CN111664481B - Integrated kitchen of furnace end adjustable - Google Patents

Abstract

The invention discloses an integrated stove with an adjustable stove head, which comprises an integrated stove cabinet body (2), wherein a high-temperature resistant table top (7) is arranged on the upper end surface of the integrated stove cabinet body (2), and at least one mounting groove (21) is formed in the upper end surface of the high-temperature resistant table top (7); an adjustable furnace end assembly (6) is arranged in the mounting groove (21), the adjustable furnace end assembly (6) comprises a hollow furnace end (18) and a furnace frame (16) enclosed on the outer side of the hollow furnace end (18), and the lower end of the hollow furnace end (18) is embedded into the high-temperature resistant table top (7); according to the invention, the air outlet direction of the air outlet holes of the side fire zone can be regulated through the rotatable regulating ball, so that the flame radiation area and range of the side fire zone can be regulated under the condition of not reducing the firepower, a cooker and a cooker user are protected, a good protection effect is achieved, the regulating ball can be regulated through rotating the furnace frame, the use is convenient, and flame regulation can be carried out at any time according to the requirement.

Description

Integrated kitchen of furnace end adjustable

Technical Field

The invention relates to an integrated kitchen range, and belongs to the technical field of kitchen ranges; in particular to an integrated stove with an adjustable stove head.

Background

The integrated kitchen range is a kitchen appliance integrating multiple functions of a range hood, a gas kitchen range, a sterilizing cabinet, a storage cabinet and the like, and is also called an environment-friendly kitchen range or an integrated environment-friendly kitchen range in the industry. Has the advantages of space saving, good fume exhausting effect, energy saving, low consumption, environmental protection and the like. The oil absorption rate of the general integrated kitchen ranges reaches 95%, the higher the oil smoke absorption rate is, the better the quality is, and the oil smoke absorption rate of some brands of integrated kitchen ranges reaches 99.95% of limit indexes.

The integrated stove is generally provided with at least two stoves, the stove is various in styles, but the stove is generally provided with a side fire area, when the cooker is placed on the stove head, flames in the side fire area radiate to the edge of the cooker under the shielding of the bottom of the cooker to form annular flames, when the firepower is large or the volume of the cooker is not large, the coverage area formed by the annular flames is large, as the handle of the cooker is provided with a heat-insulating rubber handle for holding hands, the annular flames can burn or melt the heat-insulating rubber handle of the cooker at high temperature, or the hands for scalding the heat-insulating rubber handle due to the fact that the distance is relatively close, the situation can be generally prevented only by reducing firepower (air outlet amount), but sometimes, because of the need of cooking, the need of heating food with big fire (short time), after the firepower is reduced, the taste of the food can be greatly discounted due to the reduction of heating temperature, the low heat, the prolongation of cooking time and the like, and the cooking taste is influenced.

Disclosure of Invention

Based on the technical problems, the invention provides an integrated stove with an adjustable stove head, which adjusts the flame radiation range and the area of a side fire area by adjusting the air outlet angle of the side fire area of a stove head, thereby solving the technical problem that the stove head on the integrated stove needs to reduce the flame radiation range of the side fire area controllable by a firepower.

In order to solve the technical problems, the invention adopts the following specific technical scheme:

the integrated stove with the adjustable stove head comprises an integrated stove cabinet body, wherein the upper end face of the integrated stove cabinet body is provided with a high-temperature resistant table top, and the upper end face of the high-temperature resistant table top is at least provided with a mounting groove;

an adjustable furnace end component is arranged in the mounting groove and comprises a hollow furnace end and a furnace frame enclosed on the outer side of the hollow furnace end, and the lower end of the hollow furnace end is embedded into the high-temperature resistant table top;

the upper end of the hollow furnace end forms a side fire area, a plurality of air outlet holes penetrating through the hollow furnace end are annularly arranged on the side fire area, rotatable adjusting balls are arranged in the air outlet holes, through holes communicated with the air outlet holes are formed in the adjusting balls in a penetrating mode, and one side, located on each adjusting ball, of the inner side of the hollow furnace end is matched with a rotating assembly which is connected with the adjusting ball and drives the adjusting ball to rotate;

inside from the top down of cavity furnace end has set gradually the driven component who is connected with the rotation component transmission, the drive air feed subassembly of drive driven component and the seal of sealing at the inside lower extreme of cavity furnace end, cavity furnace end lower extreme both sides still are provided with the regulation hole, drive air feed subassembly is provided with the adjustment head that stretches out both sides regulation hole and runs through the sealing disk and stretch into the air inlet duct of integrated kitchen cabinet body, air inlet duct passes through drive air feed subassembly, driven component and a plurality of ventholes intercommunication.

Preferably, the driven component comprises a fixed disc and a rotating fluted disc which are arranged up and down, the fixed disc is radially provided with a plurality of through grooves, a plurality of sliding blocks capable of sliding along the through grooves are clamped in the through grooves, teeth are arranged at the lower end of the sliding block, conical teeth are arranged at the upper end of the rotating fluted disc, the sliding blocks and the rotating fluted disc are in meshed transmission through the teeth and the conical teeth, a plurality of rotating components are sequentially arranged on the sliding blocks in a partitioning mode, and a plurality of air distribution holes penetrating through the rotating fluted disc and communicated with the driving air supply component are further formed in the rotating fluted disc.

Preferably, the hollow furnace end is located in the side fire area and is uniformly divided into a plurality of connection areas, each connection area is internally provided with one sliding block, and the rotating assembly of each connection area is sequentially connected with the upper ends of the sliding blocks in the corresponding area.

Preferably, the sliding block comprises an arc-shaped block, the lower end of the arc-shaped block is provided with a guide block, two sides of the guide block are respectively provided with a clamping block matched with the through groove, and the teeth are arranged at the lower end of the guide block.

Preferably, the driving air supply assembly comprises a rotating disc, the two ends of the rotating disc are provided with adjusting heads extending out of adjusting holes, the upper end of the middle part of the rotating disc is provided with a hollow transmission column connected with the rotating fluted disc in a transmission manner, the lower end of the middle part of the rotating disc is provided with an air inlet pipeline extending into the integrated kitchen cabinet body, and the hollow transmission column, the air inlet pipeline and the air distribution holes are all connected with each other to form an air passage.

Preferably, the lower end of the rotary fluted disc is provided with a connecting ring with internal teeth, the circumference of the upper end of the hollow transmission column is provided with a transmission ring with external teeth, and the connecting ring is meshed with the transmission ring to connect the rotary fluted disc with the hollow transmission column in a transmission way.

Preferably, the upper end of the hollow transmission column is positioned at the lower end of the transmission ring, and a sealing ring is arranged in the sealing ring and is sealed at the lower end face of the connecting ring.

Preferably, an adjusting cavity is further formed in one side, located at each air outlet hole, of the inner side of the annular side fire area, and the rotating assembly is arranged in the adjusting cavity;

preferably, the rotating assembly comprises a connecting rod with one end connected with the adjusting ball, the other end of the connecting rod penetrates through the hollow furnace end and stretches into the adjusting cavity to be connected with an eccentric wheel, the circumferential side surface of the eccentric wheel is further connected with a connecting shaft, a connecting rod is sleeved on the connecting shaft in a sliding mode, and the connecting rod stretches out of the adjusting cavity and is hinged to the driven assembly.

Preferably, the furnace frame comprises a furnace ring and a plurality of baffle blocks uniformly arranged on the furnace ring, the baffle blocks can be clamped on the side surfaces of the adjusting head to drive the rotating disc to rotate, furnace columns are connected to the upper ends of the baffle blocks, gaps are formed in the upper ends of the furnace columns, unidirectional rotation supporting pieces are connected to the gaps, and each unidirectional rotation supporting piece comprises ratchet mechanisms arranged in the furnace columns on two sides of the gaps and supporting plates connected between the ratchet mechanisms on two sides.

Preferably, the ratchet mechanism comprises a rotating shaft connected with the supporting plate, a ratchet wheel is fixed on the rotating shaft, and at least one pawl capable of being clamped with the ratchet wheel is further arranged in furnace columns at two sides of the notch.

Preferably, the supporting plate comprises a flat plate, two ends of the flat plate are respectively provided with a positioning plate which is bent upwards and downwards, and the bent part of the flat plate and the positioning plate is an inclined plane.

Preferably, the integrated kitchen cabinet body up end is located high temperature resistant mesa one side still is provided with the side suction plate of taking side suction port and operating panel, the rear end face of side suction plate is provided with the connecting cylinder, and sliding connection has the connecting axle in the connecting cylinder, and connecting axle one end stretches out the nozzle of connecting cylinder and is connected with the electromagnetism stove, and electromagnetism stove accessible connecting axle is around the connecting cylinder rotates to the level.

Preferably, the lower end of the induction cooker is provided with a storage cavity, and two groups of brackets are also connected in the storage cavity through the rotation of the freely-stopped rotating shaft.

Preferably, the inside of the connecting cylinder is located at the cylinder mouth, a positioning groove is further formed in the connecting cylinder, a connecting port is further formed in the bottom of the positioning groove, an electric box communicated with the connecting port is further arranged on the rear end face of the side suction plate, an electric connection fixed contact and a signal connection fixed contact are separately arranged in the electric box and are communicated with the connecting port, the electric connection fixed contact and the signal connection fixed contact are electrically connected with an operation panel through a circuit, two deep holes are further formed in the circumference of one end, far away from the cylinder mouth, of the connecting shaft, compression springs are respectively fixed in the two deep holes, an electric connection movable contact and a signal connection movable contact, the parts of which extend out of the deep holes, are respectively and fixedly connected with an electric connection movable contact and a signal connection movable contact, the electric connection movable contact and the signal connection movable contact are electrically connected with an electromagnetic oven through connecting wires, a wiring cavity of the connecting wire is formed in the connecting shaft, the electric connection movable contact and the signal connection movable contact can slide into the positioning groove along with the connecting shaft, and the electric connection movable contact and the signal connection movable contact can rotate along with the connecting shaft.

Preferably, one side of the positioning groove far away from the cylinder opening of the connecting cylinder forms an arc transition surface.

Preferably, the end part of the connecting shaft far away from the position of the cylinder opening of the connecting cylinder is also provided with a guide ring.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows: according to the invention, the air outlet direction of the air outlet holes of the side fire area can be regulated through the rotatable regulating ball, so that the flame radiation area and range of the side fire area can be regulated under the condition of not reducing the firepower, a cooker and a cooker user are protected, a good protection effect is achieved, the regulating ball can be regulated through rotating the stove frame, the use is convenient, flame regulation can be carried out at any time according to the needs, and when the stove head can not meet the needs of heat and quantity, simultaneous cooking can be carried out through the arranged electromagnetic oven, and a large amount of cooking time is shortened.

Drawings

FIG. 1 is a schematic installation view of the present invention;

FIG. 2 is a schematic diagram of the use structure of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a side view of the present invention;

FIG. 5 is a rear view of the present invention;

FIG. 6 is a first partial cross-sectional view of the adjustable jamb assembly of the present invention;

FIG. 7 is a second partial cross-sectional view of the adjustable jamb assembly of the present invention;

FIG. 8 is a third partial cross-sectional view of the adjustable jamb assembly of the present invention;

FIG. 9 is a fourth partial cross-sectional view of the adjustable jamb assembly of the present invention;

FIG. 10 is a schematic cross-sectional view of the A-A plane of FIG. 8;

FIG. 11 is a schematic view of the structure of a slider;

FIG. 12 is a schematic view of the structure of the rotating assembly;

FIG. 13 is a first partial schematic view of the hob;

FIG. 14 is a second partial schematic view of the hob;

fig. 15 is a first use state schematic view of the support plate;

fig. 16 is a second use state schematic view of the support plate;

fig. 17 is a schematic view of a third use state of the support plate;

fig. 18 is an enlarged view of the structure at a in fig. 5;

FIG. 19 is a schematic view of the structure of the induction cooker;

the labels in the figures are respectively: 1. a cabinet; 2. an integrated kitchen cabinet body; 3. an electromagnetic oven; 4. a side suction port; 5. a side suction plate; 6. an adjustable burner assembly; 7. a high temperature resistant mesa; 8. an operation panel; 9. a clamping plate; 10. a push-pull plate; 11. a cabinet; 12. a smoke vent; 13. a multifunctional cabinet body; 14. a side fire area; 15. adjusting the head; 16. a furnace frame; 17. a stop block; 18. a hollow burner; 19. an igniter; 20. an air outlet hole; 21. a mounting groove; 22. a support plate; 23. a furnace column; 24. a rotating disc; 25. an air inlet pipe; 26. an adjusting ball; 27. a rotating assembly; 28. a regulating chamber; 29. a through hole; 30. a sliding block; 31. a fixed plate; 32. an air dividing hole; 33. rotating the fluted disc; 34. a seal ring; 35. a sealing plate; 36. a seal assembly; 37. an air intake duct; 38. a through groove; 39. an adjustment aperture; 40. an air collection cavity; 41. an arc-shaped block; 42. a clamping block; 43. a guide block; 44. a rotating lever; 45. an eccentric wheel; 46. a connecting shaft; 47. a limiting ring; 48. a connecting rod; 49. a notch; 50. a rotating shaft; 51. a ratchet wheel; 52. a pawl; 53. a connecting wire; 54. a wiring cavity; 55. a connecting shaft; 56. a connection port; 57. electrically connecting the fixed contacts; 58. an electrical box; 59. the signal is connected with the fixed contact; 60. a positioning groove; 61. a connecting cylinder; 62. freely stopping the rotating shaft; 63. a handle; 64. a bracket; 65. a storage chamber; 66. electrically connecting the movable contact; 67. the signal is connected with the movable contact; 68. deep holes; 69. a guide ring; 70. compressing the spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "one end", "the other end", "the two ends", "between", "the middle", "the lower", "the upper end", "the lower end", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1-19, this embodiment discloses an integrated kitchen with adjustable burner, including integrated kitchen cabinet body 2, integrated kitchen cabinet body 2 is used for inlaying the installation with cupboard 1, and then constitute whole cabinet body structure, integrated kitchen cabinet body 2 lower extreme divide into the multi-functional cabinet body 13 in front portion and be located the rack 11 at multi-functional cabinet body 13 rear portion, multi-functional cabinet body 13 can set up disinfection cabinet, dish washer, bowl frame, storing drawer etc. and be provided with push-pull plate 10 equally divide and be used for pushing and pulling corresponding cabinet body, then set up the air exhauster in corresponding rack 11, a controller, exhaust pipe etc. the rack 11 side is equipped with the exhaust port 12 with exhaust pipe intercommunication, be used for discharging fume with outside exhaust duct intercommunication, then embedded high-temperature resistant Wen Taimian 7 in multi-functional cabinet body 13 and rack 11 upper end, high-temperature resistant mesa 7 is used for installing burner and heat, be provided with side 4 and operating panel 8's side suction plate 5 side at multi-functional cabinet body 13 up end still in high-temperature resistant mesa 7 one side, can be used for sucking plate 5 side, be used for sucking plate, the operating panel 4 is the side is with the suction port is not to the operation is for the side is equipped with specific to the display screen is, the operation is carried out to the side, the suction port is not used for the operation is carried out to the operation panel is finished, the side is finished, the display panel is finished, etc. is finished.

As a core invention point of the embodiment, the high temperature resistant table 7 of the integrated kitchen at the upper end of the integrated kitchen cabinet 2 is also provided with an adjustable burner assembly 6, specifically, the upper end surface of the high temperature resistant table 7 is at least provided with a mounting groove 21, the adjustable burner assembly 6 is embedded in the mounting groove 21, the adjustable burner assembly 6 at least comprises a hollow burner 18 and a burner frame 16 enclosed outside the hollow burner 18, the lower end of the hollow burner 18 is embedded in the high temperature resistant table 7, the hollow burner 18 is used for igniting flame radiation heat, and the burner frame 16 is used for supporting a cooker. Optionally, an igniter 19 may be further disposed on the hollow burner 18 for ignition, and since the igniter 19 is in the prior art, this embodiment will not be described in detail.

The middle part of the upper end of the hollow burner 18 is provided with a fire collecting area which is a main air outlet point, an air hole communicated with the hollow burner 18 is also formed in the middle part of the upper end of the hollow burner 18, a side fire area 14 is formed outside the fire collecting area, a plurality of air outlet holes 20 penetrating through the hollow burner 18 are annularly formed in the side fire area 14, rotatable adjusting balls 26 are embedded in the air outlet holes 20, the diameter of each adjusting ball 26 is equal to or slightly larger than that of the air outlet holes 20, specifically, the diameter D1 of each adjusting ball 26 is 1.0-1.2 times of the diameter D2 of the air outlet holes 20, through holes 29 communicated with the inside and the outside of the air outlet holes 20 are also formed in the adjusting balls 26, fuel gas inside the hollow burner 18 can be discharged through the through holes 29 and the air outlet holes 20, a rotating assembly 27 connected with the adjusting balls 26 and driving the adjusting balls 26 to rotate is matched on one side of each adjusting ball 26, and a plurality of the adjusting balls 26 and a plurality of rotating assemblies 27 are matched to form uniform air outlet direction adjusting assemblies of the air outlet holes 20.

The inside from the top down of cavity furnace end 18 still has had driven subassembly, the drive air feed subassembly of drive driven subassembly and sealed sealing disk 35 at the inside lower extreme of cavity furnace end 18 in proper order of necessary, cavity furnace end 18 lower extreme both sides still are provided with long banding regulation hole 39, the regulation hole 39 of both sides sets up relatively, the drive air feed subassembly then is provided with the adjustment head 15 that stretches out both sides regulation hole 39 and runs through sealing disk 35 and stretch into the air inlet duct 37 of integrated kitchen cabinet 2, thereby the adjustment head 15 can drive the motion of drive air feed subassembly and drive driven subassembly, and then drive adjusting ball 26 through rotating the subassembly 27 and rotate, and air inlet duct 37 then communicates with outside gas pipeline and be used for the inlet gas, necessary, air inlet duct 37 still can communicate with the air inlet pipe 25 that sets up in the inside of integrated kitchen cabinet 2 with mixed gas, and air inlet duct 37 communicates with a plurality of air outlet holes 20 through drive air feed subassembly, thereby constitute complete furnace end air inlet line system. In some embodiments, in order to ensure tightness of the position of the air inlet duct 37 through the sealing disk 35, and to avoid external clean water from entering the interior of the cabinet 1, a sealing assembly 36 (which may be a sealing gasket, a rubber ring, etc.) may be provided at the position of the air inlet duct 37 through the sealing disk 35, to enhance the sealing effect at this position.

When the integrated stove based on the structure is used, the adjusting head 15 which can extend out of the hollow stove head 18 adjusts the adjusting ball 26 to rotate, so that the air outlet angle of the through hole 29 of the adjusting ball 26 is changed in a small range through the rotation of the adjusting ball 26, the spraying angle, the radiation angle and the coverage range of a cooker can be changed, when the radiation range of the side fire area 14 is larger or smaller under the shielding of the cooker, the radiation range of the side fire area 14 can be adjusted in a small range through the rotation of the adjusting ball 26, and as the adjusting range can reach +/-15 degrees, the use of most cookers can be basically met, therefore, the stove head of the integrated stove can adjust the radiation range of the side fire according to the size of the cooker through the structure of the stove head, so that the stove head can be suitable for the normal use of most cookers, the fire size can not be changed, the requirements of cooking on the fire can be ensured, the safety of the heat insulation handle of the cooker can be ensured, and the applicability of the stove head is improved.

In order to better ensure that the fire is not affected, the diameter of the orifice (air inlet end) of the through hole 29 in the adjusting ball 26 at one end of the inner side of the hollow burner 18 in this embodiment is in a horn-shaped structure, so that the orifice is prevented from being blocked by the wall of the air outlet hole 20 during rotation to affect air outlet.

For better implementation of this embodiment, the driven component may include a fixing disc 31 and a rotating fluted disc 33, where the fixing disc 31 is radially provided with a plurality of through grooves 38, a plurality of sliding blocks 30 capable of sliding along the through grooves 38 are clamped in the through grooves 38, teeth are disposed at the lower ends of the sliding blocks 30, and a plurality of rotating components 27 are sequentially disposed on the sliding blocks 30 in a partitioning manner, the rotating fluted disc 33 is rotatably disposed inside the hollow burner 18, and the upper end of the rotating fluted disc 33 is provided with conical teeth, and the conical teeth and teeth at the lower end of the sliding blocks 30 are engaged with each other to form meshing transmission, so that the sliding blocks 30 are driven to slide along the through grooves 38 by rotation of the rotating fluted disc 33 to form radial translation, and further drive the rotating component 27 to rotate to adjust the angle of the adjusting balls 26, and all the sliding blocks 30 are synchronously translated, so that the adjusting angles of the adjusting balls 26 are consistent, and flames in the side fire area are ensured to be synchronously changed in a ring shape, so that the problem of uneven fire is not caused. The rotary fluted disc 33 is also provided with a plurality of air distribution holes 32 penetrating the rotary fluted disc 33 and communicated with the driving air supply assembly, and the air distribution holes 32 can distribute the mixed fuel gas conveyed by the driving air supply assembly to the upper part of the rotary fluted disc 33, so that the fuel gas can be uniformly sprayed out through the plurality of air outlet holes 20. In some embodiments, the air-distributing holes 32 are radially disposed on the rotating fluted disc 33, the upper end surface of the air-distributing holes covers the upper end surface of the rotating fluted disc 33 uniformly, an air-collecting cavity 40 is disposed at the connection position of the lower end of the rotating fluted disc 33 and the driving air-supplying component, and the lower end surfaces of the air-distributing holes 32 are connected with the air-collecting cavity 40, so that when the fuel gas enters the rotating fluted disc 33, the fuel gas expands in the air-collecting cavity 40 and is sprayed to the upper end of the rotating fluted disc 33 through the air-distributing holes 32, thereby ensuring the uniformity of fuel gas supply.

As a way of dividing the rotating components 27 into a plurality of connecting areas in sequence, the part of the hollow furnace end 18 positioned at the inner side of the side fire area 14 can be uniformly divided into a plurality of connecting areas, the connecting areas are mutually continuous and can encapsulate all the rotating components 27, a matched sliding block 30 is arranged in each connecting area, the rotating components 27 of each connecting area are sequentially connected with the upper ends of the sliding blocks 30 in the corresponding area, thus when the sliding blocks 30 move, the rotating components 27 of each area synchronously rotate, and as all the sliding blocks 30 keep synchronous, all the rotating components 27 can synchronously rotate, the consistency of the adjustment of the adjusting balls 26 is ensured, the stability and the stability of the rotating components 27 can be ensured through the way of dividing the connecting areas, and the problems of inconvenient movement or shell clamping of the sliding blocks 30 caused by mutual constraint and bearing can not occur.

The sliding block 30 is used as a sliding part of the driven component, and at least comprises an arc block 41, wherein the arc block 41 is of a semi-arc structure, all the arc blocks 41 of the sliding block 30 can be spliced into a complete circular ring, the lower end of the arc block 41 is convexly provided with a guide block 43, the lower end of the guide block 43 is provided with teeth, two opposite sides of the arc block 41 are provided with clamping blocks 42 matched with the through grooves 38, the clamping blocks 42 are clamped in the through grooves 38 so as to limit the moving direction of the arc block 41, and the sliding block can also play a supporting and guiding role, so that the overall stability of the movement of the sliding block 30 is ensured.

As one of the key points of the adjustable burner assembly 6 of this embodiment, the driving air supply assembly at least includes a rotating disc 24, the rotating disc 24 is rotatably disposed in the hollow burner 18 and located below the driven assembly, the rotating disc 24 is integrally disc-shaped, two ends of the circumference of the rotating disc 24 form adjusting heads 15 extending out of adjusting holes 39, the adjusting heads 15 can be symmetrically and oppositely disposed, the upper end of the middle part of the rotating disc 24 is connected with a hollow transmission column, the upper end of the hollow transmission column is in transmission connection with the rotating fluted disc 33 to drive the rotating fluted disc 33 to rotate, the lower end of the middle part of the rotating disc 24 is provided with an air inlet pipeline 37 extending into the integrated kitchen cabinet 2, and the air inlet pipeline 37 is mutually communicated with the hollow transmission column and the air distribution holes 32 to form an air pipe of the burner. The rotating disc 24 of the embodiment can drive the adjusting ball 26 to rotate through the driven component to adjust the flame radiation range of the side fire area 14 under the condition that the adjusting head 15 drives rotation, and meanwhile, the air supply is not influenced, so that the operation is convenient to adjust at any time.

In order to ensure the rapid transmission of the driving air supply assembly and the driven assembly, the driving air supply assembly is further provided with a connecting ring with inner teeth at the lower end of the rotating fluted disc 33, the circumference of the upper end of the hollow transmission column is provided with a transmission ring with outer teeth, and the connecting ring and the transmission ring are meshed with each other, so that the rotating fluted disc 33 and the hollow transmission column are in transmission connection, that is, when the hollow transmission column rotates, the hollow transmission column drives the rotating fluted disc 33 to rotate circumferentially through a meshing relationship, the sliding block 30 meshed with the rotating fluted disc 33 can translate when the rotating fluted disc 33 rotates, and then the adjusting ball 26 is driven to rotate through the rotating assembly 27, so that the whole adjusting operation is realized.

In order to ensure the safety of the furnace end, the upper end of the hollow transmission column is positioned at the lower end of the transmission ring, a sealing ring 34 is further arranged in the sealing ring 34, and a sealing ring sealed at the lower end face of the connecting ring is arranged in the sealing ring 34, and the sealing ring is mutually extruded and deformed through the sealing ring 34 and the connecting ring, so that the joint of the hollow transmission column and the rotary fluted disc 33 is sealed, the purity of the gas inside the hollow furnace end 18 can be ensured, the gas can be ensured not to leak and be normally ignited, accidents caused by the leakage of the gas are avoided, and the integral safety of the integrated furnace is improved.

In order to facilitate the rotation of the rotating assembly 27, an adjusting cavity 28 is further formed in the inner side of the annular side fire area 14, which is located at one side of each air outlet hole 20, the rotating assembly 27 is arranged in the adjusting cavity 28, so that the rotating assembly 27 can be connected with each paired adjusting ball 26 without mutual influence, a large space is reserved for movement, the adjusting cavity 28 is of a certain size, and the rotating assembly 27 can be limited and positioned to a certain extent.

Specifically, the rotating assembly 27 includes a rotating rod 44 with one end fixedly connected to the adjusting ball 26, the rotating rod 44 is connected to the outer circumference between two openings of the through hole 29 in the adjusting ball 26, the other end of the rotating rod 44 penetrates through the hollow burner 18 and extends into the adjusting cavity 28 to be connected with an eccentric wheel 45, the circumferential side surface of the eccentric wheel 45 is also connected with a connecting shaft 46, the connecting shaft 46 and the rotating rod 44 are respectively connected to two end surfaces of the eccentric wheel 45, and are both close to the edges of the two end surfaces, a connecting rod 48 is slidably sleeved on the connecting shaft 46, the connecting rod 48 extends out of the adjusting cavity 28 and is hinged with the driven assembly, so that under the action of the driven assembly, the connecting rod 48 moves radially towards the hollow burner 18 to drive the eccentric wheel 45 to rotate, the rotating rod 44 is driven to rotate by the eccentric wheel 45, the adjusting ball 26 fixedly connected with the rotating rod, the opening of the adjusting ball 26 located outside the air outlet 20 is rotated by the radial movement of the driven assembly, and the adjusting ball 26 can only move radially along the hollow burner 18, so that the radiation range of flame is adjusted. In some embodiments, the connecting rod 48 extends out of the adjustment chamber 28 and articulates with the slider block 30 of the driven assembly. In some embodiments, the end of the connecting shaft 46 remote from the eccentric 45 is also provided with a stop collar 47, preventing the connecting rod 48 from falling off the connecting shaft 46.

As another component of the adjustable furnace end assembly 6, the furnace frame 16 comprises a furnace ring and a plurality of baffle blocks 17 uniformly arranged on the furnace ring, the baffle blocks 17 can be clamped on the side surface of the adjusting head 15 to drive the rotating disc 24 to rotate, the upper ends of the baffle blocks 17 are connected with furnace columns 23, the upper ends of the furnace columns 23 are provided with notches 49, the notches 49 are connected with unidirectional rotation supporting pieces, and the unidirectional rotation supporting pieces comprise ratchet mechanisms arranged in the furnace columns 23 at two sides of the notches 49 and supporting plates 22 connected between the ratchet mechanisms at two sides. The stove rack 16 is provided with the stop block 17, so that the rotation of the rotating disc 24 can be driven by the stop block 17 to adjust the flame radiation range, a user can adjust the flame radiation range only by manually rotating the stove rack 16, the operation is simple and convenient, and even in the use process, the stove rack 16 can be driven to rotate by a cooker placed on the supporting plate 22 (the cooker is extruded by hands to apply downward force to the cooker to extrude the stove column 23, then simultaneously apply force in the circumferential direction, the force can be transmitted to the stove ring through the stove column 23 to drive the stove ring to rotate), fire is not required, scalding caused by overhigh temperature of the stop block 17 is avoided, and the adjustment is extremely convenient. The supporting plate 22 has a unidirectional rotation function, and rotates from outside to the hollow burner body side, and can be self-adjusted according to the condition of the cooker, specifically: as shown in fig. 15, when the bottom surface of the cooker is planar and the diameter is larger than the maximum interval when the plurality of support plates 22 are laid flat, the support plates 22 are kept horizontal against rotation by force, thereby positioning the cooker; as shown in fig. 16, when the bottom surface of the cooker is flat and the diameter is smaller than the maximum interval when the plurality of support plates 22 are laid flat and larger than the minimum interval when the plurality of support plates 22 are laid flat, the stressed diameter of the bottom of the cooker is larger than the diameter of the rotation point between the support plates 22, and the support plates 22 are kept horizontal and cannot rotate under the stress, so that the cooker is positioned, or slight inclination is generated and the cooker is clamped between the plurality of support plates 22; as shown in fig. 17, when the bottom surface of the cooker is a circular surface, the bottom surface of the cooker will apply force to make the support plates 22 rotate circumferentially, and when the support plates 22 rotate to a certain angle, the cooker can be clamped between the support plates 22, so as to perform stable support.

In addition, the ratchet mechanism comprises a rotating shaft 50 connected with the supporting plate 22, a ratchet 51 is fixed on the rotating shaft 50, and at least one pawl 52 which can be clamped with the ratchet 51 is arranged in the furnace column 23 at two sides of the notch 49. When the rotating shaft 50 rotates, the pawl 52 can be clamped on the ratchet wheel 51 so as to ensure the unidirectional rotation of the ratchet wheel 51, and further ensure the support of the supporting plate 22 on the cooker.

In order to ensure the supporting effect and the adapting effect of the supporting plate 22, the supporting plate 22 comprises a flat plate, two ends of the flat plate are respectively provided with a positioning plate which is bent upwards and downwards, and the bending part of the flat plate and the positioning plate is an inclined plane. Therefore, when the supporting plate 22 is inclined, the cooker can be better clamped between the supporting plates 22 under the action of the positioning plates, so that the stability of the cooker is ensured, and the cooker can be supported by the supporting plates 22, the supporting and fixing effects of the flat plate and the positioning plates on the cooker, and the cooker with various sizes can be supported, so that the applicability is wider.

As a second invention point of the present embodiment, the rear end surface of the side suction plate 5 is provided with a connecting cylinder 61, a connecting shaft 55 is slidably connected to the connecting cylinder 61, one end of the connecting shaft 55 extends out of the cylinder mouth of the connecting cylinder 61 and is connected with the induction cooker 3, and the induction cooker 3 can rotate around the connecting cylinder 61 to the horizontal through the connecting shaft 55. The induction cooker 3 can be pulled out from the side suction plate 5 under the action of the connecting shaft 55 and rotated to be horizontal, and can be horizontally placed on the upper end surface of the cabinet 1, so that when the air is suddenly stopped, the burner is damaged, and the cooking amount is large, the induction cooker 3 can be used for cooking, and the convenience of the integrated kitchen range is improved. In some embodiments, the outside end surface of induction cooker 3 is further provided with a handle 63 to facilitate pulling induction cooker 3 out of connecting barrel 61. In some embodiments, the rear end surface of the side suction plate 5 is located above the connecting barrel 61 and is further provided with an L-shaped clamping plate 9, and the side suction plate 5 can be clamped in the clamping plate 9 so as to be stably fixed on the rear end surface of the side suction plate 5.

In order to ensure the adaptability of the induction cooker 3, a containing cavity 65 is arranged at the lower end of the induction cooker 3, and two groups of brackets 64 are also connected in the containing cavity 65 through the free stop rotating shaft 62 in a rotating way. The two groups of brackets 64 can rotate out of the storage cavity 65 to further support the induction cooker 3, and can rotate different angles according to the distance between the induction cooker 3 and the upper end face of the cabinet 1 to adjust, so that the induction cooker 3 is convenient to use.

In order to realize safe use of the induction cooker 3, a positioning groove 60 is further formed in the inner side of the connecting cylinder 61 at the cylinder opening position, a connecting port 56 is further formed in the bottom of the positioning groove 60 of the connecting cylinder 61, an electric box 58 communicated with the connecting port 56 is further arranged on the rear end face of the side suction plate 5, an electric connection fixed contact 57 and a signal connection fixed contact 59 are separately arranged at the position communicated with the connecting port 56 in the electric box 58, the electric connection fixed contact 57 and the signal connection fixed contact 59 are electrically connected with the operation panel 8 through a circuit, two deep holes 68 are further formed in the circumference of one end, far away from the cylinder opening position of the connecting cylinder 61, of the connecting shaft 55, compression springs 70 are respectively fixed in the two deep holes 68, an electric connection movable contact 66 and a signal connection movable contact 67 of which parts extend out of the deep holes 68 are fixedly connected with the electric connection movable contact 66 and the signal connection movable contact 67 respectively, the electric connection movable contact 66 and the signal connection movable contact 67 are electrically connected with the induction cooker 3 through a connecting wire 53, a wire cavity 54 of the connecting shaft 55 is formed in the connecting shaft 55, the electric connection movable contact 66 and the signal connection movable contact 67 can slide to the positioning groove 60 along with the connecting shaft 55, and the signal connection movable contact 67 are electrically connected with the signal connection movable contact 67 and the signal connection movable contact 67. The electric connection movable contact 66 and the signal connection movable contact 67 are tightly pressed on the inner side of the connecting cylinder 61 under the action of the compression spring 70, when the connecting shaft 55 moves towards the cylinder opening of the connecting cylinder 61, the electric connection fixed contact 57 and the signal connection fixed contact 59 gradually enter the positioning groove 60, the positioning groove 60 is provided with a certain depth, the electric connection movable contact 66 and the signal connection movable contact 67 are tightly pressed on the bottom of the positioning groove 60 under the action of the compression spring 70, when the connecting shaft 55 rotates to horizontally place the induction cooker 3, the electric connection movable contact 66 and the signal connection movable contact 67 rotate in the positioning groove 60 until being respectively contacted with the electric connection fixed contact 57 and the signal connection fixed contact 59, the induction cooker 3 is electrically connected with the electric box 58, the electric connection movable contact 66 and the electric connection fixed contact 57 are contacted to form a power supply passage, the signal connection movable contact 67 is contacted with the signal connection fixed contact 59 to form a signal passage, and further power supply and signal control of the induction cooker 3 are realized, the signal passage can be connected with the control panel 8, and an induction cooker switch, an indicator lamp or power and the like are arranged on the control panel 8.

To facilitate movement of the electrically and signal connection movable contacts 66, 67, the side of the positioning groove 60 remote from the nozzle of the connecting barrel 61 forms an arcuate transition surface. When the electric connection movable contact 66 and the signal connection movable contact 67 translate into or out of the positioning groove 60, the electric connection movable contact 66 and the signal connection movable contact 67 can slowly compress the compression spring 70 or the compression spring 70 slowly releases the elastic force due to the buffer function of the arc transition surface, so that the electric connection movable contact 66 and the signal connection movable contact 67 can conveniently enter into or out of the positioning groove 60. In some embodiments, the end of the connecting shaft 55 remote from the nozzle of the connecting barrel 61 is also provided with a guide ring 69. The diameter of the guide ring 69 is the same as the inner diameter of the connecting barrel 61, so that the connecting shaft 55 is more stable in translation, and the situation that the electric connection movable contact 66 and the signal connection movable contact 67 cannot normally contact with the electric connection fixed contact 57 and the signal connection fixed contact 59 is avoided.

The above-described embodiments of the present invention. The foregoing description of the preferred embodiments of the present invention is not obvious contradiction or on the premise of a certain preferred embodiment, and the preferred embodiments can be arbitrarily overlapped and combined, and the embodiments and specific parameters in the embodiments are only for clearly describing the invention verification process of the inventor, and are not intended to limit the scope of the invention, and the scope of the invention is still subject to the claims, and all equivalent structural changes made by applying the specification and the content of the drawings of the present invention are included in the scope of the invention.

Claims (9)

1. The integrated stove with the adjustable stove head comprises an integrated stove cabinet body (2), wherein a high-temperature resistant table top (7) is arranged on the upper end face of the integrated stove cabinet body (2), and at least one mounting groove (21) is formed in the upper end face of the high-temperature resistant table top (7); it is characterized in that the method comprises the steps of,

an adjustable furnace end assembly (6) is arranged in the mounting groove (21), the adjustable furnace end assembly (6) comprises a hollow furnace end (18) and a furnace frame (16) enclosed on the outer side of the hollow furnace end (18), and the lower end of the hollow furnace end (18) is embedded into the high-temperature resistant table top (7);

the upper end of the hollow furnace end (18) forms a side fire area (14), a plurality of air outlet holes (20) penetrating through the hollow furnace end (18) are annularly arranged on the side fire area (14), rotatable adjusting balls (26) are arranged in the air outlet holes (20), through holes (29) communicated with the air outlet holes (20) are formed in the adjusting balls (26) in a penetrating mode, and rotating assemblies (27) which are connected with the adjusting balls (26) and drive the adjusting balls (26) to rotate are matched on one side, located on each adjusting ball (26), of the inner side of the hollow furnace end (18);

the inside of the hollow furnace end (18) is sequentially provided with a driven component connected with a rotating component (27) in a transmission way, a driving air supply component for driving the driven component and a sealing disc (35) sealed at the lower end inside the hollow furnace end (18) from top to bottom, two sides of the lower end of the hollow furnace end (18) are also provided with adjusting holes (39), the driving air supply component is provided with an adjusting head (15) extending out of the adjusting holes (39) at two sides and an air inlet pipeline (37) penetrating through the sealing disc (35) and extending into the integrated kitchen cabinet body (2), and the air inlet pipeline (37) is communicated with a plurality of air outlet holes (20) through the driving air supply component and the driven component;

the driven component comprises a fixed disc (31) and a rotating fluted disc (33) which are arranged up and down, the fixed disc (31) is radially provided with a plurality of through grooves (38), a plurality of sliding blocks (30) which can slide along the through grooves (38) are arranged in the through grooves (38) in a clamping mode, teeth are arranged at the lower end of the sliding blocks (30), conical teeth are arranged at the upper end of the rotating fluted disc (33), the sliding blocks (30) and the rotating fluted disc (33) are in meshed transmission through the teeth and the conical teeth, a plurality of rotating components (27) are sequentially arranged on the sliding blocks (30) in a partitioning mode, and a plurality of air distribution holes (32) which penetrate through the rotating fluted disc (33) and are communicated with the driving air supply component are further formed in the rotating fluted disc (33).

2. An integrated stove with adjustable stove head according to claim 1, characterized in that the hollow stove head (18) is located inside the side fire area (14) and is evenly divided into a plurality of connection areas, one sliding block (30) is arranged in each connection area, and the rotating component (27) of each connection area is sequentially connected to the upper end of the sliding block (30) in the corresponding area.

3. The integrated stove with the adjustable stove head according to claim 1, wherein the sliding block (30) comprises an arc-shaped block (41), a guide block (43) is arranged at the lower end of the arc-shaped block (41), clamping blocks (42) matched with the through grooves (38) are arranged on two sides of the guide block (43), and teeth are arranged at the lower end of the guide block (43).

4. The integrated kitchen range with adjustable burner according to claim 1, wherein the driving air supply assembly comprises a rotating disc (24), the two ends of the rotating disc (24) are provided with adjusting heads (15) extending out of adjusting holes (39), the upper end of the middle part of the rotating disc (24) is provided with a hollow transmission column in transmission connection with a rotating fluted disc (33), the lower end of the middle part of the rotating disc (24) is provided with an air inlet pipeline (37) extending into the integrated kitchen range cabinet body (2), and the hollow transmission column, the air inlet pipeline (37) and the air distribution holes (32) are all connected with each other to form an air passage.

5. The integrated stove with adjustable stove head according to claim 4, wherein a connecting ring with inner teeth is arranged at the lower end of the rotary fluted disc (33), a transmission ring with outer teeth is arranged at the circumference of the upper end of the hollow transmission column, and the rotary fluted disc (33) is in transmission connection with the hollow transmission column by meshing the connecting ring and the transmission ring.

6. The integrated kitchen range with adjustable burner according to claim 4, wherein the upper end of the hollow transmission column is positioned at the lower end of the transmission ring, and a sealing ring (34) is further arranged at the upper end of the hollow transmission column, and a sealing ring sealed at the lower end face of the connection ring is arranged in the sealing ring (34).

7. The integrated stove with adjustable stove head according to claim 1, characterized in that an adjusting cavity (28) is further formed on one side of each air outlet hole (20) inside the annular side fire area (14), and the rotating assembly (27) is arranged in the adjusting cavity (28);

the rotating assembly (27) comprises a rotating rod (44) with one end connected with the adjusting ball (26), the other end of the rotating rod (44) penetrates through the hollow furnace end (18) and stretches into the adjusting cavity (28) to be connected with an eccentric wheel (45), the circumferential side face of the eccentric wheel (45) is further connected with a connecting shaft (46), a connecting rod (48) is sleeved on the connecting shaft (46) in a sliding mode, and the connecting rod (48) stretches out of the adjusting cavity (28) and is hinged to the driven assembly.

8. The integrated stove with adjustable stove head according to claim 1, wherein the stove frame (16) comprises a stove ring and a plurality of baffle blocks (17) uniformly arranged on the stove ring, the baffle blocks (17) can be clamped on the side surfaces of the adjusting head (15) to drive the rotating disc (24) to rotate, stove columns (23) are connected to the upper ends of the baffle blocks (17), gaps (49) are formed in the upper ends of the stove columns (23), unidirectional rotation supporting pieces are connected to the gaps (49), and each unidirectional rotation supporting piece comprises ratchet mechanisms arranged in the stove columns (23) on two sides of the corresponding gap (49) and supporting plates (22) connected between the ratchet mechanisms on two sides.

9. The burner-adjustable integrated cooker according to claim 8, wherein the supporting plate (22) comprises a flat plate, two ends of the flat plate are respectively formed with a positioning plate bent upwards and downwards, and the bent part of the flat plate and the positioning plate is an inclined plane.

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