CN209960568U

CN209960568U - Oil smoke processing apparatus and machine of cooking

Info

Publication number: CN209960568U
Application number: CN201920332586.XU
Authority: CN
Inventors: 许锦标; 何光; 何青; 曾珞亚
Original assignee: Shanghai Aican Robot Group Co Ltd
Current assignee: Shanghai Aican Robot Group Co Ltd
Priority date: 2017-11-03
Filing date: 2017-11-03
Publication date: 2020-01-17
Anticipated expiration: 2027-11-03
Also published as: CN210204409U; CN210069978U; CN208740635U

Abstract

The utility model discloses an oil smoke processing apparatus, oil smoke processing apparatus includes: the box body is provided with a water filling port, a smoke inlet and a smoke outlet, and an oil smoke channel communicated with the smoke inlet and the smoke outlet is arranged in the box body; the oil smoke filtering component is arranged in the oil smoke channel; the first filter box is positioned below the box body and is provided with an oil smoke inlet and an air outlet, and at least one oil smoke filter layer is arranged between the oil smoke inlet and the air outlet; one end of the drain pipe is connected with the top of the first filter box, and the other end of the drain pipe penetrates into the box body in a sealing mode and protrudes relative to the bottom in the box body; and the fan is used for pumping the oil smoke into the box body from the smoke inlet and discharging the oil smoke to the first filter box from the smoke outlet and then discharging the oil smoke from the air outlet. The utility model discloses can carry out the efficient handling to the oil smoke that the machine of cooking produced at the stir-fry in-process to reduce the pollution of oil smoke to the environment.

Description

Oil smoke processing apparatus and machine of cooking

The application is as follows: 11/3/2017, application No.: 201721459362.2, title of the invention: a divisional application of a full-automatic cooker.

Technical Field

The utility model relates to a cooking equipment technical field especially relates to an oil smoke processing apparatus and cooking machine.

Background

Chinese cooking culture is profound and profound, and the mode changes are various, wherein the main cooking technique comprises frying, stewing, frying, boiling, steaming, frying, baking and the like, the essence of various cooking modes is that various dishes with different tastes, points and flavor effects and changing into various shapes are obtained after the cooked objects are subjected to different matching and various expected heating states, so far, the cooking is still mainly a skill which is mainly experienced and manual, and the requirement on the technology of operators is high. The intelligent cooking machine has appeared nowadays, so long as the user puts food ingredients in the cooking machine, the cooking machine can automatically complete the cooking process, thereby the user can enjoy the gourmet food very conveniently.

However, in the process of cooking, the existing cooker generates a large amount of oil smoke in the shell of the cooker. In order to exhaust the oil smoke from the casing, an exhaust fan is generally disposed in the cooking machine to exhaust the oil smoke from the casing. Because the existing cooker directly discharges the generated oil fume, the environment is polluted.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, an object of the present invention is to provide an oil smoke processing apparatus and a cooking machine, which can effectively process the oil smoke generated by the cooking machine in the cooking process, thereby avoiding the pollution of the oil smoke to the environment.

In order to achieve the above object, an embodiment of the present invention provides an oil smoke processing apparatus, which includes:

the box body is provided with a water filling port, a smoke inlet and a smoke outlet, an oil smoke channel for communicating the smoke inlet with the smoke outlet is arranged in the box body, and the water filling port is positioned above the oil smoke channel;

the oil smoke filtering component is arranged in the oil smoke channel;

the first filter box is positioned below the box body and is provided with an oil smoke inlet and an air outlet, the oil smoke inlet is communicated with the smoke outlet, the air outlet is positioned at the lower part of the first filter box, and at least one oil smoke filter layer is arranged between the oil smoke inlet and the air outlet;

one end of the drain pipe is connected with the top of the first filter box, and the other end of the drain pipe penetrates into the box body in a sealing mode and protrudes relative to the bottom in the box body;

and the fan is used for pumping the oil smoke into the box body from the smoke inlet and discharging the oil smoke to the first filter box from the smoke outlet and then discharging the oil smoke from the air outlet.

Compared with the prior art, the cooking machine oil smoke processing device provided by the embodiment of the utility model has the advantages that the water filling port, the smoke inlet and the smoke outlet are arranged on the box body, the oil smoke filtering component is arranged in the box body, the oil smoke filtering layer is arranged in the first filtering box, the first filtering box is connected with the bottom of the box body through the drain pipe, and the smoke outlet of the box body is connected with the oil smoke inlet of the first filtering box, so that the oil smoke to be processed enters the box body from the smoke inlet and is filtered by the oil smoke filtering component in the box body, then enters the first filtering box and is filtered by the oil smoke filtering layer again, and the processing efficiency is improved; in addition, in the process of treating the oil smoke, water is added into the box body through the water adding port so as to cool and purify the oil smoke in the box body, and when the water level in the box body reaches a certain height, the water can be discharged into the first filter box from the water discharging pipe so as to cool the oil smoke entering the first filter box, so that the oil smoke treatment is more efficient; in addition, the cleaning liquid can be heated in the box body through the water filling port, so that the inner cavity of the box body, the inner cavity of the first filter box, the oil smoke filtering component and the oil smoke filtering layer can be cleaned, and the effectiveness of oil smoke purification treatment is guaranteed.

Furthermore, the oil fume treatment device also comprises a water circulation pipeline and a water pump;

the water circulation pipeline is provided with at least one first water outlet and at least one first water inlet, the at least one first water outlet is positioned at the upper part in the box body and is positioned right above the oil smoke channel, and the at least one first water inlet is positioned at the lower part in the box body; the water pump is arranged in the water circulation pipeline.

Further, the oil fume treatment device also comprises a spraying plate;

the oil fume spraying box is characterized in that a plurality of spraying holes are formed in the spraying plate, the spraying plate is arranged between the oil fume channel and the top in the box body at intervals, and the at least one first water outlet is located above the spraying plate.

Furthermore, the oil fume treatment device also comprises a water feeding pipe and a water pipe valve;

one end of the water adding pipe penetrates through the water adding port in a sealing mode and is positioned in the box body, and the other end of the water adding pipe is used for being connected with an external water source; the water pipe valve is arranged in the water feeding pipe.

Furthermore, the oil fume treatment device also comprises an oil fume inlet pipe and an oil fume treatment device with an opening at the top

One end of the smoke inlet pipe penetrates through the smoke inlet in a sealing mode and is communicated with the oil smoke channel of the box body.

Furthermore, the oil fume treatment device also comprises a spraying cavity with an opening at the top;

the top of the spraying cavity is fixed at the bottom of the part of the spraying plate provided with the spraying holes, and the bottom of the spraying cavity is positioned above the bottom in the box body and is provided with a through hole;

one end of the smoke inlet pipe hermetically penetrates through the smoke inlet towards the direction of the interior of the box body and hermetically penetrates into the spraying cavity; an extended oil smoke spraying channel is formed between the one end of the smoke inlet pipe and the through hole in the spraying cavity; at least one layer of oil smoke filtering layer is arranged in the oil smoke spraying channel, and the bottom of each section of the oil smoke spraying channel is communicated with the through hole.

Further, the oil smoke processing apparatus still includes:

the first longitudinal partition plate is longitudinally arranged between the spray plate and the bottom in the box body, and a lampblack passage opening is formed between the bottom of the first longitudinal partition plate and the bottom in the box body;

the transverse partition plate is positioned between the spraying plate and the bottom in the box body and is transversely arranged between the first longitudinal partition plate and a side plate of the box body opposite to the first longitudinal partition plate;

the second longitudinal partition plate is longitudinally arranged between the first longitudinal partition plate and the side plate of the box body, the top of the second longitudinal partition plate is hermetically connected with the bottom of the spraying plate, and the bottom of the second longitudinal partition plate is arranged at intervals with the top of the transverse partition plate; and a process for the preparation of a coating,

the third longitudinal partition plate is longitudinally arranged between the second longitudinal partition plate and the side plate of the box body, the top of the third longitudinal partition plate is arranged at an interval with the bottom of the spraying plate, the bottom of the third longitudinal partition plate is fixed on the top of the transverse partition plate, and a gap opening is formed between the third longitudinal partition plate and the transverse partition plate;

wherein the one end of the smoke inlet pipe is positioned between the first longitudinal partition plate and the second longitudinal partition plate; the through hole is formed in the transverse partition plate and is located between the third longitudinal partition plate and the side plate of the box body; the smoke outlet is arranged on the other side plate of the box body opposite to the side plate and is positioned below the spraying plate.

Furthermore, the oil fume treatment device also comprises a fume outlet pipe and a second filter box; the second filter tank is communicated with the smoke outlet through the fan, and at least one oil smoke filter layer is arranged in the second filter tank; the oil smoke inlet of the first filter box is communicated with the second filter box through the smoke outlet pipe.

Furthermore, the oil fume treatment device also comprises a micro refrigerator, and a refrigerating part of the micro refrigerator is arranged in the oil fume channel.

The utility model correspondingly provides another embodiment of the frying machine, which comprises a casing and the oil fume treatment device arranged in the casing; the cooking cavity body that has sealed setting in the casing, advance the mouth with the outlet flue all with the cooking cavity body intercommunication.

Compared with the prior art, the cooking machine of the embodiment is provided with the oil fume treatment device, so that the oil fume generated in the cooking process can be effectively treated by the oil fume treatment device. And because the smoke inlet and the smoke outlet are communicated with the cooking cavity in a sealing way, after the oil smoke in the cooking cavity enters the box body through the smoke inlet and is treated by the oil smoke, the residual oil smoke can enter the cooking cavity through the smoke outlet again, and the processes are repeated continuously, so that the oil smoke in the cooking cavity can be effectively treated without being discharged outside the shell, and zero emission of the oil smoke is realized.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings required for the embodiments will be briefly described below, and obviously, the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic view of an overall structure of a full-automatic cooker according to an embodiment of the present invention;

FIG. 2 is a schematic view of the cooking machine of FIG. 1 with the door panel and the top cover panel in an open position;

fig. 3 is a schematic view of a partial structure of a full-automatic cooker according to an embodiment of the present invention;

fig. 4 is a right side view of the partial structure of the full-automatic cooker according to the embodiment of the present invention;

fig. 5 is a left side view of a partial structure of a full-automatic cooker according to an embodiment of the present invention;

fig. 6 is a schematic structural view of the lampblack treatment device shown in fig. 1;

fig. 7 is a schematic view of a flow direction of fumes of the fume treatment apparatus shown in fig. 1;

fig. 8 is a partial sectional view of the oily fume treatment device shown in fig. 1;

fig. 9 is a schematic view of the state of the oil smoke treatment apparatus shown in fig. 1 when the oil smoke filter layer is installed;

fig. 10 is a side view of a partial structure of the oily fume treatment device shown in fig. 1;

FIG. 11 is a schematic view of the overall structure of the wok mechanism shown in FIG. 1;

fig. 12 is a side view of the wok movement control device shown in fig. 11;

FIG. 13 is a partial schematic structural view of the wok mechanism shown in FIG. 1;

fig. 14 is a partial structure diagram of the wok movement control device shown in fig. 11;

fig. 15 is a partial structure diagram of the wok movement control device shown in fig. 11;

FIG. 16 is a schematic structural view of the boiler washing device shown in FIG. 1;

fig. 17 is a schematic view of the blanking mechanism shown in fig. 1 in an exploded state;

FIG. 18 is a cross-sectional view of the blanking mechanism with the door unopened;

FIG. 19 is a cross-sectional view of the blanking mechanism with the door open

FIG. 20 is a simplified illustration of the fryer with the blanking mechanism flipped over and in the blanking process;

fig. 21 is a simplified view of the cooker with the blanking mechanism flipped down to allow multiple-compartment ingredient boxes to enter the blanking bin.

The attached drawings indicate the following:

1. a housing; 100. a cooking cavity; 101. a water outlet; 102. a vegetable outlet; 103. an inlet and an outlet;

2. a frying pan mechanism;

20. a frying pan; 21. a wok station control device;

22. a pan movement control device; 220. a main drive screw rod; 221. a secondary drive screw rod; 222. a drive motor; 223. moving the connecting piece; 224. a synchronous rotation assembly; 2240. a first synchronizing wheel; 2241. a second synchronizing wheel; 2242. a first timing belt; 2243. a third synchronizing wheel; 2244. a fourth synchronizing wheel; 2245. a second timing belt;

23. a pot cover; 24. a frying pan heating device; 25. a frying pan stir-frying device; 250. a rotating shaft; 251. a stir-frying motor; 252. a frying pan fixing frame; 26. a linear slide rail; 27. a limit switch box; 271. a first limit switch; 272. a second limit switch;

3. an oil fume treatment device;

32. a box body; 320. a water filling port; 321. a smoke inlet; 322. a smoke outlet; 323. a fume channel; 324. a heat dissipation port; 325. a water feeding pipe;

33. a fan;

34. a fume filtration component; 340. a fume filter layer;

35. a micro refrigerator; 350. a refrigeration plate; 351. a heat conducting portion;

36. a water circulation pipeline; 360. a first water outlet; 361. a first water inlet;

37. a water pump;

38. a spray plate; 380. spraying holes;

39. a cooling body; 390. a second water inlet; 391. a second water outlet;

310. an accommodating cavity; 311. a smoke inlet pipe;

312. a spray chamber; 3120. a port; 3121. an oil fume spray channel;

313. a first longitudinal partition plate; 3130. a smoke passage opening; 314. a diaphragm plate; 315. a second longitudinal partition plate; 316. a third longitudinal partition plate; 3160. a slot opening;

317. a first filter tank; 3170. a lampblack inlet; 3171. an air outlet; 3172. a fume filter layer; 3173. a drain pipe;

318. discharging the smoke tube; 319. a second filter tank; 3190. a fume filter layer;

4. a blanking mechanism; 40. discharging a bin; 400. a feeding port; 401. a bin gate; 402. a dosing port; 41. a bin gate drive; 42. a turning device of the blanking mechanism; 43. a multi-bin ingredient box; 430. a bin is checked; 431. an opening;

5. a food waste disposer; 6. a flow-guiding housing; 7. a pot washing device; 70. washing a boiler spray head; 71. a water pipe switch; 72. a water inlet pipe; 8. a dish discharging tray; 9. a dish position detector; 11. a door panel; 110. a window; 12. a top cover plate; 13. a control device; 14. and (5) a man-machine operation interface.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, an embodiment of the present invention provides a full-automatic cooking machine, which includes a casing 1, an oil smoke processing device 3, a frying pan mechanism 2, a control device 13 and a human-machine interface 14. Wherein, the frying pan mechanism 2 is arranged in the casing 1 and comprises a frying pan 20, a frying pan station control device 21 and a frying pan movement control device 22; the wok station control device 21 is used for fixing the wok 20 on the wok movement control device 22 and controlling the wok 20 to turn over so that the wok 20 reaches a corresponding station to perform corresponding operation; the wok moving control device 22 is used for controlling the wok station control device 21 to directionally move in the casing 1 so as to drive the wok 20 to directionally move in the casing 1. The smoke inlet 321 of the oil smoke treatment device 3 communicates with the inside of the housing 1, and the air outlet 3171 of the oil smoke treatment device 3 may communicate with the outside of the housing 1 or with the inside of the housing 1. The human-machine interface 14 is disposed on an outer side of the housing 1 (e.g., may be disposed on a top or a side of the housing 1). The human-machine operation interface 14, the wok station control device 21 and the wok movement control device 22 are all electrically connected with the control device 13 to receive a control instruction sent by the control device 13 according to a preset menu instruction and execute corresponding operation according to the control instruction.

In the embodiment of the present invention, in order to improve the airtight performance of the casing 1, so as to prevent the oil smoke in the casing 1 from being directly discharged to the outside of the casing 1, preferably, a sealed cooking cavity 100 is provided in the casing 1, and the whole frying pan mechanism 2 is provided in the cooking cavity 100, so that the oil smoke generated by the frying pan 20 will be gathered in the cooking cavity 100.

For convenience of understanding, the structure of the lampblack treatment device 3 is specifically described below with reference to fig. 3 to 10:

preferably, referring to fig. 3 to 10, the oil smoke treatment device 3 is disposed in the casing 1, and the oil smoke treatment device 3 includes: box 32, fan 33, oil smoke filter assembly 34, micro refrigerator 35, water circulation pipeline 36 and water pump 37. Specifically, the box body 32 is provided with a water filling port 320, a smoke inlet 321 and a smoke outlet 322, the box body 32 is internally provided with a smoke channel 323 communicating the smoke inlet 321 with the smoke outlet 322, and the smoke inlet 321 and the smoke outlet 322 are both communicated with the cooking cavity 100. The fan 33 is used for drawing the oil smoke into the box body 32 from the smoke inlet 321 and discharging the oil smoke from the smoke outlet 322. The soot filter assembly 34 is disposed in the soot channel 323. The micro refrigerator 35 is preferably a semiconductor refrigerator, and at least one refrigerating sheet 350 of the micro refrigerator 35 is arranged in the lampblack channel 323; the water circulation pipeline 36 has at least one first water outlet 360 located at the upper part of the inside of the box body 32 and located right above the lampblack channel 323, and has at least one first water inlet 361 located at the lower part of the inside of the box body 32; the water pump 37 is provided in the water circulation line 36. The fan 33, the micro refrigerator 35 and the water pump 37 are all electrically connected to the control device 13.

The embodiment of the utility model provides a theory of operation does: in the process of cooking, the cooking cavity 100 of the full-automatic cooker continuously generates oil smoke. Under the pressurization blowing action of the fan 33, the soot inside the cooking cavity 100 enters the soot passage 323 through the soot inlet 321, and is then filtered by the soot filtering component 34. In the process, the refrigeration fins 350 of the micro refrigerator 35 operate to lower the temperature of the oil smoke passage 323, so that the oil smoke entering the oil smoke passage 323 is condensed, and the oil smoke filter assembly 34 can better filter the oil smoke. And the water circulation pipeline 36 continuously sprays water to the lampblack filtering component 34 in the lampblack channel 323 through the first water outlet 360 under the action of the water pump 37, so that the temperature in the lampblack channel 323 is further reduced, lampblack can be effectively condensed, and the lampblack filtering component 34 can better filter lampblack. And the water falling to the bottom inside the tank 32 is re-introduced into the water circulation line 36 by the water pump 37. In addition, since the smoke inlet 321 and the smoke outlet 322 are both communicated with the cooking cavity 100 which is hermetically arranged, after the oil smoke in the cooking cavity 100 enters the box body 32 through the smoke inlet 321 and is subjected to oil smoke treatment, the residual oil smoke can enter the cooking cavity 100 through the smoke outlet 322 again. The above process is repeated continuously, so that the oil smoke in the cooking cavity 100 can be effectively treated without being discharged outside the cabinet 1, thereby realizing zero emission of the oil smoke.

It is understood that the micro refrigerator 35 can be other existing micro refrigerator devices, and the detailed description thereof is omitted.

It should be noted that, referring to fig. 6, when the water in the tank 32 and the water circulation line 36 is insufficient, water can be added into the tank 32 through the water adding port 320. Preferably, referring to fig. 6, the water filling port 320 is opened at the top of the tank 32, a water filling pipe 325 is hermetically penetrated through the water filling port 320, and one end of the water filling pipe 325 is penetrated into the tank 32, so that water can be filled into the tank 32 through the water filling pipe 325. Illustratively, the water supply line 325 may be in communication with an external water source, and a water pipe valve (not shown) may be provided in the water supply line 325, which is controlled to open when water is required to be supplied to the tank 32. It can be understood that, a soot cleaning fluid may be further added into the box 32 through the water adding port 320, so that the soot cleaning fluid added into the box 32 may be mixed with water in the box 32, and then is delivered to the first water outlet 360 through the water circulation pipeline 36 to be continuously sprayed onto the soot filter assembly 34 below, so as to clean the soot filter assembly 34 with soot, and thus, the soot filter assembly 34 does not need to be frequently replaced.

For example, in the embodiment of the present invention, please refer to fig. 9, the soot filter assembly 34 may be a plurality of soot filter layers 340 disposed in the soot passage 323.

In the embodiment of the present invention, referring to fig. 6 to 8, preferably, the oil smoke treatment device 3 further includes a spraying plate 38 having a plurality of spraying holes 380, the spraying plate 38 is disposed between the oil smoke channel 323 and the top of the box 32 for spacing the oil smoke channel 323 and the top of the box 32; the at least one first water outlet 360 is located above the spray plate 38, so that water sprayed from the first water outlet 360 can fall onto the spray plate 38, and then dispersedly fall into the lampblack channel 323 through the plurality of spray holes 380 of the spray plate 38, thereby achieving the effect of uniform spraying. Therefore, by providing the shower plate 38, the water sprayed from the first water outlet 360 can be sprayed into the soot passage 323 relatively uniformly, so that the soot passage 323 can be cooled more effectively.

For example, referring to fig. 6 to 8, the lampblack treatment device 3 further comprises a cooling body 39 which is a hollow structure, the cooling body 39 has a second water inlet 390 which is communicated with the water outlet section of the water circulation pipeline 36, and the cooling body 39 has a second water outlet 391 which is located above the spray plate 38, so that the water in the water outlet section of the water circulation pipeline 36 can flow into the cooling body 39 through the second water inlet 390 and then fall onto the spray plate 38 through the second water outlet 391. In order to allow the cooling body 39 to cool the heat conduction portion 351 of the micro refrigerator 35, the cooling body 39 is disposed in contact with both the heat conduction portions 351 of the micro refrigerator 35, so that the cold water continuously flowing into the cooling body 39 can continuously take away the heat of the heat conduction portion 351 to allow the heat conduction portion 351 to be cooled, thereby allowing the micro refrigerator 35 to perform a better cooling operation. The cooling body 39 may have a box structure or a bent pipe structure, and is not particularly limited herein.

When the micro refrigerator 35 is located in the box 32, in order to make the micro refrigerator 35 effectively radiate heat, in the embodiment of the present invention, referring to fig. 8, a heat dissipating port 324 is opened at the top of the box 32, an accommodating cavity 310 communicated with the heat dissipating port 324 is disposed above the spraying plate 38, the heat conducting portion 351 of the micro refrigerator 35 and the cooling body 39 are disposed in the accommodating cavity 310, so that the heat generated by the heat conducting portion 351 of the micro refrigerator 35 can be discharged through the heat dissipating port 324. And since the accommodating chamber 310 is communicated only with the heat radiating port 324, the heat generated by the heat conducting portion 351 can be discharged only through the heat radiating port 324 and cannot enter the soot passage 323. It should be noted that the accommodating cavity 310 may be a hollow cube structure or a hollow cylinder structure, and is not limited in this respect.

In the embodiment of the present invention, preferably, referring to fig. 4 to 6, the oil smoke treatment device 3 further includes a smoke inlet pipe 311 (which may be configured to cooperate with the pot cover 23 mentioned below) and a spraying cavity 312 with an open top, the top of the spraying cavity 312 is fixed to the bottom of the spraying plate 38 where the spraying holes 380 are formed, and the bottom of the spraying cavity 312 is located above the bottom in the box 32 and is provided with a through hole 3120; one end of the smoke inlet pipe 311 hermetically penetrates through the smoke inlet 321 in the direction of the interior of the box 32 and hermetically penetrates into the spray cavity 312, and the other end of the smoke inlet pipe 311 penetrates into the cooking cavity 100, so that under the action of the fan 33, the oil smoke in the cooking cavity 100 can enter the spray cavity 312 through the smoke inlet pipe 311, then enter the area between the box 32 and the spray cavity 312 through the through hole 3120, and finally be discharged through the smoke outlet 322. In the spraying cavity 312, a lampblack spraying channel 3121 which is extended is formed between the one end of the smoke inlet pipe 311 and the through hole 3120, so that a path through which lampblack enters the spraying cavity 312 passes is longer, and the condensation and filtration of lampblack are facilitated. At least one oil smoke filtering layer 340 is arranged in the oil smoke spraying channel 3121, and the at least one refrigeration sheet 350 is arranged in the spraying cavity 312 and distributed right above the oil smoke spraying channel 3121. Further, the bottom of each section of the soot shower passage 3121 communicates with the through hole 3120, so that the water sprayed from the spray holes 380 of the spray plate 38 into the soot shower passage 3121 can be discharged to the bottom inside the cabinet 32 through the through hole 3120.

Exemplarily, the lampblack treatment device 3 further comprises: referring to fig. 6 to 8, a transverse partition 314, a first longitudinal partition 313, a second longitudinal partition 315 and a third longitudinal partition 316; the first vertical partition 313 is longitudinally disposed between the spray plate 38 and the bottom of the interior of the box body 32, so as to divide an area between the spray plate 38 and the bottom of the interior of the box body 32 into two parts, and a soot passage port 3130 is formed between the bottom of the first vertical partition 313 and the bottom of the interior of the box body 32. The horizontal partition 314 is located between the shower plate 38 and the bottom of the interior of the box 32, and is located between the first vertical partition 313 and a side plate of the box 32 opposite to the first vertical partition. Thus, the horizontal partition 314, the first vertical partition 313, the shower plate 38 and the corresponding inner side wall of the box 32 enclose the shower chamber 312.

In order to extend the lampblack spray passage 3121 formed between the one end of the smoke inlet pipe 311 and the through opening 3120, for example, referring to fig. 6 to 8, the second longitudinal partition 315 is longitudinally disposed between the first longitudinal partition 313 and the side plate of the box 32, the top of the second longitudinal partition 315 is hermetically connected to the bottom of the spray plate 38, and the bottom thereof is spaced from the top of the transverse partition 314; the third longitudinal partition 316 is longitudinally disposed between the second longitudinal partition 315 and the side plate of the box 32, the top of the third longitudinal partition 316 is spaced from the bottom of the shower plate 38, and the bottom of the third longitudinal partition 316 is fixed to the top of the horizontal partition 314. Thus, the oil smoke discharged from the end of the smoke inlet pipe 311 located between the first longitudinal partition 313 and the second longitudinal partition 315 can firstly pass through the area between the first longitudinal partition 313 and the second longitudinal partition 315, then pass through the area between the second longitudinal partition 315 and the third longitudinal partition 316, and finally pass through the area between the third longitudinal partition 316 and the corresponding inner side wall of the box 32. In addition, the smoke outlet 322 is opened at the other side plate of the box 32 opposite to the side plate and is located below the shower plate 38, the through hole 3120 is opened at the diaphragm 314, and the through hole 3120 is located between the third longitudinal diaphragm 316 and the side plate of the box 32 (adjacent to and opposite to the third diaphragm), so that the oil smoke introduced into the shower cavity 312 can be discharged between the diaphragm 314 and the bottom of the box 32 through the through hole 3120 and then sequentially discharged through the oil smoke passage port 3130 and the smoke outlet 322. Therefore, by arranging the partition plates in the box body 32, the passing path of the oil smoke entering into the box body 32 can be lengthened, and the condensation and filtration of the oil smoke are facilitated. In order to enable the water sprayed between the second vertical partition and the third vertical partition to smoothly flow to the through port 3120, a slit port 3160 is formed between the bottom of the third vertical partition and the diaphragm 314.

It should be noted that the spraying cavity 312 may also be a hollow cylinder structure or other structures, and is not limited herein. In addition, the extending manner of the lampblack spray channel 3121 in the spray cavity 312 may also be other arrangements, for example, it may be a spiral structure from top to bottom or a spiral structure from inside to outside on a horizontal plane, and the like, which is not limited herein.

In the embodiment of the present invention, referring to fig. 6 to 9, preferably, the oil smoke processing apparatus 3 further includes a first filtering box 317, the first filtering box 317 is provided with an oil smoke inlet 3170 and an air outlet 3171, the oil smoke inlet 3170 is communicated with the air outlet 322, the air outlet 3171 is communicated with the cooking cavity 100, so that the oil smoke entering the box 32 through the air inlet 321 enters the first filtering box 317 through the air outlet 322, and then enters the cooking cavity 100 again through the air outlet 3171. In addition, at least one soot filter layer 3172 is disposed between the soot inlet 3170 and the gas outlet 3171 of the gas outlet 3171, so that soot treated in the box 32 enters the first filter tank 317 and is filtered by the soot filter layer 3172 in the first filter tank 317, thereby more effectively treating soot.

Preferably, referring to fig. 6 to 9, the oil smoke treatment device 3 further includes a water drainage pipe 3173. The oil smoke inlet 3170 is located at the top of the first filtering box 317, and the air outlet 3171 is located at the bottom of the first filtering box 317, so that the oil smoke entering the first filtering box 317 can sequentially pass through the oil smoke filtering layer 3172 arranged between the oil smoke inlet 3170 and the air outlet 3171 from top to bottom. In addition, the first filter tank 317 is located below the tank 32, one end of the drain pipe 3173 is connected to the top of the first filter tank 317, and the other end of the drain pipe 3173 penetrates into the tank 32 in a sealed manner and protrudes from the bottom of the tank 32, so that when water is added into the tank 32 to make the water level in the tank 32 higher than the set height of the other end of the drain pipe 3173, the water in the tank 32 can flow down into the first filter tank 317 through the drain pipe 3173 and pass through the lampblack filter layer arranged between the lampblack inlet 3170 and the air outlet 3171 from top to bottom, so that the first filter tank 317 can be effectively cooled, and lampblack entering the first filter tank 317 can be effectively condensed.

The water falling into the first filter tank 317 may be discharged to the bottom of the cooking cavity 100 through the air outlet 3171, and then discharged through a water outlet 101 (not shown, but the water outlet 101 communicates with the bottom of the cooking cavity 100) formed at the bottom of the cabinet 1. It should be noted that, when the water filling port 320 is opened at the top of the box 32, water is added into the box 32 through the water filling port 320, so that the oil smoke filter assembly 34 can be uniformly sprayed after passing through the spraying plate 38, and thus the oil smoke filter assembly 34 can be cooled, and the oil smoke filter assembly 34 can be cleaned to a certain extent, and when the water level of the accumulated water falling into the bottom of the box 32 is high, the accumulated water can fall into the first filter tank 317 through the drain pipe 3173, so as to clean the oil smoke filter layer 340 in the first filter tank 317, and then the oil smoke filter layer 340 is discharged into the cooking cavity 100 through the air outlet 3171, and finally the oil smoke is discharged through the water discharge port 101. In order to enhance the soot cleaning effect of the soot filter assembly 34, a soot cleaning liquid may be added into the tank 32 through the water inlet 320.

Preferably, referring to fig. 6 to 9, the oil smoke treatment device 3 further includes an oil smoke outlet pipe 318 and a second filter tank 319; the second filtering box 319 is communicated with the smoke outlet 322 through the fan 33, and is communicated with the soot inlet 3170 of the first filtering box 317 through the smoke outlet pipe 318, and at least one soot filtering layer 3190 is disposed in the second filtering box 319. The oil smoke discharged from the box 32 through the smoke outlet 322 enters the second filter tank 319, and enters the first filter tank 317 after being filtered by the oil smoke filter layer 3190 in the second filter tank 319, so as to be filtered again, thereby further improving the oil smoke filtering effect.

It should be noted that, the oil smoke filter layer according to the embodiment of the present invention may be made of a material having a good adsorption capacity for oil smoke and a good thermal conductivity, for example, a steel wire ball or a metal wire mesh stacked in layers, and is not limited in particular.

It can be known from the above analysis, in the embodiment of the above utility model, through setting up oil smoke processing apparatus 3 can carry out the efficient handling to the oil smoke that the stir-fry in-process produced like this to can effectively avoid the pollution of oil smoke to the environment.

For the convenience of understanding, the structure of the wok movement control device 22 will be described in detail with reference to fig. 11 to 15:

in an alternative embodiment, referring to fig. 11 to 15, the wok movement control device 22 includes a main driving screw 220, a sub driving screw 221, a driving motor 222, a synchronous rotating assembly 224 and two moving connectors 223; the two movable connecting pieces 223 are used for being connected with two sides of the frying pan 20; a first end of the main driving screw 220 is connected with one of the movable connecting pieces 223, and a first end of the auxiliary driving screw 221 is connected with the other movable connecting piece 223; a second end of the main driving screw 220 is connected with a second end of the auxiliary driving screw 221 through the synchronous rotating assembly 224; the driving motor 222 is used for driving the main driving screw 220 to rotate. Wherein the main driving screw 220 and the sub driving screw 221 are maintained in parallel.

The embodiment of the utility model provides an embodiment's frying pan mobile control device 22's theory of operation is: the driving motor 222 drives the main driving screw rod 220 to rotate, and simultaneously drives the auxiliary driving screw rod 221 to rotate through the synchronous rotating assembly 224, that is, the driving motor 222 rotates to simultaneously drive the main driving screw rod 220 and the auxiliary driving screw rod 221 to rotate, and the main driving screw rod 220 and the auxiliary driving screw rod 221 respectively convert the rotation into linear motion to drive the left side and the right side of the wok 20 to synchronously move back and forth. The embodiment of the utility model provides an adopted bilateral synchro-driven, avoided unilateral drive to cause 20 device distortions of frying pan, only need adopt a driving motor 222 simultaneously, simple structure, the cost is reduced.

In an alternative embodiment, referring to fig. 11-15, the synchronous rotating assembly 224 includes a first synchronous wheel 2240, a second synchronous wheel 2241 and a first synchronous belt 2242; the first synchronous wheel 2240 is arranged on the main driving screw rod 220; the second synchronizing wheel 2241 is arranged on the auxiliary driving screw rod 221; the first timing belt 2242 connects the first timing wheel 2240 and the second timing wheel 2241, so that the first timing wheel 2240 rotates while driving the second timing wheel 2241 to rotate. The rotation of the first synchronizing wheel 2240 is transmitted to the second synchronizing wheel 2241 through the first synchronizing belt 2242, so that the main driving screw rod 220 drives the auxiliary driving screw rod 221 to rotate.

In an alternative embodiment, referring to fig. 11-15, the synchronous rotating assembly 224 further includes a third synchronous wheel 2243, a fourth synchronous wheel 2244 and a second synchronous belt 2245; a drive terminal of the drive motor 222 is connected to the third synchronizing wheel 2243; the fourth synchronizing wheel 2244 is arranged on the main driving screw rod 220; second synchronous belt 2245 connects third synchronizing wheel 2243 with fourth synchronizing wheel 2244 to make it rotates to drive when third synchronizing wheel 2243 rotates fourth synchronizing wheel 2244 rotates. The embodiment of the utility model provides a rather than adopting driving motor 222 direct drive main drive lead screw 220's mode, but through third synchronizing wheel 2243, fourth synchronizing wheel 2244 and the indirect drive main drive lead screw 220 of second synchronous belt 2245, can protect driving motor 222 well, prolonged driving motor 222's life-span.

In an alternative embodiment, please refer to fig. 11 to 15, the wok movement control device 22 further includes two linear slide rails 26 fixed inside the wok and parallel to each other; the two movable connecting pieces 223 are movably arranged on the two linear sliding rails 26 in a one-to-one correspondence manner. Specifically, two sliding blocks (not shown) are respectively disposed on the two movable connecting members 223, and each sliding block is provided with a sliding slot (not shown) matched with the corresponding linear sliding rail 26.

In an alternative embodiment, please refer to fig. 11 to 15, the wok movement control device 22 further includes a limit switch box 27 disposed above one of the moving connectors 223; the limit switch box 27 comprises a first limit switch 271 arranged at the upper limit position of the frying pan 20 and a second limit switch 272 arranged at the lower limit position of the frying pan 20.

Whether the wok 20 reaches two limit positions in the linear motion direction can be detected through the first limit switch 271 and the second limit switch 272, and when the wok reaches the two limit positions, the driving motor 222 is stopped, so that the motion mechanism is prevented from being damaged.

More preferably, the wok movement control device 22 further comprises an upper sensor (not shown) and a lower sensor (not shown) disposed on one of the movement connectors 223, for sensing whether the position of the furnace body driven up and down reaches the system required position. Wherein, the upper sensor is used for sensing that the frying pan 20 reaches the position for closing the pan cover 23 when moving upwards, and the system controls the driving motor 222 to stop rotating, so that the frying pan 20 is positioned at the position for stir-frying; the lower position sensor is used for sensing that the frying pan 20 reaches the position of opening the pan cover 23 when moving downwards, and the system controls the driving motor 222 to stop rotating, so that the frying pan 20 is positioned at the position to perform station changing actions.

As can be seen from the analysis, the embodiment of the utility model provides an above-mentioned utility model is through utilizing frying pan mobility control device 22 controls frying pan 20 removes, makes frying pan 20 can remove predetermined position as required at the in-process of cooking like this, thereby makes frying pan 20 can cooperate with other devices of full-automatic cooking machine well, has improved the automation of full-automatic cooking machine.

For better understanding, other aspects of embodiments of the present invention are described in detail below:

in an alternative embodiment, referring to fig. 13, the wok mechanism 2 further includes a wok heating device 24 and a wok stir-frying device 25; the frying pan heating device 24 is electrically connected with the control device 13 and is used for heating the frying pan 20; the frying pan stir-frying device 25 is electrically connected with the control device 13 and is used for controlling the frying pan 20 to rotate around the central axis of the frying pan 20. Illustratively, referring to fig. 13, the wok stir-frying device 25 includes a rotating shaft 250, a stir-frying motor 251, and a wok holder 252; the wok station control device is used for turning over the wok fixing frame 252; frying pan heating device 24 with frying pan 20 all locates in frying pan mount 252, turn over the stir-fry motor 251 and be fixed in the bottom of frying pan mount 28, turn over the stir-fry motor 251 and pass through pivot 250 with frying pan 20 drive connection, turn over the stir-fry motor 251 with controlling means 13 electricity is connected, is receiving like this when the stir-fry control command that controlling means 13 sent turns over, turn over the stir-fry motor 251 drive pivot 250 rotates, thereby drives frying pan 20 realizes the degree rotation. Specifically, the wok heating device 24 is a heating coil (not shown) wound around the inner sidewall of the wok fixing frame 252 and surrounding the wok 20. It should be noted that, the specific structures of the frying pan heating device 24 and the frying pan turning device 25 may also refer to the prior art, which is not described herein again.

In an alternative embodiment, referring to fig. 1 and 4, the fully automatic cooker further includes a smoke inlet pipe 311 and a cooker cover 23 fixed inside the casing 1 and used for matching with the mouth of the cooker 20; one end of the smoke inlet pipe 311 is connected to an opening (not shown) through which the lid 23 penetrates, and the other end of the smoke inlet pipe 311 passes through the smoke inlet 321 in a sealing manner and is communicated with the interior of the oil smoke treatment device 3; an air outlet 3171 of the oil fume treatment device 3 is communicated with the interior of the machine shell 1.

Specifically, the opening (not shown) penetrates through the center of the lid 23, and the lid 23 is rotatably connected to the end of the smoke inlet pipe 311, so that the lid 23 can rotate around the smoke inlet pipe 311. The moving direction of the frying pan 20 is parallel to the central axis of the pan cover 23; when the frying pan 20 is turned to a frying station, the opening of the frying pan 20 faces the pan cover 23, and the central axis of the frying pan 20 coincides with the central axis of the pan cover 23. Therefore, when a user needs to fry, the frying pan 20 is firstly turned to the frying station through the frying pan station control device 21, the pan opening of the frying pan 20 is opposite to the pan cover 23, the frying pan 20 is moved through the frying pan movement control device 22 so that the pan cover 23 covers the pan opening of the frying pan 20, and then the frying pan 20 is controlled to rotate through the frying pan turning device 25 to fry, so that oil smoke generated in the frying pan 20 can intensively enter the oil smoke processing device 3 through the smoke inlet pipe 311 in the process of frying. After the frying operation is finished, the frying pan 20 needs to be opened, and the frying pan 20 is moved by the frying pan movement control device 22 to separate the pan cover 23 from the frying pan 20.

In an alternative embodiment, referring to fig. 1, 17 and 18, the full-automatic cooker further includes a discharging mechanism 4, and the discharging mechanism 4 is disposed in the casing 1; the blanking mechanism 4 comprises a blanking bin 40 for dropping food ingredients and a bin gate driving device 41; the bottom end face of the blanking bin 40 is provided with at least one blanking port 400, and each blanking port 400 is provided with a bin gate 401; the door driving device 41 is electrically connected to the control device 13 and is used for correspondingly driving the door 401 to open and close. When food ingredients are placed in the discharging bin 40 or an ingredient box containing the food ingredients is placed, if the full-automatic cooker needs to perform discharging operation, the control device 13 controls the operation of the bin gate driving device 41, so that the bin gate driving device 41 controls the corresponding bin gate 401 to be opened downwards. The door driving device 41 may refer to the prior door driving technology such as the patent publication nos.: CN103126515A, entitled "programmable control intelligent cooker"; or the patent publication number is: CN103284583A entitled "automatic feeding device suitable for full-automatic cooker", etc.). Illustratively, the gate driving device (not shown) includes motors (not shown) corresponding to the gates one to one, the motors are fixed at the position of the bottom of the blanking bin 40, where the blanking opening 400 is opened, and the motors are in driving connection with the gates one to one and electrically connected with the control device 13.

Preferably, please refer to fig. 1, the cooking machine provided in the embodiment of the present invention further includes a turning device 42 of the discharging mechanism, and the turning device 42 of the discharging mechanism is electrically connected to the control device 13 and is used for driving the discharging mechanism 4 to turn up and down. Referring to fig. 20 and 21, a side surface of the housing 1 is provided with an inlet/outlet 103 for the multi-bin ingredient box 43 to enter and exit, and referring to fig. 20 to 21, a side surface of the lower bin 40 is provided with an ingredient port 402 for the multi-bin ingredient box 43 to enter and exit. Referring to fig. 17, each compartment 430 of the multi-compartment ingredient box 43 has an opening 431 corresponding to the feeding opening 400, and each compartment 430 is used for containing the same or different food ingredients.

When the multi-bin ingredient box 43 needs to be put into the lower bin 40 or when the multi-bin ingredient box 43 needs to be taken out of the lower bin 40, please refer to fig. 21, the unloading mechanism turning device 42 controls the unloading mechanism 4 to turn downwards (i.e. turn the unloading mechanism 4 so that the top end of the unloading mechanism 4 faces downwards and the bottom end faces upwards) so that the ingredient opening 402 is aligned with the inlet/outlet 103. When the multi-bin ingredient box 43 is just put into the lower bin 40 through the ingredient opening 402 and the inlet/outlet 103, please refer to fig. 17, at this time, the openings 431 of the bins 430 of the multi-bin ingredient box 43 are opposite to the feed openings 400 one by one, and the control device 13 can control the feed mechanism 4 to turn over at this time (i.e. the top end surface of the feed mechanism 4 faces upward and the bottom end surface faces downward), so that each feed opening 400 is aligned with the pot opening. Referring to fig. 20, the multi-compartment ingredient box 43 in the lower bin 40 after being turned upside down may be turned upside down, so that the food ingredients inside the multi-compartment ingredient box 43 fall down onto the bin gate 401 (at this time, the bin gate 401 is in a closed state). When the cooker is in a feeding process, the door 41 controls the corresponding bin gate 401 to open, so that the food ingredients in the inverted multi-bin ingredient box 43 fall into the frying pan 20 from the corresponding feeding port 400.

It should be noted that, if the turning device 42 of the discharging mechanism is not provided in the cooker and the multi-bin ingredient box 43 is not needed, the discharging bin 40 may have a multi-bin structure (not shown), and an opening at the bottom of each bin of the multi-bin structure is the discharging opening 400. Of course, the blanking mechanism 4 may have other structures, and is not limited herein.

It can be understood that when the blanking mechanism 4 is driven to turn by the blanking mechanism turning device 42, the orientations of the bottom and the top of the blanking bin 40 are changed accordingly.

It should be noted that, the turning device 42 of the discharging mechanism refers to the driving technology of the discharging mechanism 4 (for example, the patent publication No. CN103126515A entitled "programmable intelligent cooker", or the patent publication No. CN103284583A entitled "automatic feeding device suitable for full-automatic cooker"), and details thereof are not repeated herein.

In an alternative embodiment, referring to fig. 1 and 2, the fully automatic cooker further includes a food waste disposer 5, a deflector housing 6, and a pot washing device 7. Wherein, wash pot device 7 locate in casing 1 and with controlling means 13 is electric connected, works as frying pan 20 is after the completion of cooking and when overturning to the washing station, controlling means 13 will control wash pot device 7 to wash frying pan 20, and works as wash pot device 7 to after frying pan 20 has washd, controlling means 13 can control frying pan station controlling means 21 makes frying pan station controlling means 21 upset frying pan 20 makes frying pan 20 is in the station of falling water (promptly frying pan 20 can fall water, and this moment the pot mouth of frying pan 20 is towards the below-mentioned opening at the top of water conservancy diversion casing 6). In addition, the food waste disposer 5 is arranged in the machine shell 1, and an outlet of the food waste disposer 5 is communicated with a water outlet 101 formed at the lower part of the machine shell 1; the water conservancy diversion casing 6 is hollow structure and upper and lower both ends opening, water conservancy diversion casing 6 is located frying pan 20's below is located directly over food waste disposer 5, water conservancy diversion casing 6 is narrowed down gradually by its top to its bottom, the opening of water conservancy diversion casing 6 bottom with food waste disposer 5's entry intercommunication, follow like this the sewage that frying pan 20 fell can by water conservancy diversion casing 6 is collected and the water conservancy diversion arrives in the food waste disposer 5, food waste disposer 5 can handle sewage and pass through outlet 101 is discharged.

Exemplarily, referring to fig. 16, the boiler washing device 7 includes a boiler washing nozzle 70, a water pipe switch 71 and a water inlet pipe 72; the water outlet pipe orifice of the water inlet pipe 72 is connected with the boiler washing spray head 70, and the water inlet pipe orifice 72 of the water inlet pipe 72 is used for being communicated with an external water source; the water pipe switch 71 is arranged in the water inlet pipe 72 and is electrically connected with the control device 13; referring to fig. 1, the pan washing nozzle 70 is disposed right above the flow guide housing 6 and is used for spraying the wok 20 with the turned pan opening facing the opening at the top of the flow guide housing 6, that is, the pan washing nozzle 70 is disposed at a position such that the pan washing nozzle 70 is aligned with the pan opening of the wok 20. Work as after intelligence cooking machine accomplished out the dish process, it is right if needs frying pan 20 washs, can pass through 20 drive arrangement of frying pan upset frying pan 20, so that the pot mouth of frying pan 20 is towards the opening at the top of water conservancy diversion casing 6, through opening this moment water pipe switch 71, like this wash pot shower nozzle 70 just can to the inside high pressure spray rinsing that carries out of frying pan 20, and the wash pot water after the spraying can fall into in the water conservancy diversion casing 6. It is worth noting that the water pipe switch 71 is an electrically controlled valve body switch. In addition, the boiler washing device 7 may also have other structures, and please refer to the prior art specifically, which is not described herein.

In an alternative embodiment, referring to fig. 1 and 2, the fully automatic cooker further includes a dish output tray 8 and a dish position detector 9. The dish outlet tray 8 is arranged right below the wok 20 and used for placing a dish, and a side surface of the casing 1 is provided with a dish outlet 102 adjacent to the dish outlet tray 8, so that the dish can be placed on the dish outlet tray 8 or taken out through the dish outlet 102. The dish position detector 9 is used for detecting the placing position of the dish and is electrically connected with the control device 13, and the control device 13 controls the operation of the wok movement control device 22 according to the detection signal of the dish position detector 9, so that after the frying machine finishes frying, the control device 13 controls the wok movement control device 22 to move the wok 20 to the position right above the dish according to the position signal of the dish detected by the dish position detector 9, and then the control device 13 controls the wok station control device 21 to turn over the wok 20, so that the pan mouth of the wok 20 is aligned with the dish to pour the dish. Illustratively, the dish position detector 9 is preferably an infrared correlation detector.

In an alternative embodiment, referring to fig. 1 and fig. 2, the side of the housing 1 having the dish outlet 102 is further provided with a door panel 11 and a side door opening corresponding to the door panel 11, and the door panel 11 is movably mounted on the housing 1 to open and close the side door opening. The door plate 11 and the opening are arranged on the machine shell 1, so that the maintenance of the devices in the machine shell 1, such as the frying pan mechanism 2, the oil fume treatment device 3, the automatic dish discharging device and the like, can be facilitated. Preferably, the door plate 11 is provided with a transparent or semitransparent window 110 to facilitate a user to observe the working condition of the fully automatic cooker. More preferably, the door panel 11 can also open or close the dish outlet 102, so that the automatic dish outlet device can send out the dishes in the dishes.

In an alternative embodiment, referring to fig. 1 and 2, a top cover plate 12 and a top door opening corresponding to the top cover plate 12 are disposed on the top of the casing 1, and the top cover plate 12 is movably mounted on the casing 1 to open and close the top door opening. Through the casing 1 set up the top gate and the lamina tecti 12, can make things convenient for the maintenance of unloading mechanism.

Generally speaking, in the above embodiment, according to different installation positions of the operating devices of the full-automatic cooker, a total of five stations are provided, which are respectively a main material loading station, a cooking station, a dish discharging station, a pot washing station and a pot water pouring station, and when the wok station control device 21 drives the wok 20 to rotate to each station, the mouth of the wok 20 faces to a corresponding operating device to perform corresponding automatic cooking operations such as loading, cooking, dish discharging, pot washing, pot water pouring and the like. The following is a specific description:

when the frying pan station control device 21 receives the main material feeding control instruction, the frying pan 20 is rotated to the feeding station (vertical position, also initial state) so that the pan opening faces the discharging mechanism 4.

When the frying pan station control device 21 receives a frying control instruction, the frying pan 20 is rotated clockwise to a frying station (preferably, a position with a positive 45 degrees inclination angle with the initial state) so that a pan opening faces the pan cover 23; then the wok movement control device 22 receives a wok cover 23 closing control instruction, controls the wok 20 to move towards the wok cover 23, and enables the wok opening of the wok 20 to be covered by the wok cover 23; and then the frying pan stir-frying device 25 controls the frying pan 20 to rotate to stir.

When the wok station control device 21 receives a dish discharging control instruction, the wok 20 is rotated clockwise to a dish discharging station (preferably, a position with an inclination angle of minus 135 degrees from an initial state) so that a wok opening faces a dish on the dish discharging tray 8.

When the wok station control device 21 receives a wok washing control instruction, the wok 20 is rotated anticlockwise to a wok washing station (preferably, a position with a positive 135-degree inclination angle with the initial state) so that a wok opening faces the automatic wok washing device 7; because this embodiment can make when being located the pot washing station the frying pan 20 to water is poured to water conservancy diversion casing 6 (promptly when frying pan 20 is located the pot washing station, the pot mouth of frying pan 20 is located directly over the baffle and towards the top of water conservancy diversion casing 6), therefore the pot washing station is the station of pouring water promptly.

To sum up, the embodiment of the utility model provides a pair of full-automatic cooking machine not only can turn over stir-fry device 25 through the frying pan and control 20 rotations of frying pan and turn over so that through frying pan station controlling means 21 control 20 overturns so that frying pan 20 reachs corresponding station and carries out corresponding operation, can also remove through frying pan mobile control device 22 control frying pan 20, makes it can better with other device cooperation works of cooking machine, for example can cooperate with pot cover 23, overturn frying pan 20 to the frying station and remove when cooking frying pan 20 make it keep the tightly closed state with pot cover 23, has further improved the automation of cooking machine, has improved the work efficiency of cooking machine. In addition, through setting up oil smoke processing apparatus 3 can carry out the effective processing to the oil smoke that the stir-fry in-process produced like this to can effectively avoid the pollution of oil smoke to the environment.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. An oil fume treatment device, characterized by comprising:

the oil smoke filtering component is arranged in the oil smoke channel;

2. The lampblack treatment device according to claim 1, further comprising a water circulation pipeline and a water pump;

3. The fume treatment device according to claim 2, characterized in that it further comprises a shower plate;

4. The lampblack treatment device according to claim 3, further comprising a water feeding pipe and a water pipe valve;

5. The lampblack treatment device according to claim 3, further comprising a smoke inlet pipe;

6. The fume treatment device according to claim 5, further comprising a spray chamber with an open top;

7. The lampblack treatment device according to claim 6, further comprising:

8. The lampblack processing device according to claim 1, further comprising a smoke outlet pipe and a second filter box;

the second filter tank is communicated with the smoke outlet through the fan, and at least one oil smoke filter layer is arranged in the second filter tank; the oil smoke inlet of the first filter box is communicated with the second filter box through the smoke outlet pipe.

9. The lampblack processing device according to claim 1, further comprising a micro refrigerator having a refrigerating portion disposed in the lampblack passage.

10. A cooker, characterized in that it comprises: a housing and the fume treatment device according to any one of claims 1 to 9 disposed in the housing; the cooking cavity body that has sealed setting in the casing, advance the mouth with the outlet flue all with the cooking cavity body intercommunication.