CN215272189U - Food processor - Google Patents

Abstract

The application discloses cooking machine. The cooking machine comprises a host, a first cooking cup assembly and at least one second cooking cup assembly. The main machine comprises a machine base and a second motor. First cooking cup subassembly includes first cooking cup, first motor element and first stirring knife tackle spare, and first motor element includes first motor, and first stirring knife tackle spare includes the first knife tackle spare of being connected with first motor. Every second is arranged and is managed cup subassembly and include second and arrange cup and second stirring sword subassembly. The second cooking cup assembly and the first cooking cup assembly can be selectively placed at the top of the host machine, so that the second knife assembly of the second stirring knife assembly can be driven by the second motor, and the first knife assembly can be driven by the first motor. So set up, the consumer can place corresponding cooking cup subassembly and process out different food on the host computer according to the demand, and moreover, a host computer can be equipped with a plurality of cooking cup subassemblies, and the consumer is equivalent to possessing many styles of cooking machines, and material benefit and product are diversified, and user experience is better.

Description

Food processor

Technical Field

The application relates to a small household electrical appliance technical field especially relates to cooking machine.

Background

The cooking machine comprises a cooking cup assembly and a host machine. Some cooking cup subassemblies include cooking cup, motor and stirring sword subassembly. The stirring knife subassembly is connected with the motor, including being located the blade subassembly of cooking cup, the blade subassembly is by motor drive in order to arrange the internal rotation of cup.

Above-mentioned cooking machine has improvement space, for example, the cooking machine can only use a cooking cup subassembly.

SUMMERY OF THE UTILITY MODEL

The application discloses cooking machine. The cooking machine can use multiple cooking cup subassembly.

In order to achieve the purpose, the embodiment of the application discloses a food processor. The cooking machine comprises a host, a first cooking cup assembly and at least one second cooking cup assembly. The main machine comprises a machine base and a second motor positioned in the machine base. First cooking cup subassembly is put including first cooking cup, first motor element and first stirring knife tackle spare, first motor element includes first motor, first stirring knife tackle spare include with the first knife tackle spare that first motor is connected. Each second cooking cup assembly and each first cooking cup assembly can be selectively placed at the top of the main machine; under the condition that the second cooking cup assembly is placed on the host machine, the second knife assembly of the second stirring knife assembly can be driven by the second motor to rotate in the second cooking cup; under the condition that first cooking cup subassembly is placed in the host computer top, first knife subassembly can be by first motor drive is in first cooking cup internal rotation. So set up, because the cooking machine includes first cooking cup subassembly and at least one second cooking cup subassembly, and first cooking cup subassembly and second cooking cup subassembly can select to place in the host computer, therefore, the consumer can place corresponding cooking cup subassembly on the host computer and process different food according to the demand, and, a host computer can be equipped with a plurality of cooking cup subassemblies, the consumer is equivalent to possess many types of cooking machines, material benefit and product diversification, user experience is better, in addition, because the host computer includes the second motor and weight is heavier, like this, under the condition that first cooking cup subassembly includes first motor subassembly, can not cause the weight-up light down (first cooking cup subassembly is heavy and the host computer is lighter), be difficult to empty, and, also can not shift easily because the host computer is lighter, the cooking machine is difficult to drop from mesa etc. of kitchen, or even not fall off.

Optionally, the first food processing cup assembly comprises a cup assembly heat dissipation channel, and the first motor is located in the cup assembly heat dissipation channel; the host comprises a second fan and a host heat dissipation channel communicated with the cup assembly heat dissipation channel, and the second motor is positioned in the host heat dissipation channel; under the condition that the second fan works and the first food processing cup assembly is placed at the top of the host machine, the airflow outside the food processor is sucked into the host machine heat dissipation channel and blown to the first motor to be discharged outside the food processor through the cup assembly heat dissipation channel so as to dissipate heat of the first motor; second cooking cup subassembly place in under the condition at host computer top, the outside air current of cooking machine is inhaled host computer heat dissipation channel and discharge the cooking machine is outer, in order to right the second motor heat dissipation. So set up, first motor is usually from taking the motor fan blade, under the effect of second fan, can accelerate the velocity of flow of air to, dispel the heat to first motor under the combined action of the motor fan blade of first motor and second fan, the radiating effect is good.

Optionally, the host includes a second motor, the host heat dissipation channel includes a host air outlet located at the bottom of the base, and heat of the first motor is discharged from the host air outlet. According to the arrangement, under the condition that the host comprises the second motor and the host air outlet is located at the bottom of the base, air entering the host heat dissipation channel can dissipate heat of the first motor and the second motor through the first motor and the second motor, so that the heat dissipation effect of the whole machine is improved, and the service life of the whole machine is prolonged.

Optionally, the base includes a base and a host casing, and the base includes a hollow motor accommodating cavity located in the middle; the second motor is positioned in the motor accommodating cavity to form a host air outlet channel of the host heat dissipation channel; the host shell is assembled with the base, and surrounds the side wall of the motor accommodating cavity to form a host air inlet channel of the host heat dissipation channel, and a host air inlet of the host air inlet channel is positioned at the bottom of the base; the cup assembly heat dissipation channel comprises a cup assembly air inlet channel and a cup assembly air outlet channel which are communicated, and the cup assembly air inlet of the cup assembly air inlet channel and the cup assembly air outlet of the cup assembly air outlet channel are communicated with the top of the motor accommodating cavity. So set up, form at the middle part of base the motor holds the chamber, and the second motor is located the motor holds the intracavity, makes the second motor be located the center of cooking machine easily, and then, more can ensure that the cooking machine is difficult to empty, is located the motor through the second motor and holds the intracavity and host computer shell centers on the motor holds the corresponding host computer inlet air channel and the host computer air-out passageway that constitute of lateral wall in chamber, cup subassembly inlet air channel and cup subassembly air-out passageway intercommunication motor hold the top in chamber, can be better to first motor and second motor heat dissipation, and then the radiating effect of cooking machine is good.

Optionally, the four corners that the motor holds the chamber are provided with respectively and hold the chamber screw, the four corners of second motor is provided with the motor screw, the second motor through the screw with hold the chamber screw with the motor screw is connected and is stretched into the motor holds the intracavity. This sets up, and is fixed through the combination of screw and screw the second motor, fixed mode is simple, moreover, because the lateral wall just holds the corresponding corner that is located of chamber screw and motor screw for central line symmetry, thereby, will more easily the second motor assemble in the center of base, also be the center of cooking machine, ensure the cooking machine to be difficult to empty with simple equipment mode.

Optionally, the host shell includes a clutch through hole, the cup assembly air inlet channel and the host heat dissipation channel are communicated through the clutch through hole. So set up, the clutch through-hole lies in the middle part of host computer under the normal conditions, and the wind that gets into from the host computer air intake can shunt the entering cup subassembly inlet channel and host computer inlet channel, consequently, can be better to first motor and second motor heat dissipation, in addition, gets into from the clutch through-hole cup subassembly radiating channel, and the clutch through-hole lies in the middle part of host computer, and the corresponding middle part that lies in first cooking cup subassembly can faster heat dissipation.

Optionally, first cooking cup subassembly includes the cup stand, cup subassembly air intake of cup subassembly inlet air channel and cup subassembly air outlet of cup subassembly air-out passageway all set up in the diapire of cup stand, just the cup subassembly air outlet centers on the cup subassembly air intake. So set up, the cup subassembly air intake is located the diapire middle part of cup seat, and cup subassembly air outlet centers on the cup subassembly air intake, like this, the cup subassembly air intake is nearer apart from first motor, and the heat dissipation is fast, and the radiating effect is better.

Optionally, a motor shaft of the first motor is connected with a first fan blade, or a first fan is arranged in the heat dissipation channel of the cup assembly; the first cooking cup assembly comprises a temperature sensor, and the temperature sensor obtains a temperature value of the first cooking cup assembly; the food processor comprises a control board, and the control board controls the first fan or the first fan blade to radiate heat of the first motor when the temperature value of the control board is not greater than a preset value; and when the temperature value is larger than a preset value, controlling the second fan to radiate heat of the first motor, or controlling the first fan or the first fan blade and the second fan to radiate heat of the first motor together. So set up, can select corresponding radiating mode according to the temperature value of first cooking cup subassembly, not only the radiating effect is good, moreover, the low power dissipation of cooking machine.

Optionally, the main frame includes a main frame center line located in a vertical direction, and the motor shaft of the first motor and the motor shaft of the second motor coincide with the main frame center line. So set up, first motor and second motor are located the center of host computer, the cooking machine is difficult to more emptys or shifts to, job stabilization.

Optionally, the first and second food cup assemblies each include a detected end and an upper coupler, and the host includes a control board and a lower coupler connected to the control board; second cooking cup subassembly or first cooking cup subassembly place in under the condition at the top of host computer, the control panel passes through go up the coupler with down the coupler with be connected by the detection end, with according to coming from the signal identification of being detected the second cooking cup subassembly with first cooking cup subassembly, control the cooking machine carries out and discerns the corresponding procedure of second cooking cup subassembly or first cooking cup subassembly. So set up, the cooking cup subassembly of placing at the host computer top is discerned through the signal that detects to the control panel to carry out corresponding execution, from this, convenient and fast brings better user experience.

Drawings

Fig. 1 is an exploded perspective view of a food processor;

fig. 2 is an exploded perspective view of a first cooking cup assembly of a cooking machine main assembly of the cooking machine of the present application;

fig. 3 is a cross-sectional view of the food processor shown in fig. 2;

fig. 4 is a perspective view of the cup holder of the first cooking cup assembly;

FIG. 5 is a cross-sectional view of a second type of cooking cup assembly mounted on the main assembly of a cooking machine of the present application;

fig. 6 is a perspective view of a third food processing cup assembly mounted on the main unit of the food processing machine of the present application;

fig. 7 is a perspective view of a fourth food processing cup assembly mounted on the main unit of the food processing machine of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of the terms "a" or "an" and the like in the description and in the claims of this application do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "plurality" includes two, and is equivalent to at least two. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1, a food processor 10e includes a main body 1e and a cup assembly 2 e. The main body 1e includes a base 11e, a main body 12e, and an operation panel 13 e. The main body 12e is assembled to the base 11 e. The operation panel 13e is assembled to the main body 12 e. The cooking cup assembly 2e comprises a cooking cup 21e, a motor 22e, a stirring knife assembly, a cup seat 23e and a cup cover assembly 24 e. The motor 22e is assembled in the cup holder 23 e. The cup holder 23e is assembled with the cooking cup 21 e. The cup cover assembly 24e can cover the cooking cup 21 e. In the use condition, the cooking cup assembly 2e is placed on the main machine 1 e.

Referring to fig. 1, the food processor 10e has the following problems: 1) when in use, the food processing cup 21e is too heavy due to the food materials, so that the food processor 10e is heavy at the top and light at the bottom (the food processing cup assembly 2e is heavy, and the main machine 1e is light), and is easy to topple; 2) when the food processer works, the host 1e is too light and easy to shift, and the food processer is easy to fall off when in use; 3) the volume of the cooking cup assembly 2e (particularly the cup seat 23e) is very small, a motor, a coupler, an electric wire and the like are arranged in the cup seat 23e, the space is narrow, only the fan blades of the motor are needed to radiate the motor 22e, other fan blades are not needed to radiate the heat, and the space radiation is very poor; 4) the food processor 10e can only be equipped with one food processing cup assembly 2e, and can only cook one food material or one type of food material, for example, the first food processing cup assembly 2a is a hot cup, and hot food is processed. Consumers now not only demand a variety of nutrients, but also purchase a food processor (e.g., a wall breaking machine) that is expected to process a variety of foods to achieve a variety of functions at a relatively low purchase cost.

In order to solve at least one of the above problems, the embodiment of the present application discloses a food processor 10. The configuration of the processor 10 or the shape of the components is described as follows.

Referring to fig. 2, 3 and 5 to 7, the food processor includes a main body 1, a first food cup assembly 2a and at least one second food cup assembly 2b, 2c and 2 d. The first cooking cup assembly 2a, the second cooking cup assembly 2b, 2c and 2d can be selectively placed on the top of the main machine 1. Some configurations of the main body 1, the first cup assembly 2a and said at least one second cup assembly 2b, 2c and 2d are described below.

Referring to fig. 2, 3 and 5, the main body 1 includes a base 11 and a second motor 121 disposed in the base 11. The structure of the base 11 is not limited, and is used for installing the relevant components of the food processor and can be used for bearing the first or second food cup assembly 2a or 2b, 2c and 2d, and in one embodiment, as shown in fig. 2, 3 and 4, the base 11 includes a base 111 and a host housing 112. The host housing 112 is also referred to as a bodice in some embodiments. Referring to fig. 3 in combination with fig. 2, the first food cup assembly 2a is disposed at the top of the main machine 1 and includes a first food cup 21a, a first motor assembly 22 and a first stirring blade assembly 23 a. In some embodiments, the cooking cup assembly 2a further comprises a cup holder 24 and a cup cover 25. The first motor assembly 22 includes a first motor 221. The first stirring knife assembly 23a comprises a first knife assembly 231a connected with the first motor 221, and the first knife assembly 231a can be driven by the first motor 221 to rotate in the first cooking cup 21 a. The structure of each part of first cooking cup subassembly 2a is not limited, also can include other parts, first cooking cup subassembly 2a can understand: the cooking cup assembly is formed by adding a motor, a coupler and related components to a conventional cooking cup assembly.

Referring to fig. 5 to 7, each of the second cup assemblies 2b, 2c and 2d and the first cup assembly 2a realize different functions to process different foods, and in fig. 5, the second cup assembly 2b is a dry grinding cup assembly; in fig. 6, the second food cup assembly 2c is a complementary food cup; in fig. 7, the second food cup assembly 2d is a follower cup assembly. Every second cooking cup subassembly 2b, 2c and 2d includes second cooking cup 21b and second stirring sword subassembly 23b, every second cooking cup subassembly 2b, 2c and 2d and first cooking cup subassembly 2a can select to place in the top of host computer 1, more specifically, in some embodiments, second cooking cup subassembly 2b, 2c and 2d and first cooking cup subassembly 2a have one to be placed in host computer 1. In the embodiment of the present application, the second food cup assemblies 2b, 2c and 2d do not include a motor assembly.

So set up, because the cooking machine includes first cooking cup subassembly and at least one second cooking cup subassembly, and first cooking cup subassembly 2a and second cooking cup subassembly 2b, 2c and 2d can be selected place in host computer 1, consequently, the consumer can place corresponding cooking cup subassembly on host computer 1 and process out different food according to the demand, and, a host computer 1 can be equipped with a plurality of cooking cup subassemblies, and the consumer is equivalent to possessing many money cooking machines, and material benefit and product are diversified, and user experience is better. In addition, because host computer 1 includes second motor 121 and makes host computer 1's weight heavier, like this under the condition that first cooking cup subassembly 2a includes first motor element 22, can not cause the top heavy light down (first cooking cup subassembly 2a is heavy and host computer 1 is light), be difficult to empty, moreover, also can not shift easily because host computer 1 is light yet, the cooking machine is difficult to drop from the mesa etc. in kitchen, can not drop even.

Referring to fig. 3 in conjunction with fig. 2, as mentioned above, in the case that the first food processing cup assembly 2a includes the motor assembly 22, the coupler, the electric wire and the like, the space of the first food processing cup assembly 2a is narrow. Therefore, the first food processing cup assembly 2a needs to be cooled, and in some embodiments, only the fan blade of the first motor 221 is used for cooling (the fan blade can be equivalent to a fan), and no other cooling device is used, so that the problem of poor cooling effect exists. As follows, an embodiment for solving the heat dissipation problem is introduced.

Referring to fig. 3 in conjunction with fig. 2, the first food processing cup assembly 2a includes a cup assembly heat dissipation channel 26, and the first motor 221 is located in the cup assembly heat dissipation channel 26. The cup assembly heat dissipation channel 26 can be composed of multiple structures, in fig. 2 and fig. 3, the first cooking cup assembly 2a includes the cup holder 24 and is located the cover body 27 in the cup holder 24, the first motor 221 is located the cover body 27 and constitutes the cup assembly air inlet channel 261 of the cup assembly heat dissipation channel 26, the lateral wall of the cover body 27 with the inside wall 241 of the cup holder 24 constitutes the cup assembly air outlet channel 262 of the cup assembly heat dissipation channel 26. The cup assembly air inlet 2611 of the cup assembly air inlet channel 261 and the cup assembly air outlet 2621 of the cup assembly air outlet channel 262 are both arranged on the bottom wall 242 of the cup holder 24. The host 1 includes a second fan 122. In fig. 3 and fig. 2, the second fan 122 is a fan blade (hereinafter referred to as a second motor blade for convenience of description) of the second motor 121, and in other embodiments, the second fan 122 and the second motor 121 may be independent components. The host 1 is provided with a host heat dissipation channel 13, and the host heat dissipation channel 13 is communicated with the cup assembly heat dissipation channel 26. The second motor 121 is located in the host heat dissipation channel 13. When the second fan 122 (for example, the second motor blade) is operated and the first food processing cup assembly 2a is placed on the top of the main machine 1, the air flow outside the food processor is sucked into the main machine heat dissipation channel 13 and blown toward the first motor 221 to be discharged outside the food processor through the cup assembly heat dissipation channel 26 to dissipate heat of the first motor 221, and the flow direction of the air is shown by black arrows in fig. 3, it should be noted that fig. 3 illustrates a path through which the outlet air flows through the first motor 221 and is discharged from one side of the cup holder 24, but it is not limited that the outlet air can be discharged from only one side. In some embodiments, the cup assembly outlet ports 2621 of the cup assembly heat dissipation channel 26 are disposed around the bottom wall 242 of the cup holder 24. although two cup assembly outlet ports 2621 are visible in FIG. 3, the number is not limited, such as 4. In addition, the cup assembly air inlet 2611 of the cup assembly air inlet channel 261 is arranged at the bottom of the cup base 24, and in fig. 4, the cup assembly air inlet 2611 is surrounded by the cup assembly air outlet 2621, so that the cup assembly air inlet 2611 is located in the middle of the bottom wall 242 of the cup base 24, and the cup assembly air outlet 2621 surrounds the cup assembly air inlet 2611, so that the cup assembly air inlet 2611 is closer to the first motor 221, the heat dissipation is fast, and the heat dissipation effect is better. In fig. 3, the cup assembly inlet 2611 and the cup assembly outlet 2621 are separated by a housing 27. So set up, first motor 221 is usually from taking the motor fan blade, under the effect of second fan, can accelerate the velocity of flow of air to, dispel the heat to first motor 221 under the combined action of the motor fan blade of first motor 221 and second fan, the radiating effect is good.

Referring to fig. 5, the working process of the second food processing cup assembly as a dry grinding cup assembly is described as follows: with the second food cup assemblies 2b, 2c and 2d placed in the main machine 1, the second blade assembly 231b of the second stirring blade assembly 23b is driven by the second motor 121 to rotate in the second food cup 21 b. Of course, as shown in fig. 5, when the food processor 10 needs to dissipate heat, air (which may also be considered as wind) outside the food processor 10 enters the main air inlet channel 131 from the main air inlet 1311, passes through the main air outlet channel 132 (flows from the top of the second motor 121 to the bottom of the second motor 121 in the process of passing through the main air outlet channel 132), and is then discharged out of the food processor from the main air outlet 1321, and the main heat dissipation channel is as described above and will not be described again. As will be appreciated by those skilled in the art, after the second cup assemblies 2b, 2c and 2d are placed on top of the main body 1, the machine in this case can be considered a conventional machine.

Referring to fig. 2 to 4, the second motor 121 may be a single-phase series motor or a dc motor. The host heat dissipation channel 13 includes a host air outlet 1321 located at the bottom of the base, and the heat of the first motor 221 is exhausted from the host air outlet 1321. With the arrangement, under the condition that the host 1 comprises the second motor 121 and the host air outlet 1321 is located at the bottom of the base 11, the air entering the host heat dissipation channel 13 can dissipate heat of the first motor 221 and the second motor 121 through the first motor 221 and the second motor 121, so that the heat dissipation effect of the whole machine is improved, and the service life of the whole machine is prolonged.

Referring to fig. 3 and 5 in conjunction with fig. 2, the base 11 includes a base 111 and a main housing 112, and the base 111 includes a hollow motor accommodating cavity 1111 in a middle portion. The second motor 121 is located in the motor accommodating cavity 1111 to form a host air outlet channel 132 of the host heat dissipation channel 13; the host housing 112 is assembled with the base 111, and surrounds the sidewall 1112 of the motor receiving cavity 1111 to form the host air inlet channel 131 of the host heat dissipating channel 13. The host air inlet 1311 of the host air inlet channel 131 is located at the bottom of the base 11, in fig. 2, 3 and 5, the host air inlet 1311 is disposed on the base 111, and in some embodiments, a part of the host air inlet 1311 may be disposed at the bottom of the host housing 112, and another part of the host air inlet 1311 is disposed on the base 111. In addition, in the above embodiments, the second motor 121 is used as a reference, and it can be understood that air is blown out from the middle of the base 111 and air is blown into the side portions of the base 111, and in some embodiments, the air is blown out from the middle of the base 111 and air is blown out from the side portions of the base 111.

Referring to fig. 3 and 4, the cup assembly heat dissipation channel 26 includes a cup assembly air inlet channel 261 and a cup assembly air outlet channel 262 which are communicated with each other. The cup assembly air inlet 2611 of the cup assembly air inlet channel 261 and the cup assembly air outlet 2621 of the cup assembly air outlet channel 262 are both communicated with the top of the motor accommodating cavity 1111.

As set up above, form at the middle part of base 111 the motor holds chamber 1111, and second motor 121 is located the motor holds chamber 1111, makes second motor 121 be located the center of cooking machine easily, and then, more can ensure that the cooking machine is difficult to empty, is located the motor and holds chamber 1111 and host computer shell 112 around through second motor 121 the corresponding host computer inlet air channel 131 and the host computer air-out passageway 132 that constitute of lateral wall that the motor held chamber 1111, cup subassembly inlet air channel 261 and cup subassembly air-out passageway 262 intercommunication motor hold the top of chamber 1111, can be better to first motor 221 and the heat dissipation of second motor 121, and then the radiating effect of cooking machine is good.

Referring to fig. 2, 3 and 5, the side wall 1112 of the motor accommodating cavity 1111 is symmetrical with respect to the center line of the base 111 in the vertical direction, the four corners of the motor accommodating cavity 1111 are respectively provided with an accommodating cavity screw hole 1113, and the four corners of the second motor 121 are provided with a motor screw hole 1211. The second motor 121 is connected to the accommodating cavity screw hole 1113 and the motor screw hole 1121 through screws and extends into the motor accommodating cavity 1111. So set up, it is fixed through the combination of screw and screw second motor 121, fixed mode is simple, moreover, because lateral wall 1112 just holds the corresponding corner that is located of chamber screw 1113 and motor screw 1121 for the central line symmetry, thereby, more easily with second motor 121 assemble in the center of base 111, also be the center of cooking machine, ensure cooking machine is difficult to empty with simple equipment mode. Of course, the technical staff can understand how second motor 121 assembles in the motor holds and can also have other structures in the chamber 1111, and the motor holds and how the chamber 1111 sets up and also can have other embodiments, no longer gives unnecessary details one by one, and it can mainly to satisfy heat dissipation and cooking machine and be difficult to empty.

Referring to fig. 3 in combination with fig. 5, the host housing 112 includes a clutch through hole 1121, and the cup assembly air inlet channel 261 and the host heat dissipation channel 13 are communicated through the clutch through hole 1121. So set up, clutch through-hole 1121 is located the middle part of host computer 1 under the normal condition, and the wind that gets into from host computer air intake 1311 can shunt the entering cup subassembly air intake channel 261 and host computer air intake channel 131, consequently, can be better to the heat dissipation of first motor 221 and second motor 121, in addition, gets into from clutch through-hole 1121 cup subassembly heat dissipation channel 26, and clutch through-hole 1121 is located the middle part of host computer, and corresponding middle part that is located first cooking cup subassembly 2a can faster heat dissipation. In some embodiments, the wind can enter the first food cup assembly 2a from the side of the clutch through hole 1121 to dissipate heat of the first motor 221, which may cause the wind entering the main body 10 not to be split or the splitting effect is not good, and the heat dissipation effect on the first motor 221 and the second motor 121 is poor compared to the previous embodiments.

Referring to fig. 3 in conjunction with fig. 2, in one embodiment, a motor shaft of the first motor 221 is connected to a first fan 222 (that is, the first motor 221 has a fan). In other embodiments, a first fan is disposed within the cup assembly heat dissipation channel. First cooking cup subassembly 2a includes temperature sensor, temperature sensor obtains first cooking cup subassembly 2 a's temperature value. The temperature value can be the temperature value of first cooking cup 21a bottom, also can be other temperature values to it is accurate to need dispel the heat for first cooking cup subassembly 2 a. The food processer comprises a control board, and the control board controls the first fan or the first fan blade 222 to dissipate heat of the first motor 221 when the temperature value is not greater than the preset value. More specifically, the first motor 221 is controlled to rotate, and the first motor 221 rotates to drive the first fan blade 222 to rotate, so as to achieve heat dissipation, or the control board sends a control signal to the first fan to control the first fan to rotate to achieve heat dissipation. In the heat dissipation process, the flow direction of the wind is shown by the arrow in fig. 3, and is not described again. And the control panel controls the second fan to radiate heat of the first motor or controls the first fan or the first fan blade and the second fan to radiate heat of the first motor under the condition that the temperature value is greater than a preset value. So set up, can select corresponding radiating mode according to the temperature value of first cooking cup subassembly 2a, not only the radiating effect is good, moreover, the low power dissipation of cooking machine.

With continued reference to fig. 3, in some embodiments, the main body 1 includes a main body center line L1 in the vertical direction, and the motor shaft of the first motor 221 and the motor shaft of the second motor 121 coincide with the main body center line L1. So set up, the motor shaft of first motor 221 and second motor 121 is located host computer 1's center, the cooking machine is difficult to more emptys or shifts to, job stabilization.

With continued reference to fig. 5, in some embodiments, the first and second cup assemblies 2a, 2b, 2c and 2d each include a detected end and an upper coupler, and the host 1 includes a control board and a lower coupler connected to the control board; second cooking cup subassembly or first cooking cup subassembly place in under the condition at the top of host computer, the control panel passes through go up the coupler with down the coupler with be connected by the detection end, with according to coming from the signal identification of being detected the second cooking cup subassembly with first cooking cup subassembly, control the cooking machine carries out and discerns the corresponding procedure of second cooking cup subassembly or first cooking cup subassembly. How the control panel discerns first cooking cup subassembly 2a and second cooking cup subassembly 2b, 2c or 2d can have multiple mode, for example, through resistance value discernment cooking cup subassembly. Discerning the cooking cup subassembly of placing on host computer 1 at the control panel does under the condition of dry mill cup subassembly (second cooking cup subassembly 2b), control panel control cooking machine carries out the procedure relevant with the dry mill function, and the cooking cup subassembly of placing on host computer 1 is discerned at the control panel does under the condition of first cup subassembly 2a, control panel control cooking machine carries out the procedure relevant with first cooking cup subassembly function to this analogizes. So set up, the cooking cup subassembly of placing at 1 top of host computer is discerned through the signal that detects to the control panel to carry out corresponding execution, from this, convenient and fast brings better user experience. The skilled person can understand that in some embodiments, for example, in the case that the number of the food processor components is small, the food processor components can also be identified by the naked eye of the consumer to select the corresponding key on the operation panel 113 to implement the corresponding function.

The above description is only for the purpose of illustrating the preferred embodiments of the present application and is not to be construed as limiting the present application, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present application should be included in the scope of the present application.

Claims (10)

1. A food processor, comprising:

the main machine (1) comprises a machine base (11) and a second motor (121) positioned in the machine base (11);

a first cooking cup assembly (2a) comprising a first cooking cup (21a), a first motor assembly (22) and a first stirring knife assembly (23a), wherein the first motor assembly (22) comprises a first motor (221), and the first stirring knife assembly (23a) comprises a first knife assembly (231a) connected with the first motor (221);

at least one second cooking cup assembly, each second cooking cup assembly comprising a second cooking cup (21b) and a second stirring knife assembly (23 b);

each second cooking cup component and each first cooking cup component (2a) are selectively placed on the top of the main machine (1); under the condition that the second cooking cup assembly is placed on the host machine (1), a second knife assembly (231b) of the second stirring knife assembly (23b) can be driven by the second motor (121) to rotate in the second cooking cup (21 b); under the condition that the first cooking cup assembly (2a) is placed at the top of the main machine (1), the first knife assembly (231a) can be driven by the first motor (221) to rotate in the first cooking cup (21 a).

2. The food processor of claim 1, wherein the first food cup assembly (2a) comprises a cup assembly heat sink channel (26), the first motor (221) being located within the cup assembly heat sink channel (26);

the host (1) comprises a second fan (122) and a host heat dissipation channel (13) communicated with the cup assembly heat dissipation channel (26), and the second motor (121) is positioned in the host heat dissipation channel (13);

under the condition that the second fan (122) works and the first food cup assembly (2a) is placed at the top of the host (1), the air flow outside the food processor is sucked into the host heat dissipation channel (13), blown to the first motor (221) and discharged outside the food processor through the cup assembly heat dissipation channel (26) so as to dissipate heat of the first motor (221); the second cooking cup subassembly place in under the condition at host computer (1) top, the outside air current of cooking machine is inhaled host computer heat dissipation channel (13) and discharges outside the cooking machine, in order to right second motor (121) heat dissipation.

3. The food processor of claim 2, wherein the host heat dissipation channel (13) comprises a host air outlet (1321) at the bottom of the base (11), and the heat of the first motor (221) is exhausted from the host air outlet (1321).

4. The food processor of claim 3, wherein the base (11) comprises a base (111) and a main machine housing (112), the base (111) comprises a hollow motor accommodating cavity (1111) in the middle; the second motor (121) is positioned in the motor accommodating cavity (1111) to form a main machine air outlet channel (132) of the main machine heat dissipation channel (13); the host casing (112) is assembled with the base (111), and surrounds the side wall (1112) of the motor accommodating cavity (1111) to form a host air inlet channel (131) of the host heat dissipation channel (13), and a host air inlet (1311) of the host air inlet channel (131) is positioned at the bottom of the base (11);

cup subassembly radiating channel (26) including cup subassembly air inlet channel (261) and cup subassembly air-out passageway (262) that are linked together, cup subassembly air intake (2611) of subassembly air inlet channel (261) with cup subassembly air outlet (2621) of subassembly air-out passageway (262) all communicate the top of chamber (1111) is held to the motor.

5. The food processor as claimed in claim 4, wherein the four corners of the motor accommodating cavity (1111) are respectively provided with an accommodating cavity screw hole (1113), the four corners of the second motor (121) are provided with motor screw holes (1211), and the second motor (121) is connected with the accommodating cavity screw hole (1113) and the motor screw holes (1211) through screws to extend into the motor accommodating cavity (1111).

6. The food processor of claim 4, wherein the main body housing (112) comprises a clutch through hole (1121), and the cup assembly air inlet channel (261) and the main body heat dissipation channel (13) are communicated through the clutch through hole (1121).

7. The food processor of claim 2, wherein the first food processing cup assembly (2a) comprises a cup holder (24), a cup assembly air inlet (2611) of the cup assembly air inlet channel (261) and a cup assembly air outlet (2621) of the cup assembly air outlet channel (262) are both disposed on the bottom wall (242) of the cup holder (24), and the cup assembly air outlet (2621) surrounds the cup assembly air inlet (2611).

8. The food processor of any one of claims 2 to 7, wherein a motor shaft of the first motor (221) is connected with a first fan blade (222), or a first fan is arranged in the cup assembly heat dissipation channel (26);

the first cooking cup assembly (2a) comprises a temperature sensor, and the temperature sensor obtains the temperature value of the first cooking cup assembly (2 a);

the food processor comprises a control board, and the control board controls the first fan or the first fan blade to radiate heat of the first motor when the temperature value of the control board is not greater than a preset value; and when the temperature value is larger than a preset value, controlling the second fan to radiate heat of the first motor, or controlling the first fan or the first fan blade and the second fan to radiate heat of the first motor together.

9. The food processor of any one of claims 1 to 7, wherein the main body (1) comprises a main body center line (L) in a vertical direction, and the motor shaft of the first motor (221) and the motor shaft of the second motor (121) coincide with the main body center line (L).

10. The food processor of claim 1, wherein the first and second food cup assemblies (2a, 2b) each comprise a detected end and an upper coupler, and the main machine (1) comprises a control board and a lower coupler connected with the control board; second cooking cup subassembly or first cooking cup subassembly (2a) place in under the condition of the top of host computer (1), the control panel passes through go up the coupler with down the coupler with be connected by the detection end, with the signal identification who comes from by the detection end second cooking cup subassembly with first cooking cup subassembly (2a), control the cooking machine carry out with discernment the corresponding procedure of second cooking cup subassembly or first cooking cup subassembly (2 a).

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