CN220141485U - Multifunctional food processor - Google Patents

Abstract

The utility model discloses a multifunctional food processor, which comprises a host machine and a processing cup arranged on the host machine, wherein the processing cup is provided with a stirring cutter, a heating element and a cup coupler, the host machine is provided with a motor and a machine body coupler, the motor is in transmission connection with an upper connector at the bottom of the processing cup through a lower connector to drive the stirring cutter, the cup coupler is in plug-in fit with the machine body coupler to provide electric connection, the multifunctional food processor also comprises at least two cup covers, the food processor is provided with a plurality of groups of trigger structures, and each group of trigger structures is adapted to one cup cover so as to determine the type of the processing cup through identifying the cup cover. According to the food processor, different function identification can be realized through identifying the cup cover, intelligent identification is achieved, mixing of different cutter components can be avoided, and the use safety and reliability are improved; in addition, even when the processing cup is updated, the cup cover can be used, so that the universality can be improved, and the cost can be saved.

Description

Multifunctional food processor

Technical Field

The utility model relates to the field of household appliances, in particular to a multifunctional food processor.

Background

The existing food processor is compatible with different rotating speeds to realize multiple functions, such as meat mincing, vegetable chopping, dough mixing and the like, different cutter components are used by different function collocations, the problem that the machine is damaged due to overlarge running centrifugal force can be caused by the mixed use of the high-speed functional cutter components with the low-speed function, and the safety problem can be caused by the starting of heating in a program without heating.

At present, food processors, such as wall breaking machines, soymilk machines and food processors, identify different cups by carrying out different combination modes on electric signals in an upper coupler and a lower coupler. The working principle is as follows: the electric resistance is arranged in the coupler at the bottom of the cup body, the electric resistance values arranged at the bottom of different cup bodies are different, the machine body is provided with an identification module (circuit) for identifying the cup body by detecting the electric resistance value, and when the cup body is connected with the machine body through the coupler, the electric resistance at the bottom of the cup body is coupled to the identification module. The identification module provides a voltage source or a current source for the resistor at the bottom of the cup body, and the type of the cup body is determined and identified by detecting the current flowing through the resistor or the voltage at two ends of the resistor. In the manner of identifying the cup body, on one hand, the identification is limited by the type of the coupler, and after each generation of the product, an identification circuit is required to be redesigned according to a new coupler, so that the cost is high; on the other hand, the detection resistance has uncertainty and is easy to generate errors, and the problem of error in cup body identification can occur.

Disclosure of Invention

In order to solve one or more technical problems in the prior art, or at least to provide an advantageous option, the present utility model provides a multifunctional food processor that can easily identify the processing cup function, thereby improving the safety and reliability of the relevant function enablement.

The utility model discloses a multifunctional food processor, which comprises a host machine and a processing cup arranged on the host machine, wherein the processing cup is provided with a stirring cutter, a heating element and a cup coupler, the host machine is provided with a motor and a machine body coupler, the motor is in transmission connection with an upper connector at the bottom of the processing cup through a lower connector to drive the stirring cutter, the cup coupler is in plug-in fit with the machine body coupler to provide electric connection, the multifunctional food processor also comprises at least two cup covers, the food processor is provided with a plurality of groups of trigger structures, and each group of trigger structures is adapted to one cup cover so as to determine the type of the processing cup through identifying the cup cover.

The multifunctional food processor of the utility model also has the following additional technical characteristics:

at least two the bowl covers include cold bowl cover and hot bowl cover, the adaptation is in the cold bowl cover the processing cup has low-speed stirring function, the adaptation is in the hot bowl cover the processing cup has heating stoving or high-speed crushing function.

The trigger structure comprises one or two detection points arranged on the processing cup, and when only one detection point is connected, the cup cover is identified as the cold cup cover or the hot cup cover; or when both detection points are connected, the cup cover is identified as the cold cup cover or the hot cup cover.

The processing cup is provided with a handle, a cavity is arranged at the connection position of the handle and the processing cup, and the detection point is arranged in the cavity.

The trigger structure comprises a first micro-contact and a second micro-contact which are arranged on the cold cup cover, wherein the first micro-contact and the second micro-contact are arranged along the circumferential direction of the cold cup cover at intervals or along the radial direction of the cold cup cover at intervals.

The cold cup cover comprises an extension part which is buckled with a handle of the processing cup correspondingly, the first micro-contact and the second micro-contact are arranged in parallel on the extension part and downwards protrude from the extension part, a first detection point and a second detection point are arranged in the handle, the first micro-contact abuts against the first detection point to conduct the first detection point, and the second micro-contact abuts against the second detection point to conduct the second detection point; the first detection point and/or the second detection point is a micro switch.

The hot cup cover comprises an extension part which is buckled with a handle of the processing cup correspondingly, the trigger structure comprises a first micro-contact which is arranged on the extension part, a first detection point is arranged in the handle, and when the hot cup cover is buckled and installed in place, the first micro-contact abuts against the first detection point to conduct the first detection point.

When the cup body coupler is provided with a first wiring, the processing cup provided with the cold cup cover is identified as a multifunctional cup, or the processing cup provided with the hot cup cover is identified as a heating dry grinding cup.

When the cup body coupler is provided with a second wiring, the processing cup provided with the cold cup cover is identified as an extended multifunctional cup, or the processing cup provided with the hot cup cover is identified as a heating dry grinding cup.

The food processor is provided with a circuit control module configured with a first operating mode in which the motor is in a non-operating state and the heating element is in an operating state in a lid-opening state.

By adopting the technical scheme, the utility model has the following beneficial effects:

1. according to the food processor, different function identification can be realized through identifying the cup cover, intelligent identification is achieved, mixing of different cutter components can be avoided, and the use safety and reliability are improved; in addition, even when the processing cup is updated, the cup cover can be used, so that the universality can be improved, and the cost can be saved.

2. As a preferred embodiment, at least two cup covers comprise a cold cup cover and a hot cup cover, the processing cup adapted to the cold cup cover has a low-speed stirring function, and the processing cup adapted to the hot cup cover has a heating, drying or high-speed crushing function; therefore, the two cup covers respectively correspond to different functions, a user can replace the cup covers according to requirements, the intelligent recognition can be achieved by the machine, related functions are enabled, and the use safety and convenience are guaranteed.

As a further preferred example of this embodiment, the triggering structure includes a detection point provided on the processing cup, where one or two detection points are provided, and when only one detection point is on, the cup lid is identified as the cold cup lid or the hot cup lid; or when both detection points are connected, the cup cover is identified as the cold cup cover or the hot cup cover; therefore, different cup covers can be identified according to the connection conditions of different detection points or different combination detection points, so that different functions can be identified, and the cup cover identification device is very convenient and quick.

3. As a preferred embodiment, the processing cup is provided with a handle, a cavity is arranged at the connecting position of the handle and the processing cup, and the detection point is arranged in the cavity; therefore, the space of the handle is used for setting detection points, so that the space utilization can be optimized, and the detection points can be triggered easily when the cup cover is covered, thereby being beneficial to reducing the recognition failure rate and providing reliable recognition.

4. As a preferred embodiment, the triggering structure comprises a first micro-contact and a second micro-contact which are arranged on the cold cup cover, wherein the first micro-contact and the second micro-contact are arranged at intervals along the circumferential direction of the cold cup cover or along the radial direction of the cold cup cover; by optimizing the arrangement of the first micro-contact and the second micro-contact, detection points of the processing cup can be adaptively matched, and detection flexibility is improved.

Further, the cold cup cover comprises an extension part which is buckled with a handle of the processing cup correspondingly, the first micro-contact and the second micro-contact are arranged in parallel on the extension part and downwards protrude from the extension part, a first detection point and a second detection point are arranged in the handle, the first micro-contact abuts against the first detection point to conduct the first detection point, and the second micro-contact abuts against the second detection point to conduct the second detection point; therefore, when the first detection point and the second detection point are both conducted, the cup cover type can be identified as the cold cup cover.

5. As a preferred embodiment, the hot cup cover comprises an extension part buckled with a handle of the processing cup correspondingly, the triggering structure comprises a first micro-motion contact arranged on the extension part, a first detection point is arranged in the handle, and when the hot cup cover is buckled and installed in place, the first micro-motion contact abuts against the first detection point to conduct the first detection point; therefore, when only the first detection point is conducted, the cup cover type can be identified as the hot cup cover.

6. As a preferred embodiment, the processing cup configured with the cold cup lid is identified as an extended multi-function cup or the processing cup configured with the hot cup lid is identified as a heated dry grind cup when the cup coupler has a second connection; therefore, compared with the original multifunctional cup, the multifunctional cup can realize new functions such as dough kneading, raw juice and the like, and can further enrich the functions of the food processor.

7. As a preferred embodiment, the food processor is provided with a circuit control module configured with a first operating mode in which the motor is in a non-operating state and the heating element is in an operating state in an uncapped state of the hot cup lid; therefore, the utility model can heat in the uncapping state and limit the use of the stirring function, so that on one hand, high-temperature liquid can be prevented from splashing, on the other hand, the extended functions such as boiling function and the like can be added, and the user experience is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

fig. 1 is a schematic diagram of a food processor according to an embodiment of the present utility model.

Fig. 2 is a schematic structural view of a cold cup cover according to an embodiment of the present utility model.

Fig. 3 is a schematic structural view of a hot cup lid according to an embodiment of the present utility model.

Fig. 4 is a schematic diagram of a lid closing trigger for a cold cup in accordance with one embodiment of the present utility model.

FIG. 5 is a schematic diagram of a hot cup lid closing trigger according to one embodiment of the present utility model.

Fig. 6 is a schematic diagram of the wiring distribution of a six-pin 3-11 coupler according to one embodiment of the present utility model.

Reference numerals:

10-main machine, 11-processing cup, 101-body coupler, 111-cup coupler, 12-handle and 121-cavity;

20-cold cup cover, 21-hot cup cover, 201-feed inlet, 211-powder blocking cover, 200-extension part, 202-first micro-contact and 203-second micro-contact.

Detailed Description

In order to more clearly illustrate the general inventive concept, reference will be made in the following detailed description, by way of example, to the accompanying drawings.

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

It should be noted that in the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than as described herein, and therefore the scope of the present utility model is not limited by the specific embodiments disclosed below.

In addition, in the description of the present utility model, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. However, it is noted that direct connection indicates that two connected bodies are not connected through a transition structure, but are connected through a connection structure to form a whole. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1 to 6, the present utility model provides a multifunctional food processor, comprising a main machine 10 and a processing cup 11 mounted on the main machine 10, wherein the processing cup 11 is provided with a stirring tool, a heating element and a cup coupler 111, the main machine 10 is provided with a motor and a machine body coupler 101, the motor is in transmission connection with an upper connector at the bottom of the processing cup 11 through a lower connector to drive the stirring tool, the cup coupler 111 is in plug-in fit with the machine body coupler 101 to provide electric connection, and the multifunctional food processor further comprises at least two cup covers, the food processor is provided with a plurality of groups of trigger structures, and each group of trigger structures is adapted to one cup cover so as to determine the type of the processing cup 11 through identifying the cup cover.

Compared with the prior art that different functions are identified by identifying the cup body, the cup cover is identified by identifying the cup cover, and the cup cover is identified according to the conduction condition of the trigger structure, so that the cup cover is quick and simple. Triggering can be performed in the installation process of the cup cover or in place, and the operation is reliable. The processing cup 11 of the present utility model may be used in the same cup body or may be configured with different cup bodies, and the final purpose is to achieve function recognition by recognizing the cup cover, so as to develop functions of meat mincing, dish shredding, slicing, hair beating, dough kneading, raw juice, ice, heating and grinding, etc.

As a preferred embodiment of the present utility model, at least two cup lids include a cold cup lid 20 and a hot cup lid 21, a processing cup 11 adapted to the cold cup lid 20 has a low-speed stirring function, and a processing cup 11 adapted to the hot cup lid 21 has a heating drying or high-speed pulverizing function.

By arranging the cold cup cover 20 and the hot cup cover 21, different functions can be realized, and different cutters are correspondingly selected, so that the mixed use errors of the cutters can be avoided, and the service life of the cutters is prolonged.

As shown in fig. 2, the cold cup cover 20 is suitable for making cold dishes (the heating element of the processing cup 11 does not work at this time), and can perform actions such as shredding, slicing, beating, mincing, and the like, and the top of the cold cup cover is provided with a feeding opening 201 arranged at an eccentric position, so that cover-closing feeding can be realized. As shown in fig. 3, the hot cup cover 21 is suitable for heating and drying, and high-speed grinding, and can perform functions such as flavoring grinding. The top of the hot cup cover 21 is provided with a powder blocking cover 211 which can prevent powder from overflowing.

Further, the trigger structure comprises a detection point arranged on the processing cup 11 and a micro-contact arranged on the cup cover, the micro-contact is matched with the detection point when the cup cover is closed or closed in place, and the cup cover can be identified according to the connection condition of the detection point.

One, two or more detection points are arranged, and the cold cup cover 20 and the hot cup cover 21 can be distinguished according to the connection condition of the detection points under different combinations. For example, when only one detection point is on, the cap is judged to be a cold cap 20; or when two detection points are all connected, judging the cup cover as a cold cup cover 20; or when only one detection point is on, judging that the cup cover is the hot cup cover 21; or when two detection points are both on, the cup cover is judged to be the hot cup cover 21.

Preferably, the processing cup 11 is provided with a handle 12, a cavity 121 is arranged at the connecting position of the handle 12 and the processing cup 11, and the detection point is arranged in the cavity 121. The space of the handle 12 is used for setting detection points, so that space utilization can be optimized, and the detection points can be triggered easily when the cup cover is covered, thereby being beneficial to reducing the recognition failure rate and providing reliable recognition. Both the cold cup cover 20 and the hot cup cover 21 comprise an extension part 200 which is buckled with the handle 12 correspondingly, and the micro-contact is arranged at the bottom of the extension part 200.

In one embodiment, the cold cup cover 20 is provided with a first micro-contact 202 and a second micro-contact 203, and the arrangement of the first micro-contact 202 and the second micro-contact 203 is not limited, for example, the first micro-contact 202 and the second micro-contact 203 may be circumferentially spaced apart or may be radially spaced apart.

Further, the processing cup 11 is provided with a first detecting point and a second detecting point, and the first micro-contact 202 and the second micro-contact 203 are protruded downwards along the bottom of the extension portion 200 and can be used for respectively abutting against the first detecting point and the second detecting point. It is to be understood that, although the cold cup cover 20 is provided with two micro-contacts, the judgment of the cold cup cover 20 is not limited to the number of the first detection point and the second detection point. Preferably, the lid is determined to be a cold lid 20 when both the first and second detection points are on.

In one implementation, as shown in fig. 4, when the cold cup cover 20 is covered, the first micro contact 202 may abut against the first detection point, where the first detection point is connected to the micro switch of the host through the ejector rod on the processing cup 11, and the micro switch of the host is connected to the control system, so as to implement the identification of the first detection point; the second micro-contact 203 abuts against a second detection point, for example, a micro-switch, which is connected to the body coupler 101 and further connected to the control system, so as to realize the identification of the second detection point. When the first detection point and the second detection point are simultaneously connected, the cup cover is judged to be the cold cup cover 20, the cold cup function is displayed, and the cold cup function can be started.

Any one or both of the first detection point and the second detection point are micro switches, and the utility model is not limited.

In one embodiment, as shown in fig. 5, the hot cup lid 21 is provided with a first micro contact 202, and the processing cup 11 is provided with a first detection point, and when the first detection point is on, the cup lid is judged to be the hot cup lid 21.

As shown in fig. 6, the wiring distribution of the six-pin 3-11 coupler is suitable for the short circuit and opening and closing of weak current lines of the cup cover identification part to realize identification, so that the identification mode of the traditional grinding cup and the multifunctional cup is continued, and different cup covers are identified in a distinguishing way. H1 and H2 are heating strong-current wiring, FY1 and FY2 are two anti-overflow wires, NTC is temperature measurement wiring, GND is grounding point, and cup cover recognition logic is: after the cold cup cover 20 is closed, the host is in micro-motion, and simultaneously, the NTC and GND are in short-circuit, and the corresponding functions of the cold cup cover 20 are applied, including meat mincing, vegetable chopping, beating, shredding and slicing, dough kneading, raw juice mixing and the like, and the corresponding display can be performed on the interface of the host; after the hot cup cover 21 is closed, the short-circuit host machine is micro-moved, and the corresponding function application of the hot cup cover 21 comprises grinding and baking, and the corresponding display can be performed on the host machine interface.

At present, three CUP judgment logics (a hot CUP, a heating dry grinding CUP and a multifunctional CUP) exist in the market, and different CUPs are identified through different connection methods of a large coupler (an NTC port and an FY1 port) and a small coupler (an NTC port and a CUP port). The utility model can provide an extended multifunctional cup, when the cup cover 20 is matched, the functions of the current multifunctional cup (functions of shredding, slicing, mincing, beating and the like) and new functions (functions of dough mixing, raw juice and the like) can be realized; when the cup cover 21 is matched, the function of heating the dry grinding cup at present can be realized. Therefore, different cup body identification is realized through different cup covers, and the cup body identification method is compatible with the old identification method.

In one embodiment, when the cup coupler 111 has a first wire (NTC port and FY1 port), the process cup 11 with the cold cup lid 20 is identified as a multi-function cup, or the process cup 11 with the hot cup lid 21 is identified as a heated dry grind cup.

In another embodiment, when the CUP coupler 111 has a second wire (NTC port and CUP port), the process CUP 11 with the cold CUP lid 20 is identified as an extended multi-function CUP, or the process CUP 11 with the hot CUP lid 21 is identified as a heated dry grind CUP.

Further, in the hot cup function, the utility model adds an expansion function. The food processor is provided with a circuit control module configured with a first mode of operation in which the motor is in a non-operating state and the heating element is in an operating state with the hot cup lid 21 in an uncapped state. Therefore, the utility model can heat in the uncapping state and limit the use of the stirring function, so that on one hand, high-temperature liquid can be prevented from splashing, on the other hand, the extended functions such as boiling function and the like can be added, and the user experience is improved.

The technical solution protected by the present utility model is not limited to the above embodiments, and it should be noted that, the combination of the technical solution of any one embodiment with the technical solution of the other embodiment or embodiments is within the scope of the present utility model. While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (10)

1. The utility model provides a multifunctional food processing machine, includes the host computer and installs in the processing cup of host computer, the processing cup is equipped with stirring cutter, heating element and cup coupler, the host computer is equipped with motor and organism coupler, the motor is connected through the last connector transmission of lower connector and processing cup bottom and is used for the drive stirring cutter, the cup coupler with the organism coupler grafting cooperation provides the electricity and is connected, a serial communication port, still includes two at least bowl covers, the food processing machine is equipped with multiunit trigger structure, and every group trigger structure adaptation is in a bowl cover to confirm through discernment bowl cover the type of processing cup.

2. A multi-function food processor as defined in claim 1, wherein,

at least two the bowl covers include cold bowl cover and hot bowl cover, the adaptation is in the cold bowl cover the processing cup has low-speed stirring function, the adaptation is in the hot bowl cover the processing cup has heating stoving or high-speed crushing function.

3. A multi-function food processor as defined in claim 2, wherein,

the trigger structure comprises one or two detection points arranged on the processing cup, and when only one detection point is connected, the cup cover is identified as the cold cup cover or the hot cup cover; or alternatively

When both detection points are connected, the cup cover is identified as the cold cup cover or the hot cup cover.

4. A multi-function food processor as defined in claim 3, wherein,

the processing cup is provided with a handle, a cavity is arranged at the connection position of the handle and the processing cup, and the detection point is arranged in the cavity.

5. A multi-function food processor as defined in claim 3, wherein,

the trigger structure comprises a first micro-contact and a second micro-contact which are arranged on the cold cup cover, wherein the first micro-contact and the second micro-contact are arranged along the circumferential direction of the cold cup cover at intervals or along the radial direction of the cold cup cover at intervals.

6. A multi-function food processor as defined in claim 5, wherein,

the cold cup cover comprises an extension part which is buckled with a handle of the processing cup correspondingly, the first micro-contact and the second micro-contact are arranged in parallel on the extension part and downwards protrude from the extension part, a first detection point and a second detection point are arranged in the handle, the first micro-contact abuts against the first detection point to conduct the first detection point, and the second micro-contact abuts against the second detection point to conduct the second detection point;

the first detection point and/or the second detection point is a micro switch.

7. A multi-function food processor as defined in claim 3, wherein,

the hot cup cover comprises an extension part which is buckled with a handle of the processing cup correspondingly, the trigger structure comprises a first micro-contact which is arranged on the extension part, a first detection point is arranged in the handle, and when the hot cup cover is buckled and installed in place, the first micro-contact abuts against the first detection point to conduct the first detection point.

8. A multi-function food processor as defined in claim 2, wherein,

when the cup body coupler is provided with a first wiring, the processing cup provided with the cold cup cover is identified as a multifunctional cup, or the processing cup provided with the hot cup cover is identified as a heating dry grinding cup.

9. A multi-function food processor as defined in claim 2, wherein,

when the cup body coupler is provided with a second wiring, the processing cup provided with the cold cup cover is identified as an extended multifunctional cup, or the processing cup provided with the hot cup cover is identified as a heating dry grinding cup.

10. A multi-function food processor as defined in claim 2, wherein,

the food processor is provided with a circuit control module configured with a first operating mode in which the motor is in a non-operating state and the heating element is in an operating state in a lid-opening state.