CN213599451U - Intelligent oil smoke processing system and integrated intelligent kitchen - Google Patents

Abstract

The utility model discloses an intelligent lampblack processing system, which comprises a lampblack processing device, a lampblack pipeline, a valve mechanism and a lampblack processing controller, wherein the lampblack pipeline comprises a main lampblack pipe and a plurality of sub lampblack pipes communicated with the main lampblack pipe, the main lampblack pipe is connected with a main lampblack inlet pipe of the lampblack processing device, one end of each sub lampblack pipe, which is far away from the main lampblack pipe, is used for connecting a cooking device, a valve mechanism is arranged on each sub lampblack pipe, the lampblack processing controller is respectively and electrically connected with each valve mechanism, the action of each valve mechanism is controlled by the lampblack processing controller to realize the on-off of each sub lampblack pipe, so that the lampblack generated by the cooking device in work can enter the lampblack processing device to be processed, the targeted lampblack processing is carried out, the lampblack processing devices are independently controllable and do not influence each other, the lampblack processing efficiency of a high-integrated intelligent kitchen is ensured, is favorable for saving energy. The utility model discloses still disclose an integrated form intelligent kitchen who has this intelligence oil smoke processing system.

Description

Intelligent oil smoke processing system and integrated intelligent kitchen

Technical Field

The utility model relates to a culinary art kitchen technical field especially relates to an intelligent oil smoke processing system that can be applicable to high integrated kitchen and can independent control and have integrated form intelligent kitchen of this system.

Background

Along with the continuous development of science and technology, the improvement of resident income and the acceleration of life rhythm, people are more and more paying attention to quality of life, and intelligent, healthy, convenient house theory has gradually deepened into the people's mind, and intelligent house has overturned traditional house life theory, has brought brand-new life style to intelligent life has got into the kitchen from the sitting room, gives people more and more convenience.

At present, various intelligent kitchen electric products enter a kitchen and continuously develop towards being more professional, more humanized and more scientific and technological, consumers pay attention to the basic performance of the kitchen electric products and the problems of kitchen efficiency and hands liberation, so that some kitchen electric products controlled by remote control and voice interaction come out successively, and some kitchen electric products are integrated with a cabinet to save kitchen space and facilitate operation. However, most of the existing kitchen electric products are only single products to realize intelligent control, so that when a user cooks in a kitchen, the user still needs to operate each electric appliance one by one according to cooking habits, and the kitchen electric products are inconvenient to use and low in cooking efficiency; or only individual electric appliances are integrated with the cabinet, more kitchen electric products are not integrated, and the overall planning in aspects of kitchen space, control and the like is not reasonable enough; furthermore, the lampblack absorber in current kitchen all is fixed in kitchen range top, only can take away the waste material of kitchen range burning and the produced oil smoke of kitchen mesa electrical apparatus culinary art in-process during the use, but can not satisfy the oil smoke processing demand of highly integrated intelligent kitchen.

Therefore, there is a need to provide a highly integrated intelligent kitchen and an intelligent lampblack processing system capable of effectively processing lampblack in the kitchen, so as to solve the problems in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can carry out the intelligent oil smoke processing system of efficient handling to the oil smoke in integrated form intelligent kitchen.

Another object of the utility model is to provide an integrated form intelligent kitchen that the integrated level is high, can effectively improve culinary art efficiency and user experience.

In order to achieve the above purpose, the technical scheme of the utility model is that: an intelligent oil fume processing system is provided, which comprises an oil fume processing device, an oil fume pipeline, a valve mechanism and an oil fume processing controller; wherein, the oil fume processing unit comprises a total smoke inlet pipe; the oil smoke pipeline comprises a main oil smoke pipe and a plurality of oil smoke distributing pipes communicated with the main oil smoke pipe, one end of each oil smoke distributing pipe, which is far away from the main oil smoke pipe, is used for being connected with a cooking device, and the main oil smoke pipe is connected with the main oil smoke inlet pipe; the number of the valve mechanisms is more than or equal to that of the oil distributing smoke pipes, at least one valve mechanism is installed on each oil distributing smoke pipe, and the valve mechanisms are used for controlling the on-off of the oil distributing smoke pipes; the oil fume processing controller is respectively and electrically connected with the valve mechanisms, and the oil fume processing controller controls the valve mechanisms to act so as to realize the on-off of the oil fume distributing pipes.

Preferably, the intelligent lampblack processing system further comprises a lampblack pumping device which is arranged above the lampblack pipeline and communicated with one of the lampblack distribution pipes, the lampblack pumping device comprises a lampblack pumping pipe and a fan which is connected with the lampblack pumping pipe, the fan is electrically connected with the lampblack processing controller, the lampblack outlet pipe of the fan is connected with one of the lampblack distribution pipes, and one end, far away from the fan, of the lampblack pumping pipe is used for being connected with the cooking device to pump lampblack generated by the cooking device.

Preferably, the valve mechanism comprises a driving part, a transmission rotating shaft and a hinge, the hinge is installed on the transmission rotating shaft and is contained in the oil distribution smoke pipe, the outer diameter of the hinge corresponds to the inner diameter of the oil distribution smoke pipe, one end of the transmission rotating shaft protrudes out of the oil distribution smoke pipe and is connected with the driving part, the driving part is electrically connected with the oil smoke processing controller, and the transmission rotating shaft is driven to rotate through the driving part so that the hinge closes or opens the oil distribution smoke pipe.

Preferably, the valve mechanism further includes a baffle and two sensors, one end of the transmission shaft, which is far away from the driving member, protrudes out of the oil smoke distribution pipe and fixes the baffle, the two sensors are installed above the oil smoke distribution pipe at an included angle and are respectively and electrically connected with the oil smoke processing controller, and the oil smoke processing controller controls the driving member to stop or rotate according to the positions of the baffle, which are detected by the two sensors.

Preferably, the plane of the baffle is perpendicular to the plane of the hinge, when the baffle is located at a sensing position of one sensor, the hinge is perpendicular to the cross section of the oil distribution smoke pipe so as to conduct the oil distribution smoke pipe, and when the baffle rotates to another sensing position of the sensor, the outer edge of the hinge is attached to the inner wall of the oil distribution smoke pipe so as to seal the oil distribution smoke pipe.

Preferably, the valve mechanism further comprises a fixing frame and a sleeve, the fixing frame comprises a bottom plate and two side plates which are connected to the bottom plate and perpendicular to each other, rotating grooves which are communicated with each other and located at the same horizontal position are formed in the two side plates, the baffle plate movably penetrates through the rotating grooves, the two sensors are respectively installed on one sides of the two side plates, which are far away from the transmission rotating shaft, sensing ports of the sensors correspond to the rotating grooves, and the sleeve is connected to the bottom plate and detachably sleeved outside the oil smoke separating pipe.

Correspondingly, the utility model also provides an integrated intelligent kitchen, which comprises a mounting rack, a stewing mechanism, a cooking mechanism, a steaming and baking mechanism, an intelligent oil smoke processing system and a kitchen controller; the mounting frame comprises a rack, an upper panel horizontally arranged on the rack and a cover plate pivotally arranged at the top of the rack; the stewing mechanism comprises a shell, an inner container embedded in the shell and a pot cover matched with the inner container, the shell is embedded in the upper panel and enables the edge of an opening of the inner container to protrude out of the upper panel, the shell is connected with the upper panel in a sealing mode, the pot cover is pivotally arranged on the rack and corresponds to the opening of the inner container, and the pot cover is used for sealing the inner container and can be opened; the cooking mechanism comprises a heating furnace body, the heating furnace body is hermetically embedded in the upper panel, and the furnace surface of the heating furnace body protrudes out of the upper panel; the steaming and baking mechanism comprises a steaming and baking box body with an opening and a door plate matched with the opening, the steaming and baking box body is arranged on the rack and positioned below the stewing mechanism and the cooking mechanism, the door plate is pivotally arranged on the rack and corresponds to the opening, and the door plate is used for sealing the steaming and baking box body and can be opened; the intelligent oil fume processing system is arranged on the rack, and enables each oil fume distributing pipe to be respectively connected with the stewing mechanism, the cooking mechanism and the steaming and baking mechanism so as to collect and process oil fume; the kitchen controller is respectively and electrically connected with and controls the stewing mechanism, the cooking mechanism and the steaming and baking mechanism.

Preferably, the intelligent lampblack processing system further comprises a lampblack pumping device, the lampblack pumping device is installed on the rack and comprises a fan, a lampblack pumping pipe, a lampblack air inlet pipe and a lampblack passage hole, the lampblack passage hole and the lampblack air inlet pipe are arranged on the cover plate and communicated, the lampblack pumping pipe is installed on the rack, one end of the lampblack pumping pipe is communicated with the lampblack air inlet pipe, the other end of the lampblack pumping pipe is connected with one of the lampblack distributing pipes through the fan, and the lampblack pumping device is used for pumping lampblack generated by the stewing mechanism and the cooking mechanism.

Preferably, the rack includes lower floor's support and upper strata support that set gradually, the top panel install in the top of upper strata support, evaporate roast mechanism, cook the mechanism, intelligent oil smoke processing system all install in the upper strata support, evaporate roast mechanism install in lower floor's support.

Preferably, the stewing mechanism further comprises a first spraying cleaning cavity, the first spraying cleaning cavity is mounted on the rack and is connected to the upper panel in a sealing manner so as to accommodate the shell, and a first cleaning nozzle is arranged in the first spraying cleaning cavity; the steaming and baking mechanism further comprises a second cleaning spray head arranged in the steaming and baking box body and a plurality of independent heating elements arranged on the wall body of the steaming and baking box body and electrically connected with the kitchen controller, and the heating elements are controlled by the kitchen controller to adjust the steaming and baking temperature of the steaming and baking box body.

Compared with the prior art, because the intelligent lampblack processing system of the utility model has a shared main lampblack pipe and a plurality of sub lampblack pipes communicated with the main lampblack pipe, the main lampblack pipe is connected with the lampblack processing device, each sub lampblack pipe is independently provided with a valve mechanism electrically connected with a lampblack processing controller, and each sub lampblack pipe is connected with a cooking device, thereby being applicable to highly integrated intelligent kitchens, when in use, the valve mechanisms on the sub lampblack pipes connected with the cooking devices in use are respectively controlled to be opened by the lampblack processing controller, so that the lampblack generated by the cooking devices can enter the lampblack processing device to be processed, and the valve mechanisms on the sub lampblack pipes connected with other non-working cooking devices are controlled to be closed, thereby the lampblack processing is carried out in a targeted manner, and each sub lampblack pipe is independently controllable, the oil smoke distributing pipes are not affected with each other, so that the oil smoke treatment efficiency of the highly integrated intelligent kitchen is ensured, and the energy is saved.

Correspondingly, have the utility model discloses intelligence oil smoke processing system's integrated form intelligent kitchen also has the same effect, and further, the utility model discloses an integrated form intelligent kitchen sets up a kind of deep pot stewing mechanism at the upper integration of its mounting bracket, cook and fry the mechanism, intelligence oil smoke processing system, evaporate roast mechanism at the lower floor installation of its mounting bracket to control a kind of deep pot stewing mechanism through the kitchen controller, cook and fry the mechanism, evaporate roast mechanism collaborative work, realize the high integration of the cabinet body and culinary art device, the overall planning is reasonable, high durability and convenient use practices thrift the kitchen space, and make the same time can carry out multiple culinary art operation, and then effectively improve culinary art efficiency, increase user experience.

Drawings

Fig. 1 is the structure schematic diagram of the integrated intelligent kitchen of the utility model.

Fig. 2 is a schematic view of the use state of fig. 1.

Fig. 3 is a front view of fig. 1 with the front outer housing removed.

Fig. 4 is a rear view of fig. 1 with the rear outer case removed.

Fig. 5 is the structure schematic diagram of the intelligent oil smoke treatment system of the utility model.

Fig. 6 is a schematic view of the oil smoke conduit and valve mechanism of fig. 5.

Fig. 7 is a front view of fig. 6.

Fig. 8 is an enlarged structural schematic view of the valve mechanism of fig. 5.

Fig. 9 is a front view of fig. 8.

Fig. 10 is a side view of fig. 8.

Fig. 11 is the air duct schematic diagram of the intelligent oil smoke treatment system of the present invention.

Detailed Description

Embodiments of the present invention will now be described with reference to the drawings, wherein like element numerals represent like elements throughout.

Referring to fig. 1 to 5, an integrated intelligent kitchen 1 provided by the present invention includes a mounting rack 10, a stewing mechanism 20, a cooking mechanism 30, a steaming and baking mechanism 40, an intelligent oil smoke processing system 50, and a control system. Wherein, mounting bracket 10 designs to two-layer structure, and its top horizontal installation has an upper panel 11, install a kind of deep pot respectively in the upper strata of mounting bracket 10 and stew mechanism 20, cook and fry mechanism 30, intelligent oil smoke processing system 50, evaporate roast mechanism 40 in the lower floor installation of mounting bracket 10, design shared intelligent oil smoke processing system 50 comes to stew mechanism 20 to a kind of deep pot, cook and fry mechanism 30, evaporate roast produced oil smoke of mechanism 40 and collect and handle, be favorable to integrated form intelligent kitchen 1's integration, and then save kitchen space, this intelligent oil smoke processing system 50 can independently carry out the oil smoke to each cooking device simultaneously and handle, be favorable to the energy saving. In addition, the control system is respectively and electrically connected with the stewing mechanism 20, the cooking mechanism 30, the steaming and baking mechanism 40 and the intelligent oil smoke processing system 50, the main control operation interface 15 is arranged on the upper panel 11, the sub-control operation interface 16 is arranged on the front side wall of the mounting frame 10, the main control operation interface 15 and the sub-control operation interface 16 are used for realizing effective control over the mechanisms, the operation is convenient, the intelligent degree is high, and of course, the positions of the main control operation interface 15 and the sub-control operation interface 16 can be flexibly set as required.

The utility model discloses in, control system has kitchen controller and oil smoke processing controller (see below for details), and wherein, kitchen controller electric connection controls a kind of deep pot and stews mechanism 20, cooks to fry mechanism 30, evaporates roast mechanism 40, and oil smoke processing controller is used for controlling intelligent oil smoke processing system 50 and carries out work.

Referring now to fig. 1-4, the mounting bracket 10 further includes a frame 12, an outer housing 13, and a cover 14. The rack 12 comprises an upper layer bracket 121 and a lower layer bracket 122 which are arranged in sequence, the upper panel 11 is horizontally arranged at the top of the upper layer bracket 121, the cover plate 14 is pivotally arranged at the top end of the rack 12, the cover plate 14 is provided with a closing position covering the upper panel 11 and an opening position far away from the upper panel 11, the cover plate 14 can be arranged into a manual closing structure or an automatic closing structure, and the cover plate 14 is pivotally closed on the upper panel 11, so that the kitchen space is saved; the outer housing 13 is mounted to a side of the housing 12 to protect the cooking devices and to make the integrated smart kitchen 1 compact and beautiful.

With continued reference to fig. 1-2, the integrated smart kitchen 1 of the present invention is provided with at least one stewing mechanism 20. Specifically, the stewing mechanism 20 comprises a shell 21, an inner container 22, a pot cover 23 and a first spraying and cleaning cavity 24, wherein the first spraying and cleaning cavity 24 is mounted on the upper support 121 and is hermetically connected with the upper panel 11, and a first cleaning nozzle is arranged in the first spraying and cleaning cavity 24 so as to automatically clean the stewing mechanism 20; the position corresponding to the first spraying cleaning cavity 24 on the upper panel 11 is provided with an opening, the shell 21 is embedded in the opening of the upper panel 11 and is contained in the first spraying cleaning cavity 24, the shell 21 is hermetically connected with the upper panel 11, the inner container 22 is embedded in the shell 21, the opening edge of the inner container 22 protrudes out of the upper panel 11, the pot cover 23 is matched with the opening of the inner container 22 to seal the inner container 22 and can be opened, one end of the pot cover 23 is pivotally installed on the upper support 121, the other end of the pot cover 23 is convexly provided with an operation part 231, and the operation part 231 is convenient to operate the pot cover 23.

Preferably, the stewing mechanism 20 of the present invention is at least one of an electronic pot and an electric stewing pot. In a specific embodiment, an electronic pot and an electric stewing pot are provided at the same time, and the electronic pot and the electric stewing pot are installed on the upper panel 11 in parallel at intervals, and the structures and installation manners of the electronic pot and the electric stewing pot are as described above and will not be described again. In order to further optimize and distinguish the cooking effect of the stewing mechanism 20, in the embodiment, the electronic pot further has the functions of refrigeration, heat preservation and automatic water injection, and the electric stewing pot is only provided with the function of automatic water injection and is not provided with the functions of refrigeration and heat preservation.

Referring again to fig. 1-4, in the integrated intelligent kitchen 1 of the present invention, at least one cooking mechanism 30 is provided, the cooking mechanism 30 includes a heating furnace body 31, the heating furnace body 31 is embedded in the upper panel 11 and is connected to the upper panel in a sealing manner, and the surface of the heating furnace body 31 protrudes from the upper panel 11.

The utility model discloses an in the preferred embodiment, be equipped with one and cook mechanism 30, and should cook mechanism 30 and be the electromagnetism stove, this electromagnetism stove is installed in electron a kind of deep pot, the electricity is stewed and stew between the a kind of deep pot, makes upper support 121 integrated have three cooking equipment, and the integrated level is higher, practices thrift the space to the user operation of being convenient for. Of course, the cooking mechanism 30 is not limited to the induction cooker, and may be an electric pan, an electric fryer, an electric chafing dish, an electric baking pan, a barbecue grill, etc., and is not limited to only one induction cooker, and may be provided with several of the above devices at the same time.

With continuing to refer to fig. 1-4, the present invention is provided with at least one steaming and baking mechanism 40, the steaming and baking mechanism 40 includes a steaming and baking box 41 with an opening and a door panel 42 matching with the opening, the steaming and baking box 41 is mounted on the lower bracket 122, the door panel 42 is pivotally mounted on the lower bracket 122 and corresponds to the opening, the door panel 42 is used for sealing the opening of the steaming and baking box 41 and can be opened, and the top of the steaming and baking box 41 is further provided with a smoke outlet 411, the smoke outlet 411 is used for communicating with the oil smoke processing mechanism 50; meanwhile, a second cleaning nozzle is further disposed in the steaming and baking box 41 to automatically clean the steaming and baking box 41.

More preferably, the steaming and baking mechanism 40 further includes a plurality of independent heating elements, the heating elements are disposed on the wall body of the steaming and baking box 41 and electrically connected to the kitchen controller, and the kitchen controller controls the heating elements to independently generate heat to adjust the steaming and baking temperature of the steaming and baking box 41.

The utility model discloses an in the preferred embodiment, be equipped with two side by side and evaporate roast mechanism 40, be respectively steaming oven, little steam ager, structure between them and set up the mode as above, and both except setting up the second cleaning shower nozzle in order to realize self-cleaning, all can also carry out steam cleaning through self steam. However, there are slight differences between the two, specifically: the wall body of the steaming oven is provided with a plurality of independent heating elements, so that the steaming and baking temperature of the steaming oven can be adjusted, and meanwhile, the steaming oven is also provided with a steam circulating system, so that the cooking efficiency is effectively improved; the micro steam box does not need to be provided with a heating element and a steam circulating system.

Referring again to fig. 1-4, the integrated smart kitchen 1 also has a drain 60 and a spray wash mechanism. Wherein, spray wiper mechanism includes the pipeline and locates the valve of pipeline, this pipe connection is in first washing shower nozzle, second washing shower nozzle, and this pipeline still is used for connecting outside water source and pressurization mechanism simultaneously, valve and kitchen controller electric connection. The drain pipe 60 is installed at the bottom of the lower layer bracket 122, and is respectively connected with the first spraying cleaning cavity 24 and the steaming and baking box body 41, when the kitchen controller controls the valves on the pipelines to be opened, the electronic cooker, the electric stewing cooker, the steaming and baking box and the micro-steaming box can be cleaned under high pressure, and the cleaned water is discharged through the drain pipe 60.

The structure and principle of the intelligent lampblack processing system 50 of the present invention will be described with reference to fig. 4-11. Specifically, the intelligent lampblack processing system 50 comprises a lampblack processing device 51, a lampblack pipeline 52, a lampblack pumping device 53 and a valve mechanism 54. The oil smoke processing device 51 includes a main body 511, a main smoke inlet pipe 512 and a main smoke outlet pipe 513 connected to the main body 511, wherein a blower is installed in the main body 511 and is mounted on the upper bracket 121. The oil smoke pipe 52 includes a main oil smoke pipe 521 and a plurality of sub-oil smoke pipes 522 communicated with the main oil smoke pipe 521, and further includes an exhaust pipe 523, the main oil smoke pipe 521 is connected with the main smoke inlet pipe 512, wherein the sub-oil smoke pipe 522 is connected with the stewing mechanism 20 and the cooking mechanism 30 through the smoke exhaust device 53, one end of the other sub-oil smoke pipes 522 far away from the main oil smoke pipe 521 is connected with the steaming and baking mechanism 40, two ends of the exhaust pipe 523 are respectively connected with the main smoke outlet pipe 513 and the drain pipe 60, and the oil smoke exhausted from the main smoke outlet pipe 513 is exhausted through the exhaust pipe 523 and the drain pipe 60. The number of the valve mechanisms 54 is greater than or equal to the number of the oil-distributing pipes 522, at least one valve mechanism 54 is installed on each oil-distributing pipe 522, wherein preferably, one valve mechanism 54 is installed on each oil-distributing pipe 522 correspondingly, and the valve mechanism 54 is used for controlling the on-off of the oil-distributing pipe 522. The oil smoke processing controller is electrically connected to the valve mechanisms 54, and the oil smoke processing controller controls the valve mechanisms 54 to open and close the oil smoke distributing pipes 522, so that the oil smoke distributing pipes 522 are individually controllable, and therefore, when each cooking device works, a corresponding oil smoke processing air channel can be formed, oil smoke processing can be performed in a targeted manner, and the oil smoke pipes 52 are not affected by each other.

Referring to fig. 5, the smoke exhaust device 53 specifically includes a fan 531, a smoke exhaust pipe 532, a smoke inlet pipe 533 and smoke passage holes 534. The oil smoke passage hole 534 and the oil smoke air inlet pipe 533 are arranged on the cover plate 14 and are communicated with each other, the oil smoke passage hole 534 is arranged at the upper end of the cover plate 14, the oil smoke exhaust pipe 532 is vertically arranged on the upper layer support 121, one end of the oil smoke exhaust pipe 532 is communicated with the oil smoke air inlet pipe 533, the other end of the oil smoke exhaust pipe 532 is connected with the fan 531, and the smoke outlet pipe of the fan 531 is connected with one of the oil smoke distributing pipes 522. Therefore, when the cover 14 is in the open position, the cooking fumes generated by the stewing mechanism 20 and the cooking mechanism 30 can enter the fume inlet duct 533 and the fume exhaust duct 532 through the fume passage holes 534 under the action of the fan 531, and finally enter the intelligent fume processing system 50 through the fume exhaust duct 522 and the main fume duct 521 for processing.

With reference to fig. 5-7, in an embodiment of the present invention, since the electronic cooker, the electric stewing cooker, the electromagnetic oven, the steaming oven and the micro-steaming box are integrated, the oil smoke pipeline 52 of the intelligent oil smoke processing system 50 adopts a four-branch pipe design, that is, a main oil smoke pipe 521 and three sub-oil smoke pipes are provided, for convenience of description, the three sub-oil smoke pipes are respectively expressed as a sub-oil smoke pipe 522a, a sub-oil smoke pipe 522b and a sub-oil smoke pipe 522c, wherein the sub-oil smoke pipe 522a is connected to the smoke outlet of the fan 531, the sub-oil smoke pipe 522b is connected to the smoke outlet of the steaming oven through a pipe, and the sub-oil smoke pipe 522c is connected to the smoke outlet of the micro-steaming box through a pipe. Therefore, during the cooking process, the oil smoke generated by the electric stewing pot, the electronic pot and the induction cooker is sucked into the oil smoke distributing pipe 522a through the oil smoke pumping device 53, the oil smoke generated by the steaming oven and the micro-steaming box enters the oil smoke distributing pipe 522b and the oil smoke distributing pipe 522c, the oil smoke in the oil smoke distributing pipe 522a, the oil smoke distributing pipe 522b and the oil smoke distributing pipe 522c all enter the main oil smoke pipe 521, the oil smoke in the main oil smoke pipe 521 is pumped into the body 511 through the fan in the body 511 for processing, and then the oil smoke is discharged into the exhaust pipe 523 and the drain pipe 60 through the main smoke outlet pipe 513 and is discharged.

Referring to fig. 8-10, in the intelligent lampblack processing system 50 of the present invention, each of the sub-lampblack pipes 522 is independently provided with a valve mechanism 54, and the trend of the lampblack duct is controlled by opening and closing the valve mechanism 54 of the lampblack processing controller. Specifically, the valve mechanism 54 includes a driving element 541, a transmission shaft 542, a hinge 543, a blocking plate 544, and two sensors 545A and 545B. Wherein the hinge 543 is mounted on the transmission shaft 542 and is accommodated in the oil-smoke separating pipe 522, the outer diameter of the hinge 543 corresponds to the inner diameter of the oil-smoke distributing pipe 522, two ends of the transmission shaft 542 protrude out of the oil-smoke distributing pipe 522, one end of the transmission shaft 542 is connected to the driving member 541, the other end of the transmission shaft 542 is fixed with the baffle 544, the plane of the baffle 544 is perpendicular to the plane of the hinge 543, two sensors 545A and 545B are installed above the oil smoke distributing pipe 522 in a right angle and electrically connected to the oil smoke processing controller, respectively, the two sensors 545A and 545B are used to detect the position of the baffle 544, meanwhile, the driving element 541 is also electrically connected to the oil smoke processing controller, the oil smoke processing controller controls the driving element 541 to stop or rotate according to the positions detected by the two sensors 545A and 545B, and further drives the transmission rotating shaft 542 to rotate so as to enable the hinge 543 to close or open the oil-smoke separating pipe 522.

Preferably, hinge 543 is shaped like a circular cake to match with oil smoke separating tube 522, but hinge 543 is not limited to this shape as long as it can match with oil smoke separating tube 522.

With continued reference to fig. 8-10, the valve mechanism 54 further includes a fixing frame 546, the fixing frame 546 includes a bottom plate 5461 and two side plates 5462 connected to the bottom plate 5461 and perpendicular to each other, the two side plates 5462 are provided with rotating slots 5463 communicating with each other and located at the same horizontal position, the baffle 544 movably penetrates through the rotating slots 5463, the baffle 544 can slide in the rotating slots 5463 when rotating along with the transmission rotating shaft 542, two sensors 545A and 545B are respectively installed at one side of the two side plates 5462 away from the transmission rotating shaft 542, and sensing ports of the sensors 545A and 545B correspond to the rotating slots 5463. Therefore, when the lampblack processing controller controls the driving element 541 to operate, the driving element 541 drives the transmission rotating shaft 542 to rotate so as to drive the hinge 543 to rotate synchronously, and the position of the baffle 544 is detected by the sensor 545A and the sensor 545B so as to control the driving element 541 to stop, specifically, when the baffle 544 rotates to the sensing position of the sensor 545A, the hinge 543 is perpendicular to the cross section of the oil smoke distribution pipe 522 so as to conduct the oil smoke distribution pipe 522, and the valve mechanism 54 is in an open state; when the flap 544 is rotated to the sensing position of the sensor 545B, the outer edge of the hinge 543 is attached to the inner wall of the oil-distributing pipe 522 to close the oil-distributing pipe 522, and the valve mechanism 54 is in the closed state.

With continued reference to fig. 5, 8-10, the valve mechanism 54 further includes a sleeve 547 and a bracket 548, the inner diameter of the sleeve 547 corresponds to the outer diameter of the oil-distributing pipe 522, the sleeve 547 is detachably sleeved outside the oil-distributing pipe 522, the upper end of the sleeve 547 is connected to the bottom plate 5461, the lower end of the sleeve 547 is connected to the bracket 548, the driving member 541 is mounted to the bracket 548, the output shaft of the driving member is protruded above the bracket 548 and is connected to the transmission shaft 542, and the bracket 548 is further used for being fixed to the lower bracket 122.

More specifically, the support 548 includes a horizontal mounting plate 5481 and a vertical mounting plate 5482 connected to the horizontal mounting plate 5481, the horizontal mounting plate 5481 is provided with a through hole, the driving member 541 is fixed to a lower side of the horizontal mounting plate 5481 and has an output shaft thereof passing through the through hole, the sleeve 547 is fixed to the horizontal mounting plate 5481 by bolts or the like, and a lower end of the vertical mounting plate 5482 is fixed to the lower support 122 by bolts or the like.

In the present invention, the driving element 541 is preferably a motor, but not limited thereto, and other driving components may be used.

Referring to fig. 1-5 and 11 again, the operation principle of the integrated intelligent kitchen 1 of the present invention is described by taking a specific embodiment as an example. In the embodiment, the upper layer support 121 is integrated with an electronic pot, an electric stewing pot, an induction cooker and an intelligent oil fume treatment system 50, and the lower layer support 122 is integrated with a steaming oven and a micro steaming box, so that the whole integration level is higher, and the kitchen space is greatly saved.

When cooking, through master control operation interface 15, branch accuse operation interface 16 can control electron a kind of deep pot, the electricity stews a kind of deep pot and carries out a kind of deep pot hot water, cook, stews and boil, can control simultaneously to evaporate the oven, evaporate dish, roast, microwave heating etc. little steam ager to, the user can also utilize the electromagnetism stove to fry dish, can carry out multiple culinary art operation at the same time, consequently can effectively improve culinary art efficiency and user experience.

During the cooking process, the intelligent lampblack processing system 50 starts to work, when only the upper cooking device (an electronic pot, an electric stewing pot, an induction cooker) works, the lampblack processing controller controls the fan 531 of the lampblack pumping device 53 to be started, controls the valve mechanism 54 on the oil-dividing smoke pipe 522a to be opened, controls the valve mechanisms 54 on the oil-dividing smoke pipe 522b and the oil-dividing smoke pipe 522c to be closed, lampblack generated during the cooking process of the upper cooking device is pumped into the lampblack exhaust pipe 532 from the lampblack passage hole 534 under the action of the fan 531, and is discharged into the oil-dividing smoke pipe 522a through the smoke outlet pipe of the fan 531, and under the action of the fan 531 arranged in the lampblack processing device 51, the lampblack is pumped into the body 511 of the lampblack processing device 51 through the main lampblack pipe 521 to be processed, then is discharged from the main smoke outlet pipe 513, and is discharged through the exhaust pipe 523 and the drain pipe 60, as shown in the arrow direction.

When the steaming oven works alone, the lampblack treatment controller controls the valve mechanism 54 connected to the smoke-distributing pipe 522b of the steaming oven to open, controls the valve mechanisms 54 on the smoke-distributing pipes 522a and 522c to close, and under the action of the built-in fan 531 of the lampblack treatment device 51, the lampblack in the steaming oven enters the main lampblack pipe 521 and is pumped into the body 511 for treatment, and then is discharged from the main lampblack outlet pipe 513, the exhaust pipe 523 and the drain pipe 60, as shown by the arrow direction in fig. 11.

When the micro steam box works alone, the oil smoke processing controller controls the valve mechanism 54 connected to the oil smoke distributing pipe 522c of the micro steam box to open, the valve mechanisms 54 on the oil smoke distributing pipe 522a and the oil smoke distributing pipe 522b to close, under the action of the built-in fan 531 of the oil smoke processing device 51, the oil smoke gas in the micro steam box enters the main oil smoke pipe 521 from the oil smoke distributing pipe 522c, is pumped into the body 511 for oil smoke processing, and then is discharged from the main smoke outlet pipe 513, the exhaust pipe 523 and the drain pipe 60, as shown by the arrow direction in fig. 11.

When the electronic pot, the electric stewing pot, the induction cooker, the micro steam box and the steam oven work simultaneously, or only the micro steam box and the steam oven work simultaneously, the oil fume processing controller controls the valve mechanism 54 on the oil fume distributing pipe 522 corresponding to the cooking device which is cooking to be opened, and controls the valve mechanism 54 on the oil fume distributing pipe 522 corresponding to the cooking device which is not in the working state to be closed, at the moment, the oil fume processing device 51 can process the oil fume of the cooking device in work, the oil fume processing is carried out pertinently, and the oil fume distributing pipes 522 are not influenced mutually, so that the independent controllability of each oil fume channel is realized, the energy is saved, and the oil fume processing requirements of an intelligent kitchen integrated with a plurality of cooking devices can be met.

After cooking is finished, the valve of the spraying and cleaning mechanism can be opened by operating the main control operation interface 15 and the sub-control operation interface 16, so that high-pressure automatic cleaning of the electronic pot, the electric stewing pot, the steaming oven and the micro steam box is realized, the operation is more convenient and faster, and the cooking time can be further saved. After the cleaning is completed, the cover plate 14 is pivoted and closed above the upper panel 11, so that the kitchen space can be saved, and the appearance of the integrated intelligent kitchen 1 is concise.

In summary, because the intelligent lampblack processing system 50 of the present invention has the lampblack pipeline 52 having a common main lampblack pipe 521 and a plurality of sub-lampblack pipes 522 connected to the main lampblack pipe 521, the main lampblack pipe 521 is connected to the lampblack processing device 51, each sub-lampblack pipe 522 is independently provided with a valve mechanism 54 electrically connected to the lampblack processing controller, and each sub-lampblack pipe 522 is connected to a cooking device, so that it is suitable for a highly integrated intelligent kitchen, when working, the lampblack processing controller respectively controls the valve mechanism 54 on the sub-lampblack pipe 522 connected to the cooking device being used to open, so that the lampblack generated by the cooking device can enter the lampblack processing device 51 to be processed, and controls the valve mechanisms 54 on the sub-lampblack pipes 522 connected to other non-working cooking devices to close, thereby performing targeted lampblack processing, and each oil smoke distributing pipe 522 is independently controllable, and each oil smoke distributing pipe 522 is not influenced mutually, so that the oil smoke treatment efficiency of the high-integration intelligent kitchen 1 is ensured, and the energy is saved.

Correspondingly, have the utility model discloses intelligence oil smoke processing system 50's integrated form intelligent kitchen 1 also has the same effect. And further, the utility model discloses an integrated form intelligent kitchen 1 sets up a kind of deep pot and stews mechanism 20 at the upper strata integration of its mounting bracket 10, cook and fry mechanism 30, intelligent oil smoke processing system 50, evaporate roast mechanism 40 in the lower floor installation of its mounting bracket 10, and control a kind of deep pot and stew mechanism 20 through the kitchen controller, cook and fry mechanism 30, evaporate roast mechanism 40 collaborative work, realize the high integration of the cabinet body and cooking device, the whole planning is reasonable, high durability and convenient use, practice thrift the kitchen space, and make the same time can carry out multiple culinary art operation, and then effectively improve culinary art efficiency, increase user experience.

The cooking devices involved in the integrated intelligent kitchen 1 of the present invention are not limited to the above embodiments, and other cooking devices can be provided, which are well known to those skilled in the art and will not be described in detail herein.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (10)

1. An intelligence oil smoke processing system which characterized in that includes:

the oil smoke treatment device comprises a main smoke inlet pipe;

the oil smoke pipeline comprises a main oil smoke pipe and a plurality of oil smoke distributing pipes communicated with the main oil smoke pipe, one end of each oil smoke distributing pipe, which is far away from the main oil smoke pipe, is used for being connected with a cooking device, and the main oil smoke pipe is connected with the main oil smoke inlet pipe;

the number of the valve mechanisms is more than or equal to that of the oil distributing smoke pipes, at least one valve mechanism is installed on each oil distributing smoke pipe, and the valve mechanisms are used for controlling the on-off of the oil distributing smoke pipes;

and the oil fume processing controller is respectively and electrically connected with the valve mechanisms and controls the valve mechanisms to act so as to realize the on-off of the oil distributing smoke pipes.

2. The intelligent lampblack processing system as claimed in claim 1, further comprising a lampblack extracting device arranged above the lampblack pipeline and communicated with one of the lampblack distributing pipes, wherein the lampblack extracting device comprises a lampblack extracting pipe and a fan connected with the lampblack extracting pipe, the fan is electrically connected with the lampblack processing controller, a smoke outlet pipe of the fan is connected with one of the lampblack distributing pipes, and one end, far away from the fan, of the lampblack extracting pipe is used for being connected with the cooking device to extract lampblack generated by the cooking device.

3. The intelligent lampblack processing system as claimed in claim 1, wherein the valve mechanism comprises a driving piece, a transmission rotating shaft and a hinge, the hinge is mounted on the transmission rotating shaft and contained in the lampblack distribution pipe, the outer diameter of the hinge corresponds to the inner diameter of the lampblack distribution pipe, one end of the transmission rotating shaft protrudes out of the lampblack distribution pipe and is connected with the driving piece, the driving piece is electrically connected with the lampblack processing controller, and the transmission rotating shaft is driven to rotate by the driving piece so that the hinge closes or opens the lampblack distribution pipe.

4. The intelligent lampblack processing system as claimed in claim 3, wherein the valve mechanism further comprises a baffle and two sensors, one end of the transmission rotating shaft, which is far away from the driving member, protrudes out of the lampblack distribution pipe and is fixed on the baffle, the two sensors are installed above the lampblack distribution pipe at an included angle and are respectively and electrically connected with the lampblack processing controller, and the lampblack processing controller controls the driving member to stop or rotate according to the positions of the baffle, which are detected by the two sensors.

5. The intelligent lampblack processing system as claimed in claim 4, wherein the plane of the baffle is perpendicular to the plane of the hinge, when the baffle is in a sensing position of one sensor, the hinge is perpendicular to the cross section of the lampblack distribution pipe so that the lampblack distribution pipe is conducted, and when the baffle rotates to another sensing position of the sensor, the outer edge of the hinge is attached to the inner wall of the lampblack distribution pipe so that the lampblack distribution pipe is closed.

6. The intelligent lampblack processing system as claimed in claim 4, wherein the valve mechanism further comprises a fixing frame and a sleeve, the fixing frame comprises a bottom plate and two side plates which are connected to the bottom plate and perpendicular to each other, rotating grooves which are communicated with each other and located at the same horizontal position are formed in the two side plates, the baffle is movably arranged in the rotating grooves in a penetrating mode, the two sensors are respectively arranged on one sides of the two side plates, which are far away from the transmission rotating shaft, sensing ports of the sensors correspond to the rotating grooves, and the sleeve is connected to the bottom plate and detachably sleeved outside the branch lampblack pipes.

7. An integrated smart kitchen, comprising:

the mounting frame comprises a rack, an upper panel horizontally arranged on the rack and a cover plate pivotally arranged at the top of the rack;

the stewing mechanism comprises a shell, an inner container embedded into the shell and a pot cover matched with the inner container, wherein the shell is embedded into the upper panel, the edge of an opening of the inner container protrudes out of the upper panel, the shell is connected with the upper panel in a sealing manner, the pot cover is pivotally arranged on the rack and corresponds to the opening of the inner container, and the pot cover is used for sealing the inner container and can be opened;

the cooking mechanism comprises a heating furnace body, the heating furnace body is hermetically embedded in the upper panel, and the furnace surface of the heating furnace body protrudes out of the upper panel;

the steaming and baking mechanism comprises a steaming and baking box body with an opening and a door plate matched with the opening, the steaming and baking box body is arranged on the rack and positioned below the stewing mechanism and the cooking mechanism, the door plate is pivotally arranged on the rack and corresponds to the opening, and the door plate is used for sealing the steaming and baking box body and can be opened;

the kitchen controller is respectively and electrically connected with and controls the stewing mechanism, the cooking mechanism and the steaming and baking mechanism;

the intelligent lampblack processing system as claimed in any one of claims 1-6, mounted to the rack and having each said oil smoke separating tube connected to the cooking mechanism, the cooking mechanism and the steaming mechanism respectively to collect and process lampblack.

8. The integrated intelligent kitchen according to claim 7, wherein the intelligent lampblack processing system further comprises a lampblack extracting device, the lampblack extracting device is mounted on the rack and comprises a fan, a lampblack extracting pipe, a lampblack air inlet pipe and a lampblack passage hole, the lampblack passage hole and the lampblack air inlet pipe are arranged on the cover plate and communicated, the lampblack extracting pipe is mounted on the rack, one end of the lampblack extracting pipe is communicated with the lampblack air inlet pipe, the other end of the lampblack extracting pipe is connected with one of the lampblack distributing pipes through the fan, and the lampblack extracting device is used for extracting lampblack generated by the cooking mechanism and the frying mechanism.

9. The integrated intelligent kitchen according to claim 7, wherein the rack comprises a lower bracket and an upper bracket which are arranged in sequence, the upper panel is mounted on the top of the upper bracket, the steaming and baking mechanism, the cooking mechanism and the intelligent lampblack processing system are mounted on the upper bracket, and the steaming and baking mechanism is mounted on the lower bracket.

10. The integrated smart kitchen of claim 7, wherein the stewing mechanism further comprises a first spray cleaning cavity, the first spray cleaning cavity is mounted on the rack and is hermetically connected to the upper panel to accommodate the shell, and a first cleaning nozzle is arranged in the first spray cleaning cavity; the steaming and baking mechanism further comprises a second cleaning spray head arranged in the steaming and baking box body and a plurality of independent heating elements arranged on the wall body of the steaming and baking box body and electrically connected with the kitchen controller, and the heating elements are controlled by the kitchen controller to adjust the steaming and baking temperature of the steaming and baking box body.

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