CN214631794U - Food processing machine - Google Patents

Abstract

The utility model provides a food processing machine, including the host computer and install the processing cup on the host computer, the processing cup forms into crushing chamber, the crushing chamber bottom communicates to the grout outlet, is equipped with corresponding to the grout outlet and connects the thick liquid cup, connect the thick liquid cup including the cup, the cup is inside to form and connects the thick liquid chamber, connect the thick liquid intracavity to be equipped with can receive the driven stirring piece that rotates; the slurry receiving cup is also provided with a driving motor for driving the stirring piece. The utility model discloses because food preparation machine is owing to used the thick liquid cup that connects that has stirring function, the thick liquid after the slurrying is accomplished is more even, and the user drinks the taste better. And the slurry receiving cup is used as an independent detachable part of the food processor, and can also have a stirring function when the food processor is taken down, so that the use by a user is convenient.

Description

Food processing machine

Technical Field

The utility model relates to a food processing technology field, concretely relates to connect thick liquid cup and use its food preparation machine with stirring function.

Background

At present, food processors have been increasingly used, which mainly cut and crush food by a processing tool disposed at the bottom of an inner cavity of the food processor, so as to achieve a desired crushing degree of the food, and facilitate the food consumption of users.

In order to meet the use requirements of different users, the existing part of food processing machines have a hand-free function, after the pulping is finished, water in a water tank is pumped into a processing cup through a water pump, and the processing cavity is cleaned by the water under the dual actions of the stirring of a blade and the heating of a heating disc. Because the processing cavity is large, the required amount of cleaning water is large, and pure water is recommended for cleaning, resulting in high cleaning cost. In the existing scheme, in order to reduce the cleaning water quantity, the cleaned water is discharged into a pulp receiving cup and mixed with the crushed thick pulp, so that the utilization of the cleaning water is realized. In the existing scheme, the cleaning time is long, and the cleaning is carried out for three times. The thick slurry discharged into the slurry receiving cup can be precipitated and layered in the process of waiting for cleaning. After the washing water is discharged, the water quantity is small, the discharging speed is slow, so that the washing water and the thick slurry are not uniformly mixed, and the drinking taste is influenced.

The above description is included in the technical recognition scope of the inventors, and does not necessarily constitute the prior art.

Disclosure of Invention

In order to solve one or more technical problem among the prior art, or at least provide a profitable selection, the utility model provides a connect thick liquid cup and use its food processor with stirring function will connect the thick liquid stirring in the thick liquid cup to mix, promote the user and drink the taste.

The utility model provides a pair of connect thick liquid cup with stirring function, including the cup, the inside formation of cup connects the thick liquid chamber, connects the thick liquid intracavity to be equipped with and to receive drive pivoted stirring piece.

The utility model discloses a meeting the inside stirring piece that sets up of thick liquid cup, can realizing the stirring of butt joint thick liquid in the thick liquid cup, make the thick liquid more even, promote user's the taste of drinking. In addition, in the pulping process, after the thick pulp is discharged into the pulp receiving cup, the thick pulp is continuously stirred, so that the sedimentation layering caused by waiting for the discharge of cleaning water into the thick pulp receiving cup can be avoided, and the taste of a user in the drinking process is further ensured.

As a preferred technical scheme of the slurry receiving cup with the stirring function, the slurry receiving cup comprises an inner cup body and an outer cup body, and a driving motor for driving a stirring piece is arranged in an interlayer of the inner cup body and the outer cup body.

The stirring piece is driven by a driving motor arranged on the interlayer of the slurry receiving cup, so that the integrity of the inner cavity of the slurry receiving cup is not damaged, and the cleaning is convenient. And because driving motor sets up and connecing thick liquid cup inside, connect the work that getting of thick liquid cup can not influence the stirring piece, user operation is more convenient. In addition, double-deck cup structure can play certain thermal-insulated effect, avoids scalding the user, and the security is better.

As a preferred technical scheme who connects thick liquid cup with stirring function, connect the thick liquid cup and be equipped with the bowl cover, the bowl cover is equipped with the extension towards connecing the thick liquid chamber, is equipped with the driving motor who drives stirring spare in the extension.

The driving motor is arranged on the cup cover through the extending part, the cup body of the slurry cup does not need to be butted to carry out extra structural design, and the stirring of the slurry in the slurry cup can be realized only by replacing the cup cover, so that the drinking taste of a user is ensured. And because the cup body of the pulp receiving cup has a simple structure, the effective volume of the pulp receiving cup can be improved.

As a preferred technical scheme of the slurry receiving cup with the stirring function, the driving motor is directly or indirectly in transmission connection with the stirring piece.

The driving motor and the stirring piece can be directly connected through a transmission structure, the structure is simple, and the transmission efficiency is high; or the driving motor applies acting force (such as magnetic force) to the stirring piece to enable the stirring piece to act, so that the structural integrity of the slurry receiving cup can be effectively ensured, the inner wall of the slurry receiving cup is flat and smooth, and the cleaning is facilitated.

As a preferred technical scheme who connects thick liquid cup with stirring function, the driving motor output is equipped with the magnetic disc, and the stirring spare includes can receive the magnetic part of magnetic drive, and the stirring spare is adsorbed in the inside of the cup through the effect of magnetic disc and magnetic part.

The driving motor and the stirring piece are driven by magnetic force, the driving motor and the stirring piece are not required to be installed in a contact mode, the assembling process can be simplified, the magnetic transmission can form an interval between the output end of the driving motor and the stirring piece, a hole does not need to be formed in the inner cup body, and the integrity of the inner cup body pulp receiving cavity is guaranteed. Stirring piece is through magnetism suction mode absorption cup body bottom including, can not wash and drop, avoids the user to eat by mistake, also can take off stirring piece when needs wash, convenient washing.

As a preferred technical scheme who connects thick liquid cup with stirring function, driving motor includes the output shaft, and the output shaft stretches into inside and the stirring of cup and is connected.

The driving motor is connected with the stirring piece by adopting a traditional transmission structure, has a simple and reliable structure, and can ensure long-term stable use. The middle transmission part is not needed to be arranged in the slurry receiving cup, and the transmission efficiency is higher. Under the condition that the whole height of the slurry receiving cup is inconvenient, the internal volume of the slurry receiving cup can be ensured to be sufficient by simplifying the structure.

As an optimal selection technical scheme who connects thick liquid cup with stirring function, still include the power supply spare for the driving motor power supply, the power supply spare includes the thermoelectric generation piece and laminates in the heat conduction piece of thermoelectric generation piece, and the thermoelectric generation piece sets up the cup wall at the cup body and is connected with driving motor, and the heat conduction piece sets up the opposite side at the thermoelectric generation piece for the cup wall of cup.

The utility model discloses utilize the thermoelectric generation piece to supply power for driving motor, need not to additionally set up power supply unit for driving motor, only utilize the thick liquid of thermoelectric generation piece upper surface and the temperature difference of the heat conduction piece of thermoelectric generation piece lower surface to form return current, supply with driving motor work, need not external power supply, simple structure.

As a preferred technical scheme of the slurry receiving cup with the stirring function, the slurry receiving cup further comprises a power supply part for supplying power to the driving motor, and the power supply part comprises a battery connected with the driving motor.

For the thermoelectric generation piece, adopt battery powered's advantage to lie in that stirring piece rotates and need not to consider the influence of temperature, and voltage is more stable. No matter the pulping is cold drink or hot drink, the power supply can be ensured, and the applicability is strong.

The utility model also discloses a food preparation machine, including the host computer with install the processing cup on the host computer, processing cup-shaped one-tenth crushing chamber, crushing chamber bottom communicates to the grout outlet, corresponds the grout outlet and is equipped with and connects the thick liquid cup, connects the thick liquid cup and uses the thick liquid cup that connects that has stirring function as above.

The utility model discloses a food preparation machine, owing to used the thick liquid cup that connects that has stirring function, the thick liquid after the slurrying is accomplished is more even, and the user drinks the taste better. And the slurry receiving cup is used as an independent detachable part of the food processor, and can also have a stirring function when the food processor is taken down, so that the use by a user is convenient.

As a preferable technical scheme of the food processor, a driving motor for driving the stirring piece is arranged on the main machine.

The driving motor is arranged on the main machine, a power supply device does not need to be additionally arranged on the driving motor, and the structure of the slurry receiving cup can be correspondingly simplified. On the premise that the size of the pulp receiving cup is limited, the internal volume of the pulp receiving cup can be increased, and the use requirements of users are met.

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 sectional view of a food processor according to embodiment 1 of the present invention.

Fig. 2 is a cross-sectional view of the slurry cup of the embodiment shown in fig. 1.

FIG. 3 is a cross-sectional view of the stirring element of the embodiment of FIG. 1.

Fig. 4 is a working principle diagram of the thermoelectric generation piece in the embodiment shown in fig. 1.

Fig. 5 is a sectional view of a slurry receiving cup in embodiment 2 of the present invention.

Fig. 6 is a sectional view of a pulp receiving cup in embodiment 3 of the present invention.

Fig. 7 is a sectional view of a slurry receiving cup according to embodiment 4 of the present invention.

Fig. 8 is a sectional view of a food processor according to embodiment 5 of the present invention.

Wherein:

1-a host;

2-processing the cup;

3-slurry receiving cup, 31-cup body, 32-stirring piece, 33-driving motor, 34-magnetic disc, 35-power supply piece, 36-battery, 37-switch, 38-cup cover, 311-inner cup body, 312-outer cup body, 321-boss, 351-thermoelectric generation sheet, 352-heat conducting block and 381-extension part;

4-a crushing motor;

5-a water tank;

6-wastewater box;

7-processing a cutter set;

8-heating plate.

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 in conjunction with the accompanying drawings.

It should be noted that in the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations and positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

First, the technical concept of the present invention will be explained.

In the use process of the food processor in the prior art, the thick slurry discharged into the slurry receiving cup can generate precipitation and delamination in the process of waiting for cleaning, and after the slurry mixed with cleaning water is discharged into the slurry receiving cup, the thick slurry mixed with the precipitation and delamination can be mixed, so that the mouthfeel of a user is uneven. In view of the above problem, the utility model provides a connect thick liquid cup with stirring function can carry out the stirring that lasts to thick liquid in the thick liquid cup of butt joint, realizes thick liquid and the thick liquid misce bene that mixes with the doping and rinse water, avoids the thick liquid layering, guarantees user's the taste of drinking.

The specific scheme is as follows:

example 1

As shown in fig. 1, the food processor provided by the present embodiment comprises a main body 1, a processing cup 2 mounted on the main body 1, wherein the processing cup 2 forms a crushing cavity, the bottom of the crushing cavity is communicated to a slurry outlet, and a slurry receiving cup 3 is arranged corresponding to the slurry outlet. The crushing motor 4 is arranged on a motor bracket of the host machine, and a motor shaft of the crushing motor 4 is connected with the processing cutter group 7. The processing knife group 7 can rotate at a high speed under the driving of the crushing motor 4 to cut and crush food materials. The processing cup 2 is mainly used for containing food materials, and heating and crushing of the food materials are respectively completed through the heating disc 8 and the processing knife group 7. The water tank 5 is arranged behind the main machine 1, and the water tank 5 can provide water required for processing food materials and cleaning the processing cup 2. The pulp receiving cup 3 and the waste water box 6 are arranged below the front part of the main machine 1 and are respectively used for containing processed liquid food materials and part of cleaned waste water.

As shown in fig. 2, the slurry receiving cup 3 with a stirring function provided in this embodiment includes a cup body 31, a slurry receiving cavity is formed inside the cup body 31, a stirring member 32 capable of being driven to rotate is disposed in the slurry receiving cavity, and the stirring member 32 is driven by external power, so that the stirring member 32 can continuously move in the slurry receiving cup 3. After the thick slurry which is made is discharged into the slurry receiving cup 3, the stirring piece 32 is driven to move, the thick slurry in the slurry receiving cup 3 is stirred continuously, when the cleaning water introduced into the processing cup 2 is discharged into the slurry receiving cup 3 after the repeated cleaning process is finished, the stirring piece 32 can also continuously stir the mixed slurry, and therefore the final slurry is ensured to be uniformly mixed.

In this embodiment, the slurry receiving cup 31 includes an inner cup 311 and an outer cup 312, and a driving motor 33 for driving the stirring member 32 is disposed in an interlayer between the inner cup 311 and the outer cup 312. In order not to damage the integrity of the inner cavity of the slurry receiving cup 3, the driving motor 33 is arranged in the interlayer of the inner cup body 311 and the outer cup body 312, and the driving motor 33 drives the stirring piece 32 arranged in the inner cup body 311 to rotate, so that the slurry is stirred. Moreover, the interlayer between the inner cup body 311 and the outer cup body 312 can play a certain heat insulation effect, so that the slurry can be prevented from scalding a user. Specifically, the inner cup 311 is provided with an outer edge at the rim, and the outer edge can be buckled with the rim of the outer cup 312, so that the inner cup 311 and the outer cup 312 form an integral structure, the driving motor 33 is fixed at the bottom of the outer cup 312, and the output end of the driving motor 33 and the stirring part 32 arranged at the bottom of the inner cup 311 form a transmission structure. In this embodiment, an indirect transmission structure is provided between the driving motor 33 and the stirring member 32, that is, the inner cup 311 is a complete cup, the bottom wall of the inner cup 311 is a complete surface, and the driving motor 33 indirectly drives the stirring member 32 to operate without destroying the integrity of the inner cup 311. The specific implementation mode is as follows: the output end of the driving motor 33 is provided with a magnetic disk 32, the stirring part 32 comprises a magnetic part capable of being driven by the magnetic disk, the stirring part 32 is adsorbed at the bottom of the inner cup body 311 through the magnetic disk and the magnetic part, the driving motor 33 can drive the magnetic disk 34 arranged at the output end to rotate at high speed after being electrified, and the stirring part 32 and the magnetic disk 34 are in an adsorption state, so that the stirring part 32 can be driven to rotate when the magnetic disk 34 rotates, and the stirring function of the slurry in the cup body 31 is realized. It can be understood that, in order to avoid the problem that the stirring member 32 has large rotation resistance due to the over-tight attraction between the stirring member 32 and the magnetic disk 34, in the embodiment, the portion of the stirring member 32 contacting the bottom surface of the inner cup 311 is provided with the boss 321 for rotation, as shown in fig. 3, the boss 321 functions to reduce the contact area between the stirring member 32 and the bottom wall of the inner cup 311, thereby reducing the friction force generated by the stirring member 32 on the inner cup 311 under the condition of the attraction force of the magnetic disk 34, and ensuring the power transmission efficiency of the driving motor 33 on the stirring member 32. In addition, the stirring member 32 may be entirely magnetic, or partially magnetic, and the magnetic member is mainly used to cooperate with the magnetic disc 34 to realize power transmission, and when the stirring member 32 is partially magnetic, the magnetic attraction strength between the stirring member 32 and the magnetic disc needs to be ensured, so as to ensure the reliability of the cooperation between the stirring member 32 and the magnetic disc. The length l of the stirring piece 32 is 20-30mm, and if the length l is too long, the resistance is large, and the firm adsorption is difficult; too short results in too poor stirring.

In this embodiment, a power supply unit 35 for supplying power to the driving motor 33 is further disposed in the interlayer between the inner cup 311 and the outer cup 312, the power supply unit 35 includes a thermoelectric power generation sheet 351 attached to the outer side of the bottom of the inner cup 311, as shown in fig. 4, the thermoelectric power generation sheet 351 includes an upper sheet and a lower sheet, and there is a contact between the upper sheet and the lower sheet, and when there is a temperature difference between the upper surface and the lower surface of the entire thermoelectric power generation sheet 351, a certain voltage is generated due to a thermoelectric effect. Connect thermoelectric generation piece 351 with driving motor 33 with the wire, can form loop current, driving motor 33 carries out work, and further accessible magnetic disc 34 drives stirring piece 32 and rotates, prevents that the thick liquid from appearing deposiing and layering.

In order to ensure the stable operation of the thermoelectric generation chip 351, the power supply part 35 further includes a heat conduction block 352 attached to the thermoelectric generation chip 351, and the heat conduction block 352 is disposed at the other side of the thermoelectric generation chip 351 with respect to the cup wall of the cup body 31. After assembly, the driving motor 33 and the magnetic disk 34 are positioned in the hole in the middle of the heat conduction block 352, and the magnetic disk 34 is positioned below the thermoelectric generation sheet 351 without contacting the surface of the thermoelectric generation sheet 351. The heat conduction block 352 is made of a material with good heat absorption and heat dissipation effects, and can quickly absorb heat on the lower surface of the thermoelectric generation piece 351, cool the thermoelectric generation piece 351 and maintain the temperature difference between the upper and lower surfaces of the thermoelectric generation piece 351. With the stirring, the temperature of the slurry in the inner cup body 311 begins to decrease, the temperature of the heat conduction block 352 gradually increases, and the temperature difference gradually decreases; when the temperature difference generating blade 351 is uniform in temperature up and down, the driving motor 33 stops operating. After the first washing, the washing water having a high temperature is discharged into the slurry receiving cup 3. After the cleaning water is mixed with the thick slurry, the temperature of the liquid in the slurry receiving cup 3 is raised again, so that the temperature difference is generated again up and down by the thermoelectric generation piece 351, and at the moment, the driving motor 33 resumes working. The stirring bar 32 stirs the liquid to uniformly mix the thick slurry and the washing water. Similarly, when the second and third washing waters are discharged into the slurry receiving cup 3, they are agitated by the agitator 32, so that the finally produced slurry is uniformly mixed.

The embodiment utilizes the temperature difference to generate current, so that the driving motor 33 works without an external power supply and has a simple structure. Washing water is discharged into the slurry receiving cup 3 each time and is stirred, and the slurry mixing effect is good. The stirring piece 32 is adsorbed at the bottom of the inner cup body 311 in a magnetic suction mode, and cannot be cleaned and fall off, so that the user is prevented from eating by mistake. Meanwhile, the stirring piece 32 can be taken down during cleaning, so that the integrity of the pulp receiving cup 3 is ensured, and the cleaning is convenient. During the stirring process, the temperature of the slurry can be rapidly reduced, and the waiting time of a user is reduced.

Example 2

As shown in fig. 5, this embodiment is substantially the same as the solution disclosed in embodiment 1, except that in this embodiment, the battery 36 is used to supply power to the driving motor 33, and the battery 36 may be installed in the interlayer between the inner cup 311 and the outer cup 312 and connected to the driving motor 33 through a wire. The battery 36 can be dry battery or rechargeable battery, and a switch 37 is arranged at the handle of the pulp receiving cup 3 to control the on-off of the loop. The switch 37 is controlled by the user, and the user can stir the slurry at any time according to actual needs. The stirring operation in the embodiment is not influenced by temperature, the voltage is stable, cold drinks and hot drinks can be stirred, and the applicability is strong. Meanwhile, parts such as a thermoelectric generation piece, a heat conduction block and the like are not required to be arranged, and the thermoelectric generation device is simple in structure and low in cost.

Example 3

As shown in fig. 6, the present embodiment is substantially the same as the solution disclosed in embodiment 1, except that in the present embodiment, a mounting hole is provided at the bottom of the inner cup 311, and the output shaft of the driving motor 33 can pass through the mounting hole to connect with the stirring member 32 in the inner cup 311. When the driving motor 33 works, the stirring piece 32 can be directly driven to rotate by the driving motor 33. A sealing ring is installed at the mounting hole to prevent the slurry in the inner cup 311 from entering into the interlayer between the inner cup 311 and the outer cup 312 along the mounting hole. This embodiment directly drives stirring piece 32 work through driving motor 33, need not middle transmission part, and transmission efficiency is high, and is good to the stirring effect of thick liquid, does not need parts such as magnet, magnetic disc, simple structure, and is with low costs. Stirring piece 32 snap-on is on driving motor 33 output shaft, and is fixed firm, the risk that can not appear droing. Meanwhile, as excessive parts do not need to be arranged in the interlayer between the inner cup body 311 and the outer cup body 312, the volume of the inner cup body 311 can be increased under the condition that the overall height of the slurry receiving cup 3 is inconvenient.

Example 4

As shown in fig. 7, in this embodiment, the slurry receiving cup 3 further includes a cup cover 38 detachably disposed, an extending portion 381 is disposed on the cup cover 38 toward the slurry receiving cavity, and a driving motor 33 for driving the stirring member 32 is disposed in the extending portion 381. The output end of the driving motor 33 extends out of the extension part 381 and is arranged towards the bottom of the slurry receiving cup 3, and the stirring piece 32 is directly fixed at the output end of the driving motor 33. A battery 36 is arranged in the extension portion 381 to supply power to the driving motor 33, and a switch 37 is arranged on the cup cover 38 to control the driving motor 33 to work. When the cup cover 38 is covered on the cup body 31, the stirring piece 32 extends into the cup body 31, and the user triggers the switch 37 to stir the slurry.

Further, the distance H from the stirring piece 32 to the bottom of the cup body 31 can be set to be 10-20 mm, so that a better stirring effect can be achieved, and the stirring requirements of users on slurries with different volumes can be met.

Because devices such as stirring piece 32, driving motor 33 all set up on bowl cover 38 in this embodiment, do not have the requirement such as structure, material of butt joint thick liquid cup 3, and can further increase the effective volume of meeting thick liquid cup 3, all can play better stirring effect to the thick liquid of different volumes.

Example 5

As shown in fig. 8, in the present embodiment, a drive motor 33 for driving the stirring bar 32 is provided in the main body 1 of the food processor. Specifically, driving motor 33 sets up on the host computer base, and driving motor 33's output sets up the magnetic disc, and stirring piece 32 is for setting up the magnetic part in connecing thick liquid cup 3 inside, and driving motor 33 directly is supplied power by host computer 1, consequently need not set up power supply unit such as battery or thermoelectric generation piece alone to driving motor 33. In practical use, the magnetic disc on the driving motor 33 can be ensured to effectively drive the stirring piece 32 to work by ensuring that the slurry receiving cup 3 is installed in place.

It can be understood that the driving motor 33 and the stirring member 32 can be connected by a transmission member, for example, a lower transmission member is provided at the output end of the driving motor, an upper transmission member is provided below the stirring member at the bottom of the slurry receiving cup, and when the slurry receiving cup is installed on the base of the main machine, the upper transmission member and the lower transmission member are connected together, so that the driving motor can drive the stirring member to stir rotationally.

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 (8)

1. A food processing machine comprises a main machine and a processing cup arranged on the main machine, wherein the processing cup is shaped into a crushing cavity, the bottom of the crushing cavity is communicated to a pulp outlet, a pulp receiving cup is arranged corresponding to the pulp outlet, the pulp receiving cup comprises a cup body, and a pulp receiving cavity is formed inside the cup body; the slurry receiving cup is also provided with a driving motor for driving the stirring piece.

2. The food processor of claim 1, wherein the slurry receiving cup comprises an inner cup body and an outer cup body, and a drive motor for driving the stirring member is disposed in a sandwich between the inner cup body and the outer cup body.

3. The food processor of claim 1, wherein the slurry receiving cup has a lid with an extension toward the slurry receiving chamber, the extension having a drive motor therein for driving the stirring element.

4. A food processor as claimed in any one of claims 2 to 3, wherein the drive motor and the stirring element are in direct or indirect drive connection.

5. The food processor as defined in claim 4, wherein the output end of the driving motor is provided with a magnetic disk, and the stirring member includes a magnetic member capable of being driven by the magnetic disk, and the stirring member is attracted to the inside of the cup body by the magnetic disk and the magnetic member.

6. A food processor as claimed in claim 4, wherein the drive motor includes an output shaft which extends into the interior of the cup body and is drivingly connected to the stirring member.

7. The food processor as defined in claim 4, further comprising a power supply member for supplying power to the driving motor, the power supply member including a thermoelectric generation element and a heat conduction block attached to the thermoelectric generation element, the thermoelectric generation element being disposed on a wall of the cup body and connected to the driving motor, the heat conduction block being disposed on the other side of the thermoelectric generation element with respect to the wall of the cup body.

8. A food processor as claimed in any one of claims 5 to 6, further comprising a power supply for powering the drive motor, the power supply comprising a battery connected to the drive motor.

Images