CN213464698U - Environment-friendly intelligent frying pan - Google Patents

Abstract

The utility model relates to an environmental protection intelligence frying pan relates to the technical field of frying pan, and it still includes including the fire platform of placing the frying pan: the automatic cooking mechanism comprises a frying pan, an automatic feeding component and a stir-frying component, wherein the automatic feeding component is used for automatically adding dishes to be cooked and/or seasonings into the frying pan, and the stir-frying component is used for stir-frying the dishes to be cooked and/or the seasonings in the frying pan; oil smoke purification mechanism, including negative pressure subassembly, condensation liquefaction subassembly and filtering component, the negative pressure subassembly sets up by the frying pan for absorb the oil smoke that the frying pan produced, condensation liquefaction subassembly and filtering component are linked together with the negative pressure subassembly, are used for carrying out condensation liquefaction and filtration to absorptive oil smoke. This application is when the cook makees the dish, will eat the material through the automatic material conveying subassembly and put into the frying pan to stir-fry by stirring the edible material of stir-fry subassembly in to the frying pan, the cook of being convenient for makees multichannel dish simultaneously, has the effect that can guarantee the speed of going out dish and dish quality that require simultaneously.

Description

Environment-friendly intelligent frying pan

Technical Field

The application relates to the technical field of frying pans, in particular to an environment-friendly intelligent frying pan.

Background

The frying pan is a cooking tool, is one kind of pan, and is characterized in that the top opening is large, the round bottom is round, and the frying pan is designed to be provided with a handle to facilitate throwing and frying because the food in south China is mainly fried in small quantities. Woks are used primarily for frying or sauteing food, but may also be used for other different cooking methods such as steaming, stewing, frying, etc. Frying pans are the main cooking tools in China and southeast Asia.

In the prior art, cooking is finished manually, a cook can cook only one dish at the same time, the requirement on the speed of dish serving in commercial places such as restaurants is high, and the current technology cannot meet the requirement. In addition, a large amount of oil smoke is generated during cooking, and the protection of the atmospheric environment near a restaurant is not facilitated.

Aiming at the problems in the prior art, the inventor thinks that manual cooking can take a great deal of time and energy of a cook, if the cook cooks only one dish at the same time, the requirement of the dish discharging speed cannot be met, and if the cook cooks a plurality of dishes at the same time, the situation that the dishes are not fried in time easily occurs, and the quality of the dishes is reduced.

SUMMERY OF THE UTILITY MODEL

In order to make multichannel vegetable and ensure the vegetable quality for the convenience of cook simultaneously, this application provides an environmental protection intelligence frying pan.

The application provides a pair of environmental protection intelligence frying pan adopts following technical scheme:

the utility model provides an environmental protection intelligence frying pan, is including the fire platform of placing the frying pan, its characterized in that: further comprising:

the automatic cooking mechanism comprises a frying pan, an automatic feeding component and a stir-frying component, wherein the automatic feeding component is used for automatically adding dishes to be cooked and/or seasonings into the frying pan, and the stir-frying component is used for stir-frying the dishes to be cooked and/or the seasonings in the frying pan;

oil smoke purification mechanism, including negative pressure subassembly, condensation liquefaction subassembly and filtering component, the negative pressure subassembly set up in the frying pan is other for absorb the oil smoke that the frying pan produced, condensation liquefaction subassembly and filtering component with the negative pressure subassembly is linked together for carry out condensation liquefaction and filtration to absorptive oil smoke.

Through adopting above-mentioned technical scheme, when the cook makeed the vegetable, will eat the material and put into the stir-fry pot through the automatic material conveying subassembly to stir-fry by stirring the edible material of stir-fry subassembly in to the frying pan, the cook of being convenient for makeed multichannel vegetable simultaneously, can guarantee the speed of dish and the vegetable quality of asking simultaneously. In the process, the frying pan is heated by the fire table, so that the purpose of making dishes is achieved; meanwhile, the oil fume purification mechanism reduces the influence of oil fume generated in the dish making process on the environment. The negative pressure component is convenient for the circulation of oil smoke, and the condensation liquefaction component and the filtering component are used for achieving the purpose of purifying the oil smoke.

Preferably, the negative pressure assembly, the condensation liquefaction assembly and the filtering assembly are communicated through an oil smoke pipeline, one end of the oil smoke pipeline extends to the upper part of the frying pan, and the other end of the oil smoke pipeline extends into an external oil smoke discharge channel after penetrating through the condensation liquefaction assembly and the filtering assembly.

Through adopting above-mentioned technical scheme, be convenient for the oil smoke via condensation liquefaction subassembly and filtering component in proper order, and the oil smoke earlier can be with the liquefied oil filtering of condensation in the oil smoke through condensation liquefaction subassembly, when the oil smoke after the filtration got into filtering component, and the difficult jam filtering component of oil.

Preferably, the condensation liquefaction assembly comprises a condensation tank and a condensation pipeline, and the condensation pipeline is arranged in the condensation tank;

the condensing pipeline penetrates through the condensing box, one end of the condensing pipeline is communicated with one section of the oil smoke pipeline close to the frying pan, and the other end of the condensing pipeline is communicated with the filtering component;

a liquid outlet hole is formed in the bottom of the condensing pipeline and communicated with a liquid drainage pipeline, and an outlet of the liquid drainage pipeline penetrates out of the condensing box.

Through adopting above-mentioned technical scheme, the oil smoke gets into filtering component behind the condensation duct, and the oil smoke is at the in-process via the condensation duct, by the condensing box condensation liquefaction, and the liquid that the oil smoke liquefaction produced gets into out liquid hole and flowing back pipeline through the action of gravity to get rid of in the condensing box.

Preferably, the condensation pipeline comprises at least one group of a first horizontal section, a bending section and a second horizontal section which are sequentially communicated, the first horizontal section, the bending section and the second horizontal section are arranged in a U shape, the first horizontal section is positioned above the second horizontal section, one end of the first horizontal section, which is far away from the bending section, is communicated with one section of the oil smoke pipeline, which is close to the wok, and one end of the second horizontal section, which is far away from the bending section, is communicated with the filtering component;

the bottom of the second horizontal section, which is close to one end of the filtering component, is provided with the liquid outlet hole.

Through adopting above-mentioned technical scheme, the time of the oil smoke flow through the condensing box is prolonged in the setting of first horizontal segment, bending segment and second horizontal segment for more oil can the condensation liquefaction, reduces the probability that oil blockked up filter assembly.

Preferably, the filtering component comprises a purifier box, and a first purifying part, a second purifying part and a third purifying part which are sequentially arranged in the purifier box, wherein the purifier box is provided with an air inlet and an air outlet, the air inlet is communicated with a section of the oil smoke pipeline penetrating through the condensation liquefaction component, and the air outlet is communicated with a section of the oil smoke pipeline close to the external oil smoke discharge channel;

the first purifying part is arranged close to the air inlet, the first purifying part is configured into a plurality of filter screens arranged in parallel, the second purifying part is configured into an electrostatic dust removal electrode slice, and the third purifying part is arranged close to the air outlet and is configured into a plurality of filter cottons arranged in parallel.

By adopting the technical scheme, the oil smoke flowing to the filtering component sequentially passes through the filter screen, the electrostatic dust removal electrode plate and the filter cotton, so that the purpose of filtering impurities in the oil smoke is realized, and the influence of the oil smoke on the environment is further reduced.

Preferably, the negative pressure assembly is configured as a fan assembly communicated with the fume duct, and the fan assembly is arranged between the filtering assembly and the external fume exhaust passage.

Through adopting above-mentioned technical scheme, the suction of fan subassembly makes the oil smoke pass through condensation liquefaction subassembly and filtering component in proper order behind the oil smoke pipeline, and the outside oil smoke escape way of backward flow direction.

Preferably, the automatic feeding assembly comprises a water inlet pipe and an oil inlet pipe, the ends of the water inlet pipe and the oil inlet pipe, which are far away from the frying pan, are both communicated with peristaltic pumps, and the ends of the two peristaltic pumps, which are far away from the water inlet pipe and the oil inlet pipe, are respectively communicated with a water source and an oil source;

the stir-frying component comprises a supporting piece, a stir-frying piece and a stir-frying driving piece, the stir-frying piece is suspended in the stir-frying pan and is provided with at least one transmission rod and a stir-frying plate; the stir-frying driving piece is in transmission connection with the transmission rod and is used for providing a driving force for driving the stir-frying plate to rotate around the transmission rod in the axial direction;

the support piece comprises a support rod, one end of the support rod is connected with the fire table, and the other end of the support rod is connected with the stir-frying driving piece.

Through adopting above-mentioned technical scheme, through the measurement that the peristaltic pump can be more accurate add into the water yield and the oil mass in the fried pot via inlet tube and oil inlet pipe. The supporting rod is used for supporting the stir-frying driving piece, the stir-frying driving piece drives the stir-frying piece to repeatedly stir and fry food materials in the stir-frying pan, and the food materials are convenient to uniformly heat.

Preferably, one end of the support rod, which is far away from the frying pan, is rotatably connected with the fire table, and a rotary driving piece for driving the support rod to rotate is arranged between the support rod and the fire table;

when the rotary driving piece is in a first state, the stir-frying piece is suspended in the stir-frying pan;

when the rotary driving piece is in the second state, the stir-frying piece is lifted and is far away from the stir-frying pan.

By adopting the technical scheme, when the rotary driving piece is in the first state, the stir-frying piece is suspended in the frying pan, so that the stir-frying piece can stir and fry food materials in the frying pan; when the rotary driving piece is in the second state, the stir-frying piece is lifted and is far away from the frying pan, so that a cook can add food materials or take out prepared dishes conveniently.

Preferably, the rotary driving part is configured as a telescopic cylinder, the output end of the rotary driving part is rotatably connected to one end of the support rod away from the stir-frying part, and one end of the rotary driving part away from the stir-frying component is hinged in the fire table;

the fire platform in rotation driving piece department is provided with proximity switch, proximity switch signal connection has the control cabinet, the control cabinet sets up one side of fire platform.

By adopting the technical scheme, when the rotary driving piece is in the first state, the telescopic cylinder is in the extension state, and the supporting rod is in the horizontal state at the moment; when the rotation driving piece is in the second state, the telescopic cylinder is in the contraction state and rotates towards the direction close to the stir-frying piece, and at the moment, the supporting rod rotates and lifts and is far away from the frying pan close to one end of the stir-frying piece. The rotating driving piece drives the pot cover to rotate through stretching and retracting and then can trigger the proximity switch, the proximity switch sends an electric signal to the console, and the console controls the rotating driving piece to stop stretching and retracting, so that the maximum rotating angle of the stir-frying piece is limited.

Preferably, the bracing piece with turn over and fry and be provided with the pot cover between the piece, the pot cover includes first sub-pot cover and the sub-pot cover of second through hinge connection, first sub-pot cover is more the cook setting is kept away from to the sub-pot cover of second, first sub-pot cover is kept away from the one end fixed connection of the sub-pot cover of second in the bracing piece, the sub-pot cover of second is kept away from one side of frying pan is fixed with the promotion handle.

By adopting the technical scheme, different food materials or seasonings can be added sequentially according to requirements in the process of dish making.

In summary, the present application includes at least one of the following beneficial technical effects:

through the arrangement of the fire table, the automatic dish frying mechanism and the oil fume purification mechanism, when a cook makes dishes, food materials are put into the frying pan through the automatic feeding assembly, and the food materials in the frying pan are stir-fried by the stir-frying assembly, so that the cook can make a plurality of dishes conveniently and can ensure the required dish discharging speed and dish quality at the same time; in the process, the frying pan is heated by the fire table, so that the purpose of making dishes is achieved; meanwhile, the oil fume purification mechanism reduces the influence of oil fume generated in the process of preparing dishes on the environment; the negative pressure component is convenient for the circulation of oil smoke, and the condensing and liquefying component and the filtering component are used for realizing the purpose of purifying the oil smoke;

furthermore, through the arrangement of the supporting rod, the rotary driving piece, the proximity switch and the control console, the position of the stir-frying piece is convenient to automatically control, and meanwhile, the maximum rotation angle of the stir-frying piece can be limited;

furthermore, through the arrangement of the pot cover, a cook can add different food materials or seasonings in the process of making dishes according to the requirement.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a front view of the embodiment of the present application as shown (with one door of the fire deck open to show the internal structure of the fire deck);

FIG. 3 is a right side view showing the internal structure of the fire table (with the lid closed);

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

FIG. 5 is a schematic structural view of a stir fry assembly of an embodiment of the present application;

FIG. 6 is a right side view showing the internal structure of the fire table (with the lid open);

FIG. 7 is a schematic structural view of the planetary gear set;

FIG. 8 is a schematic view showing the internal structure of the condensation purification unit;

FIG. 9 is a schematic view of the construction of the filter assembly (second purge member not shown);

fig. 10 is a schematic structural view of the second purification member.

Reference numerals: 1. a fire table; 11. a console; 12. clamping and connecting edges; 13. a pool; 14. a proximity switch; 2. an automatic cooking mechanism; 21. a frying pan; 211. a snap ring; 22. an automatic feeding assembly; 221. a water inlet pipe; 222. an oil inlet pipe; 223. a peristaltic pump; 23. a stir-fry assembly; 231. a support member; 2311. a support bar; 2312. a dust cover; 232. stirring the fried pieces; 2321. a transmission rod; 2322. turning over the frying plate; 233. a stir-fry drive; 234. rotating the driving member; 24. a planetary gear set; 241. an internal gear; 242. a driven gear; 243. a driving gear; 3. an oil fume purification mechanism; 31. a negative pressure assembly; 311. a fan; 32. an oil smoke pipeline; 4. a pot cover; 41. a first sub-pot cover; 42. a second sub-pot cover; 43. lifting the handle; 431. a cylinder; 432. a sphere; 5. a condensing and liquefying component; 51. a condenser tank; 52. a condensing duct; 521. a first horizontal segment; 522. bending the section; 523. a second horizontal segment; 5231. a liquid outlet hole; 524. a liquid discharge channel; 6. a filter assembly; 61. a purifier case; 62. a first purifying member; 63. a second purifying member; 631. an avoidance angle; 64. a third purifying member; 65. an air inlet; 66. an air outlet; 67. a groove-shaped limiting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-10.

The embodiment of the application discloses environmental protection intelligence frying pan. Referring to fig. 1 and 2, the fire table 1 for placing the frying pan 21, the automatic cooking mechanism 2 and the oil smoke purifying mechanism 3 are included, the fire table 1 is usually placed on the ground, and a control console 11 is arranged on one side of the fire table 1, so that a cook can conveniently control the working state of the fire table 1, namely whether the fire is on and the fire power degree.

Referring to fig. 1 and 2, the automatic cooking mechanism 2 includes a pan 21, an automatic feeding assembly 22 and a stir-frying assembly 23 (see fig. 3), the automatic feeding assembly 22 is used for automatically feeding dishes and/or seasonings to be cooked into the pan 21, and the stir-frying assembly 23 is used for stir-frying the dishes and/or seasonings to be cooked in the pan 21.

Referring to fig. 3 and 4, in the embodiment of the present application, 2 woks 21 can be placed on the fire table 1, the fire table 1 is provided with the clamping edge 12 at the woks 21, the clamping ring 211 is fixed at the edge of the woks 21, and the clamping ring 211 is clamped on the clamping edge 12 to limit the positions of the woks 21.

Referring to fig. 1, a water tank 13 may be further disposed between 2 frying pans 21 of the fire table 1, so that a cook can add water during a process of making dishes.

Referring to fig. 1 and 4, a pan cover 4 is disposed on one side of the frying pan 21 away from the fire table 1, the pan cover 4 includes a first sub-pan cover 41 and a second sub-pan cover 42 connected by a hinge, and the first sub-pan cover 41 is disposed away from the cook than the second sub-pan cover 42. A lifting handle 43 is fixed on the side of the second sub-lid 42 away from the frying pan 21, and the lifting handle 43 comprises a column 431 in cylindrical arrangement and a sphere 432 or a disc for facilitating the cook to lift the second sub-lid 42.

In the process of cooking dishes, due to the requirements of some dishes, other raw materials, seasonings and/or water are generally required to be added continuously in the cooking process, and at this time, the cook can rotate the second sub-pan cover 42 away from the frying pan 21 by lifting the handle 43, so that the cook can add the raw materials, the seasonings and/or the water into the frying pan 21. Meanwhile, the cook can observe the cooking condition of the dishes conveniently.

Referring to fig. 1, the automatic feeding assembly 22 includes a water inlet pipe 221 and an oil inlet pipe 222, one end of the water inlet pipe 221 and one end of the oil inlet pipe 222 respectively penetrate through the first sub-pan cover 41 and are communicated with the pan 21, the other end of the water inlet pipe 221 and the other end of the oil inlet pipe 222 are respectively communicated with a peristaltic pump 223, and one ends of the water inlet pipe 221 and the oil inlet pipe 222 far away from the first sub-pan cover 41 are communicated with a water source and an. The water source can directly set up to the water pipe (peristaltic pump 223 can adopt the solenoid valve to replace this moment), and the oil source can set up to the oil drum, and the oil drum can set up in fire platform 1.

Referring to fig. 3 and 5, the stir pan assembly 23 includes a support 231, a stir pan 232, and a stir pan drive 233. The supporting member 231 includes a supporting rod 2311, the supporting rod 2311 is sleeved with a dust cover 2312 (see fig. 1), the dust cover 2312 and the first sub-pot cover 41 form a closed space, and one end of the dust cover 2312 close to the fire table 1 does not obstruct the rotation of the dust cover 2312. One end of the support bar 2311 is rotatably connected with the fire table 1, and a rotary driving member 234 for driving the support bar 2311 to rotate is arranged between the two.

When the rotary driving member 234 is in the first state, the stir-frying member 232 is suspended in the stir-frying pan 21; when the rotational drive member 234 is in the second state, the stir-fry element 232 is lifted and moved away from the fry pan 21. The other end of the support bar 2311 is connected to the stir-fry driving member 233, and the support bar 2311 is disposed in parallel with the stir-fry driving member 233.

Referring to fig. 5 and 6, the stir-frying member 232 is suspended in the frying pan 21 and includes at least one transmission rod 2321 and a stir-frying plate 2322. The stir-frying driving member 233 is in transmission connection with the transmission rod 2321, and the stir-frying driving member 233 is configured as a rotating motor for providing a driving force for driving the stir-frying plate 2322 to rotate axially around the transmission rod 2321. The stir-frying member 232 and the stir-frying driving member 233 are respectively located at both sides of the first sub-pot cover 41.

In this embodiment, the driving rod 2321 is provided with one, the two stir-frying plates 2322 are symmetrically arranged along the driving rod 2321, the stir-frying plates 2322 and the driving rod 2321 are arranged in an inclined manner, one end of the stir-frying plate 2322, which is far away from the driving rod 2321, is a sector plate, the arc-shaped plate of the sector plate is arranged close to the driving rod 2321, and one side of the sector plate, which is close to the wok 21, is arranged in an arc manner.

Referring to fig. 5 and 7, a planetary gear set 24 is disposed at an end of the transmission rod 2321 away from the stir-frying plate 2322, the planetary gear set 24 includes an internal gear 241 fixed at an end of the transmission rod 2321 away from the stir-frying plate 2322, the internal gear 241 is engaged with three driven gears 242, inner sides of the three driven gears 242 are engaged with a driving gear 243, and an output shaft of the stir-frying driving member 233 is disposed coaxially with the driving gear 243. The stir-fry drive member 233 changes output direction by two bevel gears, and the planetary gear set 24 is arranged to reduce speed, so as to ensure stable operation of the stir-fry member 232.

Referring to fig. 3 and 6, the rotary driving member 234 is configured as a telescopic cylinder, and an output end of the rotary driving member 234 is rotatably connected to an end of the support bar 2311 far from the stir-frying member 232 and is disposed near a middle portion of the support bar 2311 as a rotation fulcrum of the support bar 2311. One end of the rotating driving piece 234 far away from the pot cover 4 is hinged in the fire table 1 and is a rotating fulcrum of the rotating driving piece 234. When the rotation driving member 234 is contracted, the rotation driving member 234 rotates toward a direction close to the stir-frying plate 2322, and at this time, the support bar 2311, the dust cover 2312 and the stir-frying member 232 rotate and rise up and away from the wok 21.

The fire platform 1 is provided with a proximity switch 14 at the position of the rotary driving piece 234, the proximity switch 14 is connected with a control console 11 in a signal mode, and the control console 11 is arranged on one side of the fire platform 1. The rotary driving piece 234 drives the pot cover 4 to rotate through stretching and retracting, then the proximity switch 14 can be triggered, the proximity switch 14 sends an electric signal to the console 11, and the console 11 controls the rotary driving piece 234 to stop shrinking, so that the maximum rotation angle of the stir-frying piece 232 is limited, and the probability that the dust cover 2312 collides with the fire table 1 is reduced.

Referring to fig. 2 and 3, the lampblack purification mechanism 3 comprises a negative pressure component 31, a condensation liquefaction component 5 and a filtering component 6, wherein the negative pressure component 31, the condensation liquefaction component 5 and the filtering component 6 are communicated through a lampblack pipeline 32, one end of the lampblack pipeline 32 extends to the upper part of the wok 21, and the other end of the lampblack pipeline extends into an external lampblack discharge channel after passing through the condensation liquefaction component 5 and the filtering component 6.

The condensing and liquefying assembly 5 and the filtering assembly 6 are communicated with the negative pressure assembly 31 and are used for condensing, liquefying and filtering the absorbed oil smoke.

Referring to fig. 2 and 8, the condensation-liquefaction assembly 5 includes a condensation tank 51 and a condensation duct 52, the condensation duct 52 being provided inside the condensation tank 51; the condensing pipe 52 is disposed through the condensing box 51, and has one end communicating with a section of the oil smoke pipe 32 near the frying pan 21 and the other end communicating with the filtering assembly 6.

The condensation duct 52 includes at least one set of first horizontal segment 521, bending segment 522 and second horizontal segment 523 that communicate in proper order, and first horizontal segment 521, bending segment 522 and second horizontal segment 523 three are the U type setting, and first horizontal segment 521 is located the top of second horizontal segment 523, and the one end intercommunication oil smoke duct 32 that is close to frying pan 21 of first horizontal segment 521 is kept away from bending segment 522, and the one end intercommunication filter assembly 6 of second horizontal segment 523 far away from bending segment 522.

The bottom of the second horizontal segment 523 far away from the end of the bending segment 522 is provided with a liquid outlet hole 5231, the liquid outlet hole 5231 is communicated with a liquid discharge pipeline, and an outlet of the liquid discharge pipeline penetrates through the condensing box 51.

Referring to fig. 9 and 10, the filtering assembly 6 includes a purifier box 61, and a first purifying member 62, a second purifying member 63, and a third purifying member 64 sequentially disposed in the purifier box 61, wherein the purifier box 61 is provided with an air inlet 65 and an air outlet 66, the air inlet 65 is communicated with a section of the oil smoke pipeline 32 penetrating through the condensation liquefaction assembly 5, and the air outlet 66 is communicated with a section of the oil smoke pipeline 32 near the external oil smoke exhaust passage.

The first purifying member 62 is disposed near the air inlet 65, the first purifying member 62 is configured as a plurality of filter nets disposed in parallel, the second purifying member 63 is configured as an electrostatic precipitation electrode sheet, and the third purifying member 64 is disposed near the air outlet 66 and configured as a plurality of filter cottons disposed in parallel.

Wherein the filter screen and the filter pulp are fixed by a groove-shaped limit plate 67. One pair of opposite angles of the electrostatic dust removal electrode plates are cut to form an avoiding angle 631, and the adjacent two electrostatic dust removal electrode plates form a positive electrode and a negative electrode and can generate a magnetic field, so that impurities in oil smoke can be filtered.

The negative pressure component 31 is arranged beside the frying pan 21 and used for absorbing oil smoke generated by the frying pan 21, the negative pressure component 31 is configured to be a fan 311 component communicated with the oil smoke pipeline 32, the fan 311 component is arranged between the filtering component 6 and an external oil smoke exhaust passage, the fan 311 component can be arranged to be the fan 311, and the fan 311 can flow to the external oil smoke exhaust passage through suction practical oil smoke.

The implementation principle of this application embodiment an environmental protection intelligence frying pan does: in the cook adds the frying pan 21 with eating the material earlier, required oil of preparation vegetable and water add into frying pan 21 through peristaltic pump 223 measurement, eat the material when the cook and add the back that finishes, the cook passes through control cabinet 11 control and rotates driving piece 234 and stretch for pot cover 4 orientation descends near the direction of frying pan 21, and forms airtight space with frying pan 21. The cook controls the fire table 1 to heat the frying pan 21 through the control table 11 or an automatic cooking program loaded in the controller, and the stir-frying driving member 233 drives the stir-frying plate 2322 to rotate along the transmission rod 2321 so as to repeatedly stir-fry food materials, thereby achieving the purpose of cooking dishes. During the process of preparing the dishes, the cook can lift the second sub-pot cover 42 by lifting the handle 43 to continue to add other food materials or seasonings.

In the process of making dishes, oil smoke is easily generated, and the oil smoke enters the condensation liquefaction component 5 and the filtering component 6 in sequence through the oil smoke pipeline 32 under the suction action of the fan 311. In the condensing and liquefying assembly 5, oil or water vapor in the soot condenses and liquefies to form liquid, and the liquid is discharged to the outside of the fire table 1 through the liquid outlet hole 5231 and the liquid discharge channel 524. In the filter assembly 6, the smoke of the oil smoke is sequentially filtered by the filter screen, the electrostatic dust removal electrode plate and the filter cotton so as to filter impurities in the smoke. The oil smoke is discharged to an external oil smoke discharge channel after passing through the condensation liquefaction component 5 and the filtering component 6, so that the environmental pollution is avoided.

Based on the scheme of this embodiment, the cook can make twice dishes simultaneously, can effectively improve a dish speed, and through the setting of stir-fry subassembly 23, is difficult for appearing stir-fry untimely condition, has ensured the quality of dish.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an environmental protection intelligence frying pan, is including putting fire platform (1) of frying pan (21), its characterized in that: further comprising:

the automatic cooking mechanism (2) comprises a frying pan (21), an automatic feeding component (22) and a stir-frying component (23), wherein the automatic feeding component (22) is used for automatically adding dishes and/or seasonings to be cooked into the frying pan (21), and the stir-frying component (23) is used for stir-frying the dishes and/or seasonings to be cooked in the frying pan (21);

oil smoke purification mechanism (3), including negative pressure subassembly (31), condensation liquefaction subassembly (5) and filtering component (6), negative pressure subassembly (31) set up in by frying pan (21) for absorb the oil smoke that frying pan (21) produced, condensation liquefaction subassembly (5) and filtering component (6) with negative pressure subassembly (31) are linked together, are used for carrying out condensation liquefaction and filtration to absorptive oil smoke.

2. The environment-friendly intelligent frying pan according to claim 1, characterized in that: the negative pressure component (31), the condensation liquefaction component (5) and the filtering component (6) are communicated through an oil smoke pipeline (32), one end of the oil smoke pipeline (32) extends to the upper part of the frying pan (21), and the other end of the oil smoke pipeline extends into an external oil smoke discharge channel after penetrating through the condensation liquefaction component (5) and the filtering component (6).

3. The environment-friendly intelligent frying pan according to claim 2, characterized in that: the condensation liquefaction assembly (5) comprises a condensation tank (51) and a condensation pipeline (52), wherein the condensation pipeline (52) is arranged in the condensation tank (51);

the condensing pipeline (52) penetrates through the condensing box (51), one end of the condensing pipeline is communicated with one section of the fume pipeline (32) close to the frying pan (21), and the other end of the condensing pipeline is communicated with the filtering component (6);

a liquid outlet hole (5231) is formed in the bottom of the condensation pipe (52), the liquid outlet hole (5231) is communicated with a liquid drainage pipe, and an outlet of the liquid drainage pipe penetrates out of the condensation box (51).

4. The environment-friendly intelligent frying pan according to claim 3, characterized in that: the condensation pipeline (52) comprises at least one group of a first horizontal section (521), a bent section (522) and a second horizontal section (523), the first horizontal section (521), the bent section (522) and the second horizontal section (523) are sequentially communicated, the first horizontal section (521) is arranged above the second horizontal section (523), one end, far away from the bent section (522), of the first horizontal section (521) is communicated with one section, close to the wok (21), of the oil smoke pipeline (32), and one end, far away from the bent section (522), of the second horizontal section (523) is communicated with the filtering component (6);

the bottom of one end, close to the filtering component (6), of the second horizontal section (523) is provided with the liquid outlet hole (5231).

5. The environment-friendly intelligent frying pan according to claim 2, characterized in that: the filtering component (6) comprises a purifier box (61) and a first purifying part (62), a second purifying part (63) and a third purifying part (64) which are sequentially arranged in the purifier box (61), wherein the purifier box (61) is provided with an air inlet (65) and an air outlet (66), the air inlet (65) is communicated with a section of the oil smoke pipeline (32) penetrating through the condensation liquefaction component (5), and the air outlet (66) is communicated with a section of the oil smoke pipeline (32) close to an external oil smoke discharge channel;

the first purifying part (62) is arranged close to the air inlet (65), the first purifying part (62) is configured into a plurality of filter screens which are arranged in parallel, the second purifying part (63) is configured into an electrostatic dust removal electrode sheet, and the third purifying part (64) is arranged close to the air outlet (66) and is configured into a plurality of filter cottons which are arranged in parallel.

6. The environment-friendly intelligent frying pan according to claim 2, characterized in that: the negative pressure component (31) is configured to be a fan (311) component communicated with the fume pipeline (32), and the fan (311) component is arranged between the filtering component (6) and the external fume exhaust channel.

7. The environment-friendly intelligent frying pan according to claim 2, characterized in that: the automatic feeding assembly (22) comprises a water inlet pipe (221) and an oil inlet pipe (222), peristaltic pumps (223) are communicated with one ends, far away from the wok (21), of the water inlet pipe (221) and the oil inlet pipe (222), and one ends, far away from the water inlet pipe (221) and the oil inlet pipe (222), of the two peristaltic pumps (223) are respectively communicated with a water source and an oil source;

the stir-frying component (23) comprises a supporting piece (231), a stir-frying piece (232) and a stir-frying driving piece (233), wherein the stir-frying piece (232) is suspended in the stir-frying pan (21) and is provided with at least one transmission rod (2321) and a stir-frying plate (2322); the stir-frying driving piece (233) is in transmission connection with the transmission rod (2321) and is used for providing a driving force for driving the stir-frying plate (2322) to rotate around the transmission rod (2321) in the axial direction;

the supporting piece (231) comprises a supporting rod (2311), one end of the supporting rod (2311) is connected with the fire table (1), and the other end of the supporting rod (2311) is connected with the stir-frying driving piece (233).

8. The environment-friendly intelligent frying pan according to claim 7, characterized in that: one end of the support rod (2311) far away from the frying pan (21) is rotatably connected with the fire table (1), and a rotary driving piece (234) for driving the support rod (2311) to rotate is arranged between the support rod and the fire table;

when the rotary driving piece (234) is in a first state, the stir-frying piece (232) is suspended in the stir-frying pan (21);

when the rotary driving member (234) is in the second state, the stir-frying member (232) is lifted and away from the stir-frying pan (21).

9. The environment-friendly intelligent frying pan according to claim 8, characterized in that: the rotary driving piece (234) is configured as a telescopic cylinder, the output end of the rotary driving piece (234) is rotatably connected to one end of the supporting rod (2311) far away from the stir-frying piece (232), and one end of the rotary driving piece (234) far away from the stir-frying assembly (23) is hinged in the fire table (1);

fire platform (1) in rotation driving piece (234) department is provided with proximity switch (14), proximity switch (14) signal connection has control cabinet (11), control cabinet (11) set up one side of fire platform (1).

10. The environment-friendly intelligent frying pan according to claim 8, characterized in that: the utility model discloses a stir-fry pan (21) with support bar (2311) and stir-fry piece (232) between be provided with pot cover (4), pot cover (4) include first sub-pot cover (41) and second sub-pot cover (42) through hinge connection, first sub-pot cover (41) compare the cook setting is kept away from to second sub-pot cover (42), first sub-pot cover (41) are kept away from the one end fixed connection of second sub-pot cover (42) in support bar (2311), second sub-pot cover (42) are kept away from one side of frying pan (21) is fixed with and promote handle (43).

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