CN211748725U - Cooking machine - Google Patents

Abstract

A cooking machine comprising: an upper shell unit and a bottom shell unit positioned below the upper shell unit; the bottom shell unit comprises a bottom shell and a bottom shell cover plate, wherein the bottom shell is used for supporting the cooking machine, and the bottom shell cover plate is used for accommodating a pot body; the upper shell unit comprises an upper shell cover plate and an upper shell, wherein the upper shell is used for sensing the food material box, a part of area of the upper shell cover plate is provided with a baffle plate, when the baffle plate is in an open state, the cooking machine enables food materials in the food material box to enter the pot body through the baffle plate, and when the baffle plate is in a closed state, the upper shell cover plate completely covers the pot body accommodated on the lower shell cover plate. From this, this disclosure has realized that a structure is simple relatively, convenient clearance, user experience friendly kitchen equipment, and can further realize for multi-functional, intelligent, even high in the clouds cooking machine.

Description

Cooking machine

Technical Field

The utility model belongs to the field of kitchen equipment, concretely relates to cooking machine.

Background

The existing kitchen equipment has various types, including an electric cooker, a cooking machine, a soup cooker and the like. In order to accommodate different types of kitchen appliances, multifunctional appliances have been developed. However, such devices have problems of complicated structure, easy accumulation of oil smoke and water vapor, inconvenient cleaning, inconvenient use by users, and the like.

Therefore, how to design a kitchen appliance with a relatively simple structure, convenient cleaning and friendly user experience is always a technical problem to be solved urgently in the field.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned problem that exists among the prior art, the present disclosure provides a cooking machine, including:

an upper shell unit and a bottom shell unit positioned below the upper shell unit;

the bottom shell unit comprises a bottom shell and a bottom shell cover plate, wherein the bottom shell is used for supporting the cooking machine, and the bottom shell cover plate is used for accommodating a pot body;

the upper housing unit includes an upper housing cover plate and an upper housing, wherein the upper housing is used for sensing the food material box, and,

a baffle plate is arranged in a part of area of the upper shell cover plate, when the baffle plate is in an open state, the cooking machine enables food materials in the food material box to enter the pot body through the baffle plate, and when the baffle plate is in a closed state, the upper shell cover plate covers the pot body accommodated on the bottom shell cover plate.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a stirring mechanism;

the stirring mechanism can extend into the pot body.

More preferably, it is a mixture of more preferably,

the upper shell unit further comprises an exhaust hole;

the exhaust hole is used for communicating the space between the upper shell and the upper shell cover plate with the outside.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a film tearing mechanism;

the film tearing mechanism is used for rolling tearing off the film for sealing the food materials on the food material box.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a transmission mechanism;

the transmission mechanism is used for driving the food material box to enter and/or leave the cooking machine.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a baffle mechanism;

the shutter mechanism is used for opening or closing the shutter.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a top cover;

the top cover is used for covering the food material box entering the cooking machine.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a liquid box and a pump for pumping the liquid in the liquid box.

More preferably, it is a mixture of more preferably,

the cooking machine also comprises a device for adjusting the temperature of the pot body.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a program control unit and a communication unit.

From this, this disclosure has realized that a structure is simple relatively, convenient clearance, user experience friendly kitchen equipment, and can further realize for multi-functional, intelligent, even high in the clouds cooking machine.

Drawings

Some specific embodiments of the present application will be described in detail hereinafter by way of illustration and not limitation with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a schematic view of an assembly of one embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of one embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of one embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of one embodiment of the present disclosure;

FIG. 5 is a schematic structural diagram of one embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of one embodiment of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are some embodiments of the present disclosure, but not all embodiments. It should be noted that, in the present disclosure, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

It should be noted that the terms "first", "second", etc. in the description and claims of the present disclosure and the accompanying drawings are only used for distinguishing some objects and are not used for describing a specific order or sequence. It is to be understood that the terms so used are interchangeable under appropriate circumstances for describing the embodiments of the disclosure herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present disclosure. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

Furthermore, spatially relative terms, such as "on/above … …", "above … …", "on/above … …", "above … …", and the like, may be used herein to describe the spatial relationship of one device or feature to another device or feature for ease of description. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the present disclosure. For example, if a device is turned over, devices described as "above" or "above" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above/… …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

In the description of the present disclosure, it is to be understood that the orientation or positional relationship indicated by the orientation words such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc. are usually based on the orientation or positional relationship shown in the drawings or in the conventional placement, only for the convenience of describing the present disclosure and simplifying the description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be considered as limiting the scope of the present disclosure; similarly, the terms "inner and outer" refer to the inner and outer contours of the respective component itself.

In one embodiment, the present disclosure provides a cooking machine comprising:

an upper shell unit and a bottom shell unit positioned below the upper shell unit;

the bottom shell unit comprises a bottom shell and a bottom shell cover plate, wherein the bottom shell is used for supporting the cooking machine, and the bottom shell cover plate is used for accommodating a pot body;

the upper housing unit includes an upper housing cover plate and an upper housing, wherein the upper housing is used for sensing the food material box, and,

a baffle plate is arranged in a part of area of the upper shell cover plate, when the baffle plate is in an open state, the cooking machine enables food materials in the food material box to enter the pot body through the baffle plate, and when the baffle plate is in a closed state, the upper shell cover plate covers the pot body accommodated on the bottom shell cover plate.

For the above embodiment, since the upper casing is used for sensing the food material box and a part of the area of the upper casing cover plate is provided with the baffle plate, the cooking machine can control the opening of the baffle plate in a manual or automatic mode after sensing the food material box, so that the food material in the food material box enters the pot body through the baffle plate, otherwise, the baffle plate is in a closed state. As a kitchen appliance, whether cooking or soup making, it can be understood that when the school cover completely covers the pot, the oil smoke or water vapor in the pot will only spread to a limited extent, and particularly when used for cooking, the cooking machine will significantly reduce the oil smoke. In addition, due to the limited diffusion range, the cleaning of the inner space of the cooking machine is facilitated, and oil smoke and water vapor are not accumulated everywhere in the cooking machine. It can be found that the structure of this cooking machine is simple relatively, has restricted diffusion everywhere of steam or oil smoke, accords with user's custom moreover, and user experience is friendly relatively.

It should be noted that the above-mentioned cooking machine can be configured to not only control the opening or closing of the shutter manually, but also control the opening or closing of the shutter intelligently in an automated (including semi-automatic or fully automatic) manner.

In addition, as for the pot body accommodated on the bottom shell cover plate covered by the upper shell cover plate, the lower part of the upper shell cover plate can be almost abutted against the upper edge of the pot body, and the lower part of the upper shell cover plate can be within 1 centimeter or more than 1 centimeter away from the upper edge of the pot body. On the one hand, the proper air intake into the pan is of interest for the cooking of certain dishes or soups, and on the other hand, the entry of fumes or vapours into the upper or lower shell unit of the cooking machine must also be controlled to the maximum extent. Therefore, preferably, the lower part of the upper shell cover plate is almost abutted against the upper edge of the pot body.

In another embodiment of the present invention, the substrate is,

the cooking machine further comprises a stirring mechanism;

the stirring mechanism can extend into the pot body.

It can be understood that, since the cooking machine can be used for cooking, soup making or cooking, this means that the cooking machine can integrate the functions of an electric rice cooker, a soup making machine and a cooking machine. Wherein a stirring mechanism is not substantially required for cooking rice or soup, and the cooking machine can be operated in a state without the stirring mechanism, but requires the stirring mechanism when the cooking machine performs its cooking function. In this case, the stirring mechanism may have various shapes and sizes, and different stirring mechanisms may be replaced with different dishes. Preferably, in commercial kitchen appliances, in particular large cooking machines, if an automated exchange of the stirring means is indeed necessary, the cooking machine further comprises an exchange device for gripping and securing the different stirring means in their mounting position.

In another embodiment, the stirring mechanism is disposed below the upper cover plate or fixed to the upper cover plate through the upper cover plate. Therefore, when the cooking machine is in a working state, the stirring mechanism of the cooking machine can conveniently extend into the pot body. Furthermore, the stirring mechanism can be arranged in the pot body, and at the moment, a motor for driving the stirring mechanism can be arranged in the pot body or the bottom shell.

Furthermore, it is preferable that the stirring mechanism is a detachable stirring mechanism, which facilitates detachment, maintenance, and replacement. Furthermore, the stirring mechanism is a magnetic type stirring mechanism, so that the disassembly, the maintenance and the replacement are convenient.

With respect to the various embodiments described above relating to the stirring mechanism, it can be understood that, similar to the baffle, the stirring mechanism can also be operated and controlled in a programmed manner, when the cooking machine belongs to an automated, intelligent cooking machine.

More preferably, it is a mixture of more preferably,

the upper shell unit further comprises an exhaust hole;

the exhaust hole is used for communicating the space between the upper shell and the upper shell cover plate with the outside.

With this embodiment, in order to improve the air discharge performance, therefore, the need for the space in the space concerned in the upper case unit to communicate with the outside for air discharge can be solved by adding the air discharge hole to the upper case unit.

It should be noted that, if in order to improve the air discharge performance better, the air discharge hole can be directly communicated with the pot body through an air discharge pipeline, so that the substances in the gas states of water vapor, oil smoke and the like can be discharged from the source of the pot body better. Therefore, the accumulation of water vapor or oil smoke can be further reduced, and the characteristic that the cooking machine is convenient to clean is embodied. Furthermore, the exhaust hole can be used for communicating the space between the upper shell and the pot body or between the upper shell and the bottom shell with the outside so as to better and comprehensively exhaust substances in gas states such as water vapor, oil smoke and the like.

Preferably, the exhaust pipeline is of a detachable structure. Thus, the exhaust duct is convenient to clean. Similarly, the vent may also preferably be a removable structure.

In another embodiment of the present invention, the substrate is,

the cooking machine further comprises a film tearing mechanism;

the film tearing mechanism is used for rolling tearing off the film for sealing the food materials on the food material box.

In view of the hygienic need of preserving food materials and the characteristic of convenient feeding, the above embodiment defines a film tearing mechanism. It will be appreciated that rolling the tear film may be achieved by winding one end of the film around a respective shaft. It should be particularly noted that, preferably, the film tearing mechanism can pull the food material box (including two directions of forward movement and backward movement, or two directions of extending in and out) in a linkage manner at the same time in the process of rolling and tearing off the film, for example, a hole or a zigzag continuous structure or a notch corresponding to an additional gear in the film tearing mechanism is formed in the food material box, so that the food material box can be pulled through the matching of the gear and the hole or the zigzag continuous structure. In order to control the food box to reach a designated position, a notch or hole or the like may be provided on the food box and cooperate with the relevant sensor of the cooking machine.

More preferably, in another embodiment,

the cooking machine further comprises a transmission mechanism;

the transmission mechanism is used for driving the food material box to enter and/or leave the cooking machine.

Thus, in addition to selecting the above-mentioned tear-off mechanism, the cooking machine has another embodiment to drive the ingredient box, namely: the transmission mechanism. That is, the cooking machine may be separately provided with a transmission mechanism for driving the material cartridge, instead of selecting the multiplexing film tearing mechanism. In addition, when the film tearing mechanism selects to realize the mode of the shaft and the corresponding electrode and the transmission mechanism also selects to realize the mode of the shaft and the corresponding electrode, shaft motors of the film tearing mechanism and the transmission mechanism can also be linked to realize the automatic advance and retreat of the food material box. When the food material box needs to move forward and/or backward, the food material box often stores a plurality of food materials, which can be realized by arranging a plurality of lattices on the food material box.

More preferably, in another embodiment,

the cooking machine further comprises a baffle mechanism;

the shutter mechanism is used for opening or closing the shutter.

It will be appreciated that the cooking machine may be provided with a shutter mechanism for opening or closing the shutter if it is desired to control the shutter in an automated, intelligent manner, rather than manually.

It should be noted that the film tearing mechanism, the transmission mechanism and the baffle mechanism in the present disclosure may be disposed on the upper casing, may be disposed on the upper casing cover plate, and may be implemented in other manners in the upper casing unit (for example, not only the inner space of the upper casing unit but also some space on the outer surface thereof is utilized, including additional accessories when the outer surface thereof is utilized). In addition, these mechanisms may also be designed according to the specific internal space of the cooking machine, and do not exclude the film tearing mechanism, the transmission mechanism, and the baffle mechanism from being arranged in the bottom shell unit, or even implementing the above mechanisms in any other way, as long as the operation of the cooking machine is not hindered.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a top cover;

the top cover is used for covering the food material box entering the cooking machine.

It can be understood that the top cover can further prevent the water vapor and the oil smoke from diffusing to the outside of the cooking machine. Further, in combination with the exhaust holes, the water vapor or oil smoke is mainly exhausted through the exhaust holes. Furthermore, the top cover can be made of transparent materials so as to conveniently display the state and the bottom information of the dish box, and can be made of heat-insulating materials, so that a certain heat-insulating effect can be achieved for the food box.

More preferably, it is a mixture of more preferably,

the cooking machine further comprises a liquid box and a pump for pumping the liquid in the liquid box.

For this embodiment, since the cooking machine of the present disclosure may be used for cooking, it may be necessary to use water, various oils, vinegar, etc.; in addition, during the process of cooking soup or cooking, the water level may need to be precisely controlled — therefore, the cooking machine of the present disclosure is also provided with a liquid box and a pump thereof. It can be understood that the design can be designed according to a special pan body and how to pump the liquid into the pan body, and the design can also be designed according to a general pan body provided with corresponding spray heads to pump the related liquid into the pan body. If necessary, a level limiting device may be provided to control the amount of liquid added, or other metering devices (e.g., flow meters) may be provided to control the amount of liquid added.

More preferably, in another embodiment,

the cooking machine also comprises a device for adjusting the temperature of the pot body.

The temperature may be adjusted up or down. If necessary, even the pan body can be iced or low-temperature gas is introduced to quickly cool the pan body so as to meet the requirement of cooking certain dishes. As for the heat source or the cold source, it can be selected as desired.

More preferably, in another embodiment,

the cooking machine further comprises a program control unit and a communication unit.

It can be understood that the programming unit can control all controllable objects in the cooking machine, including but not limited to: sensing of the food material box, controlling of the film tearing mechanism, controlling of the transmission mechanism, controlling of the baffle mechanism and controlling of the device for adjusting the temperature of the pot body.

It should be noted that, the sensing of the food material box can be realized by infrared, bluetooth (for example, bluetooth range finding), camera, etc., wherein: when the camera mode is adopted, the camera can be selected to be arranged on an upper shell of the cooking machine (for example, the upper shell comprises two parallel surfaces, the two surfaces are oppositely provided with the two cameras, the two cameras corresponding to the two surfaces are not prevented from being read by the corresponding camera on the surface no matter which side of the two surfaces face, the corresponding food material box can be pasted with the two-dimensional code of each dish, and therefore the cooking machine can control each mechanism, device, unit and the like according to the obtained information of the two-dimensional codes so as to control the work of the cooking machine, so that the cooking machine is executed according to a proper menu method of the dish, and the dish is cooked more perfectly.

In addition, the communication unit can be used for linkage and cooperation of various mechanisms inside the cooking machine body, so that the program control unit can control correctly. It should be noted that, furthermore, the communication unit may include wired or wireless networking capability to receive information from the APP on the cloud server or the smart terminal and use such information to control the operation of the cooking machine.

FIG. 1 illustrates a preferred embodiment, which incorporates some or all of the features of the various embodiments described above to form a specific embodiment. In this embodiment, all components/elements that can be assembled are illustrated from top to bottom in connection with fig. 1, wherein:

the upper shell cover plate is provided with upright posts which are in snap connection with the upper shell, such as 7 upright posts shown in figure 1; during the manufacturing process, the upright posts can be integrally formed with the upper shell cover plate;

in addition, the upper shell cover plate is also provided with a feed inlet, and the baffle plate is used for closing or opening the feed inlet; when the food box is opened, food materials in corresponding lattices of the food box enter the pot body through the baffle plate and the feeding port, and when the baffle plate is in a closed state, the upper shell cover plate closes the feeding port through the baffle plate so as to completely cover the pot body accommodated on the lower shell cover plate. It will be appreciated that the dispensing opening may be of a height as shown in figure 1, but it may also be of no height at all, for example, by having a hole directly in the upper housing cover, which hole, when closed, is directly closed by the flap. As for the baffle when in the open mode, the baffle can be opened upwards in the space formed by the whole upper shell cover plate and the upper shell, and also can be opened downwards: for example, when the feeding port has a certain height, the feeding port forms an upward pipeline, and the baffle can be opened downwards and is close to the inner wall of the pipeline; for another example, when the feeding opening is not of significant height but is formed by a direct opening in the upper shell cover, the baffle may open upwards in the space formed by the entire upper shell cover and the upper shell to prevent the baffle from entering the pot. Like the above-mentioned column, the feed opening can also be formed integrally with the upper housing cover.

In addition, the bottom shell cover plate is provided with the support frame of the liquid box, preferably, the support frame of the liquid box is arranged on the side surface of the bottom shell cover plate, and more preferably, the support frame of the liquid box can be integrally formed with the bottom shell cover plate.

Referring to fig. 2, in another embodiment, the film tearing mechanism and the transmission mechanism are in linkage state through a connecting rod, and the baffle mechanism comprises a baffle and a corresponding baffle motor, and the baffle is connected to the baffle motor through the connecting rod. With respect to fig. 2, the flapper is illustrated in an open state. It should be noted that no particular proportions or dimensions are contemplated herein, nor is it intended to limit the extent to which the flap extends into the pan body when in the open position. It will be appreciated that the baffle preferably does not extend into the pan to avoid sticking to any food material in the pan.

Referring to fig. 3, in another embodiment, the packaged food material box is located above the film tearing mechanism, the baffle mechanism and the transmission mechanism. Not shown in the figures, for the packaged food material box, the following may be: a feeding port and a baffle for opening or closing the feeding port. In which, compared to fig. 1, fig. 1 shows a plurality of lattices inside the food material box, while fig. 3 shows the said packaged food material box comprising an outer shell and even further covered with a decorative material on the outer shell.

Referring to fig. 4, in another embodiment, when the stirring mechanism extends into the pot body, the stirring mechanism is not limited whether the stirring mechanism is arranged below the upper casing cover plate or extends into the pot body through the upper casing cover plate. In particular, the stirring mechanism can also be arranged directly in the pan body, for example, through the bottom of the pan body. However, the stirring mechanism is arranged, so long as the stirring function can be implemented in the pot body.

It should be noted that, in another embodiment, as shown in fig. 5, the cavity for the food material box to extend into or withdraw from is defined by the spatial structure of the upper shell. Furthermore, with reference to fig. 1 and 5, it can be understood that, as far as the upper shell is concerned, the latter can be provided with a support platform and two side walls, which, from the perspective of a front view, can assume a shape similar to the upper half of a Chinese character 'ao': on one hand, the supporting platform and the two side walls of the upper shell in fig. 5 are used for forming a cavity for the food material box to extend into or withdraw from; on the other hand, can set up the sensor on two lateral walls of epitheca in order to detect that the edible material box stretches into or withdraw from this cavity to detect edible material box's removal, the sensor can further detect its edible material box removal's position and be used for the spacing control in later stage so that make the accurate appointed position of arrival of edible material box through breach or hole on the edible material box.

Regarding how the food material box seals/encloses the food material, in another embodiment: when the food box is used for sealing food, a sealing plate made of hard material can be adopted instead of a sealing film. When the sealing plate made of hard material is adopted, the sealing plate can be designed as follows: the sealing plate can slide back and forth on the food box, for example, by arranging a sliding rail or a sliding groove matched between the food box and the sealing plate; at this time, when it is detected that the food material box enters the cavity for the food material box to extend into or withdraw from, the shaft of the film tearing mechanism is fixed and does not rotate so as to clamp the sealing plate and prevent the sealing plate from advancing (i.e. from extending into the cavity), and further, the transmission mechanism drives the food material box to advance through a matching structure between the transmission mechanism and the food material box (for example, a sliding rail or a sliding groove is also arranged between the transmission mechanism and the food material box); at the moment, the sealing plate is in a stationary state, so that the food box is controlled by the transmission mechanism to continue moving, and the food box and the sealing plate move relatively, so that the food box is in an open state. When the food material box moves gradually, the food materials in the corresponding grids can be matched with the action of the baffle plate to realize the function of feeding the food materials into the pot body. It will be appreciated that the sealing sheet may be recycled, particularly using sealing sheets made of food grade safe materials, such as PE sealing sheets. The sealing plate has the characteristic of environmental friendliness compared with a thin film.

Referring to fig. 6, in another embodiment, a circuit board and a vent duct are further disposed on the upper case cover plate, wherein the circuit board includes a processor and a memory, a data transmission interface, and necessary PCB lines. It will be appreciated that the previously described programming and communication units may be integrated on the circuit board. Furthermore, in the case of a cooking machine, the circuit board is mainly used to implement all control functions of the cooking machine, in addition to the functions of communication or data transmission, to detect and control all controlled objects, including but not limited to:

detecting the corresponding position of each grid of the food material box and the feed inlet;

controlling the transmission mechanism to enable the food material box to reach a designated position (for example, enabling each grid of the food material box to reach the designated position, and enabling the food material box to extend into or withdraw from the cavity for the food material box to extend into or withdraw from);

controlling the baffle to open or close the feeding port;

controlling the film tearing mechanism to open each grid so that the food materials in the grids enter the pot body;

controlling the food box to stretch in or withdraw from step by step so as to continuously put the food in all the lattices into the pot body within a certain time interval according to the cooking program;

controlling the corresponding liquid in the liquid box to enter the pot body under various cooking conditions such as specified time or specified temperature and humidity (temperature and humidity sensors arranged in the pot body are required to be utilized); the cooking condition can be from a two-dimensional code on the food material box, and when the food material box enters a cavity for the food material box to extend into or withdraw from, the two-dimensional code can be read by a corresponding sensor (such as a camera), so that the cooking parameters on the two-dimensional code are transmitted to the circuit board, and the cooking condition is established; and

the circuit board controls all controlled objects to implement various cooking functions according to cooking conditions.

To sum up, combine all the description drawings and each embodiment that the aforesaid was said, can understand that this disclosure has realized that a structure is simple relatively, convenient clearance, user experience friendly kitchen equipment, and can further realize for multi-functional, intelligent, even high in the clouds cooking machine, it has obtained following technological effect at least:

1. the baffle plate of the feeding port can be realized as an automatic sealing device, so that the upper shell and other areas of the cooking machine are prevented from being heated by water vapor;

2. the design that the semi-closed/closed state can be switched can achieve the effects of heat preservation and fresh keeping;

3. the detachable exhaust port is convenient to clean;

4. the two-dimensional code probe automatically acquires parameters of the food box;

5. the water box and the oil box can provide custom auxiliary materials;

6. the magnetic type stirring rod is taken as an implementation mode of the stirring mechanism, can be detached and is convenient to clean, different stirring rods can be selected according to different dishes, and the stirring rod-free mode can work;

7. the automatic forward and backward movement of the food material box is realized through the linkage of the film tearing mechanism and the transmission mechanism;

8. the movement of the food item box is detected by a notch or hole in the food item box and the associated sensor of the cooking machine in order to move the food item box to a designated position.

The above is merely a preferred embodiment of the present disclosure and is not intended to limit the present disclosure, which may be variously modified and varied by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Claims (10)

1. A cooking machine, characterized in that it comprises:

an upper shell unit and a bottom shell unit positioned below the upper shell unit;

the bottom shell unit comprises a bottom shell and a bottom shell cover plate, wherein the bottom shell is used for supporting the cooking machine, and the bottom shell cover plate is used for accommodating a pot body;

the upper housing unit includes an upper housing cover plate and an upper housing, wherein the upper housing is used for sensing the food material box, and,

a baffle plate is arranged in a part of area of the upper shell cover plate, when the baffle plate is in an open state, the cooking machine enables food materials in the food material box to enter the pot body through the baffle plate, and when the baffle plate is in a closed state, the upper shell cover plate covers the pot body accommodated on the bottom shell cover plate.

2. The cooking machine according to claim 1, wherein:

the cooking machine further comprises a stirring mechanism;

the stirring mechanism can extend into the pot body.

3. The cooking machine according to claim 1, wherein:

the upper shell unit further comprises an exhaust hole;

the exhaust hole is used for communicating the space between the upper shell and the upper shell cover plate with the outside.

4. The cooking machine according to claim 1, wherein:

the cooking machine further comprises a film tearing mechanism;

the film tearing mechanism is used for rolling tearing off the film for sealing the food materials on the food material box.

5. The cooking machine according to claim 1, wherein:

the cooking machine further comprises a transmission mechanism;

the transmission mechanism is used for driving the food material box to enter and/or leave the cooking machine.

6. The cooking machine according to claim 1, wherein:

the cooking machine further comprises a baffle mechanism;

the shutter mechanism is used for opening or closing the shutter.

7. The cooking machine according to claim 1, wherein:

the cooking machine further comprises a top cover;

the top cover is used for covering the food material box entering the cooking machine.

8. The cooking machine according to claim 1, wherein:

the cooking machine further comprises a liquid box and a pump for pumping the liquid in the liquid box.

9. The cooking machine according to claim 1, wherein:

the cooking machine also comprises a device for adjusting the temperature of the pot body.

10. The cooking machine according to claim 1, wherein:

the cooking machine further comprises a program control unit and a communication unit.

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