CN219306477U - Cooking machine - Google Patents

Abstract

The application relates to the technical field of automatic cooking, in particular to a cooking machine, which comprises a rack, a transfer mechanism and a cooking mechanism; the frame is provided with a recovery mechanism; the transfer mechanism comprises a movable arm and a filtrate container connected with the movable arm, the movable arm is rotatably connected to the frame, and the filtrate container can move from a first position to a second position; the cooking mechanism is connected to the frame and comprises a cooking container which can rotate relative to the frame; wherein when the filtrate container is in the first position, the filtrate container is in communication with the recovery mechanism; when the filtrate receptacle is in the second position, at least part of the projection of the filtrate receptacle is located in the cooking receptacle. Through setting up the transfer mechanism, make the filtrate container in the transfer mechanism can move from the first position to the second position, and then make the food material in the cooking container can be automatically processed by returning to the pot; and the filtrate container can separate oil materials and water in the food materials, and can ensure the effect of returning to the pot.

Description

Cooking machine

Technical Field

The application relates to the technical field of automatic cooking, in particular to a cooking machine.

Background

At present, daily cooking in restaurants or families is usually finished by manpower, so that the method is labor-and time-consuming, has higher technical requirements, and is not beneficial to body health because of higher temperature and more oil smoke in a kitchen. In order to improve the cooking efficiency and reduce the manual participation, the cooking machine is generated. The traditional Chinese dishes are various, and the traditional Chinese dish process can comprise frying, quick-frying or combination thereof, but the traditional dish frying machine can simply realize quick-frying or frying and can not realize the complex preparation of dishes which need multiple cooking processes.

Disclosure of Invention

The application provides a cooking machine capable of simultaneously realizing multiple cooking processes.

The application provides a machine of cooking for cook food material, include:

the device comprises a rack, wherein a recovery mechanism is arranged on the rack;

the transfer mechanism comprises a movable arm and a filtrate container connected with the movable arm, the movable arm is rotatably connected to the frame, and the filtrate container can move from a first position to a second position; and

the cooking mechanism is connected to the rack and comprises a cooking container which can rotate relative to the rack;

wherein when the filtrate container is in the first position, the filtrate container is in communication with the recovery mechanism; when the filtrate container is in the second position, at least a partial projection of the filtrate container is located in the cooking container.

Compared with the prior art, the beneficial effects of this application are: according to the cooking machine provided by the embodiment of the application, through the arrangement of the transfer mechanism, the filtrate container in the transfer mechanism can move from the first position to the second position, so that the cooking container can be fried and quick-fried, and meanwhile, the cooking machine can also be used for realizing the return of food materials through frying and quick-frying; and the filtrate container can separate oil materials and water in the food materials, and can ensure the effect of returning to the pot.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a first state of a cooker according to an embodiment of the present disclosure;

FIG. 2 is an enlarged view of a portion of the area A shown in FIG. 1;

FIG. 3 is a perspective view of the cooking machine shown in FIG. 1 in a second state;

fig. 4 is a partial enlarged view of the area B shown in fig. 3;

FIG. 5 is a perspective view of a first recovery assembly of the recovery mechanism of the cooking machine of FIG. 1;

FIG. 6 is a schematic perspective view of a dish feeding mechanism of the cooker shown in FIG. 1;

FIG. 7 is an exploded schematic view of the feeding mechanism shown in FIG. 6;

FIG. 8 is a schematic perspective view of a stirring mechanism in the cooker shown in FIG. 1;

FIG. 9 is a schematic perspective view of a stirring aid assembly of the stirring mechanism shown in FIG. 8;

fig. 10 is a perspective view of a seasoning supplying mechanism of the cooker shown in fig. 1.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is specifically noted that the following examples are only for illustration of the present application, but do not limit the scope of the present application. Likewise, the following embodiments are only some, but not all, of the embodiments of the present application, and all other embodiments obtained by one of ordinary skill in the art without making any inventive effort are within the scope of the present application.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1 to 4, fig. 1 is a schematic perspective view illustrating a first state of a cooker according to an embodiment of the present application, fig. 2 is a partially enlarged view illustrating an area a illustrated in fig. 1, fig. 3 is a schematic perspective view illustrating a second state of the cooker illustrated in fig. 1, and fig. 4 is a partially enlarged view illustrating an area B illustrated in fig. 3. The embodiment of the application provides a cooking machine 100, and the cooking machine 100 may include a frame 10, a recycling mechanism 20, a cooking mechanism 30, a transferring mechanism 40, a dinner plate mechanism 50, a pan scraping mechanism 60, a feeding mechanism 70, a positioning mechanism 80, a stirring mechanism 90, and a seasoning supplying mechanism 200.

Wherein, recovery mechanism 20 sets up on frame 10, and recovery mechanism 20 can be used to collect oil, brush pot waste liquid etc.. The frying pan mechanism is rotatably connected to the frame 10, the frying mechanism 30 comprises a cooking container 31, and the cooking container 31 can rotate relative to the frame 10, so as to realize operations of automatically pouring out dishes, automatically pouring waste liquid and the like. The transfer mechanism 40 is rotatably connected to the frame 10, the transfer mechanism 40 includes a movable arm 41 and a filtrate container 42 connected to the movable arm 41, the movable arm 41 is rotatably connected to the frame 10, and the filtrate container 42 can move from a first position to a second position. By such design, the cooker 100 can be provided with stir-frying, frying or a combination of stir-frying and frying, so that the cooker 100 can realize various cooking processes. Wherein the filtrate container 42 may be configured to communicate with the recovery mechanism 20 when in the first position such that when the cooking container 31 pours food material into the filtrate container 42, oil in the food material is collected into the recovery mechanism 20 after passing through the filtrate container 42; the filtrate receptacle 42 is further configured such that the filtrate receptacle 42 is at least partially projected to the cooking receptacle 31 when in the second position, such that the filtrate receptacle 42 is capable of re-feeding the filtered food material into the cooking receptacle 31.

Specifically, the cooking container 31 in the dish frying mechanism 30 can process the food materials which need to be oiled, water or fried, and then store the food materials in the filtrate container 42 in the transferring mechanism 40, and in the process of storing the food materials in the filtrate container 42, the filtrate container 42 can separate and recycle the oil in the food materials to the recycling mechanism 20, and the filtered food materials are put in the cooking container 31 again under the action of the transferring mechanism 40, so that on one hand, the food materials can be returned to the pot, the processing technology of the food materials is enriched, and on the other hand, the filtrate container 42 can separate the oil or water in the food materials.

It should be noted that the terms "first," "second," and "third" are used herein for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying a number of technical features being indicated. Thus, a feature defining "a first", "a second", and "a third" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

A seasoning supply mechanism may be housed in the housing 10 for adding liquid seasoning to the cooking vessel 31. The feeding mechanism 70 feeds food materials into the cooking container 31. The positioning mechanism 80 is fixed on the frame 10, and is used for fixing the stirring mechanism 90, and can drive the stirring mechanism 90 to approach or separate from the cooking container 31. When the stirring mechanism 90 is close to the cooking container 31, the stirring mechanism 90 may be used to stir the food material in the cooking container 31; when the stirring mechanism 90 is away from the cooking container 31, the stirring mechanism 90 can avoid an influence on the rotation of the cooking container 31. The dinner plate mechanism 50 is rotatably connected to the frame 10 for collecting the food material completed by the cooking vessel 31.

Specifically, the frame 10 may include an integrally formed table 11 and a supporting seat 12 fixed on an edge of the table 11, and the cooking mechanism 30 is rotatably connected to the supporting seat 12, so that a gap is formed between the cooking container 31 and the table 11, and the cooking container 31 is convenient to turn over. The transfer mechanism 40 and the dish feeding mechanism 70 are rotatably connected to the supporting seat 12, so that the heights of the transfer mechanism 40 and the dish feeding mechanism 70 and the cooking container 31 are kept consistent to facilitate operation, and the occupation of the table surface of the workbench 11 can be reduced, and the structure of the cooker 100 is compact.

The working table 11 may include a first support plate 111 and a second support plate 112 disposed opposite to each other at a distance, and a connection plate 113 connecting the first support plate 111 and the second support plate 112, wherein the first support plate 111, the second support plate 112 and the connection plate 113 define a receiving chamber (not shown) along a direction perpendicular to the first support plate 111. Wherein the support base 12 and the positioning mechanism 80 are fixed on the surface of the first support plate 111 facing away from the second support plate 112. In this embodiment, the connection plate 113 may be partially transparent or completely transparent, so that a user can know the information of the accommodating cavity at any time, such as the state of the structures of the recycling tank and the liquid seasoning box, etc. accommodated in the accommodating cavity.

The table 11 may further include a universal wheel 114 disposed on a surface of the second support plate 112 facing away from the first support plate 111. The universal wheel 114 enables the table 11 to move freely in all directions. In other embodiments, the workbench 11 may further include a stand (not shown) disposed on the surface of the second support plate 112 facing away from the first support plate 111, and the stand may adjust its height in a rotating manner, so that the workbench 11 can adapt to various working environments and maintain a horizontal state, and further ensure that the cooking machine 100 can be in a good working state.

The frame 10 may be provided with: a power button 101, a rotation button 102, a water adding button 103, and the like. The start button can be electrically connected with a power supply and is used for controlling the whole power consumption of the cooker 100, specifically, when the cooker 100 is in a power-off state, the cooker 100 can normally work according to a preset program by pressing the power supply button 101; pressing the power button 101 again stops the cooker 100. The rotary button 102 can control the cooking mechanism 30 to rotate so as to facilitate the automatic discharge of the cooking container 31 or the automatic dumping of waste liquid. The water-adding button 103 may be used to control the line to add water to the cooking mechanism 30.

The supporting seat 12 may include a first supporting seat 121, a second supporting seat 122 and a third supporting seat 123, where the first supporting seat 121 and the third supporting seat 123 are disposed opposite to each other at intervals and located at two opposite side edges of the first supporting plate 111, the second supporting seat 122 is located between the first supporting seat 121 and the second supporting seat 122, and the first supporting seat 121, the second supporting seat 122 and the third supporting seat 123 enclose an accommodating space 120 with an opening at one side. Wherein, the recovery mechanism 20 is disposed on a side of the first support plate 111 away from the second support base 122, that is, the recovery mechanism 20 is located at an opening position of the accommodating space 120.

The cooking mechanism 30 is rotatably connected to the first supporting seat 121, and the cooking container 31 is accommodated in the accommodating space 120. The transfer mechanism 40, the pot scraping mechanism 60 and the positioning mechanism 80 are respectively arranged on the first supporting seat 121 and are adjacent to the cooking container 31, the filtrate container 42 with a filtering structure is used for receiving food materials in the cooking container 31, the pot scraping mechanism 60 is used for cleaning the food materials in the cooking container 31, and the positioning mechanism 80 is used for driving the stirring mechanism 90 to be close to or far away from the cooking container 31. The dish feeding mechanism 70 is disposed on a surface of the second support base 122 facing away from the first support plate 111, for feeding food materials in the dish feeding mechanism 70 into the cooking container 31. The dinner plate mechanism 50 is rotatably connected to the third supporting seat 123 and is used for collecting food materials completed by the cooking container 31. The dish frying mechanism 30, the transfer mechanism 40, the pan scraping mechanism 60, the positioning mechanism 80, the dish throwing mechanism 70 and the dinner plate mechanism 50 are respectively arranged on the first supporting seat 121, the second supporting seat 122 and the third supporting seat 123, so that on one hand, the machine frame 10 can be fully utilized, the space utilization rate of the machine frame 10 is improved, and meanwhile, the occurrence of cutting and touching among mechanisms generated due to excessively compact structure on the machine frame 10 can be avoided, and the fault tolerance rate of the dish frying machine 100 is improved.

The cooking mechanism 30 may further comprise a first driving structure (not shown) and a first connecting member 32, the first connecting member 32 connecting the first driving structure and the cooking container 31. The first driving structure is fixed on the first supporting seat 121 (i.e. the frame 10) and can drive the cooking container 31 to rotate through the first connecting piece 32, so as to realize the processes of automatically discharging food materials from the cooking container 31, automatically dumping waste liquid or automatically transferring food materials to the filtrate container 42. Taking the automatic transfer of food materials to the filtrate container 42 as an example, when the filtrate container 42 is located at the first position, the first driving structure can drive the cooking container 31 to rotate and make the opening plane of the cooking container 31 intersect with the plane of the filtrate container 42, so that the food materials in the cooking container 31 can be automatically poured into the filtrate container 42. In this embodiment, the first driving structure may be a rotary cylinder, and the rotary cylinder may drive the cooking container 31 to rotate within a certain angle range. In other embodiments, the first driving structure may be a power structure such as a rotating motor 7314, which is not illustrated herein.

The cooking mechanism 30 further comprises a heating structure 33, the heating structure 33 being fixed to the frame 10 and being located between the cooking vessel 31 and the frame 10. Specifically, the heating structure 33 is accommodated in the accommodating space 120 and fixed on the first support plate 111, and the cooking container 31 abuts against the heating structure 33 and can rotate relative to the heating structure 33. Alternatively, the heating structure 33 may be a gas burner, an electromagnetic heating burner or a microcrystalline heating plate, which is not particularly limited herein.

In other embodiments, the heating structure 33 may be fixedly connected with the cooking container 31, and the heating structure 33 is fixed to the outer surface of the cooking container 31, so that the heating structure 33 can rotate synchronously with the cooking container 31.

The transfer mechanism 40 may further include a second driving structure (not shown) fixed on the frame 10 (specifically, located on the first support 121) and capable of driving the filtrate container 42 to move by the movable arm 41, so that the filtrate container 42 can move from the first position to the second position. When the filtrate container 42 is in the first position, the filtrate container 42 communicates with the recovery mechanism 20 to allow oil or water separated by the filtrate container 42 to enter the recovery mechanism 20; when the filtrate receptacle 42 is in the second position, at least part of the filtrate receptacle 42 is projected into the cooking receptacle 31, so that the food material in the filtrate receptacle 42 enters the cooking receptacle 31 again, achieving a returnable of the food material.

Of course, the filtrate container 42 can also be moved from the first position to the third position under the drive of the second driving structure, and when the filtrate container 42 is located in the third position, the filtrate container 42 is far away from the cooking container 31 and the recycling mechanism 20 at the same time. In other words, the third position is located on the side of the first position remote from the second position, i.e. the first position is located between the second position and the third position. Wherein, the filtrate container 42 is located at the third position, which can prevent the cooking container 31 from automatically discharging food materials from the pot to the filtrate container 42 after the cooking is completed when the filtrate container 42 is located at the first position, or the cooking container 31 pours waste liquid cleaned by the pot body into the filtrate container 42, and can avoid the influence of the rotation of the cooking container 31 when the filtrate container 42 is located at the second position, so that the transfer mechanism 40 does not influence the normal use of other mechanisms even if not working.

The recovery mechanism 20 may include a first recovery assembly 21 and a second recovery assembly 22 that are co-existing and independent of each other, wherein the first recovery assembly 21 may be used to recover oil separated by the filtrate vessel 42 and the second recovery assembly 22 may be used to recover waste liquid in the cooking vessel 31 or water filtered by the filtrate vessel 42. The first recovery assembly 21 includes a collection tray 211 pivotally mounted to the first support base 121, and the second recovery assembly 22 includes a recovery groove 221 provided to the first support plate. When the filtrate container 42 is in the first position, at least a partial projection of the filtrate container 42 is located in the recovery tank 221. Wherein the collection tray 211 can be pivoted into projection within the recovery tank 221 to allow separated oil or other liquid from the filtrate container 42 to flow into the first recovery assembly 21 via the collection tray 211. Or the collection tray 211 can be pivoted to be offset from the recovery tank so that oil or other liquid separated from the filtrate container 42 can flow directly through the recovery tank 221 into the second recovery assembly 22.

Referring to fig. 5, fig. 5 is a perspective view of a first recovery assembly in the recovery mechanism of the cooking machine shown in fig. 1. Specifically, the first recovery assembly 21 may further include a first conduit 212 and a first recovery tank 213, wherein the collection tray 211 may be pivotally connected to the first support base 121, specifically, the collection tray 211 may be pivoted to be parallel to the first support plate 111 (i.e., parallel to the first support plate 111), the filtrate container 42 may be in communication with the collection tray 211 when the filtrate container 42 is in the first position, and oil separated from the filtrate container 42 may be collected into the first recovery tank 213 through the collection tray 211; or the collecting tray 211 can also pivot to be perpendicular to the first supporting plate 111, so that the collecting tray 211 can be attached to the surface of the first supporting seat 121 facing the third supporting seat 123, and folding of the collecting tray 211 is achieved, so that other mechanisms can be avoided when oil is not recovered, and the structure among the mechanisms on the cooking machine 100 is compact. It will be appreciated that the first recovery assembly 21 may be used to recover oil because the recovery tank 221 is not frequently used by the collection tray 211.

Optionally, the first recovery assembly 21 may further include a second conduit 24, where one end of the second conduit 24 is in communication with the first recovery tank 213 and is used for extracting oil from the first recovery tank 213, and the other end is in communication with the cooking container 31, for injecting oil into the cooking container 31, so as to realize recycling of the oil. By the design, on one hand, the cooking machine 100 can be added with the transfer mechanism 40, so that the secondary cooking of food materials is facilitated, and on the other hand, the oil can be utilized repeatedly, and the waste of the oil is avoided. It will be appreciated that the oil is the oil used for frying the food material, and typically, the oil is recycled two to three times to avoid harm to human health.

With continued reference to fig. 1-4, the second recovery assembly 22 may further include a second recovery tank (not shown) in communication with the recovery tank 221. The recovery tank 221 is provided on the frame 10 (the first support plate 111 of the table 11), and the second recovery tank is accommodated in the accommodation chamber. When the filtrate container 42 is located at the first position and the collecting tray 211 is perpendicular to the first support plate 111, the filtrate container 42 communicates with the recovery tank 221, so that water separated from the filtrate container 42 or waste liquid in the cooking container 31 can directly enter the second recovery tank through the recovery tank 221.

In this embodiment, the second recycling assembly 22 may further include a filtering structure (not shown) detachably fixed in the recycling slot 221, so as to prevent the waste liquid and residues in the cooking container 31 from blocking the recycling slot 221 and affecting the normal recycling function of the recycling slot 221.

Optionally, the surface of the first support base 121 facing the third support base 123 may be provided with a receiving groove 1211, and the collecting tray 211 may be pivoted and received in the receiving groove 1211, so that the collecting tray 211 is perpendicular to the first support plate 111 and is received in the first support base 121, so that, on one hand, the filtrate container 42 is not communicated with the collecting tray 211, and on the other hand, the collecting tray 211 and the first support base 121 are compact in structure and space above the workbench 11 is saved. The collecting tray 211 can also be pivoted and accommodated in the recovery groove 221, so that the collecting tray 211 is parallel to the first support plate 111, on one hand, the first recovery mechanism 20 and the second recovery mechanism 20 can only select one of them, and on the other hand, the surface space of the workbench 11 can be saved, and the structure of the workbench 11 can be compact.

It will be appreciated that when the collection tray 211 is parallel to the first support plate 111, the collection tray 211 at least partially coincides with the recovery groove 221 and is capable of covering the recovery groove 221, and when the filtrate container 42 is in the first position, the separated oil from the filtrate container 42 falls only into the collection tray 211 to effect recovery of the oil. When the collection tray 211 is perpendicular to the first support plate 111, the collection tray 211 is away from the recovery tank 221, and when the filtrate container 42 is located at the first position, water separated from the filtrate container 42 may directly fall into the recovery tank 221 to achieve collection of water. Meanwhile, when the filtrate container 42 is located at the third position, the waste liquid generated from the cooking container 31 may be directly recovered into the second recovery tank through the recovery tank 221. By the design, oil and water can be separated and are not affected.

In other embodiments, the recycling mechanism 20 may only include the first recycling component 21, where the first recycling component includes a collecting tray 211, a first recycling bin 212, and a first conduit 213 for connecting the collecting tray 211 and the first recycling bin 212, and the first recycling bin 212 is accommodated in the accommodating cavity of the rack 10, and the collecting tray 211 is pivotally connected to the rack 10.

Alternatively, the collecting tray 211 may be pivoted to be parallel to the first support plate 111 or to be perpendicular to the first support plate 111, the filtrate receptacle 42 being in communication with the collecting tray 211 when the filtrate receptacle 42 is in the first position and the collecting tray 211 is parallel to the first support plate 111.

In yet another embodiment, the recycling mechanism 20 may include only the second recycling component 22, and the second recycling component 22 may include a recycling tank 221 disposed on the rack 10 and a second recycling tank 222 communicating with the recycling tank 221, where the second recycling tank 222 is accommodated in the accommodating cavity of the rack 10. Alternatively, when the filtrate container 42 is in the first position, the filtrate container 42 communicates with the recovery tank 221.

Referring to fig. 3, further, the working table 11 may include a first working area 1001 and a second working area 1002 that are disposed in contact, the accommodating space 120 is located in the first working area 1001, that is, the cooking container 31 of the cooking mechanism 30 is located in the first working area 1001, and the recovery tank 221 and the collecting tray 211 are disposed in the second working area 1002. By the arrangement, the space of the workbench 11 can be fully utilized, so that each mechanism on the workbench 11 is compact in structure, and each mechanism can be mutually independent and matched with each other, and further each mechanism of the cooking machine 100 works orderly.

The cooker 100 further includes a dish plate mechanism 50 pivotally connected to the third support 123, wherein the dish plate mechanism 50 can be located at the second working area 1002 or away from the second working area 1002, and the dish plate mechanism 50 can receive food material poured from the cooking container 31 when the dish plate mechanism 50 is pivoted to the second working area 1002. As can be appreciated, when the tray 52 is pivoted to the second work area 1002, the catch tray 211 is perpendicular to the first support panel 111 to clear the tray mechanism 50; the dinner plate mechanism 50 is located at a position right above the recovery groove 221 and is used for receiving food materials poured by the cooking container 31, and meanwhile, the recovery groove 221 can collect the food materials scattered outside the dinner plate mechanism 50 by the cooking container 31, so that the food materials are prevented from being scattered on the workbench 11.

Optionally, the dish mechanism 50 includes a dish drive structure (not shown) secured to the rack 10, a dish connector 51, and a dish 52. The dinner plate connecting piece 51 is fixedly connected with the dinner plate driving structure and moves under the driving of the dinner plate driving structure; the dinner plate 52 is clamped and fixed at one end of the dinner plate connecting piece 51 far away from the dinner plate driving structure, so that on one hand, the connection stability between the dinner plate 52 and the dinner plate connecting piece 51 is ensured, and on the other hand, the dinner plate 52 and the dinner plate connecting piece 51 are convenient to detach.

Referring to fig. 2, a scraping mechanism 60 is rotatably coupled to the frame 10 for cleaning the cooking container 31, preventing residues on the inner surface of the cooking container 31. The scraping mechanism 60 comprises a third driving structure 61, a scraping member 62 and a third connecting member 63 connecting the third driving structure 61 and the scraping member 62. The third driving structure 61 is fixed on the frame 10, one end of the scraping member 62 is rotatably connected to the third connecting member 63 and abuts against the inner surface of the cooking container 31, and the scraping member 62 is driven by the third connecting member 63 to approach or separate from the cooking container 31. Specifically, the third driving structure 61 is fixed to a surface of the first support base 121 facing the third support base 123, and the pot scraping member 62 is circular arc-shaped and corresponds to a cross-sectional shape of the cooking container 31, so that the pot scraping member 62 can be attached to an inner surface of the cooking container 31 and clean a surface of the cooking container 31. The scraping member 62 is rotatably connected to the third connecting member 63 for adapting the scraping member 62 to the surface of the cooking container 31, preventing the scraping member 62 from scraping the inner surface of the cooking container 31.

Referring to fig. 6 and 7, fig. 6 is a schematic perspective view of a dish feeding mechanism in the cooker shown in fig. 1, and fig. 7 is an exploded schematic view of the dish feeding mechanism shown in fig. 6. The dish feeding mechanism 70 may include a rotation assembly 71, a dish feeding assembly 72, a drive assembly 73, and a vibration assembly 74. Wherein the rotating assembly 71 is fixed on the surface of the support base 12 facing away from the table 11, and the dish feeding assembly 72 is fixed on the rotating assembly 71 and disposed corresponding to the surface of the support base 12 facing away from the table 11. The dish feeding assembly 72 can be driven by the rotating assembly 71 to approach or depart from the cooking mechanism 30. The driving assembly 73 is fixed to the dish feeding assembly 72 and is used for pushing the dish feeding assembly 72 to push food materials contained in the dish feeding assembly 72 into the cooking container 31. The vibration assembly 74 is fixed on the dish feeding assembly 72, and is used for driving the dish feeding assembly 72 to vibrate, so that the food material contained in the dish feeding assembly 72 falls into the cooking container 31 thoroughly.

The rotation assembly 71 may include a support frame 711 and a fourth driving structure 712, the support frame 711 being pivoted to the second support base 122. The fourth driving structure 712 is fixedly connected with the supporting frame 711 and can drive the supporting frame 711 to approach or depart from the cooking container 31, so that the dish feeding assembly 72 fixed on the rotating assembly 71 can accurately feed the food materials in the dish feeding assembly 72 into the cooking container 31. In this embodiment, the fourth driving structure 712 may be a rotary cylinder, for driving the supporting frame 711 to rotate within a certain angle. In other embodiments, the fourth driving structure 712 may also be a motor 7314, etc., without specific limitation.

In this embodiment, the rotating assembly 71 may further include fixing bases 713 disposed opposite to each other at intervals, wherein the two fixing bases 713 are fixed to a surface of the second supporting base 122 facing away from the table 11. The support frame 711 includes a rotation shaft 7111 and a matching plate 7112 fixedly connected with the rotation shaft 7111, and two ends of the rotation shaft 7111 are arranged on the two fixing seats 713 in a penetrating manner, so that the support frame 711 can rotate relative to the fixing seats 713 and the workbench 11 by taking the rotation shaft 7111 as a center, that is, the support frame 711 is rotationally connected with the support seat 12. The fourth driving structure 712 is fixedly connected with one end of the rotating shaft 7111, and can drive the rotating shaft 7111 to rotate, so as to drive the matching plate 7112 to rotate, so that the matching plate 7112 is parallel to the surface of the supporting seat 12, which is away from the workbench 11, or the matching plate 7112 and the surface of the supporting seat 12, which is away from the workbench 11, form an included angle, that is, when the matching plate 7112 and the surface of the supporting seat 12, which is away from the workbench 11, are parallel, the dish feeding assembly 72 is in an initial position; when the matching plate 7112 and the surface of the supporting seat 12, which is away from the workbench 11, are arranged at an included angle, that is, when the dish throwing component 72 faces the cooking mechanism 30, the dish throwing device is positioned at a dish throwing position.

In yet another embodiment, the fourth driving structure 712 of the rotating assembly 71 is fixedly connected to the second supporting seat 122, and the supporting frame 711 is fixedly connected to the rotating shaft of the fourth driving structure 712. The second supporting frame 711 can rotate around the rotation axis of the fourth driving structure 712. Specifically, the support frame 711 is located within the range of the support base 12, and the dish feeding assembly 72 is located at an initial position; the support 711 is at least partially projected within the range of the cooking mechanism 30, and the dish feeding assembly 72 is located at the dish feeding position.

The feeding assembly 72 may include a tray 721 and a box 722, wherein the tray 721 and the box 722 enclose a receiving space (not shown) for receiving food materials, and the tray 721 is located on a mating plate 7112 fixed to a supporting frame 711. The tray 721 has a slide groove 7210, and the case 722 is accommodated in the slide groove 7210 and is slidable along the slide groove 7210. The tray 721 has a first opening 7213 at the bottom of the chute 7210, and the case 722 has a second opening (not shown) at one side toward the bottom of the chute 7210, and when the first opening 7213 coincides with the second opening, the food material in the housing can sequentially pass through the second opening and the first opening 7213 and be put into the cooking container 31.

Specifically, the tray 721 may include a bottom plate 7211 and a side edge 7212 extending from an edge of the bottom plate 7211, the bottom plate 7211 and the side edge 7212 may enclose an oblong chute 7210, and the first opening 7213 is disposed on the bottom plate 7211. The box 722 includes a top plate 7221 and a positioning plate 7222 disposed opposite to each other at a distance, and a side plate 7223 connecting the top plate 7221 and the positioning plate 7222, wherein the area of the top plate 7221 is smaller than the area of the positioning plate 7222 and is located within the range of the positioning plate 7222, and the top plate 7221 and the connecting plate 113 enclose a housing cavity (not shown) for housing food. The second opening is disposed on the baffle and the shape of the second opening may correspond to the first opening 7213, so that the second opening can completely coincide with the first opening 7213, and further the food in the receiving cavity can be completely put into the cooking container 31.

Alternatively, the bottom plate 7211 is rectangular and the detent plate 7222 is rectangular, wherein the length of the bottom plate 7211 is substantially greater than the length of the detent plate 7222 and the width of the bottom plate 7211 is equal to the width of the detent plate 7222, so that the detent plate 7222 can slide in the chute 7210 under the guidance of the side edge 7212 without sliding out of the first opening 7213.

Alternatively, the number of cartridges 722 in the serving assembly 72 may be at least one, and specifically, the number of cartridges 722 may be two or three. Taking three boxes 722 as an example, the three boxes 722 may be arranged side by side and may be connected and fixed by a clamping plate 7222. The size of the receiving cavities of the three cases may be the same or different, and is not particularly limited herein. The feeding sequence of the food materials in the three box bodies is determined by the arrangement sequence of the three box bodies, for example, the three box bodies can be a first box body, a second box body and a third box body which are arranged side by side in sequence respectively, and the food materials in the first box body are fed first, so that the feeding sequence of the food materials in the three box bodies is the first box body, the second box body and the third box body. By means of the arrangement, the food materials can be added into the cooking machine 100 in different time periods or the same food materials can be added into the cooking machine through the position sensor or the movement distance of the control shell, and therefore the taste and the flavor of each food material are guaranteed.

The drive assembly 73 includes a fifth drive structure 731 and a pushrod 732 secured to the fifth drive structure 731. The push rod 732 is abutted against one end of the box body 722, and the box body 722 can slide along the sliding groove 7210 under the drive of the fifth driving structure 731, so that the second openings of the box bodies 722 can be sequentially overlapped with the first openings 7213 of the sliding groove 7210, and further, the food materials can be sequentially put in the cooking container 31. That is, the driving assembly 73 is used to slide the box 722 and the tray 721 relatively to open the box 722, so that the food material in the box 722 can be put into the cooking container 31.

In this embodiment, the fifth driving structure 731 may include a driving wheel 7311, a driven wheel 7312, a driving belt 7313, a motor 7314, a guide rail 7315 and a slider 7316, wherein the driving wheel 7311 and the driven wheel 7312 are respectively fixed on the supporting frame 711 and rotatably connected to the supporting frame 711. The driving belt 7313 is sleeved on the driving wheel 7311 and the driven wheel 7312, so that the driving belt 7313 can drive on the driving wheel 7311 and the driven wheel 7312, wherein the driving direction of the driving belt 7313 is parallel to the length direction of the sliding groove 7210. The motor 7314 is fixed on the supporting frame 711 and fixedly connected to a rotating shaft of the driving wheel 7311, for driving the driving wheel 7311 to rotate. The guide rail 7315 is fixed on the support frame 711 and is arranged in parallel with the conveyor belt at a distance, one end of the slider 7316 is fixedly connected with the conveyor belt, the other end of the slider 7316 is in sliding connection with the guide rail 7315, the conveyor belt 7313 is used for driving the slider 7316 to reciprocate on the guide rail 7315, and the guide rail 7315 is used for restraining the sliding direction of the slider 7316 and enabling the slider 7316 to slide stably. The push rod 732 is fixed on the slider 7316, and drives the box 722 to slide in the chute 7210 under the driving of the slider 7316.

In other embodiments, the fifth driving structure 731 may also be a telescopic cylinder, and the fifth driving structure may be directly fixed to the tray 721. The towing bar can be directly and fixedly connected with the piston rod of the fifth driving structure 731 and driven by the piston rod to reciprocate.

The vibration assembly 74 is fixed on a surface of the tray 721 facing away from the box 722, and is used for driving the tray 721 and the box 722 to vibrate, so that the food in the box 722 can be completely separated from the box 722. Specifically, the vibration assembly 74 may include a vibration motor 741, where the vibration motor 741 is located in a middle position of the bottom plate 7211 facing away from the surface of the box body 722, that is, in a center of gravity position of the box support 721, so that the box support 721 uniformly vibrates under the driving of the entire motor 7314.

Further, the vibration assembly 74 further includes at least one buffer member 742, wherein two ends of the buffer member 742 are respectively connected to the tray 721 and the supporting frame 711, and the buffer member 742 can enable the tray 721 to be within a reasonable vibration range, so as to prevent the tray 721 from being excessively vibrated to disengage the box 722 from the chute 7210. In the present embodiment, the number of the buffer members 742 is two and are respectively located at two sides of the vibration motor 741, so that the tray 721 is always in a balanced state, and the vibration stability of the tray 721 is improved.

The vibration assembly 74 may also include a housing 743, the housing 743 being secured to the support frame 711. The packing case 743 is used to house and protect the vibration motor 741 and prevent dust and oil from entering the vibration motor 741 to improve the life of the vibration motor 741.

Referring to fig. 1 and 2, the positioning mechanism 80 includes a supporting arm 81 and a connecting arm 82 rotatably connected to the supporting arm 81, wherein the supporting arm 81 is disposed on the second supporting seat 122, so that, on one hand, the space of the workbench 11 can be fully utilized, and on the other hand, the stirring mechanism 90 fixed on the connecting arm 82 corresponds to the cooking container 31, so that the stirring mechanism 90 is convenient to cooperate with the cooking container 31. One end of the connecting arm 82 far away from the supporting arm 81 can be close to or far away from the cooking container 31, and then the stirring mechanism 90 is driven to be close to or far away from the cooking container 31, so that the stirring mechanism 90 is prevented from affecting automatic pot discharging of food materials in the cooking mechanism 30. It will be appreciated that the second conduit 24 is remote from the end of the first recovery tank 213. The end of the feed pipe far away from the seasoning box is internally provided with a connecting arm 82 and is driven by the connecting arm 82 to face or be far away from the cooking container 31 so as to be convenient for injecting oil, liquid seasoning and water into the cooking container 31.

Referring to fig. 8, fig. 8 is a schematic perspective view of a stirring mechanism in the cooker shown in fig. 1. Specifically, the stirring mechanism 90 includes a sixth driving structure (not shown), a fixed disc 91, a fixed shaft 92, a scraping assembly 93 and a stirring assembly 94, where the sixth driving structure is connected to an end of the connecting arm 82 away from the supporting arm 81, and the sixth driving structure is fixedly connected to the fixed disc 91 through the fixed shaft 92, so as to drive the fixed disc 91 to rotate. One end of the fixed shaft 92 is coaxially arranged with the fixed disc 91 and fixedly connected, and the other end is connected with the sixth driving structure, so that the fixed disc 91 can synchronously rotate along with the fixed shaft 92 under the driving of the sixth driving assembly 73. The scraping edge assembly 93 is fixedly connected to the surface of the fixed plate 91 facing away from the fixed shaft 92 and rotates synchronously around the fixed shaft 92. The stirring assembly 94 is located on the surface of the fixed plate 91, which is away from the fixed shaft 92, and one end of the stirring assembly 94 is rotationally connected with the fixed plate 91, so that the stirring assembly 94 and the scraping assembly 93 are not mutually affected, on one hand, the stirring assembly 94 rotates synchronously around the fixed shaft 92, on the other hand, the stirring assembly 94 can rotate, and the stirring assembly 94 can stir food.

Optionally, the scraping assembly 93 includes a first telescopic rod 931 and a scraping element 932, one end of the first telescopic rod 931 is fixedly connected with the fixed disk 91, and one end of the first telescopic rod 931 remote from the fixed disk 91 is rotatably connected with the scraping element 932. The first telescopic rod 931 is connected with the scraping piece 932, and the first telescopic rod 931 can elastically stretch and retract, so that the scraping piece 932 can be always abutted against the cooking container 31; in addition, the scraping element 932 is rotatably connected to the first telescopic rod 931, so that the scraping element 932 is fully engaged with the surface of the cooking container 31, and the efficiency of the scraping element 932 is improved.

The stirring assembly 94 includes a second telescopic rod 941 and a stirring member 942, wherein one end of the second telescopic rod 941 is inserted into the fixed disk 91 and is rotationally connected with the fixed disk 91, and one end of the second telescopic rod 941 away from the fixed disk 91 is rotationally connected with the stirring member 942. The second telescopic rod 941 is connected to the stirring member 942, and the second telescopic rod 941 can elastically expand and contract, so that the stirring member 942 can be always abutted against the cooking container 31; in addition, the stirring member 942 is rotatably connected to the second telescopic rod 941, so that the stirring member 942 is fully engaged with the surface of the cooking container 31, and the efficiency of the stirring member 942 is improved.

In this embodiment, the stirring member 942 may include a stirring plate 9421, and a first stirring member 9422 and a second stirring member 9423 rotatably connected to both ends of the stirring plate 9421, respectively. The stirring plate 9421 is substantially "U" shaped such that the first stirring member 9422 and the second stirring member 9423 are located substantially on the same side of the stirring plate 9421, on the one hand, such that the first stirring member 9422 and the second stirring member 9423 can simultaneously contact the cooking container 31 for improving the stirring efficiency of the stirring member 942, and on the other hand, such that the first stirring member 9422 and the second stirring member 9423 can be abutted against the inner surface of the cooking container 31, such that the first stirring member 9422 and the second stirring member 9423 are sufficiently contacted with the food material in the cooking container 31. One side of the stirring plate 9421 far away from the first stirring member 9422 and the second stirring member 9423 is rotatably connected with the second telescopic rod 941, so that the stirring member 942 can adapt to stirring of different positions of the cooking container 31, and scratch of the cooking container 31 by the stirring member 942 is reduced.

It will be appreciated that the second telescoping rod 941 is threaded into the fixed disk 91 such that the position of the second telescoping rod 941 relative to the first telescoping rod 931 remains unchanged. The second telescopic rod 941 is rotatably connected to the fixed disk 91, that is, the second telescopic rod 941 can rotate relative to the fixed disk 91, in other words, the first telescopic rod 931 and the second telescopic rod 941 can revolve around the fixed shaft 92, and the second telescopic rod 941 can rotate around the central axis of the second telescopic rod 941, so that the second telescopic rod 941 and the first telescopic rod 931 have different rotation speeds. By this arrangement, the stirring efficiency of the stirring unit 94 can be ensured, and the food materials in the cooking container 31 can be prevented from being accumulated on the side of the scraper 932.

The stirring mechanism 90 may further include a stirring auxiliary assembly 95, where the stirring auxiliary assembly 95 is located between the scraping element 932 and the stirring element 942, and is used for filling a gap between the scraping element 932 and the stirring element 942, so that vegetables are sufficiently stirred between the stirring element 942 and the stirring auxiliary assembly 95, and further, the stirring efficiency of the food is improved, the food is prevented from being accumulated between the scraping element 932 and the stirring element 942, and the phenomenon that part of the food is not completely cooked is avoided.

Referring to fig. 9, fig. 9 is a schematic perspective view of an auxiliary stirring assembly in the stirring mechanism shown in fig. 8. Optionally, the stirring auxiliary assembly 95 includes a connection structure 951 and an auxiliary structure 952, wherein one end of the connection structure 951 is slidably connected to the first telescopic rod 931 and/or the second telescopic rod 941, and the other end is fixedly connected to the auxiliary structure 952, such that the auxiliary structure 952 is located between the scraper 932 and the stirring element 942. Because the connection structure 951 is fixed on the first telescopic rod 931 and/or the second telescopic rod 941, the auxiliary structure 952 is fully contacted with the bottom of the cooking container 31, so that the stirring piece 942 and the scraping piece 932 are fully isolated, the auxiliary structure 952 is prevented from scraping the cooking container 31, and the service life of the cooking container 31 is reduced.

Further, the connection structure 951 is adjustable in position at the first telescoping bar 931 and/or the second telescoping bar 941. Specifically, the connection structure 951 may include a fixing portion 9511, a connecting portion 9512, and a positioning portion 9513, where the fixing portion 9511 and the positioning portion 9513 are located at two ends of the connecting portion 9512, respectively. Wherein, the fixing portion 9511 is fixedly connected to the first telescopic rod 931 and/or the second telescopic rod 941, and the positioning portion 9513 is fixedly connected to the auxiliary structure 952.

The fixing portion 9511 may be provided with a fixing hole 9514, where the fixing hole 9514 is sleeved on the first telescopic rod 931 and/or the second telescopic rod 941, so that the fixing portion 9511 is fixedly connected with the first telescopic rod 931 and/or the second telescopic rod 941, and the fixing portion 9511 always moves along the axial direction of the first telescopic rod 931 and/or the second telescopic rod 941, thereby preventing the auxiliary structure 952 fixed on the fixing portion 9511 from deflecting in angle.

The connection portion 9512 is provided with a plurality of lightening holes 9515 for lightening the weight of the connection structure 951. Moreover, the shape of the connection portion 9512 can be correspondingly adjusted according to the positions and shapes of the first telescopic rod 931 and the second telescopic rod 941, so as to avoid the connection portion 9512 from affecting the normal operation of the stirring assembly 94 and the auxiliary assembly.

The positioning portion 9513 may be provided with a set of first positioning holes 9516, the auxiliary structure 952 is provided with a plurality of sets of second positioning holes 9520, any set of second positioning holes 9520 on the auxiliary structure 952 corresponds to the first positioning holes 9516, and the auxiliary structure 952 and the fixing portion 9511 can be connected and fixed in a position-adjustable manner through a fixing member, such as a screw.

Alternatively, the auxiliary structure 952 may include a mounting plate 9521 and an auxiliary plate 9522 fixed to the mounting plate 9521. The second fixing holes 9514 are formed on the mounting plate 9521, and the auxiliary structure 952 is fixedly connected with the connecting structure 951 through the mounting plate 9521. Specifically, mounting plate 9521 may include a first mounting plate 9521a and a second mounting plate 9521b that perpendicularly intersect. The first mounting plate 9521a is attached to the surface of the positioning portion 9513, the second fixing hole 9514 is fixed to the first mounting plate 9521a, and the first mounting plate 9521a passes through the corresponding first positioning hole 9516 and second positioning hole 9520 by a fixing member, so that the first mounting plate 9521a and the fixing portion 9511 are reliably connected. The second mounting plate 9521b is attached to the auxiliary plate 9522, a first mounting hole (not shown) is formed in the second mounting plate 9521b, a second mounting hole 9523 corresponding to the first mounting hole is formed in the auxiliary plate 9522, and a fixing member such as a screw passes through the corresponding first mounting hole and the second mounting hole 9523 to reliably connect the auxiliary plate 9522 to the second mounting plate 9521b.

Further, the auxiliary plate 9522 may be made of high temperature resistant silica gel. The auxiliary plate 9522 can block food materials, limit the moving range of the food materials, improve the breaking efficiency of the food materials, buffer the acting force of the stirring piece 942, and prevent the food materials from flying out of the cooking container 31. In this embodiment, the auxiliary plate 9522 has a comb-like structure, so that the auxiliary plate 9522 has better flexibility. In other embodiments, the auxiliary plate 9522 may also be in the form of a flat plate, and is not particularly limited herein.

The stirring mechanism 90 may further include a first bevel gear 96 and a second bevel gear 97. The first bevel gear 96 is sleeved on the fixed shaft 92 and can rotate relative to the fixed shaft 92, and the first bevel gear 96 is fixedly connected with the connecting arm 82. The second bevel gear 97 is located at one side of the fixing plate setting fixing shaft 92 and fixed on the second telescopic rod 941, and the second bevel gear 97 is meshed with the first bevel gear 96 and can rotate around the first bevel gear 96 under the driving of the fixing plate 91.

Specifically, the sixth driving structure can drive the fixed shaft 92 to rotate, and further drive the fixed disk 91 and the first and second telescopic rods 931 and 941 fixed on the fixed disk 91 to revolve. Because the first bevel gear 96 is fixedly connected with the connecting arm 82, and the first bevel gear 96 can rotate relative to the fixed shaft 92, when the fixed shaft 92 rotates, the second bevel gear 97 fixed on the second telescopic rod 941 moves relative to the first bevel gear 96 fixed on the connecting arm 82, so that the second telescopic rod 941 can rotate around itself. By this arrangement, the rotation of the second telescopic rod 941 can be achieved without adding a driving device, and the structure of the stirring mechanism 90 is greatly simplified. It will be appreciated that adjustment of the rotational speed of the second telescopic rod 941 may be achieved by adjusting the transmission ratio between the first bevel gear 96 and the second bevel gear 97.

In other embodiments, the second telescopic rod 941 may be directly fixedly connected to the driving device and may rotate around itself under the action of the driving device.

Referring to fig. 3 and 10, fig. 10 is a schematic perspective view of a seasoning supplying mechanism in the cooker shown in fig. 1. The cooker 100 further includes a seasoning supply mechanism 200 that includes a seasoning box 201 and a feed tube 202 in communication with the seasoning box 201. The seasoning box is accommodated in the frame 10 and is used for accommodating liquid seasoning, oil, water, etc., and the feed pipe 202 is used for conveying the liquid seasoning into the cooking container 31 without being particularly limited thereto. Specifically, the connecting arm 82 is provided with a liquid outlet 821, and an end of the feeding pipe 202 away from the seasoning box is communicated with the liquid outlet 821, so that the liquid in the seasoning box 201 can be conveyed into the cooking container 31. It will be appreciated that the feed tube 202 extends through the housing 10, the support arm 81 and the connecting arm 82 and communicates with the outlet 821 to provide an aesthetic appearance to the cooker 100.

In operation, the flavoring supply mechanism 200 and the dish feeding mechanism 70 can sequentially feed oil into the cooking container 31, and the stirring assembly 94 stirs the food in the pan body to realize the first processing of the food. The filtrate container 42 of the relay mechanism 40 moves from the third position to the first position and the collecting tray 211 pivots to be parallel to the first support plate 111, the cooking container 31 is turned over under the drive of the first driving structure and the food materials in the cooking container 31 are transferred into the filtrate container 42, and the filtrate container 42 separates the oil materials in the food materials into the collecting tray 211 and gathers into the collecting tray 211. Then, the filtrate container 42 of the relay mechanism 40 is moved from the first position to the second position, and the filtered food material is put into the cooking container 31, so as to realize the returning of the food material, and it can be understood that the filtrate container 42 is moved from the second position to the third position and the collecting tray 211 is pivoted to be perpendicular to the first support plate 111 after the food material is put. After the food is processed, the dinner plate mechanism 50 moves to the second working area 1002 and receives the food in the cooking container 31, and after receiving, the dinner plate 52 is far away from the second working area 1002 so as to be convenient for a user to take. Then, water is injected into the cooking container 31 to finish the cleaning of the cooking container 31. The waste liquid from washing the cooking container 31 is directly collected into the second recovery tank through the recovery tank 221.

According to the cooking machine 100 provided by the embodiment of the application, through the arrangement of the transfer mechanism 40, the filtrate container 42 in the transfer mechanism 40 can move from the first position to the second position, so that the cooking container 31 can be fried and quick-fried, and meanwhile, the cooking machine can realize the return of food materials by both frying and quick-frying; and the filtrate container 42 can separate the oil and water in the food material, and can ensure the return effect. In addition, the recovery mechanism 20 enables separate collection of oil and water so that the oil can be recovered for use.

The foregoing description is only a partial embodiment of the present application, and is not intended to limit the scope of the present application, and all equivalent devices or equivalent process transformations made by using the descriptions and the drawings of the present application, or direct or indirect application to other related technical fields, are included in the patent protection scope of the present application.

Claims (15)

1. A cooker for cooking food material, comprising:

the device comprises a rack, wherein a recovery mechanism is arranged on the rack;

the transfer mechanism comprises a movable arm and a filtrate container connected with the movable arm, the movable arm is rotatably connected to the frame, and the filtrate container can move from a first position to a second position; and

The cooking mechanism is connected to the rack and comprises a cooking container which can rotate relative to the rack;

wherein when the filtrate container is in the first position, the filtrate container is in communication with the recovery mechanism; when the filtrate container is in the second position, at least a partial projection of the filtrate container is located in the cooking container.

2. A cooker as claimed in claim 1, wherein the recovery mechanism includes a first recovery assembly including a collection tray pivotally mounted to the frame and a second recovery assembly including a recovery tank provided on the frame; when the filtrate container is in the first position, at least part of the projection of the filtrate container is positioned in the recovery tank, and the collection disc can pivot to the projection to be positioned in the recovery tank or staggered with the recovery tank.

3. A cooker according to claim 2, wherein the frame comprises a first support plate on which the recovery tank is located, the collection tray being pivotable either parallel to the first support plate or perpendicular to the first support plate; when the filtrate receptacle is in the first position and the collection tray is parallel to the first support plate, the filtrate receptacle is in communication with the collection tray; when the filtrate receptacle is in the first position and the collection tray is perpendicular to the first support plate, the filtrate receptacle is in communication with the recovery tank.

4. A cooking machine according to claim 2 or 3, wherein the frame comprises a workbench and a supporting seat fixed on the workbench, a containing groove is formed in the supporting seat, and the collecting disc is pivotally mounted on the supporting seat and is contained in the containing groove; the collection tray is also pivotable to be received within the recovery tank.

5. A cooker as claimed in claim 3, wherein said first recovery assembly further comprises a first recovery tank in communication with said collection pan, said first recovery tank being housed in said housing; the second recovery assembly further comprises a second recovery tank communicated with the recovery tank, and the second recovery tank is accommodated in the frame.

6. A cooker as claimed in claim 2, wherein the recovery mechanism comprises a first recovery assembly comprising a collection tray and a first recovery tank in communication with the collection tray, the first recovery tank being housed in the frame, the collection tray being pivotally connected to the frame; the frame comprises a first support plate, the collecting tray is pivotable to be parallel to the first support plate or to be perpendicular to the first support plate, and the filtrate receptacle is in communication with the collecting tray when the filtrate receptacle is in the first position and the collecting tray is parallel to the first support plate.

7. A cooker as claimed in claim 2, wherein the recovery mechanism includes a second recovery assembly including a recovery tank provided on the frame and a second recovery tank in communication with the recovery tank, the second recovery tank being housed in the frame; the rack comprises a first supporting plate, and the recovery tank is positioned on the first supporting plate; when the filtrate container is in the first position and the collection tray is staggered from the recovery tank, the filtrate container is in communication with the recovery tank.

8. A cooker as claimed in claim 7, wherein the frame includes a first work area and a second work area disposed in tandem, the cooking vessel being rotatably disposed in the first work area, the recovery tank being disposed in the second work area; the dish frying machine further comprises a dinner plate mechanism which is pivotally connected to the frame, the dinner plate mechanism can rotate to the second working area or away from the second working area, and food materials poured by the cooking container can be received when the dinner plate rotates to the second working area.

9. The dish cooker as claimed in claim 8, wherein said dish plate mechanism comprises a dish plate drive structure, a dish plate connector and a dish plate, said dish plate drive structure being secured to said frame; the dinner plate connecting piece is fixedly connected with the dinner plate driving structure and moves under the driving of the dinner plate driving structure, and the dinner plate is clamped and fixed at one end, far away from the dinner plate driving structure, of the dinner plate connecting piece.

10. A machine as claimed in claim 1, wherein the mechanism further comprises a first drive structure and a first connector, the first connector connecting the first drive structure with the cooking vessel, the first drive structure being secured to the frame and being rotatable by the first connector; and a heating structure is also fixed on the frame, and the cooking container is propped against the heating structure and can move relative to the heating structure.

11. The cooker of claim 1, further comprising a pan scraping mechanism comprising a third drive structure, a pan scraping member, and a third connecting member connecting the third drive structure and the pan scraping member; the third driving structure is fixed on the frame, one end of the pot scraping piece is rotatably connected with the third driving structure and abuts against the inner surface of the cooking container, and the pot scraping piece is driven by the third connecting piece to be close to or far away from the cooking container.

12. A machine as claimed in claim 1, wherein the mechanism further comprises a dish-throwing mechanism comprising a rotating assembly, a dish-throwing assembly and a driving assembly; the rotating assembly is pivotally fixed on the frame, and the dish throwing assembly is fixed on the rotating assembly and can be driven by the rotating assembly to approach or depart from the cooking container; the dish throwing component comprises a box support and a box body which are connected in a sliding mode, and the driving component is used for enabling the box body and the box support to slide relatively so as to open the box body.

13. The cooker of claim 1, further comprising a positioning mechanism and a stirring mechanism coupled to the positioning mechanism; the positioning mechanism comprises a supporting arm and a connecting arm rotationally connected with the supporting arm, the supporting arm is arranged on the frame, and one end, far away from the supporting arm, of the connecting arm can be close to or far away from the cooking container.

14. A cooker as claimed in claim 13, wherein the stirring mechanism includes a sixth drive structure, a fixed plate, a fixed shaft, a scraping assembly and a stirring assembly; the sixth driving structure is connected to one end, far away from the supporting arm, of the connecting arm and is fixedly connected with the fixed disc through the fixed shaft; one end of the fixed shaft is coaxially arranged with the fixed disc and is fixedly connected with the fixed disc, and the other end of the fixed shaft is connected with the sixth driving structure; the scraping component is fixedly connected to the surface of the fixed disc, which is away from the fixed shaft, and synchronously rotates around the fixed shaft; the stirring assembly is located on the surface of the fixed disc, which is away from the fixed shaft, and one end of the stirring assembly is rotationally connected with the fixed disc.

15. The machine of claim 13, further comprising a seasoning supply mechanism comprising a seasoning box and a feed tube in communication with the seasoning box, the seasoning box being housed in the housing; the seasoning box is characterized in that a liquid outlet is formed in the connecting arm, the feeding pipe penetrates through the frame, the supporting arm and the connecting arm, and one end, away from the seasoning box, of the feeding pipe is communicated with the liquid outlet.

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