CN214128292U - Portable multifunctional food processor - Google Patents

Abstract

The utility model discloses a portable multi-functional food preparation machine belongs to food preparation machine technical field, including host computer and executive component, be equipped with the control panel in the host computer, still include power supply and speed regulating mechanism, the power supply is located in the host computer and the electricity is connected in the control panel, power supply and speed regulating mechanism cooperation, and executive component is equipped with at least two kinds, and the different executive component of power supply accessible speed regulating mechanism drive rotates with the rotational speed interval of difference. Because each executive component's rotational speed is different, each executive component can carry out different cooking to the material and process, is favorable to the cooking function of extension organism, makes the organism can satisfy user's multiple cooking demand simultaneously. In addition, because the cooking function of the machine body is expanded, the food processing machine is beneficial to reasonably reducing the food processing machine types which need to be purchased by the user for meeting different cooking requirements, the purchasing cost of the user is reduced, and the required placing space is also beneficial to reducing.

Description

Portable multifunctional food processor

Technical Field

The utility model relates to a food preparation machine technical field especially relates to a portable multi-functional food preparation machine.

Background

With the rapid development of the small household appliance industry, the quality of life of people is continuously improved, and the requirements of kitchen cooking are more and more, such as cooking requirements of juicing, stirring, mincing, dry grinding, egg beating and the like. Small household appliances for kitchen in the market at present are generally provided with a main machine and a machined part, a power source, a circuit board, a battery and other components are arranged in the main machine, and the power source drives the machined part to rotate so as to machine materials and achieve the purpose of cooking. However, in the existing small household appliance for kitchen use, the power source can only drive the machined part to rotate within a certain specific rotating speed interval generally, and one or two machined parts are only configured on the same machine body generally, and the machine body can only meet one or two cooking requirements, so that the cooking function of the small household appliance for kitchen use is single, and the use scene is severely limited. When user's cooking demand is comparatively various, the user need purchase the different kitchen of multiple cooking function and use small household electrical appliances, and user's acquisition cost is great, and need occupy more space of placing.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects existing in the prior art, the utility model provides a portable multifunctional food processor which effectively expands the cooking function of the machine body.

In order to realize the technical purpose, the utility model provides a pair of portable multi-functional food preparation machine, including host computer and executive component, be equipped with the control panel in the host computer, portable multi-functional food preparation machine still includes power supply and speed regulating mechanism, and the power supply is located in the host computer and the electricity is connected in the control panel, and power supply and speed regulating mechanism cooperation, executive component are equipped with at least two kinds, and the different executive component of power supply accessible speed regulating mechanism drive rotates with the rotational speed interval of difference.

Preferably, the power source is provided with a first shaft end and a second shaft end, the speed regulating mechanism comprises a first speed regulating structure matched with the first shaft end and a second speed regulating structure matched with the second shaft end, and the first speed regulating structure and the second speed regulating structure are arranged in the host machine.

Preferably, the first speed regulation structure comprises a first output shaft, a first speed reduction module and a second output shaft, the first output shaft and the first shaft end are integrated, the first shaft end drives the first output shaft to rotate at a high speed, and the first shaft end drives the second output shaft to rotate at a low speed through the first speed reduction module; the second speed regulation structure comprises a second speed reduction module and a third output shaft, and the second shaft end drives the third output shaft to rotate at a medium speed through the second speed reduction module.

Preferably, the rotating speed of the first output shaft is 17000 r/min-19000 r/min; or the rotating speed of the second output shaft is 1000 r/min-1500 r/min; or the rotating speed of the third output shaft is 2500 r/min-4000 r/min.

Preferably, an identification structure is arranged between the execution component and the host, the identification structure comprises a trigger piece arranged on the execution component and an identification piece arranged on the host, the identification pieces are electrically connected to the control board, the identification pieces are provided with three output shafts which are respectively arranged corresponding to the three output shafts, and the trigger piece triggers the corresponding identification piece when the execution component is connected to the host.

Preferably, the identification piece is a reed switch, and the trigger piece is a magnet.

Preferably, the actuating components include at least two of a grinding component, a dry grinding component, a meat mincing component, a juicing component, and a dough hook, a whisk bar, and a whipped cream bar.

Preferably, the juicing assembly comprises a machine head, an extrusion cylinder and a screw rod, a third speed reduction module is arranged in the machine head, a feeding channel is arranged on the machine head, the juicing assembly is detachably connected to the bottom of the main machine, and a power source can drive the screw rod through the speed regulation mechanism and the third speed reduction module; or, the juicing assembly comprises a juice collecting cavity, a screw rod arranged in the juice collecting cavity and an upper cover covering the juice collecting cavity, the upper cover is provided with a feeding channel, the bottom of the juice collecting cavity is provided with a third speed reduction module, and the juicing assembly is detachably connected to the top of the host and can drive the screw rod through a speed regulation mechanism and the third speed reduction module.

Preferably, the host is provided with a switch button which is electrically connected with the control panel and used for starting and stopping the power source; and/or the host is provided with a gear button which is electrically connected with the control panel and is used for regulating and controlling the rotating speed of the power source.

Preferably, a battery is arranged in the host; and/or, the host is provided with a handle hole.

After the technical scheme is adopted, the utility model has the advantages of as follows:

1. the utility model provides an among the portable multi-functional cooking machine, the power supply can rotate with different rotational speed intervals through the different executive component of speed governing mechanism drive, because each executive component's rotational speed is different, each executive component can carry out different cooking processing to the material, is favorable to extending the cooking function of organism, makes the organism can satisfy user's multiple cooking demand simultaneously. In addition, because the cooking function of the machine body is expanded, the food processing machine is beneficial to reasonably reducing the food processing machine types which need to be purchased by the user for meeting different cooking requirements, the purchasing cost of the user is reduced, and the required placing space is also beneficial to reducing.

2. The first axle head and the first speed governing structure cooperation of power supply, the second axle end and the second speed governing structure cooperation of power supply rationally set up speed adjusting mechanism's concrete structure, make the power supply can pass through the different rotational speed of two kind at least rotational speed intervals of speed adjusting mechanism output, make the organism satisfy the rotational speed requirement of cooking function diversification.

3. First speed governing structure sets up first output shaft and second output shaft, and second speed governing structure sets up the third output shaft, and through first speed governing structure and second speed governing structure, the host computer can export the different rotational speed of three kinds of rotational speed intervals, and the rotational speed requirement of satisfying multiple executive component that can be fine further expands the cooking function of organism.

4. The rotational speed interval of each output shaft is rationally set up, and corresponding cooking requirement can be satisfied to the rotational speed that makes each output shaft drive correspond the executive component pivoted. First output shaft can drive corresponding executive component and carry out high-speed the rotation, can realize cooking purposes such as stirring, dry grinding. The corresponding executive component of second output shaft drive carries out the low-speed rotation, can realize beating eggs, kneading dough, beat cooking purposes such as cream. The third output shaft can drive corresponding executive component to rotate at medium speed, and cooking purposes such as juicing and meat mincing can be achieved.

5. The identification structure is additionally arranged between the execution component and the host, when the execution component is connected to the host, the identification piece arranged on the execution component triggers the corresponding identification piece on the host, at the moment, the power source is in a power-on state, so that the power source can be powered on and started on the premise that the execution component is connected to the host, and the improvement of the working safety of the body is facilitated.

6. When the magnet as the trigger is close to the reed pipe as the identification part, the reed pipe is conducted under the condition of increasing the magnetic field intensity, so that the power source is in a powered-on state, and the specific structure of the identification structure is reasonably arranged to meet the requirement of triggering identification.

7. The executive component comprises at least two of a crushing component, a dry grinding component, a meat mincing component, a juicing component, a dough kneading hook, an egg beating rod and a cream beating rod, the type of the executive component is reasonably arranged, and the machine body can better meet the diversity cooking requirements of users.

8. The juicing component is detachably connected to the bottom or the top of the host according to the specific structure of the juicing component, the power source drives the screw rod through the speed regulating mechanism and the third speed reducing module, namely, the power source drives the screw rod to rotate in a proper rotating speed interval through twice speed reduction, so that the rotating speed of the screw rod meets the juicing requirement. The third speed reduction module is utilized to reduce the output rotating speed of the speed regulating mechanism again, and a transmission mode of graded speed reduction is adopted between the power source and the screw, so that the radial size of the speed regulating mechanism and the third speed reduction module is favorably and reasonably reduced, the radial size of the host and the juicing assembly is favorably and reasonably controlled, and the machine body is convenient to carry.

9. The battery in the host can supply power to power consumption elements such as a power source and the like, so that the machine body can be used outdoors, and the applicable occasions of the machine body are effectively expanded. Under the use condition that the placing plane is not arranged, a user can stably hold the machine body through the handle hole when the machine body works, so that the machine body can normally work.

Drawings

FIG. 1 is a schematic view of the interior of a main frame of a portable multifunctional food processor according to an embodiment of the present invention;

FIG. 2 is a schematic view showing the power source and the speed adjusting mechanism of the portable multifunctional food processor according to the embodiment of the present invention;

FIG. 3 is a schematic view of a mixing assembly of a portable multifunctional food processor according to an embodiment of the present invention, when connected to a main frame;

FIG. 4 is a schematic view of a dry milling assembly of a portable multi-purpose food processor in accordance with an embodiment of the present invention;

FIG. 5 is a schematic view of a dough hook of the portable multifunctional food processor according to the embodiment of the present invention;

FIG. 6 is a schematic view of a whipping cream bar in a portable multifunctional food processor according to an embodiment of the present invention;

FIG. 7 is a schematic view of an egg-breaking bar in a portable multifunctional food processor according to an embodiment of the present invention;

FIG. 8 is a schematic view of a dry grinding assembly of a portable multi-function food processor according to an embodiment of the present invention, shown attached to a main frame;

FIG. 9 is a schematic view of the juicing module of the portable multifunctional food processor connected to the main frame according to the embodiment of the present invention;

FIG. 10 is a schematic view of a juicer assembly connected to a main unit of a portable multi-function food processor according to another embodiment of the present invention.

In the figure, 100-main unit, 110-machine shell, 111-first installation surface, 112-second installation surface, 113-third installation surface, 114-concave part, 120-handle hole, 130-first transmission joint, 140-second transmission joint, 200-control board, 300-power source, 310-first shaft end, 320-second shaft end, 410-first output shaft, 420-first speed reducing module, 421-worm wheel, 422-worm, 430-second output shaft, 440-second speed reducing module, 450-third output shaft, 511-first identification piece, 512-second identification piece, 513-third identification piece, 521-first trigger piece, 522-second trigger piece, 523-third trigger piece, 524-fourth trigger piece, 525-fifth trigger piece, 526-a sixth trigger piece, 527-a seventh trigger piece, 610-a switch button, 620-a gear button, 621-a high-speed gear button, 622-a low-speed gear button, 700-a battery, 810-a crushing assembly, 811-a crushing cup body, 812-a crushing cup cover, 813-a crushing knife, 820-a dry grinding assembly, 821-a dry grinding cup body, 822-a dry grinding cup cover, 823-a dry grinding knife, 830-a dough hook, 831-a first connecting shaft end, 840-a butter bar, 841-a second connecting shaft end, 850-an egg breaking bar, 851-a third connecting shaft end, 860-a juice extracting assembly, 861-a machine head, 862-a squeezing barrel, 863-a screw rod, 864-a third speed reducing module, 865-a feeding channel, 866-a residue receiving cup, 867-a juice receiving cup, 868-juice collecting cavity, 869-upper cover.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments. It is to be understood that the following terms "upper," "lower," "left," "right," "longitudinal," "lateral," "inner," "outer," "vertical," "horizontal," "top," "bottom," and the like are used in an orientation or positional relationship relative to one another only as illustrated in the accompanying drawings and are used merely for convenience in describing and simplifying the invention, and do not indicate or imply that the device/component so referred to must have a particular orientation or be constructed and operated in a particular orientation and therefore should not be considered as limiting the invention.

Example one

As shown in fig. 1 to 9, the embodiment of the present invention provides a portable multifunctional food processor, which comprises a main frame 100 and an executing component, wherein a control panel 200 is disposed in the main frame 100, the portable multifunctional food processor further comprises a power source 300 and a speed adjusting mechanism, the power source 300 is disposed in the main frame 100 and electrically connected to the control panel 200, the power source 300 is matched with the speed adjusting mechanism, the executing component is at least two, and the power source 300 can drive different executing components to rotate at different rotation speed intervals through the speed adjusting mechanism.

Because each executive component's rotational speed is different, each executive component can carry out different cooking to the material and process, is favorable to the cooking function of extension organism, makes the organism can satisfy user's multiple cooking demand simultaneously. In addition, because the cooking function of the machine body is expanded, the food processing machine is beneficial to reasonably reducing the food processing machine types which need to be purchased by the user for meeting different cooking requirements, the purchasing cost of the user is reduced, and the required placing space is also beneficial to reducing.

Referring to fig. 2, the power source 300 has a first shaft end 310 and a second shaft end 320, the speed-adjusting mechanism includes a first speed-adjusting structure engaged with the first shaft end 310 and a second speed-adjusting structure engaged with the second shaft end 320, and both the first speed-adjusting structure and the second speed-adjusting structure are disposed in the host 100. Specifically, the first speed regulation structure includes a first output shaft 410, a first speed reduction module 420 and a second output shaft 430, and the second speed regulation structure includes a second speed reduction module 440 and a third output shaft 450. The first shaft end 310 drives the first output shaft 410 to rotate at a high speed, the first shaft end 310 drives the second output shaft 430 to rotate at a low speed through the first speed reduction module 420, and the second shaft end 320 drives the third output shaft 450 to rotate at a medium speed through the second speed reduction module 440.

In the present embodiment, the power source 300 includes a motor and the like. To simplify the governor mechanism, the first output shaft 410 is provided integrally with the first shaft end 310, i.e., the first shaft end 310 also serves as the first output shaft 410. The first speed reduction module 420 preferably adopts a worm and gear transmission structure, the first output shaft 410 and the second output shaft 430 are vertically arranged, the first speed reduction module 420 comprises a worm wheel 421 sleeved on the first shaft end 310 and a worm 422 sleeved on the second output shaft 430, and the first shaft end is driven to reduce the speed of the second output shaft 430 by meshing between the worm wheel 421 and the worm 422, so that the second output shaft rotates at a low speed. The second reduction module 440 preferably employs a planetary gear reduction configuration, and the third output shaft 450 is disposed coaxially with the first output shaft 410.

The host 100 comprises a housing 110, a first mounting surface 111 corresponding to the first output shaft 410 is arranged at the top of the housing 110, a second mounting surface 112 corresponding to the second output shaft 430 is arranged at the side of the housing 110, and a third mounting surface 113 corresponding to the third output shaft 450 is arranged at the bottom of the housing 110. The first mounting surface 111 is provided with a concave part 114 formed by sinking, the top end of the first output shaft 410 is inserted into the concave part 114, and the top end of the first output shaft 410 is sleeved with the first transmission joint 130. The second mounting surface 112 is provided with a hole for avoiding the second output shaft 430, the tail end of the third output shaft 450 is sleeved with the second transmission joint 140, and the third mounting surface 113 is provided with a hole for avoiding the second transmission joint 140.

In order to enable the rotating speed of each output shaft to meet different cooking requirements, the rotating speed of the first output shaft 410 is 17000 r/min-19000 r/min, the rotating speed of the second output shaft 430 is 1000 r/min-1500 r/min, and the rotating speed of the third output shaft 450 is 2500 r/min-4000 r/min. In the present embodiment, the rotation speed of the first output shaft 410 is preferably set to about 18000r/min, the rotation speed of the second output shaft 430 is preferably set to about 1200r/min, and the rotation speed of the third output shaft 450 is preferably set to about 3000 r/min.

In order to improve the safety of the use of the machine body, an identification structure is provided between the actuator and the main unit 100. The identification structure comprises a trigger piece arranged on the execution component and an identification piece arranged on the host 100, the identification piece is electrically connected to the control board 200, the identification pieces are three and are respectively arranged corresponding to the three output shafts, and the trigger piece triggers the corresponding identification piece when the execution component is connected to the host 100. In this embodiment, the first recognition part 511 corresponding to the first output shaft 410 is provided on the inner wall of the first mounting surface 111, the second recognition part 512 corresponding to the second output shaft 430 is provided on the inner wall of the second mounting surface 112, and the third recognition part 513 corresponding to the third output shaft 450 is provided on the inner wall of the third mounting surface 113. Each executing component is provided with a triggering piece, the three identification pieces are arranged in parallel, and when any identification piece is triggered, the power source 300 is in a power-on state. Specifically, the identification member is preferably a reed switch, and the trigger member is preferably a magnet.

The main body 100 is provided with a switch button 610 and a gear button 620 electrically connected to the control board 200, the switch button 610 is used for starting and stopping the power source 300, and the gear button 620 is used for regulating and controlling the rotation speed of the power source 300. In this embodiment, the gear buttons 620 include a high gear button 621 and a low gear button 622.

In order to expand the application of the main body, a battery 700 is further disposed inside the main body 100, and the battery 700 can supply power to various electric components inside the main body 100, so that the main body can be used outdoors. In order to enable the machine body to work without a placing plane, the main body 100 is provided with a handle hole 120, and a user can stably hold the machine body through the handle hole 120 when the machine body works, so that the machine body can work normally.

Referring to fig. 3-9, the actuator assembly includes at least two of a size reduction assembly 810, a dry grind assembly 820, a meat grinder assembly 860, a dough hook 830, a whisk 850, a whipped cream 840, and a juicing assembly 860.

As shown in fig. 3, crushing assembly 810 includes crushing cup 811, crushing bowl cover 812 and crushing sword 813, smashes and realizes removable assecmbly through the screw-thread fit structure between cup 811 and the crushing bowl cover 812, smashes sword 813 rotatable locate on crushing bowl cover 812, smashes the bottom cover of sword 813 and is equipped with the transmission head with first transmission joint 130 complex, is equipped with first trigger 521 on the crushing bowl cover 812. When the crushing assembly 810 is mounted on the main body 100, the driving head is engaged with the first driving joint 130, the first identification member 511 is triggered by the first trigger member 521, and the power source 300 is in a power-on state. When the machine body works, the first output shaft 410 drives the crushing knife 813 to rotate at a high speed, and the materials can be broken and crushed.

As shown in fig. 4, dry grinding subassembly 820 includes dry grinding cup 821, dry grinding cup lid 822 and dry grinding cutter 823, realizes dismantling through the screw-thread fit structure between dry grinding cup 821 and the dry grinding cup lid 822 and is connected, and on dry grinding cutter 823 rotatable locate dry grinding cup lid 822, the bottom cover of dry grinding cutter 823 was equipped with the transmission head of 130 cooperations with first transmission joint, is equipped with second trigger 522 on the dry grinding cup lid 822. When the dry grinding assembly 820 is installed on the main body 100, the transmission head is engaged with the first transmission joint 130, the first identification member 511 is triggered by the second trigger member 522, and the power source 300 is in a power-on state. Organism during operation, first output shaft 410 drive dry grinding knife 823 rotates at a high speed, can carry out dry grinding to the material.

As shown in fig. 5, the dough hook 830 has a first connecting shaft end 831, a special-shaped shaft hole matching transmission structure is arranged between the first connecting shaft end 831 and the second output shaft 430, and the first connecting shaft end 831 is provided with a third triggering member 523. When the dough hook 830 is connected to the second output shaft 430, the second identification member 512 is triggered by the third trigger 523, and the power source 300 is in a power-on state. When the machine body works, the second output shaft 430 drives the dough kneading hook 830 to rotate at a low speed, so that the dough kneading purpose can be realized.

As shown in fig. 6, the whipping cream rod 840 is provided with a second connecting shaft end 841, a special-shaped shaft hole matching transmission structure is arranged between the second connecting shaft end 841 and the second output shaft 430, and a fourth trigger 524 is arranged on the second connecting shaft end 841. When the whipping cream bar 840 is connected to the second output shaft 430, the second identification member 512 is triggered by the fourth trigger 524, and the power source 300 is in an energized state. When the machine body works, the second output shaft 430 drives the whipping cream rod 840 to rotate at a low speed, so that the whipping cream can be achieved.

As shown in FIG. 7, the egg stirring rod 850 is provided with a third connecting shaft end 851, a special-shaped shaft hole matching transmission structure is arranged between the third connecting shaft end 851 and the second output shaft 430, and a fifth trigger 525 is arranged on the second connecting shaft end 841. When the egg-breaking bar 850 is connected to the second output shaft 430, the second identifier 512 is triggered by the fifth trigger 525, and the power source 300 is in an energized state. When the machine body works, the second output shaft 430 drives the egg stirring rod 850 to rotate at a low speed, so that the aim of stirring egg liquid can be fulfilled.

As shown in fig. 8, the meat mincing assembly 860 comprises a meat mincing cup 861, a meat mincing cup lid 862 and a meat mincing knife 863, wherein the meat mincing knife 863 is rotatably arranged in the meat mincing cup 861, a hole for extending the meat mincing knife 863 is arranged on the meat mincing cup lid 862, a transmission head which is arranged between the top end of the meat mincing knife 863 and the second transmission joint 140 and is matched with the second transmission joint 140, and a sixth trigger 526 is arranged on the meat mincing cup lid 862. When the meat grinder assembly is mounted on the bottom of the main body 100, the driving head is engaged with the second driving joint 140, the third identification member 513 is triggered by the sixth trigger 526, and the power source 300 is in a power-on state. When the machine body works, the third output shaft 450 drives the meat mincing knife 863 to rotate at a medium speed, so that the purpose of mincing meat can be realized.

As shown in fig. 9, the juice extracting assembly 860 includes a machine head 861, a squeezing barrel 862 and a screw 863, a third deceleration module 864 is disposed in the machine head 861, a feeding channel 865 and a seventh trigger 527 are disposed on the machine head 861, the juice extracting assembly 860 is detachably connected to the bottom of the main body 100, and the power source 300 can drive the screw 863 through the speed adjusting mechanism and the third deceleration module 864. In this embodiment, the third speed-reducing module 864 preferably adopts a planetary gear speed-reducing structure, the top end of the screw 863 is detachably and drivingly connected with the output shaft of the third speed-reducing module 864, the input shaft of the third speed-reducing module 864 is detachably and drivingly connected with the second driving joint 140, and the juice extracting assembly 860 further includes a residue receiving cup 866 detachably connected to the bottom of the squeezing barrel 862 and a juice receiving cup 867 detachably connected to the bottom of the machine head 861. When the juicing assembly 860 is coupled to the bottom of the main unit 100, the third recognition part 513 is triggered by the seventh trigger 527, and the power source 300 is in a power-on state. When the machine body works, the power source 300 drives the screw 863 to rotate through the second speed reduction structure and the third speed reduction module 864, materials enter the extruding barrel 862 through the feeding channel 865, the screw 863 is matched with the extruding barrel 862 to extrude the materials to achieve the purpose of juicing, the extruded juice of the materials flows into the juice receiving cup 867, and the slag is discharged into the slag receiving cup 866 through the slag discharge port at the bottom of the extruding barrel 862 to achieve the separation of the slag and the juice.

It is understood that a split structure may be adopted between the first output shaft 410 and the first shaft end 310, and in this case, the first output shaft 410 and the first shaft end 310 may be in transmission connection through a coupling.

It will be appreciated that other suitable deceleration configurations for the first deceleration module 420 may be used.

It is understood that other reasonable deceleration configurations may be used for the second deceleration module 440.

It is understood that the rotation speed of the first output shaft 410 can be set to any rotation speed value within 17000r/min to 19000 r/min.

It is understood that the rotation speed of the second output shaft 430 can be set to any rotation speed value within 1000r/min to 1500 r/min.

It is understood that the rotation speed of the third output shaft 450 may be set to any rotation speed value within 2500r/min to 4000 r/min.

It is understood that the identification structure may also adopt other identification structures capable of achieving the purpose of triggering, such as an identification structure in which a trigger rod is used as a triggering member and a microswitch is used as an identification member.

It is understood that the switch button 610 may also be provided in combination with the range button 620. When the high-speed button 621 is pressed, the power source 300 is energized and outputs a high rotational speed. When the low gear button 622 is pressed, the power source 300 is energized and outputs a lower speed.

Example two

The second embodiment of the present invention is an equivalent embodiment of the first embodiment, and the difference is that the structure of the juice extracting assembly 860 is different.

As shown in fig. 10, the juice extracting assembly 860 includes a juice collecting cavity 868, a screw 863 disposed in the juice collecting cavity 868, and an upper cover 869 covering the juice collecting cavity 868, wherein the upper cover 869 is provided with a feeding channel 865, a third speed reducing module 864 is disposed at the bottom of the juice collecting cavity 868, the juice extracting assembly 860 is detachably connected to the top of the main body 100, and the power source 300 can drive the screw 863 through the speed regulating mechanism and the third speed reducing module 864.

In this embodiment, a cavity is disposed at the bottom of the juice collecting cavity 868, and the third deceleration module 864 and the seventh trigger 527 are disposed in the cavity. The bottom of the screw 863 is detachably connected with the output shaft of the third speed-reducing module 864 in a transmission way, the bottom end of the side wall of the juice collecting cavity 868 is provided with a residue discharge port and a juice discharge port, and the juice extracting assembly 860 further comprises a squeezing barrel 862 matched with the screw.

In use, the main body 100 is inverted, the juicing assembly 860 is disposed at the top of the main body 100, the third identification member 513 is triggered by the seventh trigger member 527, and the power source 300 is in a power-on state. When the machine body works, the power source 300 drives the screw 863 to rotate through the second speed reducing structure and the third speed reducing module 864, materials enter the extruding barrel 862 through the feeding channel 865, the screw 863 is matched with the extruding barrel 862 to extrude the materials to achieve the purpose of juicing, the materials are extruded juice and are discharged out of the juice collecting cavity through the juice discharging port, and residues are discharged out of the juice collecting cavity through the residue discharging port.

The other structures of the second embodiment are the same as those of the first embodiment, and are not described in detail here.

It will be appreciated that the barrel 862 may be integral with the juice collection lumen 868.

In addition to the above preferred embodiments, the present invention has other embodiments, and those skilled in the art can make various changes and modifications according to the present invention without departing from the spirit of the present invention, which should fall within the scope defined by the appended claims.

Claims (10)

1. The utility model provides a portable multi-functional food preparation machine, includes host computer and executive component, is equipped with the control panel in the host computer, its characterized in that, portable multi-functional food preparation machine still includes power supply and speed adjusting mechanism, and the power supply is located in the host computer and the electricity is connected in the control panel, power supply and speed adjusting mechanism cooperation, and executive component is equipped with at least two kinds, and power supply accessible speed adjusting mechanism drive different executive component rotates with the rotational speed interval of difference.

2. A portable multifunction food processor as defined in claim 1, wherein said power source has a first axial end and a second axial end, the speed adjustment mechanism including a first speed adjustment structure cooperating with the first axial end and a second speed adjustment structure cooperating with the second axial end, the first and second speed adjustment structures being disposed within the host machine.

3. The portable multi-function food processor of claim 2 wherein the first speed adjustment structure includes a first output shaft, a first speed reduction module and a second output shaft, the first output shaft being integral with the first shaft end and the first shaft end driving the first output shaft for high speed rotation, the first shaft end driving the second output shaft for low speed rotation via the first speed reduction module; the second speed regulation structure comprises a second speed reduction module and a third output shaft, and the second shaft end drives the third output shaft to rotate at a medium speed through the second speed reduction module.

4. A portable multi-function food processor as defined in claim 3, wherein the first output shaft has a rotational speed of 17000r/min to 19000 r/min; or the rotating speed of the second output shaft is 1000 r/min-1500 r/min; or the rotating speed of the third output shaft is 2500 r/min-4000 r/min.

5. A portable multifunctional food processor according to claim 3, wherein an identification structure is provided between the actuator and the main body, the identification structure comprises a trigger member provided on the actuator and an identification member provided on the main body, the identification members are electrically connected to the control board, the identification members are provided in three numbers and respectively provided corresponding to the three output shafts, and the trigger member triggers the corresponding identification member when the actuator is connected to the main body.

6. A portable multifunction food processor according to claim 5, characterized in that said identification member is a reed switch and the trigger member is a magnet.

7. The portable multi-function food processor of claim 1, wherein the actuating components include at least two of a shredding assembly, a dry grinding assembly, a meat mincing assembly, a juicing assembly, and a dough hook, a whisk bar, and a whipping cream bar.

8. The portable multifunctional food processor as recited in claim 7, wherein the juicing assembly comprises a machine head, a squeezing barrel and a screw, a third speed reduction module is arranged in the machine head, a feeding channel is arranged on the machine head, the juicing assembly is detachably connected to the bottom of the main machine, and the power source can drive the screw through the speed regulating mechanism and the third speed reduction module; or, the juicing assembly comprises a juice collecting cavity, a screw rod arranged in the juice collecting cavity and an upper cover covering the juice collecting cavity, the upper cover is provided with a feeding channel, the bottom of the juice collecting cavity is provided with a third speed reduction module, and the juicing assembly is detachably connected to the top of the host and can drive the screw rod through a speed regulation mechanism and the third speed reduction module.

9. The portable multifunctional food processor as claimed in claim 1, wherein the main body is provided with a switch button electrically connected to the control board and used for starting and stopping the power source; and/or the host is provided with a gear button which is electrically connected with the control panel and is used for regulating and controlling the rotating speed of the power source.

10. A portable multifunction food processor according to any one of claims 1-9, wherein a battery is provided in said main body; and/or, the host is provided with a handle hole.

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