CN218651520U - Food processor capable of automatically feeding - Google Patents

Abstract

The utility model discloses a but food preparation machine of automatic feeding, relate to life electrical apparatus field, food preparation machine includes the organism, locate the organism and have the cup of smashing the chamber and set up the motor in the cup bottom, the cup outside still is equipped with heating element, food preparation machine still includes automatic feeding device and locates the lower feed bin of cup top, the unloading storehouse has the unloading chamber that the chamber and automatic feeding device were smashed in the intercommunication, the unloading storehouse includes feed bin upper cover and feed bin lower cover, unloading chamber shaping in feed bin upper cover, the feed bin lower cover is located the feed bin upper cover outside in order to form between the two with the heating chamber of smashing the chamber intercommunication, through setting up the heating chamber with smashing the chamber intercommunication, the material in the unloading chamber preheats under the heating effect of the well steam in heating chamber, make the material fall into when smashing the chamber and just have certain intensification, thereby the time of heating in aqueous has been shortened, edible material processing's consuming time has been shortened, edible material machining efficiency has been improved.

Description

Food processor capable of automatically feeding

Technical Field

The utility model relates to a life electrical apparatus technical field, concretely relates to but automatic feeding's food preparation machine.

Background

The existing food processor usually comprises a machine body, a cup body which is arranged on the machine body and is provided with a crushing cavity and a motor which is arranged at the bottom of the cup body, wherein a rotating shaft driven by the motor penetrates through the bottom wall of the cup body and extends into the cup body, the tail end of the rotating shaft is provided with a crushing device, a user puts materials into the crushing cavity firstly when using the food processor to process food materials, then the processing realized by means of the high-speed rotation of the crushing device is realized, but the food processor needs the user to manually and automatically add materials into the crushing cavity, and the operation is very inconvenient.

In order to facilitate discharging, the automatic feeding device is provided, and the specific structure comprises a base provided with a mounting platform, a supporting seat arranged above the mounting platform in a rotatable mode, a storage bin arranged above the supporting seat in a detachable mode, and a material receiving bin arranged below the mounting platform in a rotatable mode, wherein the storage bin comprises a material containing cavity, and materials in the material containing cavity are transferred to a crushing cavity through a discharging assembly. But above-mentioned automatic feeding device is when transporting the material, the unloading subassembly is direct to transport the material to smashing the intracavity from flourishing material chamber, nevertheless in order to improve the output taste of thick liquid, generally can add the material to smashing the chamber again after can will smashing the cup internal water heating to rated temperature, thereby lead to only can just carrying out the material loading at the automatic feeding device of smashing after the cup heating is accomplished, cause the time of eating material processing to prolong greatly, and the material is great with the difference in temperature of smashing the cup internal water when transporting to smashing the intracavity from flourishing material chamber, need process after having heated the material earlier, the process time of eating the material has further been prolonged, seriously influence consumer's use and experience.

Disclosure of Invention

An object of the utility model is to provide a but automatic feeding's food preparation machine for solve the problem of current food preparation machine edible material process time overlength.

In order to realize the above-mentioned purpose, the utility model provides a but food preparation machine of automatic feeding, which comprises a bod, locate the organism and have the cup of smashing the chamber and set up the motor in the cup bottom, the diapire that runs through the cup by motor drive's pivot stretches into in the cup, the pivot end is equipped with reducing mechanism, the cup outside still is equipped with heating element, food preparation machine still includes automatic feeding device and locates the lower feed bin of cup top, the unloading storehouse has the unloading chamber that the chamber and automatic feeding device were smashed to the intercommunication, the unloading storehouse includes feed bin upper cover and feed bin lower cover, unloading chamber shaping is in the feed bin upper cover, the feed bin lower cover is located the feed bin upper cover outside in order to form between the two and smash the heating chamber of chamber intercommunication.

This application is through still including automatic feeding device and the feed bin of locating the cup top with food preparation machine setting, and feed bin has the unloading chamber that the chamber and automatic feeding device were smashed to the intercommunication, make the user when using food preparation machine, make the material can enter into the unloading chamber automatically through automatic feeding device, again from unloading chamber transport to smashing the chamber in eat material processing, accomplish automatic feeding, user's both hands have been liberated, the user need not to smash reinforced in the chamber by oneself, food preparation machine's intellectuality and automation have been improved, joyful user uses and has experienced. And unloading chamber volume is fixed, and then can realize the measurement of material, the accuracy nature of material volume when guaranteeing the unloading to promote the proportion between each batching of eating material processing man-hour, improve the taste of output thick liquid.

Meanwhile, the lower feed bin is arranged to comprise a feed bin upper cover and a feed bin lower cover, the lower feed cavity is formed in the feed bin upper cover, the feed bin lower cover is sleeved outside the feed bin upper cover to form a heating cavity communicated with the crushing cavity, on one hand, after the materials are transferred to the lower feed cavity from the automatic feeding device, water in the crushing cavity generates more steam due to the heating of the heating assembly, the steam can rise into the heating cavity, the materials in the lower feed cavity are preheated under the heating action of the medium steam in the heating cavity, so that the materials are heated to a certain extent when falling into the crushing cavity, and the heating time in the water is shortened; on the other hand, when automatic feeding device transported the material to the unloading chamber, smash the cup and can heat in step to after the heating is accomplished, the material in the unloading chamber falls into and smashes the chamber, the transportation of material goes on simultaneously with the heating of smashing the cup, has saved and has carried out the time of unloading again after heating rated temperature with smashing the chamber normal water, has shortened consuming time of edible material processing greatly, has improved edible material machining efficiency, has promoted user's use and has experienced. Meanwhile, the energy utilization efficiency is effectively improved, the power consumption is reduced, and the energy conservation and emission reduction are realized.

In a preferred implementation mode of the food processor capable of automatically feeding, a movable sealing piece is arranged between the feeding cavity and the crushing cavity, the sealing piece is provided with a preheating position and a feeding position, when the sealing piece is positioned at the preheating position, the crushing cavity is disconnected from the feeding cavity, and the heating assembly works to enable steam to be generated in the crushing cavity and enter the heating cavity to heat materials in the feeding cavity; when the material feeding device is positioned at the material feeding position, the crushing cavity is communicated with the material feeding cavity so that the material falls into the crushing cavity.

Through be equipped with mobilizable sealing member between unloading chamber and crushing chamber, and the sealing member has preheating position and unloading position, promptly: after the materials are transferred to the blanking cavity from the automatic feeding device, the materials cannot directly fall into the crushing cavity from the blanking cavity, but are temporarily stored in the blanking cavity under the sealing action of the sealing piece, so that on one hand, the materials can be preheated, the materials have enough time to be heated, and the water in the crushing cavity is switched to a blanking position after being heated to a rated temperature, so that the blanking is realized; on the other hand, the volume of the blanking cavity is fixed, and the metering of materials can be realized, so that the accuracy of the material quantity in the blanking process is ensured, and the condition that the material is not accurately added due to the fact that the material directly falls into the crushing cavity and the material quantity cannot be metered in the blanking cavity is avoided.

In a preferred implementation mode of the food processor capable of automatically feeding, the sealing element comprises a fixing part and a sealing part, wherein the fixing part is fixedly clamped between the upper cover and the lower cover of the storage bin, the sealing part is connected with the fixing part, and an air-permeable gap for communicating the crushing cavity and the heating cavity is further arranged between the fixing part and the sealing part.

Through the sealing part that is fixed in the fixed part between feed bin upper cover and the feed bin lower cover and is connected with the fixed part including pressing from both sides the dress with the sealing member, realize that the installation of sealing member is spacing, saved and established the operation that adapting unit fixed the sealing member in addition, simplified the installation step of sealing member. Simultaneously, still be equipped with the ventilation gap that the chamber and heating chamber were smashed in the intercommunication between fixed part and the sealing, guarantee to smash intracavity steam and can enter into the heating intracavity through ventilation gap and preheat the material in the unloading chamber.

In a preferred implementation mode of the food processor capable of automatically feeding, a temperature sensor used for detecting the temperature of materials is arranged in the discharging cavity, the sealing element is also in transmission connection with a driving motor, and the driving motor can drive the sealing element to be switched to a discharging position according to the data of the temperature sensor.

Through being equipped with the temperature sensor who is used for detecting the material temperature at the unloading intracavity, and the sealing member still the transmission is connected with driving motor, and driving motor can switch to the unloading position according to temperature sensor data drive sealing member for after the material is heated to rated stability in the unloading chamber, temperature sensor gives driving motor with data transmission, and driving motor alright control sealing member switches to the unloading position, in order to accomplish the unloading, guarantees the reliability that the material was transported.

In a preferred implementation of the food processor with automatic feeding, the blanking bin is further provided with a suction hole and a blanking hole which are communicated with the blanking cavity and the automatic feeding device.

The suction hole and the blanking hole which are communicated with the blanking cavity and the automatic feeding device are further formed in the blanking bin, so that a user can suck air through the automatic feeding device to enable the blanking cavity to form negative pressure when using the food processing machine, materials in the automatic feeding device are sucked into the blanking cavity under the action of suction to finish the transfer of the materials, negative pressure feeding is achieved, feeding efficiency is improved, and time consumption of food material processing is further shortened.

In a preferred realization of the automatically loadable food processor, the seal is configured to act under the effect of a pressure difference between the discharge chamber and the comminution chamber for switching between the discharge position and the pre-heating position.

By configuring the seal to act under the action of the pressure difference between the blanking chamber and the crushing chamber to switch between a blanking position and a preheating position, namely: when the automatic feeding device sucks air, negative pressure is formed in the blanking cavity, so that pressure difference is formed between the blanking cavity and the crushing cavity, and the blanking cavity is sealed by the sealing element under the gas pressure in the crushing cavity; after automatic feeding device stopped breathing in, the weight of sealing member top material acted on the sealing member, lead to sealing member top pressure to be greater than the pressure of smashing the intracavity gas to the sealing member below, so that the sealing member switches to unloading position, and then accomplish the unloading, realize the switching of sealing member position with the help of the pressure differential between unloading chamber and the crushing chamber, the position switches reliably more high-efficiently, and need not to set up drive arrangement drive sealing member, whole spare part has been saved, the complete machine structure has been simplified, help reduction in production cost.

In a preferred embodiment of the automatically loadable food processor, the sealing element comprises a fastening portion and a sealing portion connected to the fastening portion, the sealing portion being tiltable relative to the fastening portion in a vertical direction under the effect of a pressure difference, such that the sealing portion seals the discharge chamber or communicates the discharge chamber with the comminuting chamber.

Through the sealing part that includes the fixed part with the sealing member and be connected with the fixed part, the sealing part can overturn from top to bottom at pressure differential effect relative fixed part, promptly: when the air suction device sucks air, negative pressure is formed in the blanking cavity, so that pressure difference is formed between the blanking cavity and the crushing cavity, and the sealing part is turned upwards under the pressure of the blanking cavity to seal the blanking cavity; after automatic feeding device stopped breathing in, the weight of sealing member top material acted on the sealing member, and the sealing part overturns downwards under the action of material gravity so that unloading chamber and crushing chamber intercommunication realize the unloading, and simple structure helps reduction in production cost, and operational reliability is high simultaneously, has promoted the stability of whole operation.

In a preferred implementation of the food processor capable of automatically feeding, a material blocking structure is arranged between the air suction hole and the discharging hole to prevent the material from entering the air suction hole.

Through being equipped with between suction hole and unloading hole and keeping off the material structure, when making automatic feeding unit breathe in, the material that inhales the unloading intracavity from the unloading hole can stop to the suction hole removal under keeping off blocking of material structure, prevent that it from inhaling in the suction hole, thereby effectively avoided the material to inhale and lead to the suction hole to breathe in smoothly not smooth even blockking up in the suction hole, cause the condition that the material can't inhale unloading chamber, and then cause the interruption of complete machine edible material processing, guarantee switching on of suction hole, improve the stability of complete machine operation.

In a preferred implementation manner of the food processor capable of automatically feeding, the blanking hole and the air suction hole are both arranged on the top wall of the blanking cavity, and the material blocking structure comprises a baffle plate which extends upwards from the bottom wall of the blanking cavity to a position between the blanking hole and the air suction hole.

Through all locating the roof in unloading chamber with unloading hole and suction hole for when the material got into the unloading chamber through the unloading hole, the material can also directly fall into the unloading chamber with the help of the action of gravity, not only can avoid the material to stop in the unloading hole, can also improve the speed of unloading, and then shortens to eat the consuming time of material processing. And the material is after inhaling the unloading chamber, and the material can be existing to gather in the bottom of unloading chamber to upwards pile up along with the increase of material, keep off the material structure and include upwards extending to the baffle between unloading hole and the suction hole from the diapire of unloading chamber, make the material at the in-process that removes to the suction hole, can directly collide with the baffle mutually, realize effectively blockking to the material, avoid the material to enter into the suction hole.

In a preferred implementation of the food processor with automatic feeding, the heating chamber is further provided with air vents communicating with the outside.

Through the bleeder vent that sets up with external intercommunication in the heating chamber for food preparation machine is eating material man-hour, smashes the steam that the intracavity produced and can outwards scatter through the bleeder vent, has avoided the feed bin to locate the cup top and lead to eating the material man-hour and smash the gaseous condition of outwards discharging in the intracavity, guarantees going on smoothly of edible material processing.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic structural diagram of a food processor according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a food processor according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of the lower bin with the seal member in the pre-heat position according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of the blanking bin with the seal in the blanking position according to an embodiment of the present invention;

fig. 5 is an exploded view of the blanking bin according to an embodiment of the present invention.

Description of reference numerals:

1-body; 2-cup body, 21-crushing cavity; 3-blanking bin, 31-blanking cavity, 32-blanking hole, 33-air suction hole, 34-baffle, 35-rib, 36-baffle plate, 37-upper cover of bin, 38-lower cover of bin, 39-heating cavity and 391-air vent; 4-automatic feeding device; 5-sealing element, 51-fixing part, 52-sealing part, 53-ventilation gap; 6, a motor; 7-a crushing device; 8-heating element.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example with reference 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 invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus, the scope of the present invention is not limited by the specific embodiments disclosed below.

As shown in fig. 1, fig. 2, fig. 3, the utility model provides a but automatic feeding's food preparation machine, which comprises a bod 1, locate organism 1 and have the cup 2 of smashing chamber 21 and set up the motor 6 in cup 2 bottom, the diapire that runs through cup 2 by motor 6 driven pivot stretches into in the cup 2, the pivot end is equipped with reducing mechanism 7, the cup 2 outside still is equipped with heating element 8, food preparation machine still includes automatic feeding device 4 and locates the lower feed bin 3 of cup 2 top, lower feed bin 3 has the lower feed chamber 31 that the intercommunication was smashed chamber 21 and automatic feeding device 4, lower feed bin 3 includes feed bin upper cover 37 and feed bin lower cover 38, lower feed chamber 31 shaping is in feed bin upper cover 37, feed bin lower cover 38 cover is located in the feed bin upper cover 37 outside with form between the two with smash the heating chamber 39 of chamber 21 intercommunication.

This application is through still including automatic feeding device 4 and locate the feed bin 3 of 2 tops of cup with food preparation machine setting, and feed bin 3 has the unloading chamber 31 that the chamber 21 and automatic feeding device 4 were smashed in the intercommunication, make the user when using food preparation machine, make the material can enter into unloading chamber 31 automatically through automatic feeding device 4, transport to smashing in the chamber 21 from unloading chamber 31 again and eat material processing, accomplish automatic feeding, user's both hands have been liberated, the user need not to be reinforced in smashing the chamber 21 by oneself, food preparation machine's intellectuality and automation have been improved, joyful user uses and has experienced. And the volume of unloading chamber 31 is fixed, and then can realize the measurement of material, the accuracy nature of material volume when guaranteeing the unloading to promote the proportion between each batching of eating material processing man-hour, improve the taste of output thick liquid.

Meanwhile, the blanking bin 3 comprises a bin upper cover 37 and a bin lower cover 38, the blanking cavity 31 is formed in the bin upper cover 37, the bin lower cover 38 is sleeved outside the bin upper cover 37 to form a heating cavity 39 communicated with the crushing cavity 21, on one hand, after the material is transferred to the blanking cavity 31 from the automatic feeding device 4, more steam is generated in the crushing cavity 21 due to the heating of the heating component 8, the steam can rise into the heating cavity 39, and the material in the blanking cavity 31 is preheated under the heating effect of the medium steam in the heating cavity 39, so that the material is heated to a certain degree when falling into the crushing cavity 21, and the heating time in the water is shortened; on the other hand, when automatic feeding device 4 transports the material to unloading chamber 31, smash the cup and heat in step to after the heating is accomplished, the material in unloading chamber 31 falls into and smashes chamber 21, the transportation of material goes on simultaneously with the heating of smashing the cup, has saved and has carried out the time of unloading again after heating rated temperature with smashing chamber 21 normal water, has shortened consuming time of edible material processing greatly, has improved edible material machining efficiency, has promoted user and has used experience. Meanwhile, the energy utilization efficiency is effectively improved, the power consumption is reduced, and the energy conservation and emission reduction are realized.

As a preferred embodiment of the present application, as shown in fig. 3 and 4, a movable sealing member 5 is disposed between the material discharging cavity 31 and the material pulverizing cavity 21, the sealing member 5 has a preheating position and a material discharging position, when in the preheating position, the material pulverizing cavity 21 is disconnected from the material discharging cavity 31 and the heating assembly 8 is operated to generate steam in the material pulverizing cavity 21 and enter the heating cavity 39 to heat the material in the material discharging cavity 31; when in the blanking position, the crushing chamber 21 communicates with the blanking chamber 31 so that the material falls into the crushing chamber 21.

By being equipped with mobilizable sealing member 5 between unloading chamber 31 and crushing chamber 21, and sealing member 5 has preheating position and unloading position, promptly: after the material is transferred to the blanking cavity 31 from the automatic feeding device 4, the material does not directly fall into the crushing cavity 21 from the blanking cavity 31, but is temporarily stored in the blanking cavity 31 under the sealing action of the sealing element 5, so that on one hand, the preheating of the material can be realized, the material has enough time to be heated, and the water in the crushing cavity 21 is switched to a blanking position after being heated to a rated temperature, so as to realize blanking; on the other hand, the measurement of material can be realized to unloading chamber 31 volume is fixed to the accuracy nature of material volume when guaranteeing the unloading avoids the material directly to fall into and smashes the chamber 21 and leads to unloading chamber 31 can't measure the material volume and lead to the inaccurate condition of material addition.

Further, as shown in fig. 3, the sealing member 5 includes a fixing portion 51 fixed between the upper lid 37 and the lower lid 38 of the bin and a sealing portion 52 partially connected to the fixing portion 51, and an air gap 53 communicating the pulverization chamber 21 and the heating chamber 39 is further provided between the fixing portion 51 and the sealing portion 52.

The sealing element 5 comprises a fixing part 51 which is clamped and fixed between the bin upper cover 37 and the bin lower cover 38 and a sealing part 52 which is partially connected with the fixing part 51, so that the installation limit of the sealing element 5 is realized, the operation of additionally arranging a connecting part to fix the sealing element 5 is omitted, and the installation step of the sealing element 5 is simplified. Meanwhile, an air permeable gap 53 for communicating the crushing cavity 21 with the heating cavity 39 is further arranged between the fixing portion 51 and the sealing portion 52, so that steam in the crushing cavity 21 can enter the heating cavity 39 through the air permeable gap 53 and preheat materials in the blanking cavity 31.

It should be noted that the present application does not specifically limit the position switching manner of the sealing member 5, and may be any one of the following embodiments:

example 1: in this embodiment, a temperature sensor for detecting the temperature of the material is arranged in the blanking cavity 31, the sealing element 5 is further connected with a driving motor 6 in a transmission manner, and the driving motor 6 can drive the sealing element 5 to be switched to a blanking position according to the data of the temperature sensor.

Through being equipped with the temperature sensor who is used for detecting material temperature in unloading chamber 31, and sealing member 5 still the transmission is connected with driving motor 6, driving motor 6 can switch to the unloading position according to temperature sensor data drive sealing member 5 for material is heated to rated stable back in unloading chamber 31, and temperature sensor gives driving motor 6 with data transmission, and driving motor 6 alright control sealing member 5 switches to the unloading position, in order to accomplish the unloading, guarantees the reliability that the material was transported.

Example 2: as shown in fig. 3, in this embodiment, the blanking chamber 3 is further provided with a suction hole 33 and a blanking hole 32 communicating the blanking chamber 31 and the automatic feeding device 4.

Through still being equipped with the suction hole 33 and the unloading hole 32 that link up unloading chamber 31 and automatic feeding device 4 at unloading storehouse 3, make the user when using food preparation machine, through breathing in of automatic feeding device 4 so that form the negative pressure in the unloading chamber 31, and the material among the automatic feeding device 4 is inhaled the transportation of unloading chamber 31 in order to accomplish the material under the suction effect, negative pressure material loading has been realized, help improving the efficiency of material loading, further shorten the consuming time of edible material processing.

Further, the packing 5 is configured to act under a pressure difference between the blanking chamber 31 and the crushing chamber 21 to switch between the blanking position and the preheating position.

By configuring the seal 5 to act under the action of the pressure difference between the blanking chamber 31 and the crushing chamber 21, to switch between the blanking position and the preheating position, namely: when the automatic feeding device 4 sucks air, negative pressure is formed in the blanking cavity 31, so that pressure difference is formed between the blanking cavity 31 and the crushing cavity 21, and the blanking cavity 31 is sealed by the gas pressure in the crushing cavity 21 through the sealing piece 5; after automatic feeding device 4 stops breathing in, the weight of 5 top materials of sealing member acts on sealing member 5, lead to 5 top pressure of sealing member to be greater than the pressure of smashing the interior gas of chamber 21 to 5 below of sealing member, so that sealing member 5 switches to the unloading position, and then accomplish the unloading, realize the switching of 5 positions of sealing member with the help of the pressure differential between unloading chamber 31 and the crushing chamber 21, the position switches reliably more high-efficient, and need not to set up drive arrangement drive sealing member 5, whole spare part has been saved, the complete machine structure has been simplified, help reducing production cost.

Further, as shown in fig. 3 and 4, the sealing member 5 includes a fixing portion 51 and a sealing portion 52 partially connected to the fixing portion 51, and the sealing portion 52 can be turned over relative to the fixing portion 51 under the action of a pressure difference, so that the sealing portion 52 seals the discharging chamber 31 or the discharging chamber 31 is communicated with the pulverizing chamber 21.

By providing the sealing member 5 with the fixing portion 51 and the sealing portion 52 partially connected to the fixing portion 51, the sealing portion 52 can be turned upside down with respect to the fixing portion 51 under the action of the pressure difference, that is: when the air suction device sucks air, negative pressure is formed in the blanking cavity 31, so that pressure difference is formed between the blanking cavity 31 and the crushing cavity 21, and the sealing part 52 is turned upwards under the pressure of the blanking cavity 31 to seal the blanking cavity 31; after automatic feeding device 4 stops breathing in, the weight of sealing member 5 top material acts on sealing member 5, and sealing 52 overturns downwards under the action of material gravity so that unloading chamber 31 and crushing chamber 21 communicate, realize the unloading, and simple structure helps reduction in production cost, and the operational reliability is high simultaneously, has promoted the stability of whole operation.

As a preferred implementation manner under this embodiment, as shown in fig. 3 and 5, a material blocking structure is provided between the air suction hole 33 and the blanking hole 32 to prevent the material from entering the air suction hole 33.

Through being equipped with the retaining structure between suction hole 33 and unloading hole 32, make automatic feeding device 4 when breathing in, the material that inhales in unloading chamber 31 from unloading hole 32 can stop to suction hole 33 and remove under the blockking of retaining structure, prevent that it from inhaling in suction hole 33, thereby effectively avoided the material to inhale lead to suction hole 33 to breathe in suction hole 33 smoothly even blockking up, cause the unable condition of inhaling unloading chamber 31 of material, and then cause the interruption of food processing of complete machine, guarantee switching on of suction hole 33, improve the stability of complete machine operation.

It should be noted that, the material blocking structure is not specifically limited in this application, and may be any one of the following embodiments:

example 1: in this embodiment, as shown in fig. 3, the blanking hole 32 and the suction hole 33 are both disposed on the top wall of the blanking cavity 31, and the baffle structure includes a baffle 34 extending upward from the bottom wall of the blanking cavity 31 to a position between the blanking hole 32 and the suction hole 33.

Through all locating unloading hole 32 and suction hole 33 the roof of unloading chamber 31 for when the material got into unloading chamber 31 through unloading hole 32, the material can also directly fall into unloading chamber 31 with the help of the action of gravity, not only can avoid the material to stop in unloading hole 32, can also improve the speed of unloading, and then shortens to eat the consuming time of material processing. And after the material is sucked into the blanking cavity 31, the material can be accumulated at the bottom of the blanking cavity 31 and stacked upwards along with the increase of the material, and the material blocking structure comprises a baffle 34 extending upwards from the bottom wall of the blanking cavity 31 to a position between the blanking hole 32 and the air suction hole 33, so that the material can directly collide with the baffle 34 in the process of moving towards the air suction hole 33, the material is effectively blocked, and the material is prevented from entering the air suction hole 33.

As a preference in this embodiment, as shown in fig. 3, the material blocking structure further includes a blocking rib 35 extending downward from the top wall of the blanking cavity 31 and being displaced from the blocking plate 34 in the axial direction of the blanking bin 3, and the blocking rib 35 is located between the air suction hole 33 and the blanking hole 32.

Through keeping off the material structure and setting up to still include the fender muscle 35 from the axial of the roof downwardly extending of unloading chamber 31 and under feed bin 3 and dislocation of baffle 34, make the material enter into unloading chamber 31 from unloading hole 32 when, if lighter material is directly inhaled to suction hole 33, the material can be directly with keeping off muscle 35 and colliding, realize effectively blockking to the material, further avoid the material to inhale to suction hole 33 in, baffle 34 and the cooperation that keeps off muscle 35, realized stopping to the all-round of material in unloading chamber 31, prevent that the material from inhaling to suction hole 33 in.

Example 2: in this embodiment, as shown in fig. 3, the baffle structure includes a baffle plate 36 covering the air suction hole 33, and the baffle plate 36 is provided with an air inlet hole communicating the air suction hole 33 with the blanking cavity 31.

Through set up into closing striker plate 36 on suction hole 33 including the lid with the striker structure, and striker plate 36 is equipped with the inlet port with suction hole 33 and unloading chamber 31 intercommunication, realizes the all-round isolation to suction hole 33 and unloading hole 32, has effectively avoided the material to inhale to suction hole 33 to do not occupy unloading chamber 31 space, make unloading chamber 31 can save more materials, reduce the number of times of unloading chamber 31 repeated unloading.

As a preferred embodiment of the present application, as shown in fig. 3, the heating cavity 39 is further provided with an air vent 391 communicating with the outside.

Through set up the bleeder vent 391 with external intercommunication at heating chamber 39 for food processing machine is eating material man-hour, smashes the steam that produces in the chamber 21 and can outwards spill through bleeder vent 391, has avoided feed bin 3 to locate 2 tops of cup and result in eating material man-hour smash the condition that the gas can not outwards discharge in the chamber 21, guarantees going on smoothly of edible material processing.

The technical solution protected by the present invention is not limited to the above embodiments, and it should be noted that the technical solution of any one embodiment is combined with the technical solution of one or more other embodiments in the protection scope of the present invention. Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. The utility model provides a but food preparation machine of automatic feeding, includes the organism, locates the organism just has the cup and the setting in crushing chamber and is in the motor of cup bottom, by motor drive's pivot is run through the diapire of cup stretches into in the cup, the pivot end is equipped with reducing mechanism, the cup outside still is equipped with heating element, a serial communication port, food preparation machine still includes automatic feeding device and locates the feed bin of cup top, feed bin has the intercommunication smash the chamber with automatic feeding device's unloading chamber, feed bin includes feed bin upper cover and feed bin lower cover, the shaping of feed bin chamber in the feed bin upper cover, feed bin lower cover is located in the feed bin upper cover outside with form between the two with the heating chamber of crushing chamber intercommunication.

2. An automatically loadable food processor according to claim 1, wherein a movable seal is provided between said discharge chamber and said grinding chamber, said seal having a preheating position and a discharge position, in said preheating position said grinding chamber being disconnected from said discharge chamber and said heating assembly being operable to generate steam within said grinding chamber and into said heating chamber to heat material within said discharge chamber; when being located the unloading level, smash the chamber with unloading chamber intercommunication makes the material fall into smash in the chamber.

3. The food processor of claim 2, wherein the sealing member comprises a fixing portion fixed between the upper cover and the lower cover of the storage bin and a sealing portion partially connected to the fixing portion, and an air-permeable gap is provided between the fixing portion and the sealing portion to communicate the pulverizing chamber and the heating chamber.

4. The food processor capable of automatically feeding according to claim 2, wherein a temperature sensor for detecting the temperature of the material is arranged in the feeding cavity, the sealing element is further connected with a driving motor in a transmission manner, and the driving motor can drive the sealing element to be switched to a feeding position according to the data of the temperature sensor.

5. The automatic feeding food processor as claimed in claim 2, wherein the discharging bin is further provided with a suction hole and a discharging hole communicating the discharging chamber with the automatic feeding device.

6. An automatically chargeable food processor as defined in claim 5, wherein said seal is configured to act under the influence of a pressure differential between said discharge chamber and said grinding chamber to switch between said discharge position and said preheat position.

7. An automatically chargeable food processor as claimed in claim 6, wherein the sealing member comprises a fixed portion and a sealing portion connected to the fixed portion, the sealing portion being tiltable relative to the fixed portion upwardly and downwardly under a pressure differential to cause the sealing portion to seal or communicate the discharge chamber with the grinding chamber.

8. An automatic loading food processor as claimed in claim 5, wherein a stop structure is provided between said suction hole and said discharge hole to prevent material from entering said suction hole.

9. The food processor capable of automatically feeding according to claim 8, wherein the blanking hole and the suction hole are both disposed on a top wall of the blanking chamber, and the blocking structure comprises a baffle plate extending upward from a bottom wall of the blanking chamber to a position between the blanking hole and the suction hole.

10. The machine of claim 1, wherein the heating chamber further comprises vents communicating with the outside.

Images