CN216147785U - Manifold food preparation machine of function - Google Patents

Abstract

The utility model discloses a food processor with various functions, which belongs to the technical field of food processing devices and solves the problem that the existing food processor has relatively single function. The utility model is mainly used for realizing that one machine can simultaneously have the functions of crushing and juicing and is convenient to clean.

Description

Manifold food preparation machine of function

Technical Field

The utility model relates to the technical field of food processing devices, in particular to a multifunctional food processing machine.

Background

The existing food processor generally comprises a machine body and a crushing cup, the crushing cup can be used for making slurry or complementary food, and the like, and a special juicer also comprises the machine body and a juicing cup connected to the machine body, wherein the machine body is provided with a driving motor, a juicer is arranged in the juicing cup, and the juicer is driven by the driving motor to move in the juicing cup to realize the juicing function. In order to obtain the functions of the two machines, the user needs to purchase two machines, which results in an increase in living cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multifunctional food processor which overcomes the defects of the prior art, can simultaneously have the functions of crushing and juicing, and is convenient to clean.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a manifold food preparation machine of function, includes the organism and can dismantle the crushing cup of connecting in the organism, and the organism is equipped with driving motor, is equipped with reducing mechanism in the crushing cup, and reducing mechanism is connected with the driving motor transmission after smashing cup and organism and targetting in place, food preparation machine is still including dismantling the juice extraction cup of connecting in the organism, and the juice extraction cup is connected with the organism with crushing cup alternative, is equipped with juice extractor, filter in the juice extraction cup and connects the juice chamber, and juice extractor is connected with the driving motor transmission after juice extraction cup and organism are targetting in place, and the filter is located and connects juice chamber top, and the bottom that connects the juice chamber is equipped with row juice mouth.

The outer side wall of the juice extracting cup is provided with a juice outlet pipe, and the juice outlet pipe is connected with the juice discharging port in a sealing mode.

By adopting the technical scheme, the juice outlet pipe is arranged on the outer side wall of the juice extracting cup, so that a user can use various containers to receive juice without pouring the whole juice extractor, and the operation of the user is facilitated; utilize out juice pipe and juice outlet sealing connection simultaneously, keep the leakproofness of fruit juice output process, avoid fruit juice to get into the organism inside and prevent that fruit juice from receiving external impurity and polluting, ensure the clean health of fruit juice.

The juice extractor is characterized in that a liquid discharge port is formed in the bottom of the crushing cup, a liquid discharge channel is formed in the machine body, the liquid discharge channel is connected with the liquid discharge port in a sealing mode after the crushing cup and the machine body are connected in place, and the liquid discharge channel is connected with the juice discharge port in a sealing mode after the juice extraction cup and the machine body are connected in place.

By adopting the technical scheme, as another juice outlet mode, the juice extractor can utilize the liquid discharge channel of the extractor body for outputting materials after the juice extractor is manufactured, and can also utilize the liquid discharge channel to be connected with the juice discharge port in a sealing manner after the juice extractor cup and the extractor body are connected in place for discharging juice to simplify the structure of the juice extractor cup.

The juicer is further provided with a feeding cylinder for conveying materials to the juicer at the top of the juicing cup, and a discharging gap is formed between the feeding cylinder and the juicer.

By adopting the technical scheme, the material is orderly input into the juicing cup by utilizing the feeding cylinder at the top of the juicing cup; utilize the ejection of compact clearance between a feeding section of thick bamboo and the juicer simultaneously for the material realizes smashing the juice at the in-process of the ejection of compact, not only can increase material flow smoothness nature, avoids the material to take place to block up, can improve the efficiency of squeezing the juice moreover, lets the user have better use and experiences.

The juicer is a grinding disc, grinding teeth facing the discharge hole are arranged on the working surface of the grinding disc, the distribution range of the grinding teeth is larger than or equal to the discharge area of the discharge hole, and a discharge gap is formed between the working surface of the grinding disc and the bottom end surface of the feeding cylinder.

By adopting the technical scheme, the grinding teeth opposite to the discharge hole are arranged on the surface of the grinding disc, so that the friction cutting force between the grinding disc and the material is increased, and the material crushing efficiency is accelerated; meanwhile, the distribution range of the grinding teeth is larger than or equal to the discharge area of the discharge hole, so that all materials can be crushed; a discharging gap is formed between the working surface of the grinding disc and the bottom end surface of the feeding cylinder, so that materials of the feeding cylinder are sequentially contacted with the grinding disc, residues are discharged orderly, and blockage between the feeding cylinder and the grinding disc is avoided.

The juice extractor is further provided with a residue collecting cavity formed in the inner cavity of the juice extracting cup, the residue collecting cavity is positioned on the periphery of the juice receiving cavity, the top end of the filter is communicated with the residue collecting cavity, and material residues overflow from the top end of the filter and fall into the residue collecting cavity; or the filter is in a cup shape, and the material residues are collected by the filter; or the edge of the filter is connected with the inner side wall of the juice extracting cup, and material residues are collected by the filter.

By adopting the technical scheme, the residue collecting cavity formed by the inner cavity of the juice extracting cup is utilized, so that the residue can be taken out along with the whole juice extracting cup, the juice extracting cup is convenient to clean, meanwhile, the residue collecting cavity is positioned at the periphery of the juice receiving cavity, so that the residue and the fruit juice are separated and stored, and the residue collecting cavity is communicated with the top end of the filter, so that the material residue orderly overflows from the filter and enters the residue collecting cavity, the residue accumulation on the surface of the filter is reduced, and the material filtering efficiency is accelerated; or the filter can be designed into a cup shape, so that the filtered residues are concentrated in the filter, the contact of the residues and the juice extracting cup is reduced, no extra space is needed for collecting the residues, and the cleaning workload is reduced; or the edge of the filter can be connected with the inner wall of the juice extracting cup, so that residues are kept on the filter, extra space is not needed for collecting the residues, and the cleaning workload is reduced.

The juice extracting cup is further provided with a juice receiving cup, a juice receiving cavity is formed in the juice receiving cup, and the juice receiving cup and the juice extracting cup are of an integrated structure or are fixedly installed in the juice extracting cup.

Through adopting above-mentioned technical scheme, connect juice cup and juice cup as integrated into one piece structure, convenient manufacturing avoids appearing assembly tolerance between the two simultaneously and leads to producing the vibration. Or, connect the installation of juice cup to be fixed in the juice cup, be convenient for change and dismantle, reduce the clean degree of difficulty.

In a further arrangement, the filter comprises a filtering bracket and a filter screen fixed on the filtering bracket, and the juicer is arranged at the bottom of the filtering bracket.

Through adopting above-mentioned technical scheme, utilize and filter the support and support the filter screen, ensure the structural strength of filter screen.

The juicer is further arranged and fixed on a filtering support, the filtering support is in transmission connection with a driving motor, and the filter and the juicer synchronously rotate, so that juice and residue are separated by utilizing centrifugal force.

By adopting the technical scheme, the filtering bracket is utilized to provide a supporting function for the juicer, so that the stability of the juicer is kept; meanwhile, the filter support is in transmission connection with the output shaft, so that the filter and the juicer synchronously rotate, the separation of the residue and the juice can be more effectively realized, the filtering efficiency is increased, and when the juice passes through the filter under the centrifugal force, the residue is separated from the filter under the same centrifugal force, the residue discharging efficiency is ensured, and the residue accumulation at the filter is reduced.

Further, the juicer is connected to the filtering support through a rotating shaft, and the rotating shaft is in transmission connection with the driving motor.

Through adopting above-mentioned technical scheme, the juicer is connected in filtering support through the pivot, makes the rotation of juicer can not influence the filter, utilizes the residue of follow-up production to promote the residue that has produced before and slag tap, increases the time that the residue dwells in the filter, and the sediment juice separation effect is better.

After the technical scheme is adopted, the utility model has the following advantages: firstly, by utilizing the crushing cup detachably connected to the machine body and the juicing cup detachably connected to the machine body, a user can select the juicing cup or the crushing cup to be connected with the machine body to realize the juicing or crushing function, so that the multifunction of the product is realized, and the purchase cost is reduced; secondly, the juicing cup is detachably connected with the machine body, so that a user can conveniently take out the juicing cup for cleaning after juicing is finished, and the food processor is kept sanitary and clean; thirdly, the filter is positioned above the juice receiving cavity, so that the juice falls under the gravity, the juice in the juice receiving cavity is prevented from submerging the filter, and the normal filtering is ensured; fourthly, the juice discharging port is arranged at the bottom of the juice receiving cavity, so that juice can be squeezed and discharged instantly, and the taste is more fresh.

Drawings

The utility model will be further described with reference to the accompanying drawings in which:

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

FIG. 2 is a schematic sectional view of a juice extractor cup according to a first embodiment of the present invention;

FIG. 3 is a schematic view in partial cross-section of a juice extractor cup according to a first embodiment of the present invention;

FIG. 4 is an exploded view of a juice extractor cup according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a food processor according to a second embodiment of the present invention;

FIG. 6 is a schematic structural view of a food processor according to a third embodiment of the present invention;

in the figure, 1, a machine body; 2. a juice extracting cup; 3. a juicer; 4. a filter; 5. a juice receiving cavity; 6. a drive motor; 8. a feeding cylinder; 9. a discharge gap; 10. a pusher bar; 101. a grip portion; 11. a discharge port; 12. a grinding disc; 13. grinding the teeth; 14. a convex tooth; 15. a slag collection cavity; 16. a filtration rack; 17. filtering with a screen; 19. a drive shaft; 20. a connector; 21. a coupling; 23. a juice receiving cup; 24. a cup holder; 27. a juice outlet; 28. a juice outlet pipe; 29. a placing table; 30. a pulp receiving cup; 31. a liquid discharge channel; 32. a flow guide pipe; 36. a juice outlet channel.

Detailed Description

The first embodiment is as follows:

as shown in fig. 1 to 4, the present invention provides a multifunctional food processor, which comprises a machine body 1 and a juice extracting cup 2 detachably connected to the machine body 1, wherein a juice extractor 3, a filter 4 and a juice receiving cavity 5 are arranged in the juice extracting cup 2, the machine body 1 is provided with a driving motor 6, and the driving motor 6 can be seen in fig. 5. When the juicer is used as a juicer, the juicing cup 2 is connected with the machine body 1, the juicer 3 is in transmission connection with the driving motor 6 after the juicing cup 2 is connected with the machine body 1 in place, the filter 4 is positioned above the juice receiving cavity 5, the juicer 3 is driven by the driving motor 6 to enable materials to be processed into a solid-liquid mixture, meanwhile, the filter 4 is used for filtering material residues with large particles, and fruit juice passes through the filter 4 under the action of gravity to enter the juice receiving cavity 5 to be separated from the material residues, so that fruit juice required by a user is obtained, and the juicing function is realized; the user can also directly take off the juice extracting cup 2 under the condition of need, for example, the juice extracting cup 2 is cleaned, the whole food processor does not need to be moved, the weight is light, the operation is easier, and the juice extracting cup 2 is convenient to clean. And in order to realize the crushing function, the crushing cup can be used for replacing the juicing cup, the crushing motor drives the crushing device to crush materials, soybean milk, complementary food and the like can be made, the machine is multipurpose, the bottom of the crushing cup is provided with a liquid outlet, a liquid outlet channel is hermetically connected with the liquid outlet after the crushing cup is connected with the machine body 1 in place, and the crushed materials are discharged.

In order to enable materials to enter the juice extractor 3 in sequence and prevent the materials from blocking the juice extracting cup 2, a feeding cylinder 8 for conveying the materials to the juice extractor 3 is arranged at the top of the juice extracting cup 2, and a discharging gap 9 is formed between the feeding cylinder 8 and the juice extractor 3. Simultaneously in order to accelerate the interior material whereabouts of feed cylinder 8, prevent that bold material from blockking up feed cylinder 8, feed cylinder 8 is equipped with ejector pin 10, and ejector pin 10 is connected with feed cylinder 8 sliding fit, and ejector pin 10 is used for pushing down the material of putting into feed cylinder 8, makes the material be close to the contact with juice extractor 3, improves the ejector pin of the efficiency of squeezing juice. In the embodiment, the top end of the material pushing rod 10 is provided with the holding part 101, so that the pressing area of a user is increased, the local stress of the user is reduced, and the good use experience is improved; meanwhile, the inner wall of the bottom end of the feeding barrel 8 is provided with a necking for limiting the pushing rod at the limit position moving downwards, and the pushing rod 10 is prevented from contacting with the juicer 3 to form interference.

The bottom of a feeding cylinder 8 is provided with a discharge hole 11, so that materials in the feeding cylinder 8 are discharged, the inside circulation of the feeding cylinder 8 is kept, and blockage is avoided. In order to uniformly crush materials to obtain fruit juice, the juicer 3 is a grinding disc 12, grinding teeth 13 facing the discharge hole 11 are arranged on the working surface of the grinding disc 12, the distribution range of the grinding teeth 13 is larger than or equal to the discharge area of the discharge hole 11, all the materials can be crushed, and the friction cutting force between the grinding disc 12 and the materials is increased and the material crushing efficiency is accelerated by utilizing the contact of the convex grinding teeth 13 and the materials. Meanwhile, in order to increase the juicing efficiency, the lower bottom surface of the material pushing rod 10 is provided with a convex tooth 14 for increasing friction force, the convex tooth 14 and the grinding tooth 13 are arranged oppositely, when the juicing assembly works, the convex tooth 14 presses materials to avoid rotation of the materials, the grinding tooth 13 can more quickly crush the materials, and the crushing efficiency is accelerated.

In order to collect material residue separation, the inner cavity of the juicing cup 2 forms a residue collecting cavity 15, the residue collecting cavity 15 is positioned at the periphery of the juice receiving cavity 5, the top end of the filter 4 is communicated with the residue collecting cavity 15, and material residues overflow from the top end of the filter 4 and fall into the residue collecting cavity 15. Collect the material residue, reduce filter 4 surface impurity and pile up for fruit juice filtration efficiency, collect sediment chamber 15 bottom simultaneously and be less than filter 4's top, the restriction is collected the material residue in the sediment chamber 15 and is got back to filter 4 again.

In one embodiment, besides the residue collecting cavity 15 formed by the inner cavity of the juice extracting cup 2 for collecting the material residue, in another embodiment, the filter 4 can be designed into a cup shape, and the material residue is collected by the filter 4 without occupying extra space, thereby increasing the space of the juice collecting cavity 5 and reducing the volume of the whole machine body 1. In another embodiment, the edge of the filter 4 can be connected with the inner side wall of the juice extracting cup 2, and the material residues are collected by the filter 4, so that the space above the filter 4 is separated from the juice collecting cavity 5, and the material residues are prevented from entering the juice collecting cavity 5.

The filter 4 comprises a filtering bracket 16 and a filter screen 17 fixed on the filtering bracket 16, the juicer 3 is arranged at the bottom of the filtering bracket 16, and the filter screen 17 is supported by the filtering bracket 16, so that the structural strength of the filter screen 17 is ensured. The filter 4 comprises one or more screens 17.

In one embodiment, in order to accelerate the speed of separating the material residue from the juice, the juicer 3 is fixed to the filter support 16, the filter support 16 is in transmission connection with the driving motor 6, the filter 4 and the juicer 3 rotate synchronously, so that the juice and residue are separated by centrifugal force, the material ground by the juicer 3 is diffused outwards by the centrifugal force after the filter rotates, larger particles in the material cannot pass through the filter screen 17 enough to move obliquely upwards along the inclined surface of the filter screen 17 due to the blocking effect of the filter screen 17, the larger particles enter the residue collecting cavity in the arrow direction at the position A in fig. 3, and the juice can pass through the filter screen 17 and enter the juice receiving cavity 5 in the arrow direction at the position B in fig. 3 under the action of the centrifugal force.

In order to drive the filtering bracket 16 to rotate, the filtering bracket 16 and the driving motor 6 transmit power through a transmission shaft 19, the upper end of the transmission shaft 19 is provided with a connector 20, the connector 20 is connected with and detached from the filtering bracket 16, and the lower end of the transmission shaft 19 is provided with a coupler 21 for connecting and transmitting with an output shaft of the driving motor 6, so that the power is stably input.

In another embodiment, the filter is in a fixed state, the juicer 3 is connected to the filtering bracket 16 through a rotating shaft, and the rotating shaft is in transmission connection with the driving motor 6, so that the filter 4 does not need to be driven to rotate, the load of the driving motor 6 can be reduced, and the stability of the rotation of the juicer 3 can be maintained.

In order to separate and collect the juice and the material residues, a juice receiving cup 23 is arranged in the juice extracting cup 2, a juice receiving cavity 5 is formed in the juice receiving cup 23, and the juice receiving cup 23 and the juice extracting cup 2 are of an integrated structure or are fixedly arranged on the juice extracting cup 2. Utilize to connect juice cup 23 and juice the glass 2 between be integrated into one piece structure, reduce the noise that the in-process of squeezing the juice rocked each other and sent, perhaps connect juice cup 23 can also be fixed in juice cup 2, juice the bottom of cup 2 and be equipped with cup 24, juice cup 2 and install at cup 24, transmission shaft 19 can be installed in cup 24, ensure driven stability.

In order to conveniently receive juice, the bottom of the juice receiving cavity 5 is provided with a juice outlet 27, the outer wall of the juicing cup 2 is provided with a juice outlet pipe 28, the juice outlet pipe 28 is hermetically connected with the juice outlet 27, and the juice is discharged from the juice outlet pipe 28 in the manufacturing process. One side of organism 1 is equipped with places platform 29, places and has placed on the platform 29 and connect thick liquid cup 30, places platform 29 and locates one side staggered with play juice pipe 28, discharges the fruit juice and discharges the thick liquid and adopt different passageways, can avoid influencing taste and taste each other. In order to control juice discharge, in another embodiment, a discharge valve assembly may be provided in the juice outlet tube 28 to discharge juice as desired by the user.

Example two:

in addition to the juice discharge from the side of the housing 1 through the juice outlet tube 28, the juice discharge from the bottom of the housing 1 may be designed as shown in fig. 5. The juice extractor 1 is provided with a liquid discharge channel 31, the liquid discharge channel 31 is hermetically connected with the juice discharge port 27 through a guide pipe 32 after the juice extractor 2 is connected with the juice extractor 1 in place, and the juice is discharged through the liquid discharge channel 31 of the juice extractor 1 and can be received by the juice receiving cup 30. The liquid discharge channel 31 is hermetically connected with the liquid discharge port after the grinding cup is connected with the machine body 1 in place, and the discharged juice and the discharged slurry share the liquid discharge channel 31, so that the whole structure can be simplified, and the production cost can be reduced.

Other contents not described in this embodiment may refer to embodiment one.

Example three:

in addition to juice discharge by means of the discharge channel 31, as shown in fig. 6, a juice discharge channel 36 may be provided at the bottom of the juice extracting cup 2, and the top end of the juice discharge channel 36 communicates with the juice discharge port 27 and discharges juice into the juice receiving cup 30.

Other contents not described in the present embodiment may refer to the above-described embodiments.

Other embodiments of the present invention than the preferred embodiments described above will be apparent to those skilled in the art from the present invention, and various changes and modifications can be made therein without departing from the spirit of the present invention as defined in the appended claims.

Claims (10)

1. The utility model provides a manifold food preparation machine of function, includes the organism and can dismantle the crushing cup of connecting in the organism, and the organism is equipped with driving motor, is equipped with reducing mechanism in the crushing cup, and reducing mechanism is connected with the driving motor transmission after smashing cup and organism and targetting in place and is connected, a serial communication port, food preparation machine is still including dismantling the juice extraction cup of connecting in the organism, and the juice extraction cup is connected with the organism with the alternative of crushing cup, is equipped with juice extractor, filter and connecing the juice chamber in the juice extraction cup, and juice extractor is connected with the driving motor transmission after targetting in place with the organism and is connected, and the filter is located and connects juice chamber top, and the bottom that connects the juice chamber is equipped with the juice discharge mouth.

2. The versatile food processor of claim 1, wherein the outer sidewall of the juice extracting cup is provided with a juice outlet tube, and the juice outlet tube is hermetically connected with the juice outlet.

3. The versatile food processor of claim 1, wherein the bottom of the grinding cup is provided with a drain port, the housing is provided with a drain channel, the drain channel is sealingly connected to the drain port after the grinding cup is properly connected to the housing, and the drain channel is sealingly connected to the drain port after the juice extracting cup is properly connected to the housing.

4. The versatile food processor of claim 1, wherein a top of the juice extractor cup is provided with a feed drum for delivering material to the juice extractor, the feed drum and the juice extractor having a discharge gap therebetween.

5. The versatile food processor of claim 4, wherein the bottom end surface of the feed cylinder is provided with a discharge port, the juicer is a grinding disc, grinding teeth facing the discharge port are arranged on a working surface of the grinding disc, the distribution range of the grinding teeth is larger than or equal to the discharge area of the discharge port, and a discharge gap is formed between the working surface of the discharge disc and the bottom end surface of the feed cylinder.

6. The multifunctional food processor as claimed in claim 1, wherein the inner cavity of the juice extracting cup forms a residue collecting cavity, the residue collecting cavity is located at the periphery of the juice receiving cavity, the top end of the filter is communicated with the residue collecting cavity, and material residues overflow from the top end of the filter and fall into the residue collecting cavity; or the filter is in a cup shape, and the material residues are collected by the filter; or the edge of the filter is connected with the inner side wall of the juice extracting cup, and material residues are collected by the filter.

7. The versatile food processor of claim 1, wherein a juice receiving cup is disposed within the juice extracting cup, a juice receiving cavity is formed within the juice receiving cup, and the juice receiving cup and the juice extracting cup are integrally formed or fixedly mounted to the juice extracting cup.

8. The multi-function food processor of claim 1, wherein the filter includes a filter frame and a strainer secured to the filter frame, the juicer being mounted to a bottom of the filter frame.

9. The versatile food processor of claim 8, wherein the juicer is secured to a filter support that is drivingly connected to the drive motor, and wherein the filter and juicer rotate in unison to effect juice and residue separation by centrifugal force.

10. The versatile food processor of claim 8, wherein the juicer is coupled to the filter support via a shaft that is drivingly connected to the drive motor.

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