CN114383161A - Integrated kitchen with automatic fire-fighting function - Google Patents

Integrated kitchen with automatic fire-fighting function Download PDF

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Publication number
CN114383161A
CN114383161A CN202210040990.6A CN202210040990A CN114383161A CN 114383161 A CN114383161 A CN 114383161A CN 202210040990 A CN202210040990 A CN 202210040990A CN 114383161 A CN114383161 A CN 114383161A
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China
Prior art keywords
rod
plate
fixedly arranged
fixedly connected
assembly
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CN202210040990.6A
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Chinese (zh)
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CN114383161B (en
Inventor
段盛忠
段宏树
魏荣利
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Zhejiang Aibeite Intelligent Technology Co ltd
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Zhejiang Aibeite Intelligent Technology Co ltd
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Priority to CN202210040990.6A priority Critical patent/CN114383161B/en
Publication of CN114383161A publication Critical patent/CN114383161A/en
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Publication of CN114383161B publication Critical patent/CN114383161B/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C3/00Stoves or ranges for gaseous fuels
    • F24C3/12Arrangement or mounting of control or safety devices
    • F24C3/126Arrangement or mounting of control or safety devices on ranges
    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62CFIRE-FIGHTING
    • A62C3/00Fire prevention, containment or extinguishing specially adapted for particular objects or places
    • A62C3/006Fire prevention, containment or extinguishing specially adapted for particular objects or places for kitchens or stoves
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B40/00Technologies aiming at improving the efficiency of home appliances, e.g. induction cooking or efficient technologies for refrigerators, freezers or dish washers

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Commercial Cooking Devices (AREA)
  • Cookers (AREA)

Abstract

The invention discloses an integrated stove with an automatic fire-fighting and extinguishing function, which comprises a cooking bench, a cavity arranged on the cooking bench, a sliding ring arranged on the cavity in a sliding manner, a supporting block fixedly arranged on the sliding ring and used for supporting a cooker, a locking structure connected with the supporting block, an unlocking structure connected with the locking structure, an induction probe fixedly arranged in the cavity, and a heat insulation sleeve which is arranged on the induction probe in a sliding manner and fixedly connected with the sliding ring and used for controlling the induction probe; the locking structure comprises a first connecting rod hinged to the supporting block, a first self-locking assembly connected to the first connecting rod, a first hollow pipe fixedly arranged in the cavity and connected to the first self-locking assembly, a second self-locking assembly connected to the first hollow pipe and used for clamping the first self-locking assembly and the first hollow pipe, an unlocking assembly connected to the second self-locking assembly and used for driving the first self-locking assembly, and a clamping assembly arranged on the cavity and connected to the unlocking assembly and used for controlling the position of the first control assembly.

Description

Integrated kitchen with automatic fire-fighting function
Technical Field
The invention belongs to fire prevention of an integrated stove, and particularly relates to an integrated stove with an automatic fire-fighting function.
Background
The existing integrated cooker can only overflow the soup to extinguish the fire source, so that the problem of leakage of natural gas is prevented, people cannot be prevented from forgetting to take down a cookware, forgetting to close the natural gas, and the phenomenon that dangerous phenomenon occurs can not be handled after the natural gas is closed for a long time, so that the fire can not be controlled timely when a fire disaster occurs, and the phenomenon that the fire can not be extinguished in time can not be realized.
Disclosure of Invention
The invention provides an integrated cooker with an automatic fire-fighting function, which has a good fire-proof effect and can automatically extinguish fire in order to overcome the defects of the prior art.
In order to achieve the purpose, the invention adopts the following technical scheme: an integrated stove with an automatic fire-fighting and extinguishing function comprises a cooking bench, a cavity arranged on the cooking bench, a sliding ring arranged on the cavity in a sliding manner, a supporting block fixedly arranged on the sliding ring and used for supporting a cooker, a locking structure connected with the supporting block, an unlocking structure connected with the locking structure, an induction probe fixedly arranged in the cavity, and a heat insulation sleeve which is arranged on the induction probe in a sliding manner and fixedly connected with the sliding ring and used for controlling the induction probe; the locking structure comprises a first connecting rod hinged to the supporting block, a first self-locking assembly connected to the first connecting rod, a first hollow pipe fixedly arranged in the cavity and connected to the first self-locking assembly, a second self-locking assembly connected to the first hollow pipe and used for clamping the first self-locking assembly and the first hollow pipe, an unlocking assembly connected to the second self-locking assembly and used for driving the first self-locking assembly, and a clamping assembly arranged on the cavity and connected to the unlocking assembly and used for controlling the position of the first control assembly; a plurality of air suction pipes fixedly arranged on the cooking bench; the unlocking structure comprises an eighth supporting plate arranged above the supporting block, a control reset assembly connected to the eighth supporting plate, a slow reset assembly connected to the first self-locking assembly, a first driving assembly connected to the slow reset assembly, a second driving assembly arranged above the first driving assembly, a third control assembly and a second control assembly which are connected to the second driving assembly and used for controlling and driving the second driving assembly, a sixth supporting plate arranged on the first connecting rod and used for supporting the third control assembly and the second control assembly, and a ninth supporting plate fixedly arranged on the sixth supporting plate;
when the natural gas supply device is used, natural gas can be supplied only by placing the pot on the supporting block, and the natural gas can be ignited for use, so that the phenomenon that children can carelessly and carelessly open the natural gas is prevented, meanwhile, the phenomenon that fire easily causes burn to people due to the fact that the pot is not directly ignited can be better avoided, the pot is placed well and can be always supplied after the natural gas is supplied and ignited, a user can take the pot out midway and then hold dishes out, forget to put the pot back and forget to close the natural gas, the natural gas can be supplied and combusted all the time, the concentration of the natural gas in a room is overhigh, the ignition point can be reached, the danger of fire can be caused later, and the natural gas can be automatically supplied after the pot is separated for a long time, that is, can be better increase cautiously in the use, the phenomenon of avoiding the conflagration that can be better, in case when the conflagration appears, the breathing pipe can outwards spout carbon dioxide, put out a fire, thereby the security when better assurance is used, and the emergence of avoiding the conflagration that can be better and the function of putting out a fire when taking place the conflagration, thereby safer use, even having taken place the conflagration simultaneously also can stop the supply of natural gas through the mode of automatic cutout air feed, even if the loss ends, avoid supplying the natural gas all the time and cause bigger conflagration phenomenon, and be favorable to the function of putting out a fire.
Furthermore, the first self-locking assembly comprises a hinge block hinged to the first connecting rod and arranged in the cavity in a sliding manner, a third hollow pipe fixedly connected to the hinge block, a hollow groove arranged in the third hollow pipe, a third hollow pipe fixedly arranged on the hinge block, a third telescopic rod fixedly arranged on the fixing plate, a matching plate fixedly connected to the third telescopic rod, and a fifth spring arranged between the matching plate and the fixing plate; the first hollow pipe is provided with a vent hole; the third hollow pipe is arranged in the first hollow pipe in a sliding manner; the second self-locking assembly comprises a sealing ring which is arranged on the outer ring of the first hollow pipe in a sliding manner, a fourth telescopic rod which is fixedly arranged between the sealing ring and the cavity, a seventh spring which is fixedly arranged between the sealing ring and the cavity and is used for resetting the sealing ring, and a first chute and a second chute which are arranged above the sealing ring; the unlocking assembly is matched with the first chute and the second chute; the third hollow tube can lock through first hollow tube, and it can make the motion of seal ring seal the air vent after exactly that the fourth telescopic link reachs a certain position, later can make first hollow tube inside seal, realizes fixed position to the third hollow tube through atmospheric pressure to more stable assurance response probe hugs outside, better supply that keeps the natural gas.
Furthermore, the first control assembly comprises a fourth guide rod fixedly arranged above the cavity, a first sliding plate slidably arranged on the fourth guide rod, a first clamping plate fixedly arranged above the fourth guide rod and used for limiting the first sliding plate, a pulling plate fixedly connected to the sealing ring, a pulling rope fixedly connected to the pulling plate and fixedly connected with the first sliding plate through the inner part of the cooking bench, and a guide wheel arranged on the cavity and used for guiding the pulling rope; the unlocking assembly comprises a motor fixedly connected to the first sliding plate, a rotating disc fixedly connected to the motor, a fixed block fixedly arranged in the middle of the rotating disc, a first spring fixedly arranged below the fixed block, a first guide rod fixedly arranged below the first spring, a driving rod fixedly arranged below the first guide rod, a first supporting plate fixedly arranged in the cavity, a second guide rod fixedly arranged on the first supporting plate, and a first guide plate fixedly arranged on the second guide rod and used for guiding the first guide rod; a telescopic piece is further arranged between the fixed block and the first guide rod to guide the positions of the fixed block and the first guide rod; rotate through the motor always, can the continuation monitor the in service behavior of top of a kitchen range to both can overflow traditional hot water juice and monitor and also can monitor the pan empty burning, thereby also just both can prevent the emergence of conflagration and also can prevent that the natural gas from revealing, can also be better protect the pan.
Furthermore, the clamping assembly comprises a second support plate fixedly arranged on the cavity, a second spring fixedly arranged on the second support plate, a first clamping block fixedly connected to the second spring, a second connecting rod fixedly arranged above the first clamping block, a third guide rod fixedly connected to the second connecting rod, a second guide plate fixedly arranged on the sealing ring and matched with the third guide rod, and a second clamping plate fixedly arranged on the first sliding plate and matched with the first clamping block; the first clamping block is provided with a clamping groove for clamping the position of the second clamping plate; a telescopic part for guiding the first clamping block is further arranged between the second supporting plate and the first clamping block; the movement of the sealing ring towards the vent causes the first sliding plate to move downwards, after which the driving rod is kept in engagement with the first chute, thereby achieving a reciprocating movement of the sealing ring.
Furthermore, a first telescopic rod for guiding the eighth supporting plate is arranged between the eighth supporting plate and the supporting block; the control reset assembly comprises a pressure rod fixedly arranged below the eighth supporting plate, a first sliding groove arranged in the supporting block and used for inserting the pressure rod, a third spring arranged in the first sliding groove and abutted against the pressure rod and used for resetting the pressure rod, a first inflating rod fixedly arranged below the first sliding groove, a first inflating cylinder fixedly arranged below the first inflating rod, a second telescopic rod fixedly connected to the first inflating cylinder, a first rack fixedly connected to the second telescopic rod, a supporting piece fixedly arranged on the hinge block, a threaded rod rotatably arranged on the supporting piece and two threaded blocks connected to the threaded rod; the threaded rod and the threaded block move together with the hinged block; the two thread blocks can be separated from each other or can lean against each other; the two thread blocks are close to each other and matched with the second hollow pipe; put through the pan and can make two screw thread pieces keep away from each other in the eighth backup pad, can make two screw thread pieces lean on together when the pan was taken away to the state that realizes through the pan controls the supply of natural gas, thereby the better state through the pan carries out mouthful control to the safety degree, makes its use that can be safer.
Furthermore, the slow resetting assembly comprises a second hollow pipe rotatably arranged in the hinging block, a piston plate fixedly arranged on the second hollow pipe and slidably arranged in the hollow groove, and a tension spring arranged between the piston plate and the hinging block and used for resetting the second hollow pipe and the piston plate; the first driving assembly comprises a first gear shaft arranged in the vent hole in a sliding mode, a support fixedly connected to the hinge block, a second gear shaft meshed with the first gear shaft, a first transmission belt connected to the second gear shaft, and a first rotating shaft connected to the first transmission belt; the first rotating shaft is connected to the second driving assembly; the second hollow tube can move along with the hinged block, and then the second hollow tube can slide in the hinged block, so that the second hollow tube can be always driven by power through the matching of the first gear shaft and the second hollow tube, and can also move in the hinged block.
Furthermore, the second driving assembly comprises a fixed rod fixedly connected to the matching plate, a push plate fixedly connected to the fixed rod, a push rod fixedly connected to the fixed rod, a fifth supporting plate fixedly connected to the push rod, a second rotating shaft rotatably arranged on the fifth supporting plate, a second driving assembly fixedly connected to the second rotating shaft, a torsion spring arranged on the rotating rod, a clamping rod fixedly arranged on the fifth supporting plate and used for clamping the position of the rotating rod, and a rotating wheel fixedly connected to the first rotating shaft and matched with the rotating rod; the rotating wheel is provided with a plurality of transverse plates; the transverse plate is matched with the rotary rod; the diaphragm can receive the thrust of rotary rod, can make the rotary rod drive the swiveling wheel through the push pedal and rotate, and the rotary rod does not cooperate with the diaphragm on the swiveling wheel when reseing to realize that the swiveling wheel carries out single-direction rotation, later the position that the screens pole blocked the rotary rod is because the rotary rod receives the torsion of torsional spring, can support on the screens pole.
Furthermore, the third control component comprises a second inflating rod fixedly arranged on the sixth supporting plate, a second inflator slidably arranged in the second inflating rod, a second rack fixedly arranged on the ninth supporting plate, a second gear meshed with the second rack, an arc-shaped block fixedly arranged in the inner ring of the second gear, an air bag matched with the arc-shaped block, a third rotating shaft fixedly connected to the air bag, an inflating disc rotatably connected to the third rotating shaft, and an air release pipe fixedly arranged above the inflating disc; the second control assembly comprises a third rack fixedly connected to the sixth supporting plate, a third gear meshed with the third rack, a fourth rotating shaft fixedly arranged on the third gear, a fourth gear fixedly connected to the fourth rotating shaft, a fourth rack meshed with the fourth gear, a fifth guide rod fixedly connected to the fourth rack, a sealing plate fixedly connected to the fifth guide rod and used for blocking the air leakage pipe, a sixth guide rod fixedly connected to the sealing plate, and a seventh supporting plate fixedly connected to the sixth guide rod and fixedly arranged on the fifth supporting plate; a second transmission belt wound around the third rotating shaft and the second rotating shaft; the second inflator is fixedly connected with the inflation disc;
furthermore, threaded rods are fixedly arranged on two sides of the fourth rack; a limiting plate is fixedly arranged on the side surface of the seventh guide rod; a fifth rack positioned between the fourth rack and the limiting plate is arranged on the seventh guide rod in a sliding manner; a sixth spring for resetting the fifth rack is arranged between the fifth rack and the fourth rack;
in conclusion, the induction probe can be controlled by arranging the heat insulation sleeve, so that the natural gas supply device can adapt to more modes to cut off the supply of natural gas, and the natural gas leakage is prevented from causing fire; the locking structure and the unlocking structure are arranged to control the state of the heat insulation sleeve, so that the locking structure and the unlocking structure can replace the manual caution when a cook uses the cooker, and the natural gas supply is automatically cut off after the cooker is taken away for a long time; an air suction pipe is arranged to extinguish a fire in case of a fire.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic diagram of the N-N position structure of the present invention;
FIG. 3 is a schematic cross-sectional view of N-N in the present invention;
FIG. 4 is an enlarged view of A of FIG. 3 according to the present invention;
FIG. 5 is an enlarged view of B of FIG. 4 in accordance with the present invention;
FIG. 6 is a schematic view of the construction of the pull cord of the present invention;
FIG. 7 is a schematic view of the locking assembly of the present invention;
FIG. 8 is a schematic view of the position structure of M-M in the present invention;
FIG. 9 is a schematic sectional view of M-M in the present invention;
FIG. 10 is an enlarged view of C of FIG. 9 in accordance with the present invention;
FIG. 11 is an enlarged view of D of FIG. 10 in accordance with the present invention;
FIG. 12 is an enlarged view of E of FIG. 10 in accordance with the present invention;
FIG. 13 is an enlarged view of F of FIG. 10 in accordance with the present invention;
FIG. 14 is an enlarged view of G of FIG. 12 in accordance with the present invention;
FIG. 15 is an enlarged view of H of FIG. 14 in accordance with the invention;
FIG. 16 is a schematic structural diagram of a second control assembly according to the present invention;
FIG. 17 is a schematic view of a second belt constructed in accordance with the present invention;
FIG. 18 is a schematic structural view of a fifth rack of the present invention;
Detailed Description
In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.
As shown in fig. 1 to 18, an integrated cooker with an automatic fire-fighting and extinguishing function comprises a cooking bench 1, a cavity 11 arranged on the cooking bench 1, a sliding ring 31 arranged on the cavity 11 in a sliding manner, a supporting block 3 fixedly arranged on the sliding ring 31 and used for supporting cookware, a locking structure 4 connected to the supporting block 3, an unlocking structure 5 connected to the locking structure 4, an induction probe 6 fixedly arranged in the cavity 11, and a heat insulation sleeve 61 arranged on the induction probe 6 in a sliding manner and fixedly connected with the sliding ring 31 and used for controlling the induction probe 6; the locking structure 4 comprises a first connecting rod 41 hinged to the supporting block 3, a first self-locking assembly 42 connected to the first connecting rod 41, a first hollow tube 43 fixedly arranged in the cavity 11 and connected to the first self-locking assembly 42, a second self-locking assembly 44 connected to the first hollow tube 43 and used for locking the first self-locking assembly 42 and the first hollow tube 43, an unlocking assembly 46 connected to the second self-locking assembly 44 and used for driving the first self-locking assembly 42, and a locking assembly 47 arranged on the cavity 11 and connected to the unlocking assembly 46 and used for controlling the position of the first control assembly 45; a plurality of air suction pipes 2 fixedly arranged on the cooking bench 1; the unlocking structure 5 comprises an eighth supporting plate 51 arranged above the supporting block 3, a control reset component 52 connected to the eighth supporting plate 51, a slow reset component 53 connected to the first self-locking component 42, a first driving component 54 connected to the slow reset component 53, a second driving component 55 arranged above the first driving component 54, a third control component 57 and a second control component 59 connected to the second driving component 55 and used for controlling and driving the second driving component 55, a sixth supporting plate 58 arranged on the first connecting rod 41 and used for supporting the third control component 57 and the second control component 59, and a ninth supporting plate 581 fixedly arranged on the sixth supporting plate 58.
Specifically, the first self-locking assembly 42 includes a hinge block 421 hinged to the first connecting rod 41 and slidably disposed in the cavity 11, a third hollow tube 422 fixedly connected to the hinge block 421, a hollow groove 423 disposed in the third hollow tube 422, a third hollow tube 422 fixedly disposed on the hinge block 421, a third telescopic rod 425 fixedly disposed on the fixing plate 424, a mating plate 426 fixedly connected to the third telescopic rod 425, and a fifth spring 427 disposed between the mating plate 426 and the fixing plate 424; the first hollow pipe 43 is provided with a vent hole 431; the third hollow pipe 422 is slidably arranged inside the first hollow pipe 43; the second self-locking assembly 44 comprises a sealing ring 441 slidably arranged on the outer ring of the first hollow tube 43, a fourth telescopic rod 442 fixedly arranged between the sealing ring 441 and the cavity 11, a seventh spring 443 fixedly arranged between the sealing ring 441 and the cavity 11 and used for resetting the sealing ring 441, and a first inclined groove 444 and a second inclined groove 445 arranged above the sealing ring 441.
Specifically, the first control assembly 45 includes a fourth guide bar 451 fixedly disposed above the cavity 11, a first sliding plate 452 slidably disposed on the fourth guide bar 451, a first locking plate 453 fixedly disposed above the fourth guide bar 451 for locking the first sliding plate 452, a pulling plate 456 fixedly connected to the sealing ring 441, a pulling rope 454 fixedly connected to the pulling plate 456 and fixedly connected to the first sliding plate 452 through the interior of the cooking bench 1, and a guide wheel 455 disposed on the cavity 11 for guiding the pulling rope 454; the unlocking assembly 46 includes a motor 461 fixedly connected to the first sliding plate 452, a rotating disc 462 fixedly connected to the motor 461, a fixed block 467 fixedly disposed at a middle position of the rotating disc 462, a first spring 468 fixedly disposed below the fixed block 467, a first guide rod 463 fixedly disposed below the first spring 468, a driving rod 469 fixedly disposed below the first guide rod 463, a first supporting plate 466 fixedly disposed in the cavity 11, a second guide rod 465 fixedly disposed on the first supporting plate 466, and a first guide plate 464 fixedly disposed on the second guide rod 465 and guiding the first guide rod 463.
Specifically, the locking assembly 47 includes a second support plate 471 fixedly disposed on the cavity 11, a second spring 472 fixedly disposed on the second support plate 471, a first locking block 473 fixedly connected to the second spring 472, a second link 474 fixedly disposed above the first locking block 473, a third guide rod 475 fixedly connected to the second link 474, a second guide plate 476 fixedly disposed on the sealing ring 441 and engaged with the third guide rod 475, and a second locking plate 477 fixedly disposed on the first sliding plate 452 and engaged with the first locking block 473.
Specifically, a first telescopic rod 511 for guiding the eighth supporting plate 51 is arranged between the eighth supporting plate 51 and the supporting block 3; the control reset assembly 52 includes a pressing rod 521 fixedly disposed below the eighth supporting plate 51, a first sliding slot 523 disposed in the supporting block 3 and allowing the pressing rod 521 to be inserted therein, a third spring 522 disposed in the first sliding slot 523 and abutting against the pressing rod 521 for resetting the pressing rod 521, a first inflation rod 524 fixedly disposed below the first sliding slot 523, a first inflation cylinder 525 fixedly disposed below the first inflation rod 524, a second expansion rod 526 fixedly connected to the first inflation cylinder 525, a first rack 527 fixedly connected to the second expansion rod 526, a support fixedly disposed on the hinge block 421, a threaded rod 520 rotatably disposed on the support, and two threaded blocks 529 connected to the threaded rod 520.
Specifically, the slow resetting assembly 53 includes a second hollow tube 531 rotatably disposed in the hinge block 421, a piston plate 532 fixedly disposed on the second hollow tube 531 and slidably disposed in the hollow groove 423, and a pull spring 533 disposed between the piston plate 532 and the hinge block 421 for resetting the second hollow tube 531 and the piston plate 532; the first driving assembly 54 comprises a first gear shaft 541 slidably disposed in the air vent 431, a bracket 543 fixedly connected to the hinge block 421, a second gear shaft 542 engaged with the first gear shaft 541, a first transmission belt 544 connected to the second gear shaft 542, and a first rotating shaft 545 connected to the first transmission belt 544; the first rotation shaft 545 is connected to the second driving unit 55.
Specifically, the second driving assembly 55 includes a fixing rod 551 fixedly connected to the mating plate 426, a push plate 552 fixedly connected to the fixing rod 551, a push rod 553 fixedly connected to the fixing rod 551, a fifth supporting plate 554 fixedly connected to the push rod 553, a second rotating shaft 555 rotatably disposed on the fifth supporting plate 554, the second driving assembly 55 fixedly connected to the second rotating shaft 555, a torsion spring 558 disposed on the rotating rod 556, a locking rod 557 fixedly disposed on the fifth supporting plate 554 for locking the position of the rotating rod 556, and a rotating wheel 559 fixedly connected to the first rotating shaft 545 and engaged with the rotating rod 556.
Specifically, the third control assembly 57 includes a second inflation rod 571 fixedly disposed on the sixth support plate 58, a second inflator 572 slidably disposed in the second inflation rod 571, a second rack 573 fixedly disposed on the ninth support plate 581, a second gear 574 engaged with the second rack 573, an arc block 575 fixedly disposed in an inner ring of the second gear 574, an air bag 576 engaged with the arc block 575, a third rotating shaft 577 fixedly connected to the air bag 576, an inflation disk 578 rotatably connected to the third rotating shaft 577, and a deflation pipe 579 fixedly disposed above the inflation disk 578; the second control assembly 59 comprises a third rack 591 fixedly connected to the sixth support plate 58, a third gear 592 meshed with the third rack 591, a fourth rotating shaft 593 fixedly arranged on the third gear 592, a fourth gear 594 fixedly connected to the fourth rotating shaft 593, a fourth rack 595 meshed with the fourth gear 594, a fifth guide rod 596 fixedly connected to the fourth rack 595, a sealing plate 597 fixedly connected to the fifth guide rod 596 for blocking the air release pipe 579, a sixth guide rod 598 fixedly connected to the sealing plate 597, and a seventh support plate 599 fixedly connected to the sixth guide rod 598 and fixedly arranged on the fifth support plate 554; a second belt 590 wound around the third rotating shaft 577 and the second rotating shaft 555; the second inflator 572 is fixedly connected to the inflation tray 578;
specifically, threaded rods 520 are fixedly arranged on both sides of the fourth rack 595; a limiting plate 501 is fixedly arranged on the side surface of the seventh guide rod 502; the seventh guide rod 502 is slidably provided with a fifth rack 50 located between the fourth rack 595 and the limit plate 501; a sixth spring 503 for resetting the fifth rack 50 is arranged between the fifth rack 50 and the fourth rack 595;
the specific working process of the invention is as follows: when the cooker is used, the cooker is required to be placed above the eighth support plate 51, then the eighth support plate 51 is compressed downwards until the eighth support plate 51 is attached to the position above the support block 3, then the pressing rod 521 is moved downwards, then the third spring 522 is compressed, then the pressing rod 521 drives the first inflating rod 524 to move downwards, the first inflating rod 524 inflates the first inflating rod 525, then the gas in the first inflating rod 525 pushes the second telescopic rod 526 to move towards the direction away from the first inflating rod 525, then the second telescopic rod 526 pushes the first rack 527 to move together, the first rack 527 is meshed with the first gear 528 to drive the first gear 528 to rotate, then the first gear 528 drives the threaded rod 520 to rotate, then the threaded rod 520 drives the two threaded blocks 529 to move away from each other and separate, and then the cooker is placed on the eighth support plate 51, the eighth supporting plate 51 presses the supporting block 3 downwards, and then the supporting block 3 moves downwards, all the supporting blocks 3 move downwards simultaneously through the sliding ring 31, then the fourth spring 32 is compressed, and the supporting block 3 moves downwards to drive the first connecting rod 41, so that the first connecting rod 41 drives the hinge block 421 to move, the hinge block 421 moves away from the supporting block 3, then the hinge block 421 drives the third hollow tube 422 to move together, then the third hollow tube 422 drives the fixing plate 424 and the third telescopic rod 425 as well as the matching plate 426 and the fifth spring 427 to move together, then the matching plate 426 touches the sealing ring 441, so that the sealing ring 441 is pushed to move together with the third telescopic rod 425, then the seventh spring 443 is compressed, and then the sealing ring 441 is subjected to a force for resetting, then, as the fourth telescopic rod 442 slides in the first hollow tube 43 and the vent hole 431 is opened before the matching plate 426 touches the sealing ring 441, the air inside the first hollow tube 43 is extruded out along the vent hole 431, and then the sealing ring 441 is not driven to move at the first time after the matching plate 426 touches the sealing ring 441, because the fifth spring 427 is arranged on the third telescopic rod 425 and the matching plate 426 is driven by the elastic force of the fifth spring 427, the fifth spring 427 is compressed first, and after the fifth spring 427 is compressed to a certain degree, the matching plate 426 drives the sealing ring 441 to move, that is, when the sealing ring 441 seals the vent hole 431, not only the seventh spring 443 is compressed, the fifth spring 427 is also compressed, and then the air hole 431 is sealed, and the air inside the first hollow tube 43 is in a closed state, and then the third hollow tube 422 is sucked by the air pressure, that is, the piston plate 532 inside the third hollow tube 422 is sucked by the air pressure, because the piston plate 532 moves together with the third hollow tube 422 (the piston plate 532 is described in detail later); the position of the hinge block 421 is fixed by the third hollow tube 422, and the position of the first link 41 is fixed, and then the positions of the support block 3 and the sliding ring 31 are fixed, and then the support block 3 and the sliding ring 31 move downwards, and then the sliding ring 31 drives the heat insulating sleeve 61 to move downwards, and then the heat insulating sleeve 61 initially blocks the sensing probe 6, so that the heat insulating sleeve 61 does not block the sensing probe 6 any more by moving downwards, and thus the sensing probe 6 can sense the outside temperature;
then, the natural gas is opened and ignited, then the sensing probe 6 can sense the temperature of flame soon, so that the valve for controlling the natural gas can be subjected to self-locking (in the prior art, the following simple explanation is carried out, and detailed description is omitted), the valve for controlling the natural gas can be kept in an open state because the sensing probe 6 senses high temperature all the time, at this moment, the flame is illustrated, the natural gas can be combusted, then, after the flame is extinguished by soup, the sensing probe 6 does not sense the high temperature any more, then, the temperature is reduced soon, then, the valve for controlling the natural gas is reset, so that the natural gas is closed, the natural gas is prevented from being exposed outwards but not combusted, and the phenomenon that fire occurs due to the fact that an open fire later occurs is avoided; so that the natural gas can be continuously supplied;
then, as the sealing ring 441 moves, that is, the sealing ring 441 drives the pulling plate 456 to move together, then the pulling plate 456 pulls the pulling rope 454 to move, then the pulling rope 454 bypasses the guide wheel 455 and passes through the interior of the cooking bench 1, the direction of the pulling rope 454 is changed, so that the pulling rope 454 pulls the first sliding plate 452 downward, the first sliding plate 452 moves downward under the guide of the fourth guide rod 451, that is, the first sliding plate 452 drives the motor 461 to move downward, then the motor 461 drives the rotating disc 462 to move downward, that is, the driving rod 469 moves downward, so that the driving rod 469 cooperates with the first inclined groove 444 or the second inclined groove 445, then the motor 461 is started, the motor 461 drives the rotating disc 462 to rotate, then the rotating disc 462 drives the fixed block 467 to rotate, that then the fixed block 467 drives the driving rod 469 to rotate together through the first spring 468, then the driving rod 469 is engaged with the first inclined slot 444 or the second inclined slot 445, so that the driving rod 469 rotates with the rotating disc 462 to move the sealing ring 441, and the sealing ring 441 moves away from the driving rod 469, and then the sealing ring 441 moves and is reset under the action of the fifth spring 427, so that the sealing ring 441 moves in a reciprocating manner, and then the engaging plate 426 moves in a reciprocating manner, and then the driving rod 469 moves to move the first guide rod 463 moves with the rotating disc 462, and then the first guide rod 463 moves to engage with the first guide plate 464, so that the first guide rod 463 rotates to the position of the first guide plate 464, then the first guide rod 463 abuts against the first guide plate 464 and slides on the first guide plate 464, and because the first guide rod 463 performs a circular motion, the linear distance is small under the action of the first guide plate 464, and then the driving rod 469 is moved linearly, so that the driving rod 469 is better matched with the second inclined groove 445 or the first inclined groove 444, wherein the matching is that the driving rod 469 is inserted into the first inclined groove 444 or the second inclined groove 445, then the matching plate 426 is moved back and forth, that is, the matching plate 426 drives the push plate 552 to move back and forth through the fixing rod 551, then the push plate 552 drives the push rod 553 to move the same, then the push rod 553 drives the fifth support plate 554 to move, then the fifth support plate 554 drives the third rotating shaft 577 to move together, then the third rotating shaft 577 drives the air bag 576 to move together, then the arc-shaped blocks 575 drive the second gear 574 to move together, and then the second gear 574 drives the second gear 574 to move back and forth on the second gear 573, then the second gear 573 is meshed with the second gear 574, so that the second gear 574 rotates in a reciprocating manner, then the second gear 574 drives the third rotating shaft 577 to rotate in a reciprocating manner through the arc-shaped blocks 575 and the air bags 576, then the third rotating shaft 577 is connected with the locking structure 4 of the second driving assembly 55 through the hinged plate, that is, the third rotating shaft 577 is rotatably connected with the hinged plate, the second gear 574 is fixedly connected with the hinged plate, so that the rotation of the second gear 574 is guided, then the second gear 574 is used as a driving force to drive the third rotating shaft 577 as a driven force to rotate, and then the third rotating shaft 577 is required to rotate in a reciprocating manner; however, the third rotating shaft 577 rotates to drive the second transmission belt 590 to rotate, then the second transmission belt 590 drives the second rotating shaft 555 to rotate, the second rotating shaft 555 drives the rotating rod 556 to rotate, then the fifth support plate 554 also reciprocates, that is, the fifth support plate 554 reciprocates while the second rotating shaft 555 drives the rotating rod 556 to reciprocate with the fifth support plate 554 and also rotates, then the sixth support plate 58 is fixed, the fifth support plate 554 moves to make the third rotating shaft 577, the inflation disk 578 and the deflation tube 579 move together, then the seventh support plate 599 moves together with the fifth support plate 554, the sealing plate 597 initially stops above the deflation tube 579 to seal the deflation tube 579, then the air bag 576 and the inflation disk 578 are communicated with each other, the sixth support plate 58 does not move, when the fifth supporting plate 554 moves, the second inflating rod 571 is engaged with the second inflator 572 to inflate the inflation plate 578, and then the inflation plate 578 expands to expand the air bag 576, so that the air bag 576 is engaged with the arc-shaped block 575, and thus the rotation of the third rotating shaft 577 and the rotation of the second gear 574 are synchronized, otherwise the air bag 576 is deflated and cannot be expanded to be engaged with the arc-shaped block 575, so that the second gear 574 rotates and cannot drive the third rotating shaft 577 to move, and then when the fifth supporting plate 554 moves away from the sixth supporting plate 58, the fifth supporting plate 554 drives the second rotating shaft 555 to move together, then the second rotating shaft 555 drives the rotating rod 556 to move, the rotating rod 556 applies a clockwise rotating force to the rotating rod 556 under the action of the torsion spring 558, and then the rotating rod 556 is abutted against the detent rod 557 under a normal condition, then, the rotating rod 556 is moved to contact with the rotating wheel 559, so that the rotating wheel 559 is driven to rotate, and the rotating wheel 559 rotates; then, as the fifth supporting plate 554 is far from the sixth supporting plate 58, the second inflating rod 571 and the second inflating pump 572 are matched to pump air to the inflating disk 578, then the sealing plate 597 no longer blocks the air release pipe 579, so that the inflating disk 578 cannot be expanded, then the second gear 574 rotates, but the second gear 574 does not drive the third rotating shaft 577 to rotate, so that the third rotating shaft 577 does not drive the second rotating shaft 555 to rotate, so that the rotating rod 556 does not move, so that the rotating rod 556 can normally drive the rotating wheel 559 to rotate, then the fifth supporting plate 554 is reset, namely moves towards the direction close to the sixth supporting plate 58, then the second inflating pump 572 inflates the inflating disk 578, then the sealing plate 597 moves to block the pipe 579, so that the inflating disk 578 is expanded, the inflation disk 578 can enable the air bag 576 and the arc-shaped blocks 575 to be matched to drive the third rotating shaft 577 to rotate, so that when the fifth supporting plate 554 is reset, the third rotating shaft 577 rotates, the rotating direction is anticlockwise, so that the rotating rod 556 rotates anticlockwise, then when the rotating rod 556 is reset, the third rotating shaft 577 is disengaged from the rotating wheel 559, the rotating wheel 559 cannot be driven to rotate, so that the rotating wheel 559 rotates in a single direction, then when the fifth supporting plate 554 moves away from the sixth supporting plate 58 again, the inflation disk 578, namely the air bag 576, deflates, then the third rotating shaft 577 loses fixation, then the rotating rod 556 is reset under the action of the torsion spring 558, so that the torsion spring 558 can drive the rotating wheel 559 to rotate again, and the reciprocating motion is repeated; so that the rotation wheel 559 always performs unidirectional rotation;
the rotating wheel 559 rotates in a single direction, the first transmission belt 544 drives the second gear shaft 542 to rotate in a single direction, then the first gear shaft 541 rotates in a single direction, then the first gear shaft 541 and the second hollow tube 531 are in sliding connection, the first gear shaft 541 can drive the second hollow tube 531 to rotate, the sliding key or spline connection is adopted, the prior art is not explained, then the second hollow tube 531 rotates, and the second hollow tube 531 is matched with the thread block 529;
then, as the pot is placed on the eighth supporting plate 51, the screw block 529 and the second hollow tube 531 will not be matched, and then, as long as the pot is placed on the eighth supporting plate 51, the first gear shaft 541 rotates to drive the second hollow tube 531 to move in a linear direction; however, when cooking, especially when cooking, the user turns the dish upside down, takes away the pot to pour the dish, pours the dish outwards, easily forgets to put the pot back to the original position, and also easily forgets to turn off the natural gas, so that the natural gas is combusted all the time, the concentration of the natural gas in the room is easily too high, and danger is easily caused, then the motor 461 rotates all the time no matter whether the pot is on the eighth supporting plate 51 or not, then the vent hole 431 rotates in one direction all the time, when the pot is on the eighth supporting plate 51, cooking is explained, so that the vent hole 431 does not move in a straight direction, when the pot is taken away, the eighth supporting plate 51 is reset, then the thread blocks 529 are butted together and matched with the second hollow tube 531, then the second hollow tube 531 rotates to move towards the direction close to the first hollow tube 43, then, the air pressure inside the empty groove 423 is gradually increased, so that the third hollow pipe 422 moves towards a direction away from the first hollow pipe 43, that is, the third hollow pipe 422 moves outwards from the first hollow pipe 43, and then the movement is performed all the time, that is, the hinge block 421 also gradually moves, then the hinge block 421 is slowly reset, and the first connecting rod 41 drives the sliding ring 31 to reset, then the heat insulation sleeve 61 moves upwards, the heat insulation sleeve 61 is slowly wrapped, so that the heat insulation sleeve 61 is cooled, then the valve is used for cutting off the supply of natural gas, if the pot is only taken away for a short time, the pot can be put on again, so that the inside is reset, so that the use condition can be continuously and automatically monitored, and the phenomenon of gas leakage is avoided all the time;
then the driving rod 469 drives the sealing ring 441 to move through the first inclined groove 444 or the second inclined groove 445, and an electric rod is arranged at the connection position of the motor 461 and the rotating disc 462, when the cooker is used in daytime, the driving rod 469 is matched with the first inclined groove 444, when the cooker is used in night, the driving rod 469 can reach the position matched with the second inclined groove 445, the driving rod 469 is matched with the first inclined groove 444, the rotating angle of the vent hole 431 is lower in unit time, the driving rod 469 is matched with the second inclined groove 445, the rotating angle of the vent hole 431 in unit time is larger than that of the former, therefore, when the cooker is used in night, the natural gas supply can be closed more quickly, when the cooker is used in daytime, because fewer people sleep, the natural gas can be closed later, a person who cooks can take the cooker for a longer time to carefully prepare, and then the electric rod can be controlled, the supply mode can be changed from black to white, can be the supply mode in the daytime, and can be the supply mode in the night;
the method for controlling the open/close state of the air release pipe 579 by the sealing plate 597 is mainly that the third rack 591 drives the third gear 592 to rotate, the third gear 592 drives the fourth rotating shaft 593, the fourth rotating shaft 593 drives the fourth gear 594 to rotate, the fourth gear 594 drives the fourth rack 595 to move, then the fourth gear 594 rotates straight, the fourth gear 594 is meshed with the fourth rack 595, then the fourth rack 595 is driven to move for a certain distance and then is meshed with the fifth rack 50, so that the fifth rack 50 slides, the fourth rack 595 can drive the sealing plate 597 to move for a certain distance, then when the fifth supporting plate 554 is far away from the sixth supporting plate 58, the air release pipe 579 moves towards the direction close to the ninth supporting plate 581, and vice versa.
It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step,
should fall within the scope of the present invention.

Claims (9)

1. The utility model provides an integrated kitchen with automatic fire control function of putting out a fire which characterized in that: the induction cooker comprises a cooking bench (1), a cavity (11) arranged on the cooking bench (1), a sliding ring (31) arranged on the cavity (11) in a sliding manner, a supporting block (3) fixedly arranged on the sliding ring (31) and used for supporting a cooker, a locking structure (4) connected with the supporting block (3), an unlocking structure (5) connected with the locking structure (4), an induction probe (6) fixedly arranged in the cavity (11), and a heat insulation sleeve (61) which is arranged on the induction probe (6) in a sliding manner and fixedly connected with the sliding ring (31) and used for controlling the induction probe (6); the locking structure (4) comprises a first connecting rod (41) hinged to the supporting block (3), a first self-locking assembly (42) connected to the first connecting rod (41), a first hollow pipe (43) fixedly arranged in the cavity (11) and connected to the first self-locking assembly (42), a second self-locking assembly (44) connected to the first hollow pipe (43) and used for locking the first self-locking assembly (42) and the first hollow pipe (43), an unlocking assembly (46) connected to the second self-locking assembly (44) and used for driving the first self-locking assembly (42), and a clamping assembly (47) arranged on the cavity (11) and connected to the unlocking assembly (46) and used for controlling the position of the first control assembly (45); a plurality of air suction pipes (2) fixedly arranged on the cooking bench (1); the unlocking structure (5) comprises an eighth supporting plate (51) arranged above the supporting block (3), a control reset component (52) connected to the eighth supporting plate (51), a slow reset component (53) connected to the first self-locking component (42), a first driving component (54) connected to the slow reset component (53), a second driving component (55) arranged above the first driving component (54), a third control component (57) and a second control component (59) which are connected to the second driving component (55) and used for controlling and driving the second driving component (55), a sixth supporting plate (58) arranged on the first connecting rod (41) and used for supporting the third control component (57) and the second control component (59), and a ninth supporting plate (581) fixedly arranged on the sixth supporting plate (58).
2. The integrated cooker with automatic fire-fighting function according to claim 1, characterized in that: the first self-locking assembly (42) comprises a hinging block (421) hinged to the first connecting rod (41) and arranged in the cavity (11) in a sliding manner, a third hollow tube (422) fixedly connected to the hinging block (421), a hollow groove (423) arranged in the third hollow tube (422), a third hollow tube (422) fixedly arranged on the hinging block (421), a third telescopic rod (425) fixedly arranged on the fixing plate (424), a matching plate (426) fixedly connected to the third telescopic rod (425), and a fifth spring (427) arranged between the matching plate (426) and the fixing plate (424); the first hollow pipe (43) is provided with a vent hole (431); the third hollow pipe (422) is arranged in the first hollow pipe (43) in a sliding manner; the second self-locking assembly (44) comprises a sealing ring (441) which is slidably arranged on the outer ring of the first hollow pipe (43), a fourth telescopic rod (442) which is fixedly arranged between the sealing ring (441) and the cavity (11), a seventh spring (443) which is fixedly arranged between the sealing ring (441) and the cavity (11) and used for resetting the sealing ring (441), and a first inclined groove (444) and a second inclined groove (445) which are arranged above the sealing ring (441).
3. The integrated cooker with automatic fire-fighting function according to claim 2, characterized in that: the first control assembly (45) comprises a fourth guide rod (451) fixedly arranged above the cavity (11), a first sliding plate (452) slidably arranged on the fourth guide rod (451), a first clamping plate (453) fixedly arranged above the fourth guide rod (451) and used for limiting the first sliding plate (452), a pulling plate (456) fixedly connected with the sealing ring (441), a pull rope (454) fixedly connected with the pulling plate (456) and fixedly connected with the first sliding plate (452) through the interior of the cooking bench (1), and a guide wheel (455) arranged on the cavity (11) and used for guiding the pull rope (454); the unlocking assembly (46) comprises a motor (461) fixedly connected to the first sliding plate (452), a rotating disc (462) fixedly connected to the motor (461), a fixing block (467) fixedly arranged at the middle position of the rotating disc (462), a first spring (468) fixedly arranged below the fixing block (467), a first guide rod (463) fixedly arranged below the first spring (468), a driving rod (469) fixedly arranged below the first guide rod (463), a first supporting plate (466) fixedly arranged in the cavity (11), a second guide rod (465) fixedly arranged on the first supporting plate (466), and a first guide plate (464) fixedly arranged on the second guide rod (465) and guiding the first guide rod (463).
4. The integrated cooker with automatic fire-fighting function according to claim 3, characterized in that: the clamping assembly (47) comprises a second supporting plate (471) fixedly arranged on the cavity (11), a second spring (472) fixedly arranged on the second supporting plate (471), a first clamping block (473) fixedly connected to the second spring (472), a second connecting rod (474) fixedly arranged above the first clamping block (473), a third guide rod (475) fixedly connected to the second connecting rod (474), a second guide plate (476) fixedly arranged on the sealing ring (441) and matched with the third guide rod (475), and a second clamping plate (477) fixedly arranged on the first sliding plate (452) and matched with the first clamping block (473).
5. The integrated cooker with the automatic fire-fighting function according to claim 4, wherein: a first telescopic rod (511) used for guiding the eighth supporting plate (51) is arranged between the eighth supporting plate (51) and the supporting block (3); the control reset assembly (52) comprises a pressing rod (521) fixedly arranged below the eighth supporting plate (51), a first sliding groove (523) arranged in the supporting block (3) and used for inserting the pressing rod (521), a third spring (522) arranged in the first sliding groove (523) and abutted to the pressing rod (521) and used for resetting the pressing rod (521), a first inflating rod (524) fixedly arranged below the first sliding groove (523), a first inflating cylinder (525) fixedly arranged below the first inflating rod (524), a second telescopic rod (526) fixedly connected to the first inflating cylinder (525), a first rack (527) fixedly connected to the second telescopic rod (526), a supporting piece fixedly arranged on the hinged block (421), a threaded rod (520) rotatably arranged on the supporting piece, and two threaded blocks (529) connected to the threaded rod (520).
6. The integrated cooker with automatic fire-fighting function according to claim 5, wherein: the slow resetting assembly (53) comprises a second hollow pipe (531) rotatably arranged in the hinging block (421), a piston plate (532) fixedly arranged on the second hollow pipe (531) and slidably arranged in the hollow groove (423), and a tension spring (533) arranged between the piston plate (532) and the hinging block (421) and used for resetting the second hollow pipe (531) and the piston plate (532); the first driving assembly (54) comprises a first gear shaft (541) arranged in the air vent (431) in a sliding mode, a bracket (543) fixedly connected to the hinge block (421), a second gear shaft (542) meshed with the first gear shaft (541), a first transmission belt (544) connected to the second gear shaft (542), and a first rotating shaft (545) connected to the first transmission belt (544); the first shaft (545) is connected to the second drive assembly (55).
7. The integrated cooker with automatic fire-fighting function according to claim 6, wherein: the second driving assembly (55) comprises a fixing rod (551) fixedly connected to the matching plate (426), a push plate (552) fixedly connected to the fixing rod (551), a push rod (553) fixedly connected to the fixing rod (551), a fifth supporting plate (554) fixedly connected to the push rod (553), a second rotating shaft (555) rotatably arranged on the fifth supporting plate (554), a second driving assembly (55) fixedly connected to the second rotating shaft (555), a torsion spring (558) arranged on the rotating rod (556), a clamping rod (557) fixedly arranged on the fifth supporting plate (554) and used for clamping the position of the rotating rod (556), and a rotating wheel (559) fixedly connected to the first rotating shaft (545) and matched with the rotating rod (556).
8. The integrated cooker with automatic fire-fighting function according to claim 7, wherein: the third control assembly (57) comprises a second inflating rod (571) fixedly arranged on the sixth supporting plate (58), a second inflator (572) slidably arranged in the second inflating rod (571), a second rack (573) fixedly arranged on the ninth supporting plate (581), a second gear (574) meshed with the second rack (573), an arc block (575) fixedly arranged in an inner ring of the second gear (574), an air bag (576) matched with the arc block (575), a third rotating shaft (577) fixedly connected with the air bag (576), an inflating disc (578) rotatably connected with the third rotating shaft (577), and an air releasing pipe (579) fixedly arranged above the inflating disc (578); the second control assembly (59) comprises a third rack (591) fixedly connected to the sixth support plate (58), a third gear (592) meshed with the third rack (591), a fourth rotating shaft (593) fixedly arranged on the third gear (592), a fourth gear (594) fixedly connected to the fourth rotating shaft (593), a fourth rack (595) meshed with the fourth gear (594), a fifth guide rod (596) fixedly connected to the fourth rack (595), a sealing plate (597) fixedly connected to the fifth guide rod (596) and used for blocking the air leakage pipe (579), a sixth guide rod (598) fixedly connected to the sealing plate (597), and a seventh support plate (599) fixedly connected to the sixth guide rod (598) and fixedly arranged on the fifth support plate (554); a second belt (590) wound around the third rotating shaft (577) and the second rotating shaft (555); the second inflator (572) is fixedly connected to the inflation disk (578).
9. The integrated cooker with automatic fire-fighting function according to claim 8, wherein: threaded rods (520) are fixedly arranged on two sides of the fourth rack (595); a limiting plate (501) is fixedly arranged on the side surface of the seventh guide rod (502); a fifth rack (50) positioned between the fourth rack (595) and the limiting plate (501) is arranged on the seventh guide rod (502) in a sliding manner; and a sixth spring (503) for resetting the fifth rack (50) is arranged between the fifth rack (50) and the fourth rack (595).
CN202210040990.6A 2022-01-14 2022-01-14 Integrated kitchen with automatic fire-fighting function Active CN114383161B (en)

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CN114383161B CN114383161B (en) 2022-08-30

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CN215446607U (en) * 2021-05-21 2022-01-07 迅达科技集团股份有限公司 Temperature sensor heat insulation sleeve, combustor assembly and gas stove
CN215489932U (en) * 2021-08-24 2022-01-11 浙江生能电器科技有限公司 Burner structure

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