CN116687241A - Comprehensive food processor - Google Patents

Abstract

The embodiment of the invention provides a comprehensive food processor, which comprises: and (3) a host computer: the stirring cup is detachably arranged on the host; the functional components comprise a first food processing functional component and a second food processing functional component which are used for processing foods in different types, and the first food processing functional component and the second food processing functional component are detachably arranged on the stirring cup; wherein, be equipped with the driver in the host computer, when stirring cup installs on the host computer, the driver links to each other with corresponding functional module to the drive functional module handles the food in the stirring cup. The comprehensive food processor provided by the invention has multiple different types of food processing functions, and can meet different food processing requirements of users.

Description

Comprehensive food processor

Technical Field

The embodiment of the invention relates to the technical field of food processors, in particular to a comprehensive food processor.

Background

The functions of the food processors in the current market are single, that is, each food processor only has a single food processing function, such as a dough mixer, a juicer, a cutting machine and the like, because users need to purchase a plurality of different food processors respectively if want to process foods in different types, which is wasteful and inconvenient to use.

Disclosure of Invention

The invention provides a comprehensive food processor with multiple different types of food processing functions.

In order to solve the above technical problems, an embodiment of the present invention provides a comprehensive food processor, including:

and (3) a host computer:

the stirring cup is detachably arranged on the host;

the functional component comprises a first food processing functional component and a second food processing functional component which are used for processing foods in different types, and the food processing functional component and the juice beating functional component are detachably arranged on the stirring cup;

wherein, be equipped with the driver in the host computer, when stirring cup installs on the host computer, the driver links to each other with corresponding functional module to the drive functional module handles the food in the stirring cup. Through setting up different functional module to make functional module and stirring cup, host computer detachable connection, can effectively realize a tractor serves several purposes, satisfy the different processing demands of user to food.

In some embodiments, the first food processing functional component and the second food processing functional component are both provided with a first connecting structure, the stirring cup is provided with a second connecting structure which can be matched with the first connecting structure to be connected or separated, and the first food processing functional component and the second food processing functional component are both detachably connected with the stirring cup through the first connecting structure and the second connecting structure. Through setting up the detachable connection of functional module and stirring cup can effectively be realized to this connection structure of difference, easy dismounting.

In some embodiments, the first food processing functional assembly comprises:

the first connector is detachably arranged at the bottom of the stirring cup and can be connected with the driver when the stirring cup is arranged on the host;

a first knife set comprising a plurality of knife elements for respectively carrying out different treatments on food, each knife element being detachably connected with the first connector;

the cutterhead assembly comprises a cutterhead shaft detachably connected with the first connector and a plurality of cutterheads detachably connected with the cutterhead shaft, wherein the cutterheads are respectively used for carrying out different treatments on food. The food processing functional component realizes different types of processing of food by arranging different knife groups and knife discs.

In some embodiments, the first connecting structure is arranged on the first connecting head, the first connecting head is provided with a first rotating shaft assembly which can be connected with a driver and rotate relative to the first connecting head, and the cutter head shaft are connected with the first rotating shaft assembly;

the bottom of the stirring cup is funnel-shaped, the plurality of blades comprise a shredding blade and a stirring blade, the blades comprise three layers of blades, and the size of the bottom layer of blades is minimum;

the plurality of cutterheads comprise a shredding cutterhead and a slicing cutterhead.

In some embodiments, the first food processing functional assembly further comprises:

the first cup cover is covered on the stirring cup, a feed inlet is formed in the first cup cover, and the feed inlet extends outwards to form a feed channel;

the pushing rod is inserted in the feeding channel in a matching way and used for pushing food in the feeding channel into the stirring cup. The food processor is provided with the feeding channel and the pushing rod, so that the food processor can process food at one side, and a user can continuously convey food to be processed at one side.

In some embodiments, the second food processing function assembly is a juicing function assembly comprising:

the second connector is detachably arranged at the bottom of the stirring cup;

the second knife set is rotatably arranged on the second connecting head and can be connected with the driver when the stirring cup is arranged on the host. Simple structure, easy preparation and assembly.

In some embodiments, the first connecting structure is disposed on the second connecting head, the second cutter set includes a plurality of blades and a second rotating shaft assembly, the plurality of blades are disposed on the second rotating shaft assembly, the second rotating shaft assembly is rotatably disposed on the second connecting head, and when the stirring cup is mounted on the host, the second rotating shaft assembly is connected with the driver. Through the structure, the connection between the functional component and the host machine as well as the stirring cup can be effectively realized, and the driving of the functional component is realized. Simple structure, easy preparation and assembly.

In some embodiments, the juicing function assembly further comprises:

the second cup cover is covered on the stirring cup;

the cup cover assembly is rotationally arranged on the second cup cover and is elastically connected with the second cup cover;

the stirring cup is characterized in that a micro switch used for controlling the power supply state of the driver is arranged in the host, a trigger assembly capable of interacting with the cup cover assembly and further moving and triggering the micro switch is arranged on the stirring cup, when the second cup cover is arranged on the stirring cup, and when the cup cover assembly is in a closed position, the trigger assembly triggers the micro switch to enable the driver to supply power, when the cup cover assembly is in an open position, the trigger assembly is separated from the micro switch, and the driver is powered off. The device can prevent liquid from splashing when a user performs juice making operation, has a safety protection effect, and ensures the operation safety of the user.

In some embodiments, the cap assembly comprises:

a handle;

the handle cover is connected with the handle and is matched with the handle to enclose a cavity;

the ejector rod is rotationally arranged in the cavity and is elastically connected with the cavity wall;

when the cup cover assembly is in a closed position, the cup cover assembly is abutted against the second cup cover, the ejector rod is pushed by the second cup cover to rotate, so that part of the ejector rod extends out of the cavity and abuts against the trigger assembly, and the trigger assembly moves under the pushing of the ejector rod to trigger the micro switch;

when the cup cover assembly is in the opening position, an included angle is formed between the cup cover assembly and the second cup cover, the ejector rod is separated from the trigger assembly and the second cup cover, and the trigger assembly is separated from the micro switch. The cup cover component has simple structure and convenient operation.

In some embodiments, the trigger assembly comprises:

the release button is arranged on the handle of the stirring cup in a sliding manner and is used for being connected with or separated from the handle in a sliding manner, so that the cup cover assembly is positioned at a closed position or an open position;

the handle connecting rod is movably arranged in the handle and is elastically connected with the handle;

the novel cup cover is characterized in that a switch connecting rod with one end propped against the micro switch is elastically arranged in the host, the ejector rod pushes the handle connecting rod, so that the handle connecting rod moves to push the switch connecting rod to trigger the micro switch, when the release button is separated from the handle, the cup cover assembly rotates to an opening position based on elastic force, and the handle connecting rod moves to reset under the combined action of the elastic force of the handle connecting rod and the switch connecting rod. The structure can automatically start the operation of the food processor after closing the second cup cover and the cup cover assembly, and automatically stop the operation of the food processor after opening the cup cover assembly, so that the structure is simple, convenient and safe.

Based on the disclosure of the embodiment, it can be known that the beneficial effects of the embodiment of the invention include that by arranging different functional components, each functional component can be detachably connected with the host machine and the stirring cup, so that the food processor has a plurality of different food processing functions, different processing demands of users on food materials can be met, one machine is multipurpose, and the use experience of the users on the food processor is improved.

Drawings

Fig. 1 is a schematic structural diagram of a comprehensive food processor in an embodiment of the invention.

Fig. 2 is an exploded view of the structure of the integrated food processor in the embodiment of the invention.

Fig. 3 is a structural cross-sectional view of the integrated food processor in the embodiment of the present invention.

Fig. 4 is another structural cross-sectional view of the integrated food processor in the embodiment of the present invention.

Fig. 5 is a schematic diagram of a part of a structure of a comprehensive food processor in an embodiment of the invention.

Fig. 6 is a schematic structural diagram of a first connector according to an embodiment of the present invention.

Fig. 7 is a schematic structural view of a stirring blade according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a cutter according to an embodiment of the present invention.

Fig. 9 is a partially exploded view of a food processor according to an embodiment of the present invention.

Fig. 10 is a structural cross-sectional view of the integrated food processor in an embodiment of the present invention in a closed state of a lid assembly.

Fig. 11 is a structural cross-sectional view of the integrated food processor in an opened state of a cup lid assembly according to an embodiment of the present invention.

Reference numerals:

1-a host; 2-stirring cup; 3-a first food processing functional component; 4-a second food processing functional component; a 5-driver; 6-a first connection structure; 7-a second connection structure; 8-a first connector; 9-cutterhead shaft; 10-cutterhead; 11-a dough stirring knife; 12-shredding knife; 13-a first spindle assembly; 14-a first cup cover; 15-a feed channel; 16-pushing bar; 17-a second connector; 18-a second knife set; 19-a second spindle assembly; 20-blades; 21-a second cup cover; 22-a cup cover assembly; 23-triggering the assembly; 24-lifting handles; 25-handle cover; 26-ejector rod; 27-release button; 28-handle links; 29-a switch link; 30-measuring cup.

Detailed Description

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings, but not limiting the invention.

It should be understood that various modifications may be made to the embodiments disclosed herein. Therefore, the following description should not be taken as limiting, but merely as exemplification of the embodiments. Other modifications within the scope and spirit of this disclosure will occur to persons of ordinary skill in the art.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and, together with a general description of the disclosure given above and the detailed description of the embodiments given below, serve to explain the principles of the disclosure.

These and other characteristics of the invention will become apparent from the following description of a preferred form of embodiment, given as a non-limiting example, with reference to the accompanying drawings.

It is also to be understood that, although the invention has been described with reference to some specific examples, a person skilled in the art will certainly be able to achieve many other equivalent forms of the invention, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.

The above and other aspects, features and advantages of the present disclosure will become more apparent in light of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the present disclosure will be described hereinafter with reference to the accompanying drawings; however, it is to be understood that the disclosed embodiments are merely examples of the disclosure, which may be embodied in various forms. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the disclosure in unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not intended to be limiting, but merely serve as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present disclosure in virtually any appropriately detailed structure.

The specification may use the word "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the disclosure.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, 2, 3 and 4, an embodiment of the present invention provides a comprehensive food processor, including:

host 1:

the stirring cup 2 is detachably arranged on the host machine 1;

the functional components comprise a first food processing functional component 3 and a second food processing functional component 4 which are used for processing foods in different types, and the first food processing functional component 3 and the second food processing functional component 4 are detachably arranged on the stirring cup 2;

wherein, be equipped with driver 5 in the host computer 1, when stirring cup 2 installs on host computer 1, driver 5 links to each other with corresponding functional module to the food in the stirring cup 2 is handled to the drive functional module.

For example, the user can choose to install the first food processing functional component 3 or the second food processing functional component 4 on the stirring cup 2 according to the food processing requirement, then sit the stirring cup 2 on the host computer 1, after the power is connected, the user can put the food to be processed into the stirring cup 2, and the food processor can process the food correspondingly, so as to meet the food processing requirement of the user.

Based on the disclosure of the above embodiment, it can be known that the integrated food processor of the present embodiment is provided with different functional components, and each functional component can be detachably connected with the main machine 1 and the stirring cup 2, so that the food processor has multiple different food processing functions, such as forming the food processing into a non-liquid state, such as dough kneading, stirring, cutting and the like, or forming the food processing into a liquid state, such as preparing juice, vegetable juice and the like, so as to cope with different processing demands of users on food materials, realize one machine with multiple purposes, and promote the use experience of users on the food processor. Through using the comprehensive food processor of this embodiment, the user need not to purchase alone and is used for carrying out the food processor of different processing to the practicality, also need not to purchase the fruit juice machine alone, only can realize most food processing through the comprehensive food processor that this embodiment provided, has saved the cost, has reduced accommodation space's occupation, and the operation is more convenient, no longer needs the user to master the use flow of multiple different food processors.

Further, as shown in fig. 5, in order to realize connection of the functional components and the stirring cup 2, the first food processing functional component 3 and the second food processing functional component 4 are respectively provided with a first connecting structure 6, the bottom of the stirring cup 2 is provided with a mounting hole penetrating through the stirring cup 2, the hole wall is provided with a second connecting structure 7 which can be matched and connected or separated with the first connecting structure 6, and the first food processing functional component 3 and the second food processing functional component 4 are respectively detachably connected with the stirring cup 2 through the first connecting structure 6 and the second connecting structure 7. The first connection structure 6 and the second connection structure 7 are not particularly limited as long as they can be smoothly and stably connected and separated. The first connecting structure 6 in this embodiment is a circle of arc-shaped clamping pieces arranged on the functional component, and the second connecting structure 7 is a circle of arc-shaped clamping pieces arranged on the hole wall. When the functional component is connected with the stirring cup 2, the functional component is rotated to enable the clamping pieces of the two connecting structures to be in a dislocation shape, then the functional component stretches into the mounting hole and rotates to enable the clamping pieces of the two connecting structures to be mutually clamped and abutted, and when the functional component is to be removed, the functional component is taken out only by rotating the functional component to enable the clamping pieces of the two connecting structures to be in dislocation, so that the disassembly is completed.

In some embodiments, as shown in fig. 2, 3, 6-8, the first food handling functional assembly 3 comprises:

the first connector 8 is detachably arranged at the bottom of the stirring cup 2 and can be connected with the driver 5 when the stirring cup 2 is arranged on the host 1;

a first knife set comprising a plurality of knife elements for respectively performing different treatments on the food, each knife element being capable of being detachably connected to the first connector 8;

the cutterhead 10 assembly comprises a cutterhead shaft 9 detachably connected with the first connector 8 and a plurality of cutterheads 10 detachably connected with the cutterhead shaft 9, wherein the cutterheads 10 are respectively used for carrying out different treatments on food.

The user can select different cutters or cutterheads 10 to be connected with the first connector 8 according to different food processing requirements, when the cutterhead 10 is needed to be used, the cutterhead shaft 9 is connected with the first connector 8, and then the cutterhead 10 to be used is connected with the cutterhead shaft 9.

Specifically, as shown in fig. 6, the first connecting structure 6 in this embodiment is disposed on the first connecting head 8, the first connecting head 8 has a first rotating shaft assembly 13 capable of being connected to the driver 5 and rotating relative to the first connecting head 8, that is, the first connecting head 8 includes two parts, one part is a connecting head connected to the stirring cup 2, which is annular, the other part is a first rotating shaft assembly 13 rotationally connected to the hollow area of the first connecting head 8, the driver 5 and the cutter, and the cutter shaft 9 are connected to the first rotating shaft assembly 13, and the first rotating shaft assembly 13 is used for transmitting the power of the driver 5 to the cutter shaft 9 or the cutter, so as to rotate. The driver 5 in this embodiment is a motor, and the first shaft assembly 13 is connected to an output shaft of the motor, and a connecting piece may be disposed on the output shaft during practical application, so as to be convenient to connect to the first shaft assembly 13. The structure of the connector is specifically variable and needs to be matched with that of the first rotating shaft assembly 13.

In some embodiments, as shown in fig. 3 and fig. 4, the bottom of the stirring cup 2 is funnel-shaped, that is, the bottom of the stirring cup 2 is in a state that the inner diameter/size gradually decreases, taking the smallest inner diameter size of the bottom of the stirring cup 2 as L as an example, the size range of the smallest inner diameter size is preferably phi 68mm less than or equal to L less than or equal to phi 78mm, and setting the stirring cup 2 in such a shape can enable the food in the cup to rotate together with liquid (such as juice or liquid added by a user) to form high-speed vortex when the juice stirring machine is used for juice beating or mud beating, so that the food can be converged in the size range of the bottom of the stirring cup 2, further ensuring the fineness of beating the food, and simultaneously improving the stirring efficiency.

Further, in other embodiments, the plurality of cutterheads 10 includes a shredder cutterhead 10, a slicer cutterhead 10. As shown in fig. 7 and 8, the plurality of blades includes a shredding blade 12, a stirring blade 11, each of which includes three layers of blades 20, with the bottom layer of blades 20 being of a minimum size. However, in order to avoid the contact with the stirring cup 2 during the rotation of the blade, the rotation of the blade and the cutting effect of the food are affected, and the overall size of the bottom blade 20 of the blade in this embodiment needs to be smaller than the size L of the bottom of the stirring cup 2. For example, the size of the chopper 12 is L1L 2, preferably 63mm L1 73mm,105mm L2 115mm. The size of the dough stirring blade 11 is L3-L4, preferably 61 mm-L3-71 mm and 103 mm-L4-113 mm. The above size ranges are only used as references, and can be adaptively adjusted in practical application.

As shown in fig. 2 and 3, in some embodiments, the first food processing functional assembly 3 further comprises:

the first cup cover 14 is arranged on the stirring cup 2 in a covering manner, a feed inlet is formed in the first cup cover 14, and the feed inlet extends outwards to form a feed channel 15;

a pushing rod 16 is inserted on the feeding channel 15 in a matching way and is used for pushing the food in the feeding channel 15 into the stirring cup 2.

When the user completes the installation of the first connector 8, the cutter set or cutter head 10, the stirring cup 2 and the host machine 1, the first cup cover 14 can be covered on the stirring cup 2, then the user can send food into the feeding channel 15, and the pushing rod 16 is utilized to push the food from the feeding channel 15 into the cup cavity of the stirring cup 2. In addition, through setting up above-mentioned feed channel 15 and pushing bar 16, not only can guarantee the operation safety when the user carries food, support the user in cooking machine operation moreover, when handling food promptly, throw into food to the cup intracavity through feed channel 15 in real time, for example when the food is shredded or sliced to food by the cooking machine utilization shredding cutterhead 10 or slicing cutterhead 10, can realize cutting simultaneously throwing into the effect of food material.

In other embodiments, the second food processing assembly 4 is a juicing assembly, as shown in fig. 1, 2, 4, comprising:

the second connector 17 is detachably arranged at the bottom of the stirring cup 2;

the second cutter set 18 is rotatably mounted on the second connector 17 and is capable of being connected to the driver 5 when the stirring cup 2 is mounted on the main body 1.

That is, the second cutter set 18 and the second connector 17 are integrated, the second cutter set 18 is directly and rotatably mounted on the second connector 17, and when the second connector 17 is mounted on the stirring cup 2, the second cutter set 18 is not required to be mounted, and the second cutter set 18 can be mounted together with the second connector 17 and the stirring cup 2. When the stirring cup 2 is placed on the main machine 1, the driver 5 is directly contacted with the second cutter set 18, so that the driving is realized.

Specifically, as shown in fig. 1, 4 and 5, the first connecting structure 6 is disposed on the second connecting head 17, the second connecting head 17 is ring-shaped, and the second knife set 18 is rotatably connected to the hollow region of the second connecting head 17 and extends out of the second connecting head 17. The second knife set 18 includes a plurality of blades 20 and a second rotating shaft assembly 19, the plurality of blades 20 are disposed on the second rotating shaft assembly 19, the second rotating shaft assembly 19 is rotatably disposed on the second connecting head 17, and the plurality of blades 20 are disposed outside the second connecting head 17. When the stirring cup 2 is installed on the main machine 1, the second rotating shaft assembly 19 is in contact connection with the driver 5.

Further, as shown in fig. 9 to 11, the juice extracting functional assembly in the present embodiment further includes:

a second cup cover 21 which is arranged on the stirring cup 2 in a covering manner;

the cup cover assembly 22 is rotatably arranged on the second cup cover 21 and is elastically connected with the second cup cover 21;

the main machine 1 is internally provided with a micro switch for controlling the power supply state of the driver 5, the stirring cup 2 is provided with a trigger assembly 23 which can interact with the cup cover assembly 22 to move and trigger the micro switch, when the second cup cover 21 is covered on the stirring cup 2 and the cup cover assembly 22 is in a closed position, the trigger assembly 23 triggers the micro switch to supply power to the driver 5, and when the cup cover assembly 22 is in an open position, the trigger assembly 23 is separated from the micro switch, and the driver 5 is powered off.

For example, when the cup cover assembly 22 is rotated to the open position by the user in a state that the second cup cover 21 is covered on the stirring cup 2, the cup cover assembly 22 is separated from the trigger assembly 23, that is, no interaction force exists between the cup cover assembly 22 and the trigger assembly 23, and at this time, the trigger assembly 23 is separated from the micro switch, so that the micro switch disconnects the power supply line of the driver 5, and the driver 5 is powered off. When the user releases the cup cover assembly 22, the cup cover assembly 22 automatically resets to the closed position, or when the user rotates the cup cover assembly 22 to the closed position, the cup cover assembly 22 interacts with the trigger assembly 23, so that the trigger assembly 23 is forced to move, and then the micro switch is triggered to close, and the power supply line of the driver 5 is conducted. In addition, optionally, in order to facilitate the user to weigh the liquid, a measuring cup 30 is further provided on the second cup cover 21 in this embodiment.

Specifically, the lid assembly 22 of this embodiment includes:

a handle 24;

a handle cover 25 connected to the handle 24 and enclosing a cavity in cooperation therewith;

the ejector rod 26 is rotatably arranged in the cavity and is elastically connected with the cavity wall;

when the cup cover assembly 22 is in the closed position, the cup cover assembly 22 is abutted against the second cup cover 21, the ejector rod 26 is pushed by the second cup cover 21 to rotate, so that part of the ejector rod 26 extends out of the cavity and abuts against the trigger assembly 23, and the trigger assembly 23 moves under the pushing of the ejector rod 26 to trigger the micro switch;

when the cup cover assembly 22 is at the opening position, an included angle is formed between the cup cover assembly 22 and the second cup cover 21, the ejector rod 26 is separated from the trigger assembly 23 and the second cup cover 21, and the trigger assembly 23 is separated from the micro switch after rotating for resetting.

With continued reference to fig. 9 to 11, the handle 24 is in a cover shape, and the surface of the handle is curved, so that a groove is formed on one side of the handle 24, and the handle cover 25 matches the shape of the handle 24 and can correspondingly seal the groove of the handle 24. The handle 24 and the handle cover 25 can be matched to form a cavity communicated with the outside, and the ejector rod 26 is rotatably arranged in the cavity through a torsion spring. The cup cover assembly 22 is rotatably arranged on the upper surface of the second cup cover 21, and a groove body is arranged on the upper surface of the second cup cover 21 during application, and the handle 24 and the handle cover 25 can be embedded in the groove body in a matching manner. When the cup cover assembly 22 is at the closed position, the cup cover assembly 22 is abutted against the upper surface of the second cup cover 21 or is embedded into a corresponding groove body, and at the moment, the ejector rod 26 is pushed by a corresponding structure of the second cup cover 21 to rotate, so that part of the ejector rod 26 extends out of the cavity and abuts against the trigger assembly 23, namely, a pushing force is applied to the trigger assembly 23, so that the trigger assembly 23 moves to trigger the micro switch. When the lid assembly 22 is in the open position, the lid assembly 22 is sprung up and forms an angle α with the second lid 21, preferably in the range of 25 ° to 35 °. The corresponding height h of the cup cover assembly 22 after being sprung is preferably 30mm less than or equal to h less than or equal to 40mm, and the user can conveniently grasp the handle 24 in the angle and height range, so that the experience is good. Meanwhile, the ejector rod 26 is separated from the trigger assembly 23, at the moment, the ejector rod 26 rotates and resets under the action of the elasticity of the torsion spring, and the trigger assembly 23 is also reset after no pushing force of the ejector rod 26 is received any more and is separated from the micro switch.

Further, the trigger assembly 23 in the present embodiment includes:

a release button 27 slidably disposed on the handle of the blender cup 2 for sliding engagement with or disengagement from the handle 24 to thereby place the lid assembly 22 in the closed or open position;

a handle link 28 movably disposed within the handle and resiliently coupled thereto;

a switch connecting rod 29 with one end propped against the micro switch is elastically arranged in the host machine 1, the ejector rod 26 pushes the handle connecting rod 28, so that the handle connecting rod 28 moves to push the switch connecting rod 29 to trigger the micro switch, when the release button 27 is separated from the handle 24, the cup cover assembly 22 rotates to the opening position based on elastic force, and the handle connecting rod 28 moves to reset under the combined action of the elastic force of the handle connecting rod 28 and the switch connecting rod 29.

With continued reference to fig. 9-11, trigger assembly 23 is provided on the handle of blender cup 2 and includes a release button 27, which release button 27 is provided on the surface of the handle and is capable of sliding along the handle to release or lock handle 24. In application, a button position can be provided on the handle 24, and the release button 27 can slide to the position of the button position of the gland, so that the handle 24 is limited on the second cup cover 21, or slide away from the button position, so that the handle 24 is released. The trigger assembly 23 further comprises a handle connecting rod 28 which is arranged inside the handle, namely the handle is hollow, the handle connecting rod 28 is arranged in an inner cavity of the handle and can move up and down relative to the inner cavity to extend out of the handle, and holes can be formed in the corresponding positions of the handle when the trigger assembly is applied so as to allow the handle connecting rod 28 to stretch out and draw back. At the same time, the handle connecting rod 28 is also elastically connected with the cavity wall of the inner cavity, so that the handle connecting rod 28 can automatically reset based on the elastic force. A switch connecting rod 29 is elastically arranged in the host machine 1, one end of the switch connecting rod 29 is propped against the micro switch, and the other end is a free end for interaction with the handle connecting rod 28. The push rod 26 pushes the upper end of the handle connecting rod 28 to move the handle connecting rod 28 downwards, so that the lower end of the push rod extends out of the handle and into the host 1 to be propped against the switch connecting rod 29.

When the juice extracting functional component, the stirring cup 2 and the main machine 1 are assembled together, the user can rotate the handle 24 to be in the closed position, and then move the release button 27 to press the handle 24 so as to limit the handle 24 on the second cup cover 21. Simultaneously, the ejector rod 26 is pushed by the corresponding structure of the second cup cover 21 to rotate to a position propped against the handle connecting rod 28, and the handle connecting rod 28 is pressed down, so that the handle connecting rod 28 pushes the switch connecting rod 29, and the micro switch is triggered to conduct the power line of the driver 5. If the cup cover assembly 22 and the second cup cover 21 are not assembled on the stirring cup 2 or the handle 24 is not closed, the food processor can not work, so that the safe and reliable effect can be achieved. Further, when the micro switch is in the closed state, the switch link 29 and the handle link 28 are both in the pressed state, so that the springs connected to the switch link 29 and the handle link 28 are also in the pressed state, and the elastic force is accumulated. When the food processor finishes food processing, the user can slide the release button 27 to separate the release button from the handle 24, at this time, the handle 24 and the ejector rod 26 no longer press the handle connecting rod 28, the handle connecting rod 28 and the switch connecting rod 29 are reset based on respective elastic forces, and the switch connecting rod 29 and the handle connecting rod 28 are moved upwards to reset, so that the handle 24 and the handle cover 25 can be automatically sprung based on the upward pushing force by being matched with the upward pushing force applied to the ejector rod 26. Of course, a torsion spring may be disposed between the handle 24 and the second cup cover 21, so that the handle 24 has an elastic restoring force, that is, the handle 24 may spring under the combined action of the elastic force of itself and the upward pushing force exerted by the switch link 29 and the handle link 28.

The above embodiments are only exemplary embodiments of the present invention and are not intended to limit the present invention, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this invention will occur to those skilled in the art, and are intended to be within the spirit and scope of the invention.

Claims (10)

1. An integrated food processor, comprising:

host (1):

the stirring cup (2) is detachably arranged on the host machine (1);

the functional components comprise a first food processing functional component (3) and a second food processing functional component (4) which are used for processing foods in different types, and the first food processing functional component (3) and the second food processing functional component (4) are detachably arranged on the stirring cup (2);

wherein, be equipped with driver (5) in host computer (1), when stirring cup (2) install in on host computer (1), driver (5) link to each other with corresponding functional module, in order to drive the food in stirring cup (2) is handled to the functional module.

2. The integrated food processor according to claim 1, wherein the first food processing functional component (3) and the second food processing functional component (4) are respectively provided with a first connecting structure, the stirring cup (2) is provided with a second connecting structure (7) which can be connected or separated with the first connecting structure in a matched manner, and the first food processing functional component (3) and the second food processing functional component (4) are respectively connected with the stirring cup (2) in a detachable manner through the first connecting structure and the second connecting structure (7).

3. The all-in-one food processor of claim 2, wherein the first food processing functional assembly (3) comprises:

the first connector (8) is detachably arranged at the bottom of the stirring cup (2) and can be connected with the driver (5) when the stirring cup (2) is arranged on the host machine (1);

a first knife set comprising a plurality of knife elements for respectively performing different treatments on the food, each of said knife elements being removably connectable to said first connection head (8);

the cutterhead (10) assembly comprises a cutterhead shaft (9) detachably connected with the first connector (8) and a plurality of cutterheads (10) detachably connected with the cutterhead shaft (9), wherein the cutterheads (10) are respectively used for carrying out different treatments on food.

4. A comprehensive food processor according to claim 3, wherein the first connecting structure is arranged on the first connecting head (8), the first connecting head (8) is provided with a first rotating shaft assembly (13) which can be connected with a driver (5) and rotate relative to the first connecting head (8), and the cutter piece and the cutter head shaft (9) are connected with the first rotating shaft assembly (13);

the bottom of the stirring cup (2) is funnel-shaped, the plurality of blades comprise a shredding blade (12) and a stirring blade (11), the blades comprise three layers of blades (20), and the size of the bottom layer of blades (20) is minimum;

the plurality of cutterheads (10) comprise a shredding cutterhead (10) and a slicing cutterhead (10).

5. A machine according to claim 3, wherein the food processing function assembly (3) further comprises:

the first cup cover (14) is arranged on the stirring cup (2) in a covering manner, a feed inlet is formed in the first cup cover (14), and the feed inlet extends outwards to form a feed channel (15);

and the pushing rod (16) is inserted on the feeding channel (15) in a matching way and is used for pushing food in the feeding channel (15) into the stirring cup (2).

6. The integrated food processor of claim 2, wherein the second food processing function assembly (4) is a juice extracting function assembly comprising:

the second connector (17) is detachably arranged at the bottom of the stirring cup (2);

the second cutter set (18) is rotatably arranged on the second connector (17) and can be connected with the driver (5) when the stirring cup (2) is arranged on the main machine (1).

7. The integrated food processor according to claim 6, wherein the first connecting structure is disposed on the second connector (17), the second cutter set (18) includes a plurality of blades (20) and a second rotating shaft assembly (19), the plurality of blades (20) are disposed on the second rotating shaft assembly (19), the second rotating shaft assembly (19) is rotatably disposed on the second connector (17), and when the stirring cup (2) is mounted on the main machine (1), the second rotating shaft assembly (19) is connected with the driver (5).

8. The all-in-one food processor of claim 6, wherein the juice extracting functional assembly further comprises:

the second cup cover (21) is covered on the stirring cup (2);

the cup cover assembly (22) is rotationally arranged on the second cup cover (21) and is elastically connected with the second cup cover (21);

be equipped with in host computer (1) and be used for control micro-gap switch of driver (5) power supply state, be equipped with on stirring cup (2) can with bowl cover subassembly (22) interact and then remove, trigger micro-gap switch's trigger subassembly (23), work as second bowl cover (21) lid is established on stirring cup (2), just bowl cover subassembly (22) are in the closed position time, trigger subassembly (23) trigger micro-gap switch makes driver (5) power supply, works as bowl cover subassembly (22) are in the open position time, trigger subassembly (23) and micro-gap switch separation, driver (5) outage.

9. The all-in-one food processor of claim 8, wherein the cap assembly (22) comprises:

a handle (24);

a handle cover (25) connected with the handle (24) and enclosing a cavity in a matching way;

the ejector rod (26) is rotationally arranged in the cavity and is elastically connected with the cavity wall;

when the cup cover assembly (22) is in a closed position, the cup cover assembly (22) is attached to the second cup cover (21), the ejector rod (26) is pushed by the second cup cover (21) to rotate, so that part of the ejector rod (26) extends out of the cavity and abuts against the trigger assembly (23), and the trigger assembly (23) moves under the pushing of the ejector rod (26) to trigger the micro switch;

when the cup cover assembly (22) is in the opening position, an included angle is formed between the cup cover assembly (22) and the second cup cover (21), the ejector rod (26) is separated from the trigger assembly (23) and the second cup cover (21), and the trigger assembly (23) is separated from the micro switch.

10. The all-in-one food processor according to claim 9, wherein the trigger assembly (23) comprises:

a release button (27) which is arranged on the handle of the stirring cup (2) in a sliding manner and is used for being connected with or separated from the handle (24) so as to enable the cup cover assembly (22) to be positioned at a closed position or an open position;

a handle link (28) movably disposed within the handle and resiliently coupled to the handle;

the novel cup cover is characterized in that a switch connecting rod (29) with one end propped against the micro switch is elastically arranged in the host machine (1), the push rod (26) pushes the handle connecting rod (28) to enable the handle connecting rod (28) to move so as to push the switch connecting rod (29) to trigger the micro switch, and when the release button (27) is separated from the handle (24) to enable the cup cover assembly (22) to rotate to an opening position based on elasticity, the handle connecting rod (28) moves to reset under the combined action of the elasticity of the handle connecting rod and the switch connecting rod (29).