CN213757870U - Food processor - Google Patents

Abstract

The application discloses cooking machine. This cooking machine includes main part subassembly, agitator subassembly and cooking bucket subassembly. The main part subassembly includes holding bucket, control panel and motor element. The agitator subassembly is arranged in the holding bucket, including agitator and stirring knife tackle spare, the stirring knife tackle spare is located the agitator bottom and with motor element connects to stirring food. The cooking barrel assembly is arranged in the accommodating barrel and is mutually replaced with the stirring barrel assembly, and the cooking barrel assembly comprises a cooking barrel which comprises a cooking barrel bottom; the agitator bottom with at least one of cooking bucket bottom is provided with the heater block, the heater block with the control panel electricity is connected. Because agitator subassembly and cooking bucket subassembly are removable arrange in the holding bucket, like this, the cooking machine can realize multiple functions, whole pleasing to the eye, coordinate, with low costs, in addition, the cooking bucket bottom is provided with cooking bucket heater block, and like this, heating efficiency is high, also can make the structure of main part subassembly littleer and design simple.

Description

Food processor

Technical Field

The application relates to the technical field of household appliances, in particular to a food processor.

Background

Current cooking machine (for example, broken wall machine) can realize smashing and heating function including stirring knife subassembly and heater block, can not realize functions such as rice cooking, a kind of deep pot hot water, fry, function single relatively.

In order to realize relatively many functions, some food processors provide separate accessories to realize functions of cooking, cooking soup, frying, and the like.

The food processor has the following disadvantages: the independent accessories need to be matched with corresponding parts such as covers and the like, so that more parts are needed, the cost is higher, and in addition, the whole machine is not matched coordinately and the appearance is not attractive.

Disclosure of Invention

In order to overcome some or all problems in the related art, the application provides a food processor. The food processor has relatively fewer parts and low cost, can also realize multiple functions, and has harmonious complete machine matching and attractive appearance.

To achieve the above object, the present application provides a food processor. The cooking machine comprises a main body assembly, a stirring barrel assembly and a cooking barrel assembly. The main part subassembly includes holding bucket, control panel and motor element. The agitator subassembly is arranged in the holding bucket, including agitator and stirring knife tackle spare, the stirring knife tackle spare is located the agitator bottom and with motor element connects to stirring food. Arrange the cooking bucket subassembly and arrange in the holding bucket, with the agitator subassembly is changed mutually, including arranging the cooking bucket. The cooking bucket comprises a cooking bucket bottom. The agitator bottom with at least one of cooking bucket bottom is provided with the heater block, the heater block with the control panel electricity is connected. So set up, because agitator subassembly and cooking bucket subassembly are removable arrange in the holding bucket, so, the cooking machine can realize multiple functions, in addition, because the main part subassembly can share, the spare part of cooking machine is less relatively and with low costs, whole coordination, complete machine outward appearance is pleasing to the eye, moreover, at least one of cooking bottom and agitator bottom is provided with the heating part, not only make cooking bucket or agitator heating efficiency high, also can make under the condition that needs detect agitator or cooking bucket temperature, the temperature measurement is more accurate, moreover, also can make the structure of main part subassembly littleer and simple in design, for example, need not set up the relevant structure that is used for placing the heating part on the main part subassembly, for example, cooking bottom and/or agitator bottom set up the heating part and make the thermal-insulated requirement of main part subassembly reduce, therefore, the associated structure for isolating thermal radiation may also be relatively simple.

Optionally, the cooking machine includes the upper cover subassembly, the upper cover subassembly assemble in main part subassembly can wind main part subassembly upset towards different directions, lid closes the upper cover subassembly can lid closes the holding bucket closes with the lid agitator or cooking bucket, opens the upper cover subassembly can take out agitator subassembly or cooking bucket subassembly. So set up, open or the lid closes through the mode of upset the upper cover subassembly takes out and places cooking bucket or agitator very conveniently, moreover, not only makes cooking machine during operation small in noise (for example, the noise that produces during the stirring can be by fine isolation), moreover, gives sound insulation and handles the structure that utilizes main part subassembly self, need not increase the part of sound-proof housing class, and the product appearance is pleasing to the eye.

Optionally, arrange the barrel subassembly including installing in the first temperature sensor of cooking bucket of cooking barrel head portion, the first temperature sensor of cooking bucket detects the temperature of cooking barrel head portion and connects the control panel, and/or, arrange the barrel subassembly including install in cooking barrel head portion stretches into cooking bucket inside arrange barrel second temperature sensor, arrange barrel second temperature sensor and detect arrange the inside temperature of barrel and connect in the control panel. With the arrangement, the first temperature sensor of the cooking barrel measures the temperature at the bottom of the cooking barrel, and the temperature is accurately controlled to obtain more delicious food; arrange cooking bucket second temperature sensor and be used for arranging cooking bucket inside when having liquid temperature measurement, the temperature measurement is more accurate, also can obtain more delicious food, under the condition including arranging cooking bucket first temperature sensor and arranging cooking bucket second temperature sensor, can realize more edible material processing through two temperature sensor, temperature control is more accurate to obtain more delicious food etc.. In addition, arrange first temperature sensor of cooking bucket and arrange a tub second temperature sensor and set up in the agitator bottom, can avoid arranging the influence between first temperature sensor of tub and/or arrange a tub second temperature sensor and other parts. For example, compared to an embodiment in which a temperature sensor is provided on a heat generating component such as a heat generating plate, the temperature measurement accuracy can be improved by effectively avoiding the influence of the heat generating component on the temperature sensor.

Optionally, the agitator subassembly is including installing in the agitator heater block and the agitator temperature controller of agitator bottom, the agitator heater block passes through the agitator temperature controller connect in the control panel, the agitator temperature controller detects the temperature of agitator bottom, under the condition that the temperature value is greater than the threshold value, the disconnection the agitator heater block with electricity between the control panel is connected. Because the agitator temperature controller is installed in the agitator bottom, the temperature measurement is accurate, and moreover, the control panel is according to the temperature value that records and the threshold value and confirm whether to break off, can prevent to dry combustion method.

Optionally, the agitator assembly is including installing in the first temperature sensor of agitator bottom, the first temperature sensor of agitator detect the temperature of agitator bottom and with the control panel is connected, and/or, the agitator assembly including install in the agitator second temperature sensor of agitator bottom, agitator second temperature sensor still stretches into inside in order to detect the inside temperature of agitator and with the control panel is connected. With the arrangement, the first temperature sensor of the stirring barrel measures the temperature at the bottom of the stirring barrel, for example, when no liquid food materials such as cooking or dough-kneading fermentation and the like are used for measuring the temperature, the temperature is accurately controlled, so that more delicious food can be obtained; temperature measurement when agitator second temperature sensor is used for the agitator inside to have liquid, and the temperature measurement is more accurate, also can obtain more delicious food, under the condition including first temperature sensor of agitator and agitator second temperature sensor, can realize more edible material processing through two temperature sensor, and temperature control is more accurate to obtain more delicious food etc.. In addition, the first temperature sensor of agitator and the second temperature sensor of agitator set up in the agitator bottom, can avoid the first temperature sensor of agitator and/or the influence between agitator second temperature sensor and other parts. For example, compared to an embodiment in which a temperature sensor is provided on a heat generating component such as a heat generating plate, the temperature measurement accuracy can be improved by effectively avoiding the influence of the heat generating component on the temperature sensor.

Optionally, the stirring barrel assembly comprises a stirring barrel cup seat mounted at the bottom of the stirring barrel and a stirring barrel clutch connected with the stirring blade assembly, and the stirring barrel cup seat further comprises a clutch accommodating cavity; the food processing barrel assembly comprises a food processing barrel cup seat arranged at the bottom of the food processing barrel, and the food processing barrel cup seat comprises a clutch accommodating cavity; the motor assembly comprises a driving motor, the food processor comprises a lower clutch connected with the driving motor, and under the condition that the stirring barrel assembly is positioned in the accommodating barrel, the stirring barrel clutch is connected with the lower clutch extending into the clutch accommodating cavity; arrange the bucket subassembly and be located under the condition in the holding bucket, the clutch is located down the clutch holds the intracavity and holds the lateral wall in chamber with the clutch and be separated by. So set up, under the condition of using cooking bucket subassembly, will descend the clutch to stretch into the clutch holds the chamber and holds the lateral wall in chamber with the clutch and be separated from and make down the clutch have the pivoted space, like this, even the maloperation leads to down the clutch to rotate and also can not make down the clutch damaged, has improved the life-span of clutch down.

Optionally, the mixing drum assembly comprises a mixing drum cup base, the mixing drum cup base and the bottom of the mixing drum form an element accommodating cavity, and a component arranged at the bottom of the mixing drum is located in the element accommodating cavity; the cooking barrel assembly comprises a cooking barrel cup seat, the cooking barrel cup seat and the bottom of the cooking barrel form an element accommodating cavity, and a part arranged at the bottom of the cooking barrel is positioned in the element accommodating cavity; and/or, the main part subassembly is including being located the shock pad of holding bottom of the barrel portion, the agitator subassembly perhaps the cooking bucket subassembly is located on the shock pad. Because the part (for example, agitator heater block, the first temperature sensor of agitator and agitator second temperature sensor etc.) that sets up in the agitator bottom is located the intracavity is acceptd to the component, and/or, the part (for example, cooking bucket heater block, the first temperature sensor of cooking bucket and cooking bucket second temperature sensor etc.) that sets up in cooking barrel bottom is located the component holds the intracavity, from this for each part avoids receiving external influence, also can improve the security, for example, outside water can not get into in the cup and cause short circuit phenomenon, the heater block can not scald the user etc. in addition, set up the cup can also make the structure of agitator subassembly and cooking bucket subassembly cleaner and tidier. Under the condition that sets up the shock pad, the shock pad can reduce the vibrations that can stir food production, reduces the noise that produces when stirring.

Optionally, the main body assembly comprises a main body upper shell provided with the accommodating barrel, a main body middle shell provided with a hollow accommodating barrel, a main body lower shell provided with a motor accommodating cavity and a drive plate accommodating cavity, a drive motor, a motor fan assembly for dissipating heat of the drive motor, a drive plate connected with the drive motor, and a drive plate fan assembly for dissipating heat of the drive plate; the main body upper shell, the main body middle shell and the main body lower shell are assembled together to form a motor heat dissipation air channel and a drive plate heat dissipation air channel corresponding to the motor accommodating cavity and the drive plate accommodating cavity, the accommodating barrel is partially positioned in the accommodating barrel, and the motor assembly is positioned in the motor heat dissipation air channel; the driving plate assembly is located in the driving plate heat dissipation air duct, and the motor heat dissipation air duct is separated from the driving plate heat dissipation air duct. The main body assembly comprises the main body upper shell, the main body middle shell and the main body lower shell, so that the layout of relevant structures of the food processor is facilitated, and the relevant structures of the food processor are easy to manufacture; in addition, through setting up motor heat dissipation wind channel and drive plate heat dissipation wind channel and separate these two kinds of wind channels, the temperature that the drive plate held the intracavity can not transmit the motor and hold the intracavity, ensures that the motor holds the part (for example, driving motor) work of intracavity under the temperature condition lower relatively, moreover, can not increase motor fan assembly's work burden, and the heat that the drive plate produced can not influence driving motor's life-span, and then, ensures the radiating effect in each heat dissipation wind channel.

Optionally, the motor accommodating cavity and the driving plate accommodating cavity have a common side wall, the side wall has a notch extending from an edge of the side wall to the inside of the side wall, and the bottom of the accommodating barrel extends out of the bottom of the accommodating barrel and is located in the notch. So set up, under the prerequisite of guaranteeing the radiating effect, because the bottom of holding bucket stretches out the bottom of holding the bucket is located the notch, thereby, make the cooking machine can be littleer, reaches miniaturized purpose.

Optionally, the driving board heat dissipation air duct includes an air inlet and an air outlet that are disposed opposite to each other. So set up, the air only moves towards a direction in the drive plate heat dissipation wind channel and can not scurry, and the radiating effect is good.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

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

fig. 2 is an exploded view of a food processor;

fig. 3 is a perspective view of a food processor of the present application;

FIG. 4 is a schematic view of the upper cover assembly of the food processor being turned over and the agitator assembly being taken out;

FIG. 5 is an exploded view of the upper cover assembly of the food processor;

fig. 6 is an exploded view of the body assembly of the food processor;

FIG. 7 is a schematic view of an angled construction of the agitator assembly;

FIG. 8 is a schematic view of another angle of the agitator assembly;

FIG. 9 is an exploded view of the agitator assembly at one angle;

FIG. 10 is an exploded view of the agitator assembly from another angle;

FIG. 11 is a structural view of the lower case of the main body assembly at another angle, emphasizing the internal structure of the lower case;

FIG. 12 is a structural view of the lower case of the main body assembly at another angle, emphasizing the bottom structure of the lower case of the main body;

FIG. 13 is a cross-sectional view of the agitator assembly positioned within the containment drum with the upper lid assembly open;

FIG. 14a is a cross-sectional view of an angle of the agitator assembly when the agitator assembly is in the containment tub and the lid assembly is closed;

FIG. 14b is an enlarged view of a portion A of FIG. 14 a;

FIG. 15 is a cross-sectional view of the agitator assembly at another angle within the containment drum and with the upper lid assembly closed;

fig. 16 is a schematic view of the arrangement of the cooking barrel assembly at an angle, emphasizing the bottom structure of the cooking barrel;

fig. 17 is a structural schematic view of another angle of the food processing barrel assembly, emphasizing the structure inside the barrel of the food processing barrel;

fig. 18 is a cross-sectional view of the cooking bucket assembly in the receiving bucket.

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 and methods 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. As used in this application 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 be understood that the terms "first," "second," and the like as used in the description and in the claims, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Similarly, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one; "plurality" means two or more than two. Unless otherwise indicated, "front", "rear", "lower" and/or "upper" and the like are for convenience of description and are not limited to one position or one spatial orientation. 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.

Exemplary embodiments of the present application will be described in detail below with reference to the accompanying drawings. In the following embodiments, features of the embodiments can be supplemented with each other or combined with each other without conflict.

Referring to fig. 1 and 2, a food processor includes a main body assembly 1a, a stirring cup assembly 2a located above the main body assembly 1a, and a cup cover assembly 3 a. As shown in figure 1, in the using process, the cup cover component 3a rotates clockwise or anticlockwise to cover the stirring cup component 2a or open the stirring cup component, so that the cup cover component 3a is inconvenient to cover and open, and in addition, the food processor has high noise in the working process.

In order to solve the problems that the cup cover component 3a of the food processer shown in fig. 1 and fig. 2 is inconvenient to open or close and the noise is large, and part or all of the problems that parts are relatively more, the whole machine is not coordinated and the appearance is not attractive under the condition that the food processer realizes multiple functions, the inventor obtains the food processer with the following structure through analysis and experiments, and the food processer comprises a main body component provided with a containing barrel, a stirring barrel component and a food processing barrel component. The stirring barrel component comprises a stirring barrel and a stirring knife component positioned in the stirring barrel. The cooking barrel component comprises a cooking barrel. In this kind of cooking machine, agitator subassembly and cooking bucket subassembly are removable arrange in the holding bucket, from this, agitator subassembly cooperation main part subassembly realizes stirring, perhaps stirs and heating function, and cooking bucket subassembly cooperation main part subassembly realizes cooking, a kind of deep pot hot water, fries in shallow oil, functions such as deep-fry. Arrange bucket subassembly and agitator subassembly and be located respectively the holding bucket is interior and sealed by the upper cover subassembly, and work noise is little.

The skilled person will appreciate that in some embodiments, the heating function of the whisk and cooking bucket assemblies may be achieved by: the heating part is not arranged in the main body assembly, the heating parts are respectively arranged on the stirring barrel assembly and the cooking barrel assembly, and the heating function is realized by the respective heating parts. Of course, the skilled person will understand that in some embodiments, it may be that one of the whisk barrel assembly and the cooking barrel assembly has a heating function.

The following describes in detail a structure of the food processor in which the heating members are provided to the agitation tank assembly and the food tank assembly, respectively.

Referring to fig. 3, 4 and 16, fig. 3 is a perspective view of the food processor, which shows a main body component 1b and a cover component 3b of the food processor, wherein the cover component 3b covers the main body component 1 b. Figure 4 is a schematic view of the upper cover component 3b of the food processor opening and taking out or putting in the stirring barrel component 2b, in fig. 4, the main assembly 1b of the food processor comprises a main upper case 11a provided with a receiving tub 111, a main middle case 11b assembled with the main upper case 11a, and a main lower case 11c assembled with the main middle case 11b, in this way, the layout of the relevant structure of the food processor is facilitated, and the relevant structure of the food processor is easily manufactured (for example, the design of the mold is facilitated and the mold opening is easily performed), and it can be understood by a skilled person that, as another structure of the main body assembly 1b, the main body assembly 1b may include two parts, an upper case and a lower case, and components for performing the respective functions of the main body upper case 11a, the main body middle case 11b and the main body lower case 11c are respectively provided to the upper case and the lower case, and in short, the main body assembly 1b has various configurations and is not limited to the above-described embodiment. The agitator assembly 2b includes an agitator 20 and an agitator cup holder 23. Fig. 16 illustrates a cooking bucket assembly 4b of the food processor, the cooking bucket assembly 4b including a cooking bucket 40.

Referring to fig. 3 and 4, the cover assembly 3b is assembled to the main body assembly 1b and can be turned around the main body assembly 1b in different directions, as shown in fig. 4, the cover assembly is turned over and opened along the direction (counterclockwise) shown by the arrow a1 in fig. 4 with respect to the main body upper shell 11a so as to expose the accommodating barrel 111, after the mixing barrel assembly 2b is placed, the cover assembly 3b is turned over along the direction (clockwise) shown by the arrow a2 in fig. 4 with respect to the main body upper shell 11a so as to cover the mixing barrel 20 of the mixing barrel assembly 2b, and the state that the cover assembly 3b and the main body assembly 1b are closed is shown in fig. 3.

Referring to fig. 3, 4 and 13 in combination with fig. 18, in the case of replacing the mixing tank assembly 2b and the food processing tank assembly 4b, it is only necessary to replace the mixing tank assembly 2b with the food processing tank assembly 4b, or replace the food processing tank assembly 4b with the mixing tank assembly 2b, and then turn over the upper cover assembly 3 b. Because agitator subassembly 2b and cooking bucket subassembly 4b are removable to be used, have realized multiple functions, in addition, because upper cover subassembly 3b and main part subassembly 1b can share, like this, the spare part of cooking machine is less relatively and with low costs, whole coordination and complete machine outward appearance are pleasing to the eye. In a word, lid the upper cover subassembly 3b can close the holding bucket 111 closes with the lid agitator 20 or cooking bucket 40 open upper cover subassembly 3b can take out agitator subassembly 2b or cooking bucket subassembly 4 b.

Through upset and closing or open agitator 20 of agitator subassembly 2b or cooking bucket 40 of cooking bucket subassembly 4b, open or the mode that the lid closed cup lid subassembly 3a compares with rotatory cup lid subassembly 3a, owing to do not need the rotation operation, opening or closing of upper cover subassembly 3b is all very convenient. Compare with the mode that bowl cover subassembly 3a exposes outside and be located main part subassembly 1 a's top, agitator subassembly 2b is located holding bucket 111 and agitator 20 is closed by upper cover subassembly 3b lid, not only makes cooking machine during operation small in noise (for example, the noise that produces during the stirring can be by fine isolation), moreover, utilizes main part subassembly 1b self structure on the processing that gives sound insulation, need not increase the part of sound-proof housing class, and the product appearance is pleasing to the eye.

There are various structures for realizing the turning, such as a structure by a spring and a rotating shaft or a structure by a torsion spring and a bolt matching, etc. Referring to fig. 5, 6, and 13 to 15, in one embodiment, the manner of flipping is as follows: the upper cover assembly 3b includes a cover upper cover 31 having a hook 311, a torsion spring 32 mounted on the main body upper case 11a and abutting against the cover upper cover 31, a fixing cover 33, and a latch 34. The fixing cover 33 is fixed to the cover upper cover 31 to form a torsion spring receiving chamber. A torsion spring 32 is located within the torsion spring receiving cavity. As shown in fig. 13, the hook 311 and the torsion spring 32 are located at opposite ends of the cover upper 31, and the hook 311 includes an inclined wall 3111 and a hook wall 3112. How the torsion spring 32 is mounted to the main body upper case 11a may take various forms, and in the present embodiment, the main body upper case 11a is provided with a mounting seat 112. The latch 34 passes through the torsion spring 32 and is mounted to the mounting block 112. The main body middle case 11b and the main body upper case 11a form an installation space 10 therebetween. As shown in fig. 6, the main body middle shell 11b includes a middle shell connection wall 116 and a middle shell side wall 117 connected to a peripheral edge of the middle shell connection wall 116. The main body component 1b comprises a locking piece 12, a button 13 and a locking piece torsion spring 14. As shown in fig. 6 and 13, the locker 12 is mounted to the main body upper case 11a and positioned in the mounting space 10 by a pivot structure, and includes a locking part 121 and a contact part 122. The button 13 is mounted to the middle case sidewall 117 and extends into the mounting space 10 to contact the contact portion 122. The button 13 is not limited in structure, and in fig. 6, the button 13 includes a button housing 131 having a button spring receiving chamber 1311, a button spring 132, and a button 133. The bottom of the key spring receiving chamber 1311 has a through hole. The button housing 131 is mounted to the middle case sidewall 117 of the main body middle case 11 b. The button spring 132 is located within the spring receiving chamber 1311. The push button 133 includes a push rod 1331, the end of the push rod 1331 includes a locking hook 1332, the push rod 1331 and the button spring 132 are sleeved and pass through the through hole to be locked by the locking hook 1332 and the bottom of the button spring accommodating cavity 1311, so that the push button 133 can reciprocate in the button spring accommodating cavity 1311 under the action of the button spring 132, thereby achieving the purpose of pressing the push button 133. The locker torsion spring 14 is for providing resilience to the locker 12, and may be pivotally coupled to the main body upper case 11a at the same axis as the locker 12.

Based on the above structure, the process of turning over the upper cover assembly 3b to cover the mixing tank 20 of the mixing tank assembly 2b is as follows: as shown in fig. 4 and 13 to 15, in the process of turning the upper cover assembly 3b along arrow a2 shown in fig. 4 and 13, the inclined wall 3111 of the hook 311 of the cover upper cover 31 gives a force to the locking part 121 so that the locking member 12 rotates, and in the case where the locking part 121 is disengaged from the inclined wall 3111, the locking member torsion spring 14 gives a force to the locking member 12 so that the locking part 121 hooks the hook wall 3112 of the hook 311 of the cover upper cover 31, whereby the upper cover assembly 3b covers the mixing tub assembly 2 b.

Based on the above structure, the process of opening the upper cover assembly 3b to take out the agitator assembly 2b is as follows: as shown in fig. 5, 6, 13-15, the contact portion 122 and the locking member are forced by the button 13 to rotate the locking member 12 clockwise around the pivot structure, the locking portion 121 is disengaged from the hook wall 3112 of the hook portion 311 of the cover upper 31, then the torsion spring 32 applies a force to the cover upper 31 to turn the cover upper 31 in the direction of the arrow a1 (counterclockwise direction) in fig. 4 and 13, so that the cover upper 31 turns to turn the other components of the upper cover assembly 3b together, and finally the upper cover assembly 3b is sprung open by the torsion spring 32 to expose the mixing tank assembly 2b for taking out the mixing tank assembly 2 b.

Although the above-mentioned manner of opening and closing the upper cover assembly 3b is described in detail by taking the mixing tank assembly 2b as an example and combining fig. 13 to fig. 15, the skilled person can understand that, in the case of placing the food processing tank assembly 4b, only the mixing tank assembly 2b is replaced by the food processing tank assembly 4b, and the structure of the main body assembly 1b and the upper cover assembly 3b is shared, so that, in the case of placing the food processing tank assembly 4b, the opening and closing processes of the upper cover assembly 3b are the same, and the opening or closing process of the upper cover assembly 3b in the case of placing the food processing tank assembly 4b can be understood by referring to fig. 18 and combining with the descriptions of fig. 13 and fig. 14a and the corresponding texts, and will not be described again.

Referring to fig. 5, 13 to 15, the upper cover assembly 3b can also seal the mixing tank 20 or the food processing tank 40, and the following description only takes the mixing tank 20 as an example to describe an embodiment of the mixing tank 20 in which the upper cover assembly 3b seals the mixing tank assembly 2b as follows: the upper cover assembly 3b includes a seal cover assembly 35. The seal cap assembly 35 includes a seal ring 351 and a seal cap body 352. As shown in fig. 14a and 14b, the sealing ring 351 includes a connecting portion 3511 connected to the sealing cover main body 352 and an abutting portion 3512 connected to the connecting portion 3511, and the abutting portion 3512 is folded back from an end of the connecting portion 3511 toward the inside of the sealing cover main body 352 to form a hook shape with the connecting portion 3511. As shown in fig. 14a, 14b and 15, in the case that the agitation tank assembly 2b is positioned in the receiving tank 111, the abutting portion 3512 of the packing 351 is pressed against the rim of the agitation tank 20 by the sealing cover main body 352 of the upper cover assembly 3b, whereby the agitation process is completed in the sealed space, and therefore, noise generated during agitation can be isolated. In addition, because the connecting portion 3511 and the abutting portion 3512 of the sealing ring 351 are hook-shaped, the end face of the stirring barrel 20 is elastically pressed by the sealing ring 351 to realize sealing, the sealing effect is good, the operation is convenient, and the service life of the sealing ring 351 is long and the sealing ring is not easy to deform. Under the condition that the cooking barrel component 4b is placed in the accommodating barrel 111, the main body component 1b and the upper cover component 3b are shared, so the sealing cover component 35 of the upper cover component 3b can also seal the cooking barrel 40 of the cooking barrel component 4b, and the opening or closing process of the upper cover component 3b under the condition that the cooking barrel component 4b is placed can be understood by referring to fig. 18 and combining fig. 13 and 14 and corresponding text descriptions, which are not described again.

Referring to fig. 7 to 10 and 13 to 15, the related structure and components of the mixing tank assembly 2b for realizing the heating function and the connection relationship therebetween are described as follows: the stirring barrel component 2b comprises a stirring barrel 20 with a stirring barrel bottom 201 and a stirring barrel interior 202, a stirring blade component 21 positioned in the stirring barrel interior 202, a stirring barrel coupler 22, a stirring barrel cup seat 23, a stirring barrel heating component 24 and a stirring barrel temperature controller 25. The mixing drum heating component 24 can be various, for example, in the present embodiment, the mixing drum heating component 24 is a heating pipe, and the heating pipe is disposed around the mixing drum bottom 201. The stirring barrel temperature controller 25 is connected with the stirring barrel coupler 22 and the stirring barrel heating component 24. The blender cup holder 23 includes a first cavity 231 such that the bottom wall and side walls of the first cavity 231 of the blender cup holder 23 and the blender bottom 201 form a component receiving cavity 29 after the blender cup holder 23 is mounted to the blender bottom 201. The mixer coupler 22, the mixer heating element 24 and the mixer temperature controller 25 are located in the element receiving cavity 29. The agitator coupler 22 also extends from the bottom of the agitator cup mount 23.

Referring to fig. 6, the main body assembly 1b includes a lower coupler 15 connected to the stirrer coupler 22 and a control board 16 connected to the lower coupler 15. The control board 16 is connected to the commercial power through the socket 161, and the current is transmitted to the mixing drum heating component 24 through the control board 16, the lower coupler 15, the mixing drum coupler 22 and the mixing drum temperature controller 25. The agitator temperature controller 25 detects the temperature of agitator bottom 201, and under the condition that the temperature value is greater than the threshold value, the disconnection agitator heating element 24 with the electricity between the agitator coupler 22, agitator coupler 22 and lower coupler 15 are used for realizing signal transmission and power supply between agitator temperature controller 25 and the control panel 16, also can replace with other modes, and from this, agitator temperature controller 25 disconnection agitator heating element 24 with electricity between the agitator coupler 22 is connected can be thought to break agitator heating element 24 with electricity between the control panel 16. In the above embodiment, since the agitation tank heating member 24 is disposed at the bottom 201 of the agitation tank, the heating efficiency is high for faster heating, and in addition, the agitation tank temperature controller 25 is installed at the bottom 201 of the agitation tank, the temperature measurement is accurate, and whether disconnection is determined according to the measured temperature value and the threshold value, the dry burning can be prevented.

Referring to fig. 9 and 10, in one embodiment, the mixer drum assembly 2b includes a first mixer drum temperature sensor 26a and a second mixer drum temperature sensor 26b located in the component receiving cavity 29. The first temperature sensor 26a is mounted on the bottom 201 of the mixing tank, such as an NTC temperature measuring element. The first temperature sensor 26a of the mixing drum is connected to the control board 16, and specifically, is connected to the control board 16 through the coupling 22 of the mixing drum and the lower coupling 15. The first temperature sensor 26a of the mixing drum detects the temperature of the bottom 201 of the mixing drum, and the detected temperature value is transmitted to the control board 16 through the coupling 22 of the mixing drum and the lower coupling 15. The control board 16 determines whether to output current to the heating element 24 of the mixing drum according to the temperature value detected by the first temperature sensor 26a of the mixing drum. In case of outputting current, the current is transmitted to the heating part 24 of the mixing drum through the lower coupler 15, the coupling 22 of the mixing drum and the temperature controller 25 of the mixing drum. The second temperature sensor 26b of the mixing bowl can be, for example, an NTC temperature measuring element. The second temperature sensor 26b of the stirring barrel is installed at the bottom 201 of the stirring barrel, and the coupler 22 of the stirring barrel is connected with the control board 16 and also extends into the inner part 202 of the stirring barrel, so that the control board 16 can determine whether to output current to the heating part 24 of the stirring barrel according to the temperature value detected by the second temperature sensor 26b of the stirring barrel. In case of outputting current, the current is transmitted to the heating part 24 of the mixing drum through the lower coupler 15, the coupling 22 of the mixing drum and the temperature controller 25 of the mixing drum. The skilled person can understand that the first temperature sensor 26a of the mixing drum measures the temperature of the bottom 201 of the mixing drum, for example, when no liquid food material such as dish frying or dough kneading fermentation is used for frying with the mixing drum 20, the temperature is accurately controlled, so as to obtain more delicious food; the second temperature sensor 26b of the mixing drum is used for measuring the temperature when the liquid is in the inner part 202 of the mixing drum, the temperature measurement is more accurate, and more delicious food can be obtained. Under the condition that includes first temperature sensor 26a of agitator and the second temperature sensor 26b of agitator, can realize more edible material processing through two temperature measurement sensor, temperature control is more accurate to obtain more delicious food etc.. In addition, the first temperature sensor 26a and the second temperature sensor 26b are disposed on the bottom 201 of the mixer, so that the second temperature sensor 26b and/or the first temperature sensor 26a can be prevented from being affected by other components. For example, compared to an embodiment in which a temperature sensor is provided on a heat generating component such as a heat generating plate, the temperature measurement accuracy can be improved by effectively avoiding the influence of the heat generating component on the temperature sensor.

Referring to fig. 6, 10, 13 to 15, the following description will be made on the related structures and the connection relationship between the components and parts when the blending tank assembly 2b is located in the accommodating tank 111:

in one embodiment, as shown in fig. 6, 10 and 13, the blender cup holder 23 includes a clutch receiving cavity 232. The mixing drum assembly 2b includes a mixing drum clutch 27 connected to the mixing blade assembly 21 and a shock-absorbing pad 28 located at the bottom of the receiving drum 111. The main body assembly 1b includes a lower clutch 17 and a motor assembly 19a connected to the lower clutch 17. The motor assembly 19a includes a drive motor 191a and, in one embodiment, a motor seal 192 a. In the case where the mixer bowl assembly 2b is located in the receiving tub 111, the mixer bowl 23 is located on the shock pad 28 so that the mixer bowl assembly 2b is located on the shock pad 28, and the mixer bowl clutch 27 is connected to the lower clutch 17 extending into the clutch receiving cavity 232. The shock absorbing pad 28 can reduce the shock generated by stirring the food and reduce the noise generated during stirring.

In one embodiment, as shown in fig. 6, 11 and 12, the main body assembly 1b includes a driving board assembly 19b, and the driving board assembly 19b includes a driving board 191b and a driving board fan assembly 192b controlling the driving motor 191 a. The motor assembly 19a also includes a motor fan assembly. The main body lower case 11c of the main body assembly 1b is provided with a motor receiving cavity 113 and a driving board receiving cavity 114. The main body middle case 11b further includes a hollow receiving tub 115 connected to the middle cover connection wall 116, and the receiving tub 115 is located at the middle of the main body middle case 11 b. The main body upper shell 11a, the main body middle shell 11b and the main body lower shell 11c are assembled together to form a motor heat dissipation air duct 110 and a drive board heat dissipation air duct 120 corresponding to the motor accommodating cavity 113 and the drive board accommodating cavity 114, the accommodating barrel 111 is partially located in the accommodating barrel 115, the motor assembly 19a (the drive motor 191a and the motor fan assembly) is located in the motor heat dissipation air duct 110, and the drive board assembly 19b (the drive board 191b and the drive board fan assembly 192b) is located in the drive board heat dissipation air duct 120. More specifically, the following is described: in this embodiment, the motor accommodating chamber 113 includes a first bottom wall 1131 and a first side wall 1132 surrounding the first bottom wall 1131. The drive plate receiving cavity 114 includes a second bottom wall 1141 and a second side wall 1142 disposed about the second bottom wall 1141. The motor receiving cavity 113 and the drive plate receiving cavity 114 have a common side wall 1132, and the side wall 1132 is provided with a notch 1133.

Referring to fig. 13 and 14a in combination with fig. 11 and 12, the receiving barrel 111 is located inside the receiving barrel 115 and extends out of the receiving barrel 115. The bottom of the accommodating barrel 111 is located in the notch 1133, so that the cavity wall (including the first bottom wall 1131 and the first side wall 1132) of the motor accommodating cavity 113, the portion of the accommodating barrel 111 located above the motor accommodating cavity 113, and the portion of the main body middle shell 11b located above the motor accommodating cavity 113 constitute the motor heat dissipation air duct 110. The air intake 1134 and the air exit 1135 of motor heat dissipation wind channel set up respectively in the cavity wall of motor holding chamber 113, its concrete position is not limited, as long as can make the motor hold the air in the chamber 113 and outside realize the heat exchange can, in fig. 12, air intake 1134 set up in first lateral wall 1132, air exit 1135 set up in first diapire 1131. The food processor comprises a motor fan assembly, and is arranged in an air outlet 1135 of the motor heat dissipation air channel. In the present embodiment, the driving motor 191a is integrated with the motor fan assembly, and may be a brushless dc motor or a switched reluctance motor, which may rotate at a low speed of 40-20000rpm, and directly drives the stirring blade assembly 21. The skilled artisan will also appreciate that the drive motor 191a may not be integral with the motor-fan assembly, in which case the motor-fan assembly may also be positioned at the exhaust port 1135. Of course, the skilled artisan will appreciate that in some embodiments, the motor-fan assembly may also be positioned within the intake 1134. No matter what the arrangement of the motor fan assembly is, the air outside the food processor can enter the motor heat dissipation air duct 110 from the air inlet 1134 and be exhausted from the air outlet 1135.

With reference to fig. 6, 11 to 15, when the bottom of the accommodating barrel 111 is located in the notch 1133, the cavity walls (the second bottom wall 1141 and the second side wall 1142) of the driving board accommodating cavity 114, the portion of the accommodating barrel 111 located above the driving board accommodating cavity 114, and the portion of the main body middle shell 11b located above the driving board accommodating cavity 114 constitute the driving board heat dissipation air duct 120. As shown in fig. 11, the air inlet 1144 and the air outlet 1145 of the driving board heat dissipation air duct 120 are disposed opposite to the driving board accommodating cavity 114, and in this embodiment, the air inlet 1144 and the air outlet 1145 are disposed on the second side wall 1142, so that air moves in one direction only in the driving board heat dissipation air duct 120 without mixing, and the heat dissipation effect is good. Of course, the air inlet 1144 and the air outlet 1145 may be disposed in other manners, for example, the air inlet 1144 is located on the second side wall 1142, and the air outlet 1145 is located on the second bottom wall 1141, as long as the air in the driving board accommodating cavity 114 and the air outside the driving board accommodating cavity 114 can exchange heat. The driving board fan assembly 192b is located at the air inlet 1144 or the air outlet 1145 of the driving board heat dissipation air duct 120, and a skilled person can understand that the position of the driving board fan assembly 192b is not limited as long as the air outside the driving board heat dissipation air duct 120 can enter from the air inlet 1144 and be discharged from the air outlet 1145. Through setting up drive plate heat dissipation wind channel and motor heat dissipation wind channel, two kinds of wind channels separate the setting (for example, the aforesaid is located notch 1133 and separates through the bottom of holding bucket 111) makes the drive plate hold the temperature in the chamber 114 can not transmit the motor and hold the chamber 113 in, ensures that the motor holds the part (for example, driving motor) work in the chamber 113 under the temperature condition less relatively, and, can not increase motor fan assembly's work burden, the heat that the drive plate produced can not influence driving motor 191 a's life-span, and then, ensures the radiating effect in each heat dissipation wind channel. In addition, the bottom of holding bucket 111 is located notch 1133 can also make the cooking machine miniaturized, because, notch 1133 is from inside extension of lateral wall (first lateral wall 1132) edge to first lateral wall 1132 and this lateral wall vertical placement, so, can reduce the whole height of cooking machine, a part of holding bucket 111 is located the motor holds the top of chamber 113, and another part is located the drive plate and holds the top of chamber 114, so, can reduce the whole width of cooking machine, to sum up, height and width homoenergetic are less makes the product miniaturized. Of course, the skilled person can understand that the drive board heat dissipation air duct and the motor heat dissipation air duct may be arranged in other manners, in this case, the accommodating barrel 111 is located in the accommodating barrel 115 to form the motor heat dissipation air duct 110 together with the cavity wall of the motor accommodating cavity 113, the part of the accommodating barrel 111 located above the motor accommodating cavity 113, and the part of the main body middle shell 11b located above the motor accommodating cavity 113, and at least the cavity wall of the drive board accommodating cavity 114 and the part of the main body middle shell 11b located above the drive board accommodating cavity 114 form the drive board heat dissipation air duct 120, for example, the first side wall 1132 common to the motor accommodating cavity 113 and the drive board accommodating cavity 114 is directly connected to the side wall of the opening at the bottom of the accommodating barrel 115 without providing the notch 1133, for example, in fig. 14a, the first side wall 1132 is moved to be connected to the side wall of the opening at the bottom of the accommodating barrel 115 of the main body middle shell 11b, in this way, the heat dissipation duct of the drive board is only enclosed by the wall of the drive board receiving cavity 114 and the corresponding portion of the main body middle shell 11b, and in this embodiment, the width of the food processor is larger than that of the embodiment illustrated in fig. 13 to 15.

Referring to fig. 16 to 18, fig. 16 and 17 illustrate a food processing barrel assembly 4b of the food processor of the present application, the food processing barrel assembly 4b is different from the mixing barrel assembly 2b in that: 1) the cooking barrel component 4b does not comprise the stirring knife component 21; 2) arrange the processing barrel head portion of cooking bucket subassembly and level the sclausura, arrange the processing bucket subassembly and only include a temperature sensor. For the convenience of understanding, the structure of the food processing barrel assembly is described as follows, first, the food processing barrel and the stirring barrel are added correspondingly before the same element names for distinction, for example, the coupler of the food processing barrel assembly and the coupler of the stirring barrel assembly are respectively represented by the coupler of the food processing barrel assembly and the coupler of the stirring barrel assembly, and the structure of the food processing barrel assembly 4b is briefly described as follows: the cooking barrel assembly 4b comprises a cooking barrel 40, a coupler 42 for the cooking barrel, a heating component 44 for the cooking barrel, a temperature controller for the cooking barrel and a cup holder 43 for the cooking barrel. The cooking barrel 40 comprises a cooking barrel bottom 401 and a cooking barrel inside 402. The cooking barrel temperature controller is connected with the cooking barrel coupler 42 and the cooking barrel heating component 44. The advantages that the same structure has in the cooking barrel assembly are the same as all the advantages of the same structure in the stirring barrel assembly, for example, the advantages that the heating parts are arranged at the respective bottoms of the cooking barrel 40 and the stirring barrel 20 are the same. Cooking barrel cup 43 includes that the component holds the chamber, and the effect that the chamber was held to the component is the same with the effect that chamber 29 was held to the component of agitator cup 23, for example, cooking barrel cup 43 still includes that the clutch holds chamber 432. In fig. 16 to 17, because the bottom of the cooking barrel bottom 401 is flat and without holes, the cooking barrel assembly 4b shown in fig. 16 and 17 includes a first temperature sensor mounted at the bottom of the cooking barrel, which is located in the component accommodating cavity and connected to the coupler of the cooking barrel, for detecting the temperature at the bottom of the cooking barrel. Nevertheless, the skilled person can understand that, in some embodiments, like the stirring barrel assembly 2b, a second temperature sensor of the food processing barrel may be provided, the second temperature sensor of the food processing barrel is mounted on the bottom 401 of the food processing barrel and extends into the inside 402 of the food processing barrel, and is connected to the coupler 42 of the food processing barrel for detecting the temperature of the inside 402 of the food processing barrel. Of course, the skilled person can also understand that in some embodiments, the cooking bucket first temperature sensor and the cooking bucket second temperature sensor may only have one of them. Cooking barrel cup 43's structure can refer to the structure of agitator cup 23, for example, cooking barrel cup 43 with cooking barrel head 401 constitutes the component and holds chamber 45, set up in cooking barrel head 401's part (for example, cooking barrel heating part 44, the first temperature sensor of cooking barrel and cooking barrel second temperature sensor etc.) is located the component holds in the chamber 45.

Referring to fig. 4 and fig. 13 to 15 and fig. 18, the process of replaceable use of the mixing barrel assembly 2b and the food processing barrel assembly 4b will be described, and the assembly relationship between the food processing barrel assembly 4b and the main assembly 1 will be described as follows:

assuming that the agitator assembly 2b is placed in the accommodating barrel 111 of the food processor, in this case, as mentioned above, the agitator assembly 2b is located on the shock pad 28, the agitator clutch 27 of the agitator assembly 2b is connected with the lower clutch 17, then the upper cover assembly 3b is turned over along the direction of the arrow a1, after the upper cover assembly 3b is opened, the agitator assembly 2b is taken out, and then the accommodating barrel 111 is placed into the food processor assembly 4b, and after the food processor assembly is placed into the food processor, the food processor cup seat 43 is located on the shock pad 28, the lower clutch 17 is located in the clutch accommodating cavity 432 and is separated from the side wall of the clutch accommodating cavity 432, and the food processor coupler 42 is connected with the lower coupler 15. By extending the lower clutch 17 into the clutch accommodating chamber 432 and being spaced apart from the sidewall of the clutch accommodating chamber 432, the lower clutch 17 is allowed to have a space for rotation, so that the lower clutch 17 is not damaged even if the lower clutch 17 rotates due to an erroneous operation.

While the foregoing describes the embodiments in the case where the mixing tank assembly 2b and the food processing tank assembly 4b both have a heating function, the skilled person can understand that, in the case where the mixing tank assembly 2b does not need a heating function, but only realizes a mixing function, one embodiment is: in the above structure, the mixer coupler 22, the mixer heating element 24, the mixer temperature controller 25, the mixer first temperature sensor 26a, and the mixer second temperature sensor 26b may be omitted.

Referring to fig. 15, in one embodiment, in order to prevent the water in the mixing drum assembly 2b or the cooking drum assembly 4b from overflowing and accumulating inside the main assembly 1b, an upper cover hollow column 118 is disposed at the bottom of the accommodating drum 111 of the main upper casing 11a of the main assembly 1b and is communicated with the inside of the accommodating drum 111, and a lower casing 119 is disposed at the main lower casing 11c and is inserted into the upper cover hollow column 118, so that the lower casing hollow column 119 and the upper cover hollow column 118 form a drainage channel, and in case that the water overflows from the mixing drum assembly 2b or the cooking drum assembly 4b, the water flows to the bottom of the accommodating drum 111 along the sidewall of the accommodating drum 111 and is drained through the drainage channel.

In the above-mentioned embodiment, adopt the coupler to realize agitator temperature controller and control panel, cooking bucket temperature controller and lower control panel be connected and signal transmission between temperature sensor and the control panel, technical staff can understand, also can realize signal transmission through other modes between them.

Although the present application has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and all changes, substitutions and alterations that fall within the spirit and scope of the application are to be understood as being covered by the following claims.

Claims (10)

1. The utility model provides a cooking machine which characterized in that, cooking machine includes:

a main body assembly (1b) including a receiving tub (111), a control board (16) and a motor assembly (19 a);

the stirring barrel component (2b) is arranged in the accommodating barrel (111) and comprises a stirring barrel (20) and a stirring knife component (21), and the stirring knife component (21) is positioned at the bottom (201) of the stirring barrel and is connected with the motor component (19a) to stir food;

the cooking barrel component (4b) is arranged in the accommodating barrel (111), is mutually replaced with the stirring barrel component (2b), and comprises a cooking barrel (40), and the cooking barrel (40) comprises a cooking barrel bottom (401);

agitator bottom (201) with cooking bucket bottom (401) at least one is provided with the heating part, the heating part with control panel (16) electricity is connected.

2. The food processer according to claim 1, wherein the food processer comprises an upper cover assembly (3b), the upper cover assembly (3b) is assembled on the main body assembly (1b) and can turn around the main body assembly (1b) towards different directions, the upper cover assembly (3b) can cover the accommodating barrel (111) to cover the stirring barrel (20) or the food processer (40), and the stirring barrel assembly (2b) or the food processer assembly (4b) can be taken out by opening the upper cover assembly (3 b).

3. The food processor of claim 1, wherein the food processing barrel assembly (4b) comprises a food processing barrel temperature controller installed at the bottom (401) of the food processing barrel, the heating component (44) of the food processing barrel is electrically connected with the control board (16), the temperature controller detects the temperature of the bottom (401) of the food processing barrel, and the heating component (44) of the food processing barrel is electrically connected with the control board (16) when the temperature value is greater than the threshold value.

4. The food processor of claim 1, wherein the food processing barrel assembly (4b) comprises a first temperature sensor installed at the bottom (401) of the food processing barrel, the first temperature sensor detects the temperature of the bottom (401) of the food processing barrel and connects to the control board (16), and/or the food processing barrel assembly (4b) comprises a second temperature sensor installed at the bottom (401) of the food processing barrel and extending into the inside (402) of the food processing barrel, the second temperature sensor detects the temperature of the inside (402) of the food processing barrel and connects to the control board (16).

5. The food processor of claim 1, wherein the stirring barrel assembly (2b) comprises a stirring barrel heating component (24) and a stirring barrel temperature controller (25) which are installed at the bottom of the stirring barrel (201), the stirring barrel heating component (24) is connected with the control board (16) through the stirring barrel temperature controller (25), the stirring barrel temperature controller (25) detects the temperature of the bottom of the stirring barrel (201), and under the condition that the temperature value is greater than the threshold value, the stirring barrel heating component (24) is disconnected with the electric connection between the control boards (16).

6. The food processor of claim 1 or 5, wherein the mixing tank assembly (2b) comprises a first mixing tank temperature sensor (26a) mounted at the bottom of the mixing tank (201), the first mixing tank temperature sensor (26a) detects the temperature of the bottom of the mixing tank and is connected with the control board (16), and/or the mixing tank assembly (2b) comprises a second mixing tank temperature sensor (26b) mounted at the bottom of the mixing tank (201), the second mixing tank temperature sensor (26b) further extends into the inside of the mixing tank (202) to detect the temperature of the inside of the mixing tank (202) and is connected with the control board (16).

7. The food processor of claim 1, wherein the stirring barrel assembly (2b) comprises a stirring barrel cup seat (23) arranged at the bottom (201) of the stirring barrel and a stirring barrel clutch (27) connected with the stirring blade assembly (21), and the stirring barrel cup seat (23) further comprises a clutch accommodating cavity (232);

the food processing barrel assembly (4b) comprises a food processing barrel cup seat (43) arranged at the bottom (401) of the food processing barrel, and the food processing barrel cup seat (43) comprises a clutch accommodating cavity (432);

the motor component (19a) comprises a driving motor (191a), the food processor comprises a lower clutch (17) connected with the driving motor (191a), and under the condition that the stirring barrel component (2b) is positioned in the accommodating barrel (111), the stirring barrel clutch (27) is connected with the lower clutch (17) extending into the clutch accommodating cavity (232); arrange bucket subassembly (4b) and be located under the condition in holding bucket (111), clutch (17) are located down in clutch holds chamber (432) and be separated by with the lateral wall that clutch held chamber (432).

8. The food processor as claimed in claim 1, wherein the agitator assembly (2) comprises an agitator cup holder (23), the agitator cup holder (23) and the agitator base (201) constitute a component receiving cavity (29), and a component arranged at the agitator base (201) is positioned in the component receiving cavity (29); the food processing barrel assembly (4b) comprises a food processing barrel cup seat (43), the food processing barrel cup seat (43) and the bottom (401) of the food processing barrel form an element accommodating cavity (45), and a component arranged at the bottom (401) of the food processing barrel is positioned in the element accommodating cavity (45); and/or the presence of a gas in the gas,

main part subassembly (1b) is including being located shock pad (28) of holding bucket (111) bottom, agitator subassembly (2b) or cooking bucket subassembly (4b) are located on shock pad (28).

9. The food processor of claim 1, wherein the main body assembly (1b) comprises a main body upper shell (11a) provided with the receiving barrel (111), a main body middle shell (11b) having a hollow receiving barrel (115), a main body lower shell (11c) provided with a motor receiving cavity (113) and a drive plate receiving cavity (114), a motor assembly (19a) and a drive plate fan assembly (192 b);

the main body upper shell (11a), the main body middle shell (11b) and the main body lower shell (11c) are assembled together to form a motor heat dissipation air duct (110) and a drive board heat dissipation air duct (120) corresponding to the motor accommodating cavity (113) and the drive board accommodating cavity (114), the accommodating barrel (111) is partially positioned in the accommodating barrel (115), and the motor assembly (19a) is positioned in the motor heat dissipation air duct (110); the driving plate assembly (19b) is located in the driving plate heat dissipation air duct (120), and the motor heat dissipation air duct (110) is separated from the driving plate heat dissipation air duct (120).

10. The food processor of claim 9, wherein the motor accommodating cavity (113) and the drive board accommodating cavity (114) have a common side wall (1132), the side wall (1132) has a notch (1133) extending from an edge of the side wall (1132) to an inner portion of the side wall (1132), and a bottom of the accommodating barrel (111) protrudes out of a bottom of the accommodating barrel (115) and is located in the notch (1133), or the drive board heat dissipation air duct (120) comprises an air inlet (1144) and an air outlet (1145) which are oppositely arranged.

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