CN113701208A - Energy-gathering high-energy air flame heat energy stove - Google Patents

Abstract

The invention relates to a high-energy air flame heat energy stove, in particular to a high-energy air flame heat energy stove with energy gathering. The flame adjusting device comprises a jet cooker plate and a flame adjuster arranged inside the jet cooker plate and used for adjusting flame, wherein a pot and stove placing frame used for supporting the jet cooker plate is arranged at the bottom of the jet cooker plate. When the turner rotates towards the direction close to the central gas outlet frame, the flame controller gathers the flame, so that the flame sprayed from the turner is sprayed into the flame sprayed from the central gas outlet frame, the strength of the central flame is enhanced, and when the turner rotates away from the central gas outlet frame, the flame controller shunts the flame, so that the flame sprayed from the turner uniformly spreads all around, and the flame uniformly burns the dishes to be fried.

Description

Energy-gathering high-energy air flame heat energy stove

Technical Field

The invention relates to a high-energy air flame heat energy stove, in particular to a high-energy air flame heat energy stove with energy gathering.

Background

The air flame heat energy stove is characterized in that a circuit and a structure of the air flame heat energy stove are newly designed and innovated according to the widely used principle of plasma flame generation, and the air flame heat energy stove is designed and intelligently managed through a cluster capacitor and a shunt circuit, so that high pressure is rapidly and uniformly generated, air is accurately punctured, and flame is generated.

At present when using control flame heat energy kitchen, the flame direction of production is fixed, can't heat the pot according to the demand of cooking, and the top of a kitchen range can only carry out simple flame size when using simultaneously, nevertheless can't accomplish according to firing different dishes and adjust flame spun mode, leads to the duration and degree of a fire of cooking and cooking to be unable to master, and then influences the firing of dish.

Disclosure of Invention

The present invention is directed to a high energy air flame heat energy oven with energy collection to solve the above problems.

In order to achieve the purpose, the high-energy air flame heat energy stove with energy gathering comprises a jet stove plate and a flame adjuster arranged inside the jet stove plate and used for adjusting flame, wherein a stove placing rack used for supporting the jet stove plate is arranged at the bottom of the jet stove plate, the jet stove plate comprises an arc-shaped placing plate, the inside of the placing plate is of a hollow structure, a central air outlet frame is arranged at the middle position of the upper side of the placing plate, a plurality of pull rod limiting blocks are arranged on the side wall of the upper side of the placing plate in an annular arrangement mode and are arranged in a plurality of circles, the pull rod limiting blocks of the inner circle and the pull rod limiting blocks of the outer circle are arranged in a corresponding mode, the flame adjuster comprises a plurality of driving devices, a plurality of flame angle adjusting devices are arranged on one side of each driving device, and every two adjacent flame angle adjusting devices are connected through a connecting rod, the plurality of driving devices are connected together through steel wire ropes;

the flame angle adjusting device comprises a fixed fire making frame and a fire making cavity arranged in the fixed fire making frame, a turner is arranged in the fire making cavity and comprises a fire guiding shell and a fire guiding cavity arranged in the fire guiding shell, a flame regulator is arranged in the fire guiding cavity and connected with the fixed fire making frame through a linkage mechanism, pull rods are fixedly connected to the positions, close to the bottom, of the two sides of the fire guiding shell, the pull rods are hinged to the side wall of the fixed fire making frame, the pull rods are arranged on the outer side of the fixed fire making frame and comprise flame connecting pipes inserted in the fire guiding cavity, the upper ends of the flame connecting pipes are arc-shaped and extend outwards, a plurality of fire baffles for blocking flames are arranged on the upper ends of the flame connecting pipes in a circular mode, and ejector rods are fixedly connected to the inner wall, close to the upper ends, of the flame guiding cavity, one end of the ejector rod penetrates through the side wall of the flame connecting pipe and is in contact with the fire baffle.

As a further improvement of the technical scheme, the positions, close to the edge, of the tops of the flame connecting pipes are annularly provided with hinge grooves corresponding to the fire baffles, one ends of the fire baffles are hinged inside the hinge grooves, and torsion springs are arranged at the hinged positions of the hinge grooves and the fire baffles.

As a further improvement of the technical scheme, the fixed fire making frame is arranged on the upper side wall of the placing plate, the fire making cavity corresponds to the air outlet, and a cooking range is arranged in the central air outlet frame.

As a further improvement of the technical scheme, the flame connecting pipe is fixedly connected with two positioning sliding strips in a bilateral symmetry mode at the bottom side close to the top, the top of the flame guiding shell is provided with a sliding groove matched with the positioning sliding strips, and the positioning sliding strips are inserted in the sliding groove in a sliding mode.

As a further improvement of this technical scheme, link gear includes that two are curved arc gear board, two arc gear board symmetry is fixed on the lateral wall of making fiery cavity both sides, the upside meshing of arc gear board has two gear coaxial coupling's gear train, is located be provided with the rack on the lateral wall of a location draw runner of flame takeover one side, the inside and the rack meshing of the gear setting of a gear on the gear train at the shell of leading a fire.

As a further improvement of the technical scheme, the bottom of the fire guiding shell is in a horn shape extending outwards, clamping grooves for sliding of the pull rod are formed in two sides of the fixed fire making frame, and the edge positions of the clamping grooves limit the position of the pull rod.

As a further improvement of the technical scheme, one end of the pull rod is hinged with a connecting strip, two ends of the connecting strip are hinged with driving strips, two ends of the connecting rod are hinged with the driving strips, the driving device comprises two driving rods which are arc-shaped, and one end of each driving rod is hinged with one end of each driving strip.

As a further improvement of this technical scheme, two be fixed with arc connector between drive pole one end, one side of arc connector is provided with the locating piece of fixing on the locating piece, be provided with the spring between locating piece and the arc connector, wire rope's one end is run through arc connector and is extended away, the bottom of placing the dish is fixed with the locating plate, the inside rotation of locating plate is connected with the location rotation axis, wire rope's one end is run through the lateral wall of placing the dish and is twined on the location rotation axis.

As a further improvement of the technical scheme, the driving rod is internally provided with a positioning insertion rod in a sliding manner, one end of the positioning insertion rod is fixed on the side wall of the central gas outlet frame, the spring is internally provided with a sliding insertion rod, the sliding insertion rod is two cylinders which are mutually slidably inserted and connected together, and the two cylinders are respectively fixed on the side wall between the positioning block and the arc-shaped connector.

As a further improvement of the technical scheme, the position ring-shaped arrangement of the upper side of the placing plate close to the edge is provided with an edge controller corresponding to the flame angle adjusting device, the edge controller comprises two sliding rods hinged with a driving strip, one end of each sliding rod is fixed with a fixing frame, one end of each fixing frame is provided with a cover plate hinged to the upper side of the placing plate, the position ring-shaped arrangement of the upper side of the placing plate close to the edge is provided with an edge fire spraying port, the bottom of the cover plate is provided with a plunger for plugging the edge fire spraying port, an inclined rod obliquely arranged is fixed on the cover plate, the inclined rod and the fixing frame are connected through a hinged hinge rod, a pull rod limiting block is arranged on the connecting rod in a sliding mode, and the pull rod limiting block is fixed on the upper side of the placing plate.

Compared with the prior art, the invention has the beneficial effects that:

1. in this high energy air flame heat energy kitchen of energy gathering, the turner is through the drive of drive arrangement, swing in the inside of placing the dish, change the injection direction of flame, make when needs vegetable explodes the stir-fry, be close to towards the direction that the center goes out the gas frame through adjusting the turner, make flame concentrate on the center, gather the energy together, increase flame's energy, so that the stir-fry of exploding of vegetable, when needs use the fried dish, go out the gas frame through keeping away from the center with the turner rotation, make the even injection of the inside flame of placing the dish, so that the vegetable thermally equivalent of frying in shallow oil, and at the rotatory in-process of turner, so that according to the difference of vegetable, accomplish the regulation to the injection direction of flame.

2. In this energy gathering's high energy air flame heat energy kitchen, the flame regulator carries out polymerization and reposition of redundant personnel to the flame that the turner sprays, carries out further processing to flame, makes flame when needs polymerization, and the polymerization of flame stabilization needs to be dispersed at flame, carries out even dispersion to flame, and the improvement device is to flame control effect.

3. In this energy gathering's high energy air flame heat energy kitchen, in the turner rotation angle regulation, the flame modulator carries out synchronous control to flame, when the turner is rotatory towards the direction that is close to the center and goes out the gas frame, the flame modulator gathers together flame, so that spray in the turner flame to the center go out in the gas frame during the flame that erupts, strengthen the intensity of center flame, when the turner is kept away from the center and goes out gas frame direction rotation, the flame modulator shunts flame, make the even diffusion all around of flame that sprays in the turner, make flame carry out even firing to needs to fry in shallow oil the dish.

4. In the energy-gathering high-energy air flame heat energy stove, the edge controller is arranged to control the flame sprayed at the edge of the spray stove plate, so that the edge of the pot is heated by the edge controller, and the edge of the pot is heated when dishes are fried or rice is cooked, so that the food in the pot can be cooked.

Drawings

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

FIG. 2 is a schematic view of the combination spray cooktop and flame conditioner of the present invention;

FIG. 3 is a schematic cross-sectional view of a spray cooktop of the present invention;

FIG. 4 is a schematic view of the flame conditioner of the present invention;

FIG. 5 is a schematic structural diagram of a driving device according to the present invention;

FIG. 6 is a schematic view of the flame angle adjustment apparatus of the present invention;

FIG. 7 is a schematic structural view of a fixed fire rack of the present invention;

FIG. 8 is a schematic view of the construction of the inverter of the present invention;

FIG. 9 is a schematic view of the flame regulator of the present invention;

FIG. 10 is a schematic diagram of an edge controller according to the present invention;

FIG. 11 is a diagram of an electric discharge combustion circuit of the present invention.

The various reference numbers in the figures mean:

1. spraying a cooking stove disc; 11. placing a tray; 12. an air outlet; 13. a central gas outlet frame; 14. positioning a plate; 15. positioning the rotating shaft; 16. an edge burner port; 17. a pull rod limiting block;

2. a flame regulator;

21. a driving device; 211. driving the rod; 212. an arc-shaped connector; 213. positioning blocks; 214. a spring; 215. positioning the inserted rod; 216. a sliding insertion rod;

22. a flame angle adjusting device; 221. fixing a fire making frame; 2211. a fire making cavity; 2212. an arc-shaped gear plate; 2213. a clamping groove; 222. a turner; 2221. a fuse shell; 2222. a pull rod; 2223. a fire conducting cavity; 2224. a top rod; 2225. a sliding groove; 223. a flame regulator; 2231. a flame connection pipe; 2232. positioning the slide bar; 2233. a gear rack; 2234. a gear set; 2235. a hinge slot; 2236. a fire shield; 2237. a torsion spring; 224. a connecting strip; 225. a driving strip;

23. a connecting rod;

24. an edge controller; 241. a slide bar; 242. a fixed mount; 243. a cover plate; 244. a diagonal bar; 245. a hinge rod;

25. a wire rope;

3. a cooking stove placing rack.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1 to 9, an energy-gathering high-energy air flame heat energy stove is provided, which includes a spray stove plate 1 and a flame adjuster 2 disposed inside the spray stove plate 1 for adjusting flame, a pot and stove rack 3 for supporting the spray stove plate 1 is disposed at the bottom of the spray stove plate 1, the spray stove plate 1 includes an arc-shaped placing plate 11, the placing plate 11 is hollow, a central air outlet frame 13 is disposed at the middle position of the upper side of the placing plate 11, a plurality of pull rod limiting blocks 17 are disposed at the side wall of the upper side of the placing plate 11 in an annular arrangement, the plurality of pull rod limiting blocks 17 are disposed in a plurality of circles, the pull rod limiting blocks 17 of the inner circle and the outer circle are disposed correspondingly, the flame adjuster 2 includes a plurality of driving devices 21, a plurality of flame angle adjusting devices 22 are disposed at one side of the driving devices 21, every two adjacent flame angle adjusting devices 22 are connected by a connecting rod 23, a plurality of driving devices 21 are connected together through steel wire ropes 25;

the flame angle adjusting device 22 comprises a fixed fire making frame 221 and a fire making cavity 2211 arranged inside the fixed fire making frame 221, the fixed fire making frame 221 is installed on the upper side wall of the placing plate 11, the fire making cavity 2211 corresponds to the air outlet 12, a cooking range is arranged inside the central air outlet frame 13, a turner 222 is arranged inside the fire making cavity 2211, the turner 222 comprises a fire guiding shell 2221 and a fire guiding cavity 2223 arranged inside the fire guiding shell 2221, a flame regulator 223 is arranged inside the fire guiding cavity 2223, and the flame regulator 223 and the fixed fire making frame 221 are connected together through a linkage mechanism;

a pull rod 2222 is fixedly connected to positions, close to the bottom, of both sides of the fire guiding shell 2221, the pull rod 2222 is hinged to the side wall of the fixed fire making frame 221, the pull rod 2222 is arranged on the outer side of the fixed fire making frame 221, the flame regulator 223 comprises a flame connection pipe 2231 inserted into the fire guiding cavity 2223, the upper end of the flame connection pipe 2231 is in an arc shape extending outwards, a plurality of fire baffles 2236 for blocking flames are annularly arranged at the upper end of the flame connection pipe 2231, hinge grooves 2235 corresponding to the fire baffles 2236 are annularly arranged at positions, close to the edge, of the top of the flame connection pipe 2231, one end of each fire baffle 2236 is hinged to the inside of each hinge groove 2235, and a torsion spring 2237 is arranged at a position where the hinge groove 2235 is hinged to the fire baffle 2236;

the inner wall of the fire guiding chamber 2223 near the upper end is fixedly connected with the top rods 2224 in a circular arrangement, and one end of each top rod 2224 penetrates through the side wall of the flame connecting pipe 2231 and is in contact with the fire baffle 2236.

The linkage mechanism comprises two arc-shaped gear plates 2212, the two arc-shaped gear plates 2212 are symmetrically fixed on the side walls of two sides of the fire making cavity 2211, the bottom side of the flame connecting pipe 2231 close to the top is fixedly connected with two positioning sliding strips 2232 in a bilateral symmetry mode, the top of the fire guiding shell 2221 is provided with a sliding groove 2225 matched with the positioning sliding strips 2232, the positioning sliding strips 2232 are inserted in the sliding groove 2225 in a sliding mode, the upper side of the arc-shaped gear plates 2212 is meshed with a gear set 2234 with two gears coaxially connected, a gear strip 2233 is arranged on the side wall of one positioning sliding strip 2232 on one side of the flame connecting pipe 2231, and one gear on the gear set 2234 is arranged in the fire guiding shell 2221 and meshed with the gear strip 2233.

Discharge combustion circuits are mounted in the center air outlet frame 13, the fire making cavity 2211 and the edge cavity of the placing plate 11, and a motor is used for air to form flame, referring to fig. 11, the principle is as follows: the A high-level capacitors of the C resistor assemblies convert the input voltage into the driving voltage, the discharge of the grounding needle G1 by the ion needle P1 under the action of the driving voltage, and the generation of a plasma airflow flame between the ion needle P1 and the grounding needle G1.

When the spray cooking bench 1 and the flame adjuster 2 in this embodiment are used, the flame spray mode is adjusted according to the dishes to be cooked, when the dishes are to be stir-fried, the rotating shaft 15 is loosened to rotate the driving device 21 to rotate the pull rod 2222, the rotating pull rod 2222 drives the ignition shell 2221 to rotate inside the ignition cavity 2211, the end of the ignition shell 2221 rotates towards the central air outlet frame 13, the rotating ignition shell 2221 guides the flame generated by the electric discharge combustion circuit in the ignition cavity 2211 by electric shock air, the flame spray direction is changed, and in the rotation process of the ignition shell 2221, the gear set 2234 makes the flame connection pipe 2231 slide towards the inside of the ignition cavity 2223 through the meshing of the arc gear plate 2212 and the gear bar 2233, the top rod 2224 contacts with the fire baffle 2236, and pushes up the fire baffle 2236 to form a spray opening between the fire baffles 2236, the upper end of the flame connecting pipe 2231 seals the upper end of the flame guiding cavity 2223, so that the flame enters the flame connecting pipe 2231, the flame blocking plate 2236 collects and sprays the flame, so that the flame is sprayed out towards the middle part, and the flame is heated together with the flame sprayed by the cooking range in the central gas outlet frame 13;

when dishes are needed to be fried, in order to uniformly heat the dishes in the pan, the steel wire rope 25 is used for adjusting the driving device 21 to be close to the central air outlet frame 13, at the moment, the pull rod 2222 rotates towards the direction close to the central air outlet frame 13, the end part of the flame guiding shell 2221 is far away from the central air outlet frame 13, the gear set 2234 is meshed with the gear bar 2233 and the arc-shaped gear plate 2212, so that the flame connecting pipe 2231 moves upwards, the fire baffle 2236 seals the top of the flame connecting pipe 2231 through the torsion spring 2237, while the end of the flame nipple 2231 is separated from the squib chamber 2223 so that there is a gap between the flame nipple 2231 and the squib chamber 2223, the flame in the squib housing 2221 is ejected through the gap between the squib chamber 2223 and the flame nipple 2231, meanwhile, the top of the flame connecting pipe 2231 guides and shunts the sprayed flame, so that the flame spreads all around, and the flame is uniformly sprayed out, so as to heat the fried dishes.

The bottom of the fire guiding shell 2221 is in the shape of a horn extending outward, two sides of the fixed fire making frame 221 are both provided with a clamping groove 2213 for the pull rod 2222 to slide, and the edge position of the clamping groove 2213 limits the position of the pull rod 2222;

the rotation angle of the pull rod 2222 is blocked by the blocking groove 2213, so that when the flame spraying angle of the turner 222 is adjusted, the influence on the flame spraying angle caused by the excessive rotation angle of the turner 222 is avoided.

In order to transmit the movement of the driving device 21 to the flame angle adjusting device 22 when the driving device 21 is pulled by the positioning rotating shaft 15, so as to turn the angle of the turner 222, one end of the pull rod 2222 is hinged with the connecting bar 224, two ends of the connecting bar 224 are hinged with the driving bars 225, two ends of the connecting rod 23 are hinged with the driving bars 225, the driving device 21 comprises two arc-shaped driving rods 211, one end of each driving rod 211 is hinged with one end of each driving bar 225, an arc-shaped connector 212 is fixed between one ends of the two driving rods 211, one side of each arc-shaped connector 212 is provided with a positioning block 213 fixed on the positioning block 213, a spring 214 is arranged between the positioning block 213 and the arc-shaped connector 212, one end of the steel wire rope 25 penetrates through the arc-shaped connector 212 and extends out, the positioning plate 14 is fixed at the bottom of the placing disc 11, and the positioning rotating shaft 15 is rotatably connected inside the positioning plate 14, one end of the steel wire rope 25 penetrates through the side wall of the placing disc 11 and is wound on the positioning rotating shaft 15;

when the positioning rotating shaft 15 pulls the driving device 21 to move, the driving device 21 pulls the connecting strip 224 through the driving rod 211 and the driving strip 225, so that the connecting strip 224 drives the turner 222 to rotate, and further adjusts the angle of the turner 222, and the connecting rod 23 transmits the rotating power to another flame angle adjusting device 22 through the rotating pull rod 2222, so that another turner 222 rotates, and further the effect of simultaneously rotating the turners 222 is achieved, so as to control the flame spraying direction.

In order to stably pull the driving rod 211 and the tilter 222 to change the angle of the driving rod 211, a positioning insertion rod 215 is slidably disposed inside the driving rod 211, one end of the positioning insertion rod 215 is fixed on the side wall of the central air outlet frame 13, a sliding insertion rod 216 is disposed inside the spring 214, the sliding insertion rod 216 is two cylinders which are slidably inserted into each other, and the two cylinders are respectively fixed on the side wall between the positioning block 213 and the arc connector 212, the position of the driving rod 211 is limited by the positioning insertion rod 215, so that the arc connector 212 is pulled by the wire rope 25 to drive the arc connector 212 to move along the direction of the positioning insertion rod 215, the position of the driving rod 211 is not deviated corresponding to the position of the central air outlet frame 13, and the sliding insertion rod 216 limits the position of the spring 214, thereby preventing the spring 214 from being bent when the arc connector 212 is close to the positioning block 213, the angle of the leading edge device 21 is ensured to be stably turned by the leading edge device 222.

Example 2

In order to control the flame at the edge of the placing tray 11, so that the flame at the edge of the placing tray 11 heats the edge of the pan, referring to fig. 10, an edge controller 24 corresponding to the flame angle adjusting device 22 is annularly arranged at a position, close to the edge, of the upper side of the placing tray 11, the edge controller 24 includes two sliding rods 241 hinged to the driving strip 225, a fixing frame 242 is fixed at one end of each of the two sliding rods 241, a cover plate 243 hinged to the upper side of the placing tray 11 is arranged at one end of the fixing frame 242, an edge fire-spraying opening 16 is annularly arranged at a position, close to the edge, of the upper side of the placing tray 11, a plunger for plugging the edge fire-spraying opening 16 is arranged at the bottom of the cover plate 243, an inclined rod 244 is fixed on the cover plate 243, the inclined rod 244 is connected with the fixing frame 242 through a hinged hinge rod 245, a pull rod limiting block 17 is slidably arranged on the sliding rod 241, and the pull rod limiting block 17 is fixed at the upper side of the placing tray 11.

When the end of the ignition shell 2221 approaches the central air outlet frame 13, the sliding rod 241 is connected with the pull rod 2222, so that the cover plate 243 blocks the edge fire-spraying hole 16, and when the end of the ignition shell 2221 is far away from the central air outlet frame 13, the sliding rod 241 is far away from the cover plate 243, and the cover plate 243 is driven to turn over through the hinge rod 245, so that the flame in the edge fire-spraying hole 16 is sprayed out, and the edge of the pot is heated.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a high energy air flame heat energy kitchen of energy gathering, is used for carrying out the flame regulator (2) adjusted to flame including spraying kitchen dish (1) and setting in spraying kitchen dish (1) inside, the bottom of spraying kitchen dish (1) is provided with pot and stove rack (3) that are used for supporting spraying kitchen dish (1), its characterized in that: the jet cooker plate (1) comprises an arc-shaped placing plate (11), the placing plate (11) is of a hollow structure, a central air outlet frame (13) is arranged in the middle of the upper side of the placing plate (11), a plurality of pull rod limiting blocks (17) are annularly arranged on the side wall of the upper side of the placing plate (11), the plurality of pull rod limiting blocks (17) are arranged in a plurality of circles, the pull rod limiting blocks (17) of the inner circle and the pull rod limiting blocks (17) of the outer circle are correspondingly arranged, the flame regulator (2) comprises a plurality of driving devices (21), a plurality of flame angle regulating devices (22) are arranged on one side of each driving device (21), every two adjacent flame angle regulating devices (22) are connected through a connecting rod (23), and the plurality of driving devices (21) are connected together through a steel wire rope (25);

the flame angle adjusting device (22) comprises a fixed fire making frame (221) and a fire making cavity (2211) arranged inside the fixed fire making frame (221), a turner (222) is arranged inside the fire making cavity (2211), the turner (222) comprises a fire guiding shell (2221) and a fire guiding cavity (2223) arranged inside the fire guiding shell (2221), a flame regulator (223) is arranged inside the fire guiding cavity (2223), the flame regulator (223) and the fixed fire making frame (221) are connected together through a linkage mechanism, pull rods (2222) are fixedly connected to positions, close to the bottom, of two sides of the fire guiding shell (2221), the pull rods (2222) are hinged to side walls of the fixed fire making frame (221), the pull rods (2222) are arranged outside the fixed fire making frame (221), the flame regulator (223) comprises flame connecting pipes (2231) inserted into the fire guiding cavity (2233), the upper end of the flame connecting pipe (2231) is an arc extending outwards, a plurality of fire baffles (2236) used for blocking flames are arranged on the upper end of the flame connecting pipe (2231) in a ring shape, a top rod (2224) is fixedly connected to the inner wall of the flame guide cavity (2223) close to the upper end in a ring shape, and one end of the top rod (2224) penetrates through the side wall of the flame connecting pipe (2231) and is in contact with the fire baffles (2236).

2. The energy concentrating high energy air flame thermal energy cooker of claim 1, wherein: hinge grooves (2235) corresponding to the fire baffles (2236) are annularly arranged at the positions, close to the edges, of the tops of the flame connecting pipes (2231), one ends of the fire baffles (2236) are hinged inside the hinge grooves (2235), and torsion springs (2237) are arranged at the positions, hinged to the hinge grooves (2235) and the fire baffles (2236).

3. The energy concentrating high energy air flame thermal energy cooker of claim 1, wherein: the fixed fire making frame (221) is installed on the upper side wall of the placing plate (11), the fire making cavity (2211) is corresponding to the air outlet (12), and a cooking range is arranged inside the central air outlet frame (13).

4. The energy concentrating high energy air flame thermal energy cooker of claim 1, wherein: the flame take-over (2231) is close to the bottom side bilateral symmetry fixedly connected with two location draw runner (2232) of top position, the top of leading fire shell (2221) is seted up with the sliding tray (2225) that location draw runner (2232) looks adaptation, location draw runner (2232) slide and peg graft in the inside of sliding tray (2225).

5. The energy concentrating high energy air flame thermal energy cooker of claim 1, wherein: the link gear includes that two are curved arc gear board (2212), two arc gear board (2212) symmetry is fixed on the lateral wall of making fiery cavity (2211) both sides, the upside meshing of arc gear board (2212) has gear train (2234) of two gear coaxial coupling, is located be provided with rack (2233) on the lateral wall of a location draw runner (2232) of flame takeover (2231) one side, the inside and rack (2233) meshing of leading fiery shell (2221) of a gear setting on gear train (2234).

6. The energy concentrating high energy air flame thermal energy cooker of claim 1, wherein: the bottom of leading fiery shell (2221) is the loudspeaker form of outside extension, supply the gliding screens groove (2213) of pull rod (2222) all seted up to the both sides of fixed fire frame (221) of making, just the border position of screens groove (2213) restricts the position of pull rod (2222).

7. The energy concentrating high energy air flame thermal energy cooker of claim 1, wherein: the one end of pull rod (2222) articulates there is connecting strip (224), the both ends of connecting strip (224) articulate there is drive strip (225), the both ends of connecting rod (23) are articulated with drive strip (225), drive arrangement (21) are curved drive pole (211) including two, the one end of drive pole (211) is articulated with the one end of drive strip (225).

8. The energy concentrating high energy air flame thermal energy cooker of claim 7, wherein: two be fixed with arc connector (212) between drive pole (211) one end, one side of arc connector (212) is provided with fixes locating piece (213) on locating piece (213), be provided with spring (214) between locating piece (213) and arc connector (212), arc connector (212) is run through and extends away to the one end of wire rope (25), the bottom of placing dish (11) is fixed with locating plate (14), the internal rotation of locating plate (14) is connected with location rotation axis (15), the one end of wire rope (25) is run through the lateral wall of placing dish (11) and is twined on location rotation axis (15).

9. The energy concentrating high energy air flame thermal energy cooker of claim 8, wherein: the inside of drive pole (211) slides and is provided with location inserted bar (215), the one end of location inserted bar (215) is fixed on the lateral wall of center play gas frame (13), the inside of spring (214) is provided with smooth inserted bar (216), smooth inserted bar (216) are two cylinders that slide each other and peg graft together, and two cylinders are fixed respectively on the lateral wall between locating piece (213) and arc connector (212).

10. The energy concentrating high energy air flame thermal energy cooker of claim 1, wherein: the device is characterized in that edge controllers (24) corresponding to the flame angle adjusting devices (22) are annularly arranged at positions, close to the edges, on the upper side of the placing plate (11), the edge controllers (24) comprise two sliding rods (241) hinged to the driving strips (225), one ends of the two sliding rods (241) are fixed with fixing frames (242), one ends of the fixing frames (242) are provided with cover plates (243) hinged to the upper side of the placing plate (11), edge fire-spraying ports (16) are annularly arranged at positions, close to the edges, on the upper side of the placing plate (11), plungers for plugging the edge fire-spraying ports (16) are arranged at the bottom of the cover plates (243), oblique rods (244) obliquely arranged are fixed on the cover plates (243), the oblique rods (244) are connected with the fixing frames (242) through hinged rods (245), and pull rod limiting blocks (17) are slidably arranged on the sliding rods (241), the pull rod limiting block (17) is fixed on the upper side of the placing disc (11).

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