CN116392011A - Automatic cooking method and cooking machine for realizing same - Google Patents

Abstract

The invention relates to a cooking machine. The cooking machine comprises a machine body, a cooking mechanism, a pot cover and an oil smoke treatment mechanism, wherein a sealing area is arranged in the machine body. The machine body is provided with a plurality of discharging boxes for accommodating seasonings or water and a food material box, the food material box is rotationally arranged in the machine body and used for being driven to throw food materials into the cooking mechanism, the pot cover is arranged in the machine body and provided with a vent hole and a plurality of discharging holes, the discharging holes are respectively communicated with the discharging boxes, and the pot cover is used for covering the cooking mechanism. The oil fume treatment mechanism is arranged in the machine body, one end of the oil fume treatment mechanism is communicated with the vent hole, and the opposite other end of the oil fume treatment mechanism is arranged in the sealing area so as to be used for absorbing oil fume in the machine body and sealing the oil fume. When the cooker is used for cooking, the cooker cover is covered on the cooking mechanism, and the oil smoke generated by the cooking mechanism is transmitted to the oil smoke treatment mechanism through the vent holes so as to absorb and seal the oil smoke in the cooking mechanism, and the oil smoke cannot overflow out of the cooker body, so that the operation environment is smokeless, and the emission is more environment-friendly.

Description

Automatic cooking method and cooking machine for realizing same

Technical Field

The invention relates to the technical field of cooking equipment, in particular to a cooking machine.

Background

The automatic cooker is a new generation intelligent cooking device, a user prepares food side dishes in advance, the automatic cooker can automatically complete a cooking program, and great convenience is brought to life of people.

The cooking machine can produce a large amount of oil smoke at the in-process of cooking, however the storehouse of cooking of current cooking machine communicates in other organism inner structure of cooking machine for the oil smoke that produces when cooking gathers in the organism, easily leads to the cooking machine inner structure to receive the pollution, thereby influences the normal operating of cooking machine. In addition, the oil smoke is easy to diffuse into the indoor environment from the inside of the machine body, so that the indoor environment generates peculiar smell and is even attached to indoor household appliances or wall surfaces, the user is difficult to clean, and the use experience of the user is reduced.

Chinese patent No. CN110801146B discloses an intelligent cooker, which is provided with a first oil smoke treatment mechanism and a second oil smoke treatment mechanism, so that the oil smoke in the cooker can be effectively treated, however, the oil smoke exhaust ports of the first oil smoke treatment mechanism and the second oil smoke treatment mechanism are all arranged outside the cooker, the oil smoke in the cooker still can be diffused to the indoor environment, so that the indoor environment generates peculiar smell, and the problem that the oil smoke is easy to diffuse to the indoor environment is not solved yet.

Disclosure of Invention

The embodiment of the invention provides an automatic cooker, which aims to solve the problem that oil smoke is easy to spread indoors.

A cooker, comprising:

a body having a sealing region formed therein;

the frying mechanism is rotationally arranged in the machine body;

the machine body is provided with a plurality of discharging boxes for containing seasonings or water and a food material box, the food material box is rotationally arranged in the machine body and is used for being driven to put food materials into the cooking mechanism;

the pot cover is arranged in the machine body and provided with a vent hole and a plurality of discharge holes, the discharge holes are respectively communicated with the discharge boxes, and the pot cover is used for covering the cooking mechanism;

the oil fume treatment mechanism is arranged in the machine body, one end of the oil fume treatment mechanism is communicated with the vent hole, and the opposite other end of the oil fume treatment mechanism is arranged in the sealing area so as to be used for absorbing oil fume in the machine body and sealing the oil fume.

In one embodiment, the oil fume treatment mechanism comprises a first pipeline, a second pipeline, an oil-water mixing box and a solution separation assembly, wherein the solution separation assembly is arranged in the sealing area, one end of the first pipeline is communicated with the vent hole, the opposite other end of the first pipeline is communicated with the oil-water mixing box, one end of the second pipeline is communicated with the oil-water mixing box, and the opposite other end of the second pipeline is communicated with the solution separation assembly.

In one embodiment, the oil-water mixing box is provided with a nozzle piece, the cooker further comprises a nozzle piece, the nozzle piece is communicated with the oil-water mixing box, and the nozzle piece is used for spraying liquid into the oil-water mixing box so as to mix oil smoke with the liquid in the oil-water mixing box.

In one embodiment, the solution separation assembly comprises a solution separation tank and a solution separating agent container communicated with the solution separation tank, and one end of the second pipeline, which is far away from the oil-water mixing tank, is communicated with the solution separation tank;

the solution separation tank is provided with a solvent guide so that the solution separating agent in the solution separating agent container is sucked into the solution separation tank through the solvent guide, so that the solution in the solution separation tank is separated.

In one embodiment, a drain hole and an oil drain hole are formed in the solution separation tank, the distance from the drain hole wall to the bottom wall of the solution separation tank is set as a, the distance from the oil drain hole wall to the bottom wall of the solution separation tank is set as B, and the relationship exists: a < B.

In one embodiment, the cooker comprises a cover plate and a partition plate, wherein the cover plate is rotatably connected to the machine body and is used for covering the sealing area;

the separation plate is arranged between the cooking mechanism and the solution separation assembly, and the cover plate is used for enclosing the separation plate and the machine body to form the sealing area.

In one embodiment, the cooker comprises a first driving mechanism and a second driving mechanism, the first driving mechanism and the second driving mechanism are both arranged in the cooker body, the first driving mechanism is connected with the cooker body to drive the cooker body to rotate relative to the cooker body, and the second driving mechanism is connected with the cooker cover and is used for driving the cooker cover to move towards the direction of the cooker body to cover the cooker body.

In one embodiment, the cooking mechanism comprises a pan body, an inner container arranged on the pan body, a third driving mechanism connected with the inner container and a rotating shaft, wherein two ends of the rotating shaft are respectively and fixedly connected with the first driving mechanism and the pan body so as to drive the pan body to rotate around the axis of the rotating shaft; the third driving mechanism is positioned between the inner container and the pot body and is used for driving the inner container to rotate around the circumferential direction of the inner container.

In one embodiment, the inner container is provided with a high temperature resistant coating made of novel nano materials, so that the inner container has high temperature resistance.

An automatic cooking method applied to a cooker as claimed in any one of claims 1 to 9, comprising:

acquiring a cooking instruction, wherein the cooking instruction comprises a cooking category and a cooking time;

analyzing the cooking instruction to generate a cooking signal and an oil smoke processing signal, wherein the cooking signal comprises food material information, seasoning information and cooking information;

sending the cooking signals to a cooking mechanism;

the oil fume processing signal is sent to an oil fume processing mechanism;

detecting a cooking end signal of a cooking mechanism;

if receiving the cooking end signal sent by the cooking mechanism, generating cooking end information and displaying the information on the display end.

The dish frying machine has the following beneficial effects:

1. the cooker comprises a cooker body, a cooking mechanism, a cooker cover and an oil smoke treatment mechanism, wherein a sealing area is formed in the cooker body. The machine body is provided with a plurality of discharging boxes for accommodating seasonings or water and a food material box, the food material box is rotationally arranged in the machine body and used for being driven to throw food materials into the cooking mechanism, the pot cover is arranged in the machine body and provided with a vent hole and a plurality of discharging holes, the discharging holes are respectively communicated with the discharging boxes, and the pot cover is used for covering the cooking mechanism. When the cooker with the structure is used for cooking, food can be put into the cooking mechanism by rotating the food box, and at the moment, the cooker cover covers the cooking mechanism, and the flavoring in the material box is added into the cooking mechanism through the discharge hole on the cooker cover; after the dish frying is finished, the pot cover is driven to not cover the dish frying mechanism, and the dish frying mechanism is driven to pour out dishes; when the frying mechanism is cleaned, the pot cover is driven to cover the frying mechanism, and water in the discharging box is added into the frying mechanism through the discharging hole to clean the frying mechanism, so that the automation degree of the frying machine is improved.

The oil fume treatment mechanism is arranged in the machine body, one end of the oil fume treatment mechanism is communicated with the vent hole, and the opposite other end of the oil fume treatment mechanism is arranged in the sealing area so as to be used for absorbing oil fume in the machine body and sealing the oil fume. When the cooker is used for cooking, the cooker cover is covered on the cooking mechanism, and the oil smoke generated by the cooking mechanism is transmitted to the oil smoke treatment mechanism through the vent holes so as to absorb and seal the oil smoke in the cooking mechanism, and the oil smoke cannot overflow to other areas in the cooker body. After the frying is finished, the pot cover is driven to not cover the frying mechanism, and because of the sealing structure of the machine body, the oil smoke in the machine body can be transmitted to the oil smoke treatment mechanism through the vent holes, and the oil smoke cannot overflow out of the machine body, so that the operation environment is smokeless, and the emission is more environment-friendly.

2. The automatic cooking method is controlled by software, a user can set a cooking mode and a cooking time length, the cooking machine rotates the food box according to a set proportion, food materials are poured into the cooking mechanism for stir-frying, meanwhile, the oil smoke processing mechanism is started to process oil smoke generated in the cooking mechanism, then the seasonings in the discharging box are added into the cooking mechanism according to the proportion to season the food materials, and after cooking is finished, the user can receive a signal of the finish of cooking to take out the dishes. The cooking fume treatment mechanism is used for treating the cooking fume generated in the cooking mechanism, so that the problem of overflow of the cooking fume in the cooking process is avoided, and the process can standardize dishes, so that a user can better manage the quality of the dishes.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, 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 view of a cooker according to an embodiment;

FIG. 2 is a schematic view of a cooker in an embodiment when the cover is not covered to the body;

FIG. 3 is an exploded view of a cooker according to an embodiment;

FIG. 4 is a cross-sectional view of a cooker according to an embodiment;

FIG. 5 is another angular cross-sectional view of a cooker according to an embodiment;

FIG. 6 is another angular cross-sectional view of a cooker in accordance with an embodiment;

FIG. 7 is a schematic view of a pan cover of a cooker according to an embodiment;

FIG. 8 is a schematic view of a pan cover of a cooker in accordance with another embodiment;

FIG. 9 is a schematic view of a first driving mechanism of a cooker according to an embodiment;

FIG. 10 is a schematic view of a second driving assembly of a cooker according to an embodiment;

FIG. 11 is a flow chart of the automatic cooking method of the present invention.

Reference numerals:

10. a cooker; 11. a body; 111. a discharging box; 112. a food material box; 12. a cooking mechanism; 121. a pot body; 122. an inner container; 123. a rotating shaft; 13. a pot cover; 131. a connecting piece; 1311. a connecting column; 131a, vent holes; 132a, a discharge hole; 14. a fume treatment mechanism; 141a, a first conduit; 142a, a second conduit; 143. an oil-water mixing box; 144. a solution separation assembly; 1441. a solution separation tank; 1442. a solution separating agent container; 1443a, drain hole; 1444a, oil drain hole; 151. a cover plate; 152. a partition plate; 161. a first driving mechanism; 1611. a first driving motor; 1612. a first pulley; 1613. a connecting gear; 1614. a drive gear; 1615. a connecting belt; 162. a second driving mechanism; 1621. a second drive assembly; 1622. a second driving motor; 1623. a driving plate; 1624a, a through slot; 163. a third driving mechanism; 164. a fourth driving motor; 17. an elastic member.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 10, the invention discloses a cooker 10, which comprises a body 11, a cooking mechanism 12, a cooker cover 13 and a lampblack treatment mechanism 14, wherein a sealing area (not labeled in the figure) is formed inside the body 11. The cooking mechanism 12 is rotationally arranged in the machine body 11, the machine body 11 is provided with a plurality of discharging boxes 111 for accommodating seasonings or water and a food box 112, the food box 112 is rotationally arranged in the machine body 11, the food box 112 is used for being driven to throw food into the cooking mechanism 12, the pot cover 13 is arranged in the machine body 11 and provided with a vent hole 131a and a plurality of discharging holes 132a, the plurality of discharging holes 132a are respectively communicated with the plurality of discharging boxes 111, and the pot cover 13 is used for covering the cooking mechanism 12. The oil fume treatment mechanism 14 is arranged in the machine body 11, one end of the oil fume treatment mechanism 14 is communicated with the vent hole 131a, and the opposite other end of the oil fume treatment mechanism is arranged in the sealing area so as to be used for absorbing oil fume in the machine body 11 and sealing the oil fume.

In the present embodiment, the body 11 may be a sealed rectangular parallelepiped, and the cross section of the pot cover 13 is circular. When the cooker 10 is used for cooking, the food box 112 is rotated to put the food into the cooking mechanism 12, the cooker cover 13 covers the cooking mechanism 12, and the flavoring in the discharging box 111 is added into the cooking mechanism 12 through the discharging hole 132a on the cooker cover 13; after the cooking is finished, the pot cover 13 is driven to not cover the cooking mechanism 12, and the cooking mechanism 12 is driven to pour out dishes; when the cooking mechanism 12 is cleaned, the pot cover 13 is driven to cover the cooking mechanism 12, and water in the discharging box 111 is added into the cooking mechanism 12 through the discharging hole 132a for cleaning, so that the automation degree of the cooking machine 10 is improved. Secondly, when the cooker 10 is used for cooking, the cooker cover 13 is covered on the cooking mechanism 12, and the oil smoke generated by the cooking mechanism 12 is transmitted to the oil smoke treatment mechanism 14 through the vent hole 131a so as to absorb and seal the oil smoke in the cooking mechanism 12, and the oil smoke cannot overflow to other areas in the machine body 11. When the frying is finished, the pot cover 13 is driven to not cover the frying mechanism 12, and the pot cover 13 is driven to move in a direction away from the frying mechanism 12, so that the pot cover 13 is separated from the frying mechanism 12, and oil smoke in the machine body 11 can be transmitted to the oil smoke treatment mechanism 14 through the vent hole 131a due to the sealing structure of the machine body 11, and cannot overflow out of the machine body 11, so that the operating environment is smokeless, and the emission is more environment-friendly.

Specifically, referring to fig. 3, 4 and 5, in some embodiments, the fume treatment mechanism 14 includes a first pipe 141a, a second pipe 142a, an oil-water mixing tank 143 and a solution separation assembly 144, the solution separation assembly 144 is disposed in the sealing area, one end of the first pipe 141a is communicated with the vent hole 131a, the opposite end is communicated with the oil-water mixing tank 143, one end of the second pipe 142a is communicated with the oil-water mixing tank 143, and the opposite end is communicated with the solution separation assembly 144.

In the first embodiment, the discharging box 111 is located in the machine body 11 and located on two opposite sides of the food material box 112, the number of the oil-water mixing boxes 143 is one, and the shape of the oil-water mixing boxes 143 below the discharging box 111 may be cuboid or square, the first pipeline 141a and the second pipeline 142a may be hollow pipelines with two open ends, the shape of the first pipeline and the second pipeline may be round or square, and the materials may be aluminum, stainless steel, galvanized steel sheet or other materials capable of manufacturing pipelines. The first pipeline 141a is communicated with the oil-water mixing tank 143, the second pipeline 142a is communicated with the solution separation assembly 144, the oil fume enters the first pipeline 141a through the vent hole 131a on the pot cover 13, water and cleaning agent are arranged in the oil-water mixing tank 143, a fan and a one-way valve are arranged in the oil-water mixing tank 143, and the one-way valve can be a Tesla valve. The fan pumps the oil fume into the oil-water mixing box 143, so that the oil fume is subjected to the first step of treatment in the oil-water mixing box 143, namely, the oil fume and the water containing the cleaning agent are mixed into a solution, and the one-way valve is a Tesla valve, so that the solution can be prevented from flowing backwards into the cooking mechanism 12. And then flows into the solution separation assembly 144 through the second pipe 142a, so that the solution separation assembly 144 separates and discharges oil from water, and oil smoke is prevented from escaping into a room, so that peculiar smell is generated in the indoor environment or is adhered to an indoor household appliance or a wall surface, and the cleaning is difficult for a user. The structure is beneficial to making the operation environment smokeless and the emission is more environment-friendly.

In the second embodiment, the oil smoke treatment mechanism 14 includes two first pipes 141a, two second pipes 142a, and two oil-water mixing tanks 143, the shape of the oil-water mixing tanks 143 may be rectangular parallelepiped or square, and the internal structure of the oil-water mixing tanks 143 is the same as that of the first embodiment. The oil-water mixing boxes 143 are located at two opposite sides of the food box in the machine body, one oil-water mixing box 143 is communicated with one first pipeline 141a, the other oil-water mixing box 143 is communicated with the other first pipeline 141a, one second pipeline 142a is communicated with one oil-water mixing box 143 and the solution separation assembly, and the other second pipeline 142a is communicated with the other oil-water mixing box 143 and the solution separation assembly 144. In this embodiment, the cooking fume generated by the cooking mechanism 12 has two treatment paths, and this way can more efficiently treat the cooking fume, for example, the cooking fume generated by the cooking mechanism 12 is sucked into the two oil-water mixing boxes 143 through the two first pipelines 141a for the first step treatment, i.e. the cooking fume and the water containing the cleaning agent are mixed into a solution, and then flows into the solution separation assembly 144 through the two second pipelines 142a, so that the solution separation assembly 144 separates and discharges the oil from the water, and the cooking fume in the cooking mechanism can be more quickly pumped out and cleaned, so that the cooking fume is prevented from escaping indoors, and the indoor environment generates peculiar smell, or is adhered to an indoor household appliance or a wall surface, so that the user is difficult to clean.

In this embodiment, the placement boxes 111 are disposed on two opposite sides of the machine body 11, and specifically, the cooker 10 includes two placement frames (not labeled in the drawing) for placing the placement boxes 111, where the two placement frames are fixedly connected to two opposite sides of the machine body. This structure is favorable to the user to change blowing box 111 more convenient, for example when blowing box 111 need wash, only need take out blowing box 111 from the supporter wash can.

In some embodiments, the cooker 10 further includes a spray head member (not shown) in communication with the oil-water mixing tank 143 for spraying liquid into the oil-water mixing tank 143 to mix the oil smoke with the liquid in the oil-water mixing tank 143.

In this embodiment, the spray head member may include a water spray head and a detergent spray head, and the detergent may be a hydrophilic and lipophilic substance such as a detergent to mix oil with water. The oil-water mixing tank 143 may be provided therein with a sensing member, and when water in the oil-water mixing tank 143 reaches a preset amount, the detergent spray head is started. After the oil fume treatment mechanism 14 is started, the water spray head sprays water to the oil-water mixing box 143, the fan is started and pumps the oil fume generated in the cooking mechanism 12 into the oil-water mixing box 143, and the water in the oil-water mixing box 143 is used for dissolving solid small particles in the oil fume. When the sensing member senses that the water in the oil-water mixing tank 143 reaches a preset value, the detergent spray head is started, and detergent is sprayed to the oil-water mixing tank 143 to mix the oil with the water and cool.

Specifically, in some embodiments, solution separation assembly 144 includes a solution separation tank 1441 and a solution separating agent container 1442 that communicates with solution separation tank 1441, and an end of second conduit 142a that is remote from oil-water mixing tank 143 communicates with solution separation tank 1441.

The solution separation tank 1441 is provided with a solvent guide (not shown) so that the solution separating agent in the solution separating agent container 1442 is sucked into the solution separation tank 1441 through the solvent guide, so that the solution in the solution separation tank 1441 is separated.

In this embodiment, the solution separation tank 1441 may be a rectangular parallelepiped or a cylinder, and the solution separating agent container 1442 is used to store chemical substances that separate oil from water, such as demulsifiers. The solvent guide member may be a water pump, and the solvent in the solution separating agent container 1442 is sucked into the solution separating box 1441 through the solvent guide member, so that oil-water separation is performed, and the environmental protection emission standard is reached, and the environmental protection effect is achieved. The solution separation tank 1441 is provided with a sensing member, and when the liquid in the solution separation tank 1441 reaches a predetermined amount, the solvent guide member is activated to suck the solvent in the solution separating agent container 1442 into the solution separation tank 1441.

The oil smoke generated in the cooking mechanism 12 flows through the first pipeline 141a to be mixed into solution in the oil-water mixing box 143, and flows into the solution separation box 1441 through the second pipeline 142a after being cooled, when the solution amount in the solution separation box 1441 reaches a preset value, the solvent in the solution separating agent container 1442 is sucked into the solution separation box 1441 by the solvent guide member, so that the oil-water separation can be realized, the standard of environmental emission can be reached, and the environmental protection effect can be realized.

In some embodiments, a drain hole 1443a and a drain hole 1444a are formed in the solution separation tank 1441, a distance from a wall of the drain hole 1443a to a bottom wall of the solution separation tank 1441 is a, a distance from a wall of the drain hole 1444a to a bottom wall of the solution separation tank 1441 is B, and there is a relationship: a < B.

In the present embodiment, the drain hole 1444a accommodates a drain valve, and the drain hole 1443a accommodates a drain valve. Since the oil has a density smaller than that of water, when the oil is separated from the water, the oil floats on the water surface, when the total amount of the oil and the water in the solution separation tank 1441 reaches a preset value, the oil discharge valve is opened, and when the oil discharge time reaches a preset time, the drain valve is opened, and the water in the solution separation tank 1441 is discharged. The structure is favorable for discharging water meeting the environmental protection emission standard, and plays an environmental protection role.

Referring to fig. 2, in some embodiments, the cooker 10 may include a cover plate 151 and a partition plate 152, the cover plate 151 being rotatably connected to the body 11 and configured to cover a sealing area; the partition plate 152 is disposed between the cooking mechanism 12 and the solution separation assembly 144, and the cover plate 151 is used for enclosing the partition plate 152 and the machine body 11 to form a sealing area.

In this embodiment, the cross sections of the cover plate 151 and the partition plate 152 are rectangular, one of the cover plate 151 and the machine body 11 is provided with a rotating shaft, and the other one of the cover plate 151 and the machine body 11 is provided with a shaft hole matched with the rotating shaft, so as to realize the rotating connection of the cover plate 151 and the machine body 11, and in other embodiments, the cover plate 151 and the machine body 11 can also be realized through other modes. When it is necessary to replace the solution separation tank 1441 or add the solvent of the solution separation agent container 1442, the cover plate 151 may be rotated to expose the solution separation tank 1441 and the solution separation agent container 1442, thereby replacing the solution separation tank 1441 or add the solvent of the solution separation agent container 1442. When the cover plate 151 is covered on the machine body 11, the cover plate 151, the partition plate 152 and the machine body 11 enclose a sealing area, and the cooking fume generated by the cooking mechanism 12 is processed.

The separation plate 152 is arranged between the cooking mechanism 12 and the solution separation assembly 144, and can serve as a dish outlet position of the cooking machine 10, a dish is placed on the separation plate 152, and after cooking, the cooking mechanism 12 is turned over to pour dishes into the dish. In some embodiments, the cooker 10 further includes a cover and a cooking area in which the pot cover 13 and the cooking mechanism 12 are disposed. The cover body is rotatably connected to the machine body 11 and is used for covering a cooking area, specifically, one of the cover body and the machine body 11 is provided with a rotating shaft, the other one of the cover body and the machine body 11 is provided with a shaft hole matched with the rotating shaft, so that the cover body and the machine body 11 are rotatably connected, and in other embodiments, the cover body and the machine body 11 can be rotatably connected in other modes. When dishes are to be placed or removed or when maintenance is to be performed on the cooking mechanism 12, the cover is rotated to expose the cooking mechanism 12, thereby placing the dishes on the divider plate 152 or removing the dishes from the divider plate 152 or performing maintenance on the cooking mechanism 12. When the lid is located the stir-fry district for stir-fry district is sealed, and oil smoke treatment mechanism 14 can handle the oil smoke simultaneously, so that the oil smoke can't spill to indoor, makes operating environment smokeless, has improved user's use experience and has felt.

Referring to fig. 3, 4 and 6, in some embodiments, the cooker 10 may include a first driving mechanism 161 and a second driving mechanism 162, where the first driving mechanism 161 and the second driving mechanism 162 are both disposed in the machine body 11, the first driving mechanism 161 is connected to the cooking mechanism 12 to drive the cooking mechanism 12 to rotate relative to the machine body 11, and the second driving mechanism 162 is connected to the pot cover 13 and is used for driving the pot cover 13 to move towards the direction of the cooking mechanism 12 to cover the cooking mechanism 12.

Referring to fig. 3, the cooking mechanism 12 may include a pan body 121, a liner 122 disposed on the pan body 121, a third driving mechanism 163 connected to the liner 122, and a rotation shaft 123, wherein two ends of the rotation shaft 123 are fixedly connected with the first driving mechanism 161 and the pan body 121 respectively, and the first driving mechanism 161 is connected to the pan body 121 through the rotation shaft 123 to drive the pan body 121 to rotate around an axis of the rotation shaft 123; the third driving mechanism 163 is located between the inner container 122 and the pan 121 and is used for driving the inner container 122 to rotate around the circumference of the inner container 122.

The inner container 122 is provided with a high temperature resistant coating made of a novel nano material, so that the inner container 122 has high temperature resistance. The novel nanomaterial may be a nanomembrane or other nanomaterial.

In this embodiment, the pan body 121 is a substantially cylindrical body, and the inner container 122 is hemispherical. Referring to fig. 9, the first driving mechanism 161 includes a first driving motor 1611, a first belt wheel 1612, a connecting gear 1613, a driving gear 1614 and a connecting belt 1615, the output end of the first driving motor 1611 is provided with the first belt wheel 1612, the connecting gear 1613 is arranged at one side of the pan body 121 close to the first driving motor 1611, the driving gear 1614 is arranged in the machine body 11, the driving gear 1614 includes a meshing portion and a belt wheel portion fixedly connected with the meshing portion, the meshing portion is in meshing connection with the connecting gear 1613, and the connecting belt 1615 is sleeved outside the first belt wheel 1612 and the belt wheel portion.

The first driving motor 1611 is a rotary motor, a motor, or the like, the first pulley 1612 is a cylindrical pulley, the connection gear 1613 is a spur gear, the meshing portion is a spur gear, the pulley portion is a cylindrical pulley, and the connection belt 1615 is an endless belt. When the cooker 10 is operated, the food material box 112 is rotated, the food material in the food material box 112 falls into the pot body 121, the first driving motor 1611 drives the first belt wheel 1612 to rotate, the connecting belt 1615 is sleeved on the periphery of the first belt wheel 1612 and the belt wheel part (not labeled in the figure), the first belt wheel 1612 drives the driving gear 1614 to rotate, and the meshing part (not labeled in the figure) is meshed with the connecting gear 1613, so that the pot body 121 rotates around the center of the connecting gear 1613, and meanwhile, the second driving mechanism 162 drives the pot cover 13 to cover the pot body 121, so that soup is prevented from splashing due to rotation of the pot body 121 in the cooking process. And the oil smoke generated by the pot body 121 is transmitted to the oil smoke treatment mechanism 14 for treatment through the vent hole 131a of the pot cover 13, and then the sewage and oil are discharged through the water outlet and the oil discharge port, so that the oil smoke is prevented from overflowing into the room, and the indoor environment generates peculiar smell or is attached to indoor household appliances or wall surfaces, so that a user is difficult to clean. The structure is beneficial to making the operation environment smokeless and the emission is more environment-friendly.

Referring to fig. 3, 6 and 10, the second driving mechanism 162 includes two second driving components 1621, a connecting member 131 is disposed on a side of the pot cover 13 away from the pot body 121, the two second driving components 1621 are disposed on two sides of the connecting member 131, and the two second driving components 1621 drive the pot cover 13 to be covered or uncovered with the pot body 121.

The second driving assembly 1621 includes a second driving motor 1622 and a driving board 1623, the second driving motor 1622 is disposed in the machine body 11, the driving board 1623 is fixedly connected with the output end of the second driving motor 1622, a through slot 1624a is disposed at one end near the connecting piece 131, the connecting piece 131 is provided with a connecting post 1311 disposed in the through slot 1624a, and the driving board 1623 is driven by the second driving motor 1622 to rotate, so that the driving board 1623 drives the connecting post 1311 to move in the through slot 1624a, thereby driving the pot cover 13 to cover or not cover the pot body 121.

In the present embodiment, the second driving motor 1622 is a rotary motor, the driving plate 1623 is a rectangular plate, the through groove 1624a is a bar-shaped groove and is disposed along the axial direction of the connection post 1311, and the external shape of the connection member 131 is a substantially T-shaped structure.

The third driving mechanism 163 is a rotary motor, a motor, etc., the third driving mechanism 163 is arranged on the pan body 121, an output shaft of the motor is fixedly connected with the inner container 122, and the center of the inner container 122 is positioned on the output shaft of the motor, and a heating wire or a heating disc is arranged in the pan body 121 to heat the inner container 122. In the cooking process, the third driving mechanism 163 drives the inner container 122 to rotate along the circumferential direction of the inner container 122, so as to drive the food in the inner container 122 to rotate, so that the food is heated uniformly, and the food is mixed with the flavoring agent, thereby achieving the cooking effect.

The food material box 112 is rotated, the food material in the food material box 112 falls into the pot body 121, the first driving motor 1611 rotates to drive the first belt pulley 1612 to rotate, the connecting belt 1615 is sleeved on the periphery of the first belt pulley 1612 and the belt pulley part, the first belt pulley 1612 drives the driving gear 1614 to rotate, the meshing part is meshed with the connecting gear 1613 to enable the pot body 121 to rotate around the axis of the rotating shaft 123, the pot body 121 inclines towards the direction close to the pot cover 13, meanwhile, the second driving motor 1622 rotates to enable the driving plate 1623 to rotate, the connecting column 1311 is accommodated in the penetrating groove 1624a, the driving plate 1623 pushes the connecting column 1311 to move in the penetrating groove 1624a, at the moment, the pot cover 13 is pushed to incline and be close to the pot body 121, and when the port plane of the pot body 121 is parallel to the pot cover 13, the two second driving motors 1622 move towards the direction close to the pot body 121 to enable the pot cover 13 to move along the axis of the pot body 121, so that the pot cover 13 and the pot body 121 are covered by the inner soup can be prevented from splashing when the inner pot 122 rotates. And the oil smoke generated by the inner container 122 is transmitted to the oil smoke treatment mechanism 14 for treatment through the vent hole 131a of the pot cover 13, and then the sewage and oil are discharged through the water outlet and the oil discharge port, so that the oil smoke is prevented from overflowing into the room, and the indoor environment generates peculiar smell or is attached to the indoor household appliance or the wall surface, so that the user is difficult to clean. The structure is beneficial to making the operation environment smokeless and the emission is more environment-friendly.

In some embodiments, the cooker 10 may further include two elastic members 17, where the two elastic members 17 are respectively located at two sides of the connecting member 131, one end of the elastic member 17 is connected to the connecting member 131, and the opposite end is connected to one side of the body 11 near the pot cover 13.

In the present embodiment, the elastic member 17 is a spring. After the dish frying is finished, the first driving motor 1611 reversely rotates to drive the first belt wheel 1612 to rotate, the connecting belt 1615 is sleeved on the periphery of the first belt wheel 1612 and the belt wheel part, so that the first belt wheel 1612 drives the driving gear 1614 to rotate, the meshing part is meshed with the connecting gear 1613, the pan body 121 reversely rotates around the circle center of the connecting gear 1613, meanwhile, the two second driving motors 1622 reversely rotate to drive the driving plate 1623 to reversely rotate, so that the driving plate 1623 moves in a direction far away from the pan body 121, and because the elastic pieces 17 are respectively positioned on two sides of the connecting piece 131, one end of each elastic piece 17 is arranged on the connecting piece 131, the other end of each elastic piece 17 is arranged on one side of the box body close to the pan cover 13, at the moment, the elastic pieces 17 rebound, so that the pan cover 13 can be quickly separated from the pan body 121, and then the pan body 121 reversely rotates around the circle center of the connecting gear 1613, so that food in the inner container 122 can be poured onto the dish of the partition plate 152.

The cooker 10 further comprises a fourth driving motor 164, the fourth driving motor 164 is arranged in the machine body 11, and the output end of the fourth driving motor 164 is fixedly connected with the food material box 112. Before cooking, the fourth driving motor 164 is started to drive the food material box 112 to rotate, the food material box 112 is located above the pot body 121, and due to the action of gravity, food materials in the food material box 112 fall into the inner container 122 from the opening of the food material box 112, the fourth driving motor 164 reversely rotates to drive the food material box 112 to reversely rotate, so that the opening of the food material box 112 and the opening of the pot body 121 face towards the same direction, and the feeding of the food materials is completed.

The invention also discloses an automatic dish frying method which is applied to the dish frying machine 10 and comprises the following steps:

s1, acquiring a cooking instruction, wherein the cooking instruction comprises a cooking category and a cooking time;

s2, analyzing a cooking instruction to generate a cooking signal and an oil smoke processing signal, wherein the cooking signal comprises food material information, seasoning information and cooking information;

s3, sending a cooking signal to a cooking mechanism 12;

s4, sending the oil smoke treatment signal to the oil smoke treatment mechanism 14;

s5, detecting a cooking end signal of the cooking mechanism 12;

and S6, when receiving a cooking end signal sent by the cooking mechanism 12, generating cooking end information and displaying the cooking end information on a display end.

Referring to fig. 11, in the present embodiment, the automatic cooking method is controlled by software, a user can set a cooking mode and a cooking duration, the cooker 10 rotates the food box 112 according to a set proportion, the food is poured into the cooking mechanism 12 for stir-frying, the oil smoke processing mechanism 14 is started to process the oil smoke generated in the cooking mechanism 12, the seasoning in the feed box 111 is added into the cooking mechanism 12 according to the proportion to season the food, and after the cooking is finished, the user can receive a signal of the end of cooking to take out the food. The cooking fume treatment mechanism 14 is used for treating the cooking fume generated in the cooking mechanism 12, so that the problem of excessive cooking fume in the cooking process is avoided, and the process can standardize dishes, so that a user can better manage the quality of the dishes.

The invention discloses a cooking machine 10, which comprises a machine body 11, a cooking mechanism 12, a pot cover 13 and a lampblack treatment mechanism 14, wherein a sealing area (not labeled in the figure) is arranged in the machine body 11. The cooking mechanism 12 is rotationally arranged in the machine body 11, the machine body 11 is provided with a plurality of discharging boxes 111 for accommodating seasonings or water and a food box 112, the food box 112 is rotationally arranged in the machine body 11, the food box 112 is used for being driven to throw food into the cooking mechanism 12, the pot cover 13 is arranged in the machine body 11 and provided with a vent hole 131a and a plurality of discharging holes 132a, the plurality of discharging holes 132a are respectively communicated with the plurality of discharging boxes 111, and the pot cover 13 is used for covering the cooking mechanism 12. The oil fume treatment mechanism 14 is arranged in the machine body 11, one end of the oil fume treatment mechanism 14 is communicated with the vent hole 131a, and the opposite other end of the oil fume treatment mechanism is arranged in the sealing area so as to be used for absorbing oil fume in the machine body 11 and sealing the oil fume.

In the present embodiment, the body 11 may be a sealed rectangular parallelepiped, and the cross section of the pot cover 13 is circular. When the cooker 10 is used for cooking, the food box 112 is rotated to put the food into the cooking mechanism 12, the cooker cover 13 covers the cooking mechanism 12, and the flavoring in the discharging box 111 is added into the cooking mechanism 12 through the discharging hole 132a on the cooker cover 13; after the cooking is finished, the pot cover 13 is driven to not cover the cooking mechanism 12, and the cooking mechanism 12 is driven to pour out dishes; when the cooking mechanism 12 is cleaned, the pot cover 13 is driven to cover the cooking mechanism 12, and water in the discharging box 111 is added into the cooking mechanism 12 through the discharging hole 132a for cleaning, so that the automation degree of the cooking machine 10 is improved. Secondly, when the cooker 10 is used for cooking, the cooker cover 13 is covered on the cooking mechanism 12, and the oil smoke generated by the cooking mechanism 12 is transmitted to the oil smoke treatment mechanism 14 through the vent hole 131a so as to absorb and seal the oil smoke in the cooking mechanism 12, and the oil smoke cannot overflow to other areas in the machine body 11. When the frying is finished, the pot cover 13 is driven to not cover the frying mechanism 12, and the pot cover 13 is driven to move in a direction away from the frying mechanism 12, so that the pot cover 13 is separated from the frying mechanism 12, and oil smoke in the machine body 11 can be transmitted to the oil smoke treatment mechanism 14 through the vent hole 131a due to the sealing structure of the machine body 11, and cannot overflow out of the machine body 11, so that the operating environment is smokeless, and the emission is more environment-friendly.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A cooker, comprising:

a body having a sealing region formed therein;

the frying mechanism is rotationally arranged in the machine body;

the machine body is provided with a discharging box for containing seasonings or water and a food material box, the food material box is rotationally arranged in the machine body and is used for being driven to put food materials into the cooking mechanism;

the pot cover is arranged in the machine body and provided with a vent hole and a discharge hole, the discharge hole is communicated with the discharge box, and the pot cover is used for covering the cooking mechanism;

the oil fume treatment mechanism is arranged in the machine body, one end of the oil fume treatment mechanism is communicated with the vent hole, and the opposite other end of the oil fume treatment mechanism is arranged in the sealing area so as to be used for absorbing oil fume in the machine body and sealing the oil fume.

2. The cooker of claim 1, wherein the oil and smoke treatment mechanism comprises a first pipe, a second pipe, an oil-water mixing tank and a solution separation assembly, wherein the solution separation assembly is arranged in the sealing area, one end of the first pipe is communicated with the vent hole, the opposite end is communicated with the oil-water mixing tank, one end of the second pipe is communicated with the oil-water mixing tank, and the opposite end is communicated with the solution separation assembly.

3. The cooker of claim 2, further comprising a spray head member in communication with the oil-water mixing tank, the spray head member for spraying liquid into the oil-water mixing tank to mix oil smoke with liquid in the oil-water mixing tank.

4. The cooker of claim 2, wherein the solution separation assembly comprises a solution separation tank and a solution separating agent container communicated with the solution separation tank, and one end of the second pipeline away from the oil-water mixing tank is communicated with the solution separation tank;

the solution separation tank is provided with a solvent guide so that the solution separating agent in the solution separating agent container is sucked into the solution separation tank through the solvent guide, so that the solution in the solution separation tank is separated.

5. The cooker as claimed in claim 4, wherein a drain hole and an oil drain hole are formed in the solution separation tank, a distance from the drain hole wall to a bottom wall of the solution separation tank is a, a distance from the oil drain hole wall to the bottom wall of the solution separation tank is B, and a relationship exists: a < B.

6. The cooker of claim 2, comprising a cover plate and a divider plate, the cover plate being rotatably connected to the body and adapted to cover the sealing area;

the separation plate is arranged between the cooking mechanism and the solution separation assembly, and the cover plate is used for enclosing the separation plate and the machine body to form the sealing area.

7. The machine of claim 1, wherein the machine comprises a first driving mechanism and a second driving mechanism, the first driving mechanism and the second driving mechanism are both arranged in the machine body, the first driving mechanism is connected to the machine body so as to drive the machine body to rotate relative to the machine body, and the second driving mechanism is connected to the pot cover and is used for driving the pot cover to move towards the machine body so as to cover the machine body.

8. The cooking machine of claim 7, wherein the cooking mechanism comprises a pan body, a liner arranged on the pan body, a third driving mechanism connected with the liner and a rotating shaft, wherein two ends of the rotating shaft are fixedly connected with the first driving mechanism and the pan body respectively so as to drive the pan body to rotate around the axis of the rotating shaft; the third driving mechanism is positioned between the inner container and the pot body and is used for driving the inner container to rotate around the circumferential direction of the inner container.

9. A cooker as claimed in claim 8, wherein said liner is provided with a high temperature resistant coating made of a novel nanomaterial to provide said liner with high temperature resistance.

10. An automatic cooking method, characterized in that it is applied to a cooker as claimed in any one of claims 1 to 9, comprising:

acquiring a cooking instruction, wherein the cooking instruction comprises a cooking category and a cooking time;

analyzing the cooking instruction to generate a cooking signal and an oil smoke processing signal, wherein the cooking signal comprises food material information, seasoning information and cooking information;

sending the cooking signals to a cooking mechanism;

the oil fume processing signal is sent to an oil fume processing mechanism;

detecting a cooking end signal of a cooking mechanism;

if receiving the cooking end signal sent by the cooking mechanism, generating cooking end information and displaying the information on the display end.

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