by adhering to the side wall of the pipeline.

In the further operation process, the liquid draining procedure is carried out after the pulping or cleaning is finished, after the slurry or cleaning wastewater flows out along the liquid draining channel 22, the air inlet assembly 3 is continuously controlled to charge air into the stirring cup assembly 2, the inner wall of the cup body 21 or the liquid draining channel 22 is rapidly air-dried through the high-flow-rate air flow, the bacteria are prevented from growing due to residual water stains in the inner part, and meanwhile, the stirring cup cavity is timely ventilated, the residual peculiar smell in the food processor after the processing is avoided, and the use experience of a user is influenced by long-term use.

It should be noted that, the air charging of the air intake assembly 3 into the cup 21 or the liquid discharge channel 22 may be performed separately in a certain pulping or cleaning stage, or may be continuously switched during the relative movement of the liquid discharge valve 23.

Preferably, the air intake assembly 3 comprises a pump body 31 and an inlet 32 connected to the mixing cup assembly 2, wherein the inlet 32 is arranged between the drain valve 23 and the cup 21, in particular at a position upstream of the drain channel 22.

In one embodiment, the inlet 32 includes a gas supply end 33 and a liquid supply end 34, and the pump body 31 includes a gas pump in communication with the gas supply end 33 and a water pump in communication with the liquid supply end 34. Specifically, when the air intake is needed in the pulp discharge or waste water discharge stage, the position and type of the liquid receiving component 4 are firstly identified, the working state of the air pump can be further controlled through the host 1 after triggering, and the air intake is realized according to the start-stop state of the air pump. It will be appreciated that when water inflow assisted flushing is required, the control of the operating state of the water pump can be achieved by the sensing means 5 in a similar manner.

Preferably, the air intake assembly 3 further includes a mixing chamber 35 that may be in communication with the air supply end 33 and the liquid supply end 34. Specifically, the mixing chamber 35 is further provided with a gas-liquid mixing outlet on the opposite side to the gas supply end 33 and the liquid supply end 34, so that gas-liquid mixing can be further realized by the front-end device under the condition that the gas supply end 33 and the liquid supply end 34 work simultaneously, and a high-pressure water flow is formed to realize more efficient cleaning of the pipeline.

It should be noted that the air supply end 33 and the liquid supply end 34 may be separately communicated with the stirring cup assembly 2, and the mixing flow is directly performed inside the cup body 21 through the reasonable angle setting of the inlet 32, and the mixing cavity 35 is not particularly limited.

In yet another operation, the air supply end 33 and the liquid supply end 34 may be separately supplied without affecting the relevant procedures such as water-feeding pulping or pulp-discharging air-drying. When water is needed to enter in the pulping process, the water pump is controlled to independently guide water in the cup body 21 in a water amount ratio symmetrical to the material amount so as to meet the pulping requirement; when the liquid receiving component 4 is not detected by the sensing device 5 after the cleaning stage is finished, the air pump can be independently controlled to work, air is filled into the cup body 21 or the liquid discharging channel 22 for air drying, residual water stains inside the cup body 21 are avoided, meanwhile, the cup body 21 and the liquid discharging channel 22 can be ventilated bidirectionally, the air environment in the cavity can be timely replaced, and the whole process quality and the user experience of the product are improved.

In addition, the bottom of the cup body 21 of the stirring cup assembly 2 is provided with a drain valve 23, the drain valve 23 comprises a valve shell arranged on the section of the drain channel 22, and a valve core accommodated in the valve shell, and the valve core is driven to move relative to the section of the drain channel 22 so as to control on-off interception. It is readily contemplated that the valve element may be a translational or rotational valve component structure that translates or rotates relative to each other to control the opening or closing of the drain passage 22.

During operation, the inlet 32 is positioned tangentially opposite the valve core to direct the flow of air tangentially against the valve housing. Specifically, when the valve core moves to the position for cutting off the drain passage 22, the air flow is blocked by the valve core after the air inlet 32 is punched out, and at least part of the air flow can be continuously punched to the gap position between the valve core and the valve shell in the tangential direction, so that the deep cleaning of the gap position of the valve shell is realized, and the problem of dirt accumulation between the valve core and the valve shell relative movement gap when the drain valve 23 is used for a long time is avoided.

In a further operation, after the air flow is blocked by the liquid discharge valve 23, the reaction force of the impact is correspondingly folded back to the inside of the cup body, so that an auxiliary processing mode of air inlet to the inside of the cup body can be further realized. It can be appreciated that the stirring cup assembly 2 is further internally provided with a smashing device 24 driven by a motor, the smashing device 24 rotates at a high speed in the cavity to form a stable flow state so as to whip materials, the air inlet assembly 3 can lead air flow into the cup body 21 to disturb the materials to a certain extent, the collision efficiency of the materials and the smashing device 24 is increased, and meanwhile, the problem that the materials in the heating process are accumulated at the bottom to produce a paste bottom can be avoided.

In connection with the above embodiment, it should be noted that the air inlet assembly 3 may also correspondingly achieve different power inflation requirements according to different processing modes. Specifically, when the sensing device 5 recognizes that the first cup 41 performs the slurry discharging process, the discharge rate of the slurry can be appropriately accelerated by low-power aeration; when the sensing device 5 recognizes that the second cup 42 executes the cleaning and waste water discharging procedure, the pipeline adhesion objects can be blown out quickly through high power, and further matched with the water inlet for timely flushing.

It is understood that the air intake assembly includes a first power for assisting in draining and a second power for cleaning the drain channel, wherein the first power is no higher than the second power. When the first power is too high, the normal pulp discharging process is disturbed, so that the pulp discharging direction is uneven, and the risk of splashing in the first cup body is also caused; when the second power is too low, the flushing effect is not ideal, and residues adhered in the pipeline cannot be blown out.

It should be noted that the low power and the high power of the air intake assembly 3 are relatively speaking, and are not limited herein, and may correspond to different parameter requirements according to different types of food processor products and material types, and may also be only representative of average power under corresponding procedures, for example, intermittent aeration flushing operation or continuous variable frequency aeration flushing operation mode.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A food processor with convenient draining, comprising:

the host computer is used for controlling the operation of the host computer,

the stirring cup assembly comprises a cup body arranged on the main machine, and a liquid discharge channel is arranged at the lower end of the cup body;

the air inlet assembly comprises a pump body arranged on the host machine and an inlet communicated with the aeration of the stirring cup assembly, and the inlet is positioned between the liquid discharge channel and the cup body;

the liquid receiving component is oppositely arranged below the liquid discharge channel for receiving liquid;

the host is also provided with a sensing device for identifying the position of the liquid receiving component so as to control the start and stop of the air inlet component.

2. The food processor of claim 1, wherein the liquid receiving assembly comprises at least a first cup for receiving the liquid and a second cup for discharging the waste, and the sensing device comprises a liquid discharging signal for triggering the air inlet assembly to assist in discharging the liquid and a cleaning signal for triggering the air inlet assembly to clean the liquid discharging channel on the second cup.

3. The food processor of claim 2, wherein when the pulp discharging signal is triggered, the air inlet assembly discharges the pulp after the pulp is aerated and stirred into the cup body along the leading-in port of the pulp discharging front;

and/or the air inlet assembly is used for inflating and guiding the slurry to accelerate the slurry discharge along the guide inlet to the liquid discharge channel in the slurry discharge process.

4. The food processor of claim 2, wherein when the cleaning signal is triggered, the air inlet assembly is filled with air flow along the inlet to accelerate the cleaning water flow to flush the cup body and the liquid discharge channel;

and/or the air inlet assembly is used for air-drying the cup body and the liquid discharge channel by filling air flow along the inlet after the cleaning wastewater is discharged.

5. The food processor of claim 1, wherein the inlet comprises an air supply end and a liquid supply end, the pump body comprises an air pump arranged on the host machine and communicated with the air supply end and a water pump communicated with the liquid supply end, and the air pump and/or the water pump are/is controlled to work by the sensing device.

6. The liquid-draining convenient food processor of claim 5, wherein said air intake assembly further comprises a mixing chamber in communication with said air supply and liquid supply ends, said mixing chamber further having an air-liquid mixing outlet disposed therein on an opposite side from said air supply and liquid supply ends.

7. The food processor of claim 1, wherein the drain valve is provided in the drain passage, the drain valve comprises a valve housing fixed in the section of the drain passage, and a valve core accommodated in the valve housing, and the valve core is driven to move relatively to control the on-off of the drain passage.

8. The food processor of claim 7, wherein the air intake assembly is disposed between the drain valve and the cup, and the inlet is disposed tangentially opposite the valve core to clean the valve housing.

9. The liquid-draining convenient food processor according to claim 1, wherein the liquid-draining process of the food processor comprises a pulp draining stage and a waste water draining stage, and when the pulp draining stage is performed, the air inlet assembly is filled with air along the inlet port for assisting in pulp draining;

and/or, when the waste water draining stage is carried out, the air inlet assembly is filled with air and/or liquid along the inlet to assist in cleaning the liquid draining channel.

10. The liquid-draining convenience food processor of claim 1, wherein the air intake assembly comprises a first power for assisting in draining and a second power for cleaning the drain channel, wherein the first power is no higher than the second power.