CN109442432B - Double-turning plate type biofuel furnace - Google Patents

Double-turning plate type biofuel furnace Download PDF

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Publication number
CN109442432B
CN109442432B CN201811202026.9A CN201811202026A CN109442432B CN 109442432 B CN109442432 B CN 109442432B CN 201811202026 A CN201811202026 A CN 201811202026A CN 109442432 B CN109442432 B CN 109442432B
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China
Prior art keywords
matching
frame
rod
integrated structure
support
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CN201811202026.9A
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Chinese (zh)
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CN109442432A (en
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不公告发明人
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Dongguan Guangyao Energy Co ltd
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Dongguan Guangyao Energy Co Ltd
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Priority to CN201811202026.9A priority Critical patent/CN109442432B/en
Publication of CN109442432A publication Critical patent/CN109442432A/en
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Publication of CN109442432B publication Critical patent/CN109442432B/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23GCREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
    • F23G5/00Incineration of waste; Incinerator constructions; Details, accessories or control therefor
    • F23G5/24Incineration of waste; Incinerator constructions; Details, accessories or control therefor having a vertical, substantially cylindrical, combustion chamber
    • F23G5/28Incineration of waste; Incinerator constructions; Details, accessories or control therefor having a vertical, substantially cylindrical, combustion chamber having raking arms
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23GCREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
    • F23G5/00Incineration of waste; Incinerator constructions; Details, accessories or control therefor
    • F23G5/44Details; Accessories
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23GCREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
    • F23G5/00Incineration of waste; Incinerator constructions; Details, accessories or control therefor
    • F23G5/44Details; Accessories
    • F23G5/442Waste feed arrangements
    • F23G5/444Waste feed arrangements for solid waste

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Solid Fuels And Fuel-Associated Substances (AREA)
  • Gasification And Melting Of Waste (AREA)

Abstract

The invention discloses a double-turning plate type biofuel furnace, which structurally comprises: the adjusting handle, the movable baffle, the feeding frame, the intelligent movable control combustion device, the device shell, the fixed base and the hinged frame are parallel to each other in pairs and are vertically installed on the lower side surface of the device shell in a welding mode, the hinged frame is arranged on the front end surface of the device shell and is movably matched and connected with the device shell, the movable baffle is arranged on the front surface of the device shell and is fixedly welded with the device shell, the intelligent movable control combustion device is arranged on the inner side end surface of the device shell and movably forms an integrated structure with the device shell, when the biofuel furnace works, hot air generated during internal combustion can be output through the turning plate, new combustion air enters, the internal combustion efficiency is improved, and meanwhile, fuel in the equipment can be dried and crushed before combustion, thereby achieving the purpose of improving the use efficiency of the combustion furnace.

Description

Double-turning plate type biofuel furnace
Technical Field
The invention relates to the field of combustion furnaces, in particular to a double-turning-plate type biofuel furnace.
Background
The biofuel generally refers to solid, liquid or gas fuel composed or extracted from biomass, which can replace gasoline and diesel oil prepared from petroleum, and is an important direction for developing and utilizing renewable energy sources, wherein the biomass refers to various organisms generated by photosynthesis through air, water, land and the like, namely all living organic substances capable of growing, and the biofuel is used for incineration, namely the biofuel furnace.
Disclosure of Invention
Aiming at the defects of the prior art, the invention is realized by the following technical scheme: double-turning plate type biofuel furnace, its structure includes: the intelligent movable control combustion device is arranged on the inner side end face of the device shell and movably matched and connected with the device shell to form an integrated structure, the feeding frame is perpendicular to the front end of the upper side surface of the device shell and is communicated with the device shell to form an integrated structure, and the adjusting handle is vertically embedded into the inner side face of the device shell and is also in threaded connection with the device shell;
the intelligent movable control combustion device is provided with a power adjusting device, a power output device, a matching adjusting device, a power transmission device, a matching clamping device, a movable rolling device and a matching support device;
the power adjusting device is arranged on the left side end face inside the equipment and forms an integrated structure with the equipment in a welding mode, the power output device is arranged on the right side end face of the power adjusting device and is connected with the power adjusting device in a through connection mode, the matching adjusting device is arranged on the lower side of the power output device and is connected with the power output device in a matching mode, the power transmission device is arranged on the right side end face of the matching adjusting device and is connected with the power transmission device in a connecting mode in a meshing mode, the matching clamping device is arranged on the upper side of the power transmission device and is movably connected with the power transmission device, the matching support device is arranged on the outer side face of the matching clamping device and is connected with the outer side face of the matching clamping device in a matching mode, and the movable rolling device is vertically and fixedly.
As a further optimization of the technical proposal, the power adjusting device is provided with an adjusting channel, a rubber block, a shell frame, a top rod, a matching rod, an electromagnet, a movable block and a limiting frame, the left side surface and the right side surface of the electromagnet positioned on the limiting frame are welded into an integrated structure, the matching rod is vertical to the lower end surface of the movable block and is connected together in a matching way, the movable block is fixedly arranged on the lower side surface of the limiting frame, the ejector rod is a matching rod which extends vertically downwards and is connected into an integrated structure by welding, the shell frame wraps the outer side surface of the ejector rod and is matched and connected with the outer side surface of the ejector rod, the rubber block wraps the outer side surface of the ejector rod and is matched and connected with the outer side surface of the ejector rod, the inner side surface of the shell frame is provided with an adjusting channel which is fixedly connected with the shell frame, and the adjusting channel is communicated with the power output device on the right end face.
As a further optimization of the technical scheme, the power output device is provided with a pressure cylinder, a pressure rod, a matching wheel, an output frame, a limiting frame and a matching wheel, wherein the pressure rod is located on the inner side surface of the pressure cylinder and is connected with the pressure cylinder in a clearance fit mode, the matching wheel is located on the upper side surface of the pressure rod, the upper side surface of the pressure rod and the lower side surface of the pressure rod are hinged and connected together, the limiting frame is located on the front end face of the pressure rod, the front end face of the pressure rod and the lower side surface of the limiting frame are hinged and connected together, the matching wheel is located on the lower side surface of the limiting frame and is connected with the limiting frame in a movable fit mode, the output frame and the matching wheel are connected together in a movable.
As a further optimization of the technical proposal, the matching adjusting device is provided with an output shaft, a bracket shaft, a pulling belt, a poking rod, a displacement frame, a mounting seat, a driving wheel and a cam frame, the cam rack and the driving wheel are of concentric circle structures and are fixedly welded into an integrated structure, the displacement rack is arranged on the lower side surface of the cam rack and is connected with the cam rack in a matching way, the poke rod is arranged on the lower side surface of the displacement frame and welded with the displacement frame into an integrated structure, the poke rod is arranged on the inner side surface of the mounting seat and movably connected with the mounting seat, the pulling belt is arranged on the upper side surface of the poking rod and movably connected together, the support shaft is arranged on the upper side surface of the pulling belt and movably connected in a matching way to form an integrated structure, the output shaft is perpendicular to the front end face of the support shaft and is meshed with the support shaft, and the output shaft is movably connected with the power transmission device at the front end.
As a further optimization of the technical scheme, the power transmission device is provided with a pulling rod, a threaded rod, a mounting seat, a matching support, a support seat and a bevel gear, the threaded rod is embedded into the inner side surface of the mounting seat and is matched with the mounting seat to form an integrated structure, the support wraps the outer side surface of the threaded rod and is in threaded connection with the threaded rod, the bevel gear is fixedly connected with the middle section of the outer side surface of the threaded rod in a welding mode, the support is arranged on the inner side surface of the support seat and is movably matched with the support seat to form an integrated structure, and the bevel gear is meshed with an output shaft at the right side end.
As a further optimization of this technical scheme, cooperation chucking device is equipped with axis of rotation, baffle, sliding block, dysmorphism frame, spout pole, cooperation piece, fixed pulley, the rope body, collects the wheel, the cooperation is erect and is linked together through the fixed pulley clearance fit of the rope body with the front end simultaneously in the side face of the upside of collecting the wheel, the downside surface of fixed pulley is located simultaneously with fixed pulley clearance fit to the cooperation piece, the inboard surface of the spout pole in cooperation piece embedding the place ahead links together with spout pole clearance fit simultaneously, the inboard terminal surface of dysmorphism frame is located to the sliding block and is linked together with dysmorphism frame fixed fit, the baffle is parallel to each other with the sliding block and constitutes integrated structure through the welded mode simultaneously, the axis of rotation is located the rear side surface of baffle and is in the same place with baffle fixed welding.
As a further optimization of the technical scheme, the movable rolling device is provided with a feeding frame, a matching wheel, a stirring frame, a crank, a pressing block and a matching seat, wherein the matching wheel is positioned in the center of the pressing block and is fixedly welded with the pressing block to form an integrated structure, the matching seat and the matching wheel are of concentric circle structures and are movably connected with the matching wheel, the stirring frame is arranged on the lower side of the matching seat and is movably connected with the matching seat, the pressing block is positioned on the inner side surface of the feeding frame and is fixedly matched with the feeding frame to form an integrated structure, the crank is movably connected with the feeding frame, and the feeding frame and a matching support device below the feeding frame are of an integrated structure.
As a further optimization of the technical scheme, the matching support device is provided with a partition plate, a movable support, a hinge plate, a combustion chamber, an output belt, a displacement block, a sliding block, a motor and a limiting rod, the lower side surface of the motor embedded into the limiting rod is movably matched with the limiting rod at the same time, the output belt wraps the outer side surface of the limiting rod and is movably connected with the outer side surface of the limiting rod, the displacement block is arranged on the outer surface of the output belt and is movably connected with the outer side surface of the limiting rod, the movable support is arranged on the upper side surface of the sliding block in a hinge connection mode and is mechanically connected with the upper side surface of the sliding block, the hinge plate is arranged on the upper side surface of the movable support and is fixedly connected with the upper side surface of the combustion chamber, the combustion chamber wraps the outer side surface of the hinge plate and is movably matched with the outer, the combustion chamber is fixedly connected with the feeding frame on the upper side surface.
Advantageous effects
The invention relates to a double-turnover plate type biofuel furnace, which is characterized in that when equipment is used, the equipment is powered on in advance, then the equipment is connected with external hydraulic oil through an adjusting channel, then the power-on and power-off of an electromagnet inside the equipment is controlled through a power-on seat above the equipment, meanwhile, after the electromagnet is powered on, a movable block below the equipment is pressed downwards to move upwards to adjust the position of a rubber block inside the adjusting channel, and whether an oil circuit inside the adjusting channel is connected or not is adjusted through the rubber block, and simultaneously whether the equipment runs or not is started, then biofuel is fed into the equipment through a feeding frame, then an inner matching seat is rotated through the rotation of a crank, a rotating wheel below the equipment can repeatedly cut fuel pressing blocks into the equipment inside the matching seat through the pressing block within a certain interval time, and the entering equipment can be limited for drying due to the appearance characteristics, meanwhile, the upper matching wheel is jacked by a pressure rod in a pressure cylinder after the furnace is incinerated for a period of time, the upper matching wheel is clamped by the matching wheel, the output frame rotates to output power through a belt body, the power enters the outer side of a driving wheel below, a cam rack under the matching of the driving wheel rotates to effectively press a displacement rack below through the appearance characteristics, a poke rod can poke and pull a belt to change the transmission of the power, then a meshed output shaft drives a threaded rod in front of the screw rod and drives the matching rack to move upwards and downwards through the rotation of the threaded rod, and a rope body is pulled simultaneously, a baffle is pulled by the pulling between the wheels to move on a special-shaped rack along with a sliding chute rod so as to open and close a pipeline below upwards, the pipeline upwards is used for discharging hot gas, and cold gas above enters the special-shaped rack, the restriction output that the baffle also can be fine simultaneously to make inside gas circulation get up, and after burning, make the gag lever post rotate through the motor and make the sliding block displacement on the output belt, jack-up the movable support or put down, thereby make the ash of discharging better discharge on the hinge plate, thereby accomplish work.
Based on the prior art, when the biofuel furnace is used for working, hot air generated during internal combustion can be output through the turning plate, and new combustion air enters, so that the internal combustion efficiency is improved, and meanwhile, fuel in the equipment can be dried and crushed before combustion, so that the purpose of improving the use efficiency of the combustion furnace is achieved.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural view of a double-flap-plate biofuel furnace of the present invention.
FIG. 2 is a schematic structural diagram of a double-flap biofuel furnace of the present invention.
FIG. 3 is a detailed view of the mechanism of the double-flap biofuel furnace of the present invention.
FIG. 4 is a schematic view of the first use of the double-flap biofuel furnace of the present invention.
FIG. 5 is a schematic view of the use of the double-flap biofuel furnace of the present invention.
Fig. 6 is an enlarged view of a portion a of a schematic use diagram 4 of the double-flap-type biofuel furnace of the present invention.
In the figure: an adjusting handle-1, a movable baffle-2, a feeding frame-3, an intelligent movable control combustion device-4, a device shell-5, a fixed base-6, a hinged frame-7, a power adjusting device-41, a power output device-42, a matching adjusting device-43, a power transmission device-44, a matching clamping device-45, a movable rolling device-46, a matching support device-47, an adjusting channel-411, a rubber block-412, a shell frame-413, a top rod-414, a matching rod-415, an electromagnet-416, a movable block-417, a limiting frame-418, a pressure cylinder-421, a pressure rod-422, a matching wheel-423, an output frame-424, a limiting frame-425, a matching wheel-426, an output shaft-431, a power output shaft-415, a power output device-4, a movable rolling device-46, a, Support shaft-432, pull belt-433, poke rod-434, displacement frame-435, mounting seat-436, driving wheel-437, cam frame-438, pull rod-441, threaded rod-442, mounting seat-443, matching support-444, support seat-445, bevel gear-446, rotating shaft-451, baffle-452, sliding block-453, special-shaped frame-454, sliding groove rod-455, matching block-456, fixed pulley-457, rope-458, collecting wheel-459, feeding frame-461, matching wheel-462, poke frame-463, crank-464, pressing block-465, matching seat-466, clapboard-471, movable support-472, hinge plate-473, combustion chamber-474, output belt-475, A displacement block-476, a sliding block-477, a motor-478 and a limit rod-479.
Detailed Description
In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.
Examples
Referring to fig. 1 to 6, the present invention provides a double-flap type biofuel furnace, which comprises: an adjusting handle 1, a movable baffle 2, a feeding frame 3, an intelligent movable control combustion device 4, a device shell 5, a fixed base 6 and a hinged frame 7, the fixed bases 6 are parallel to each other two by two and are vertically installed on the lower side surface of the device shell 5 by welding, the hinge frame 7 is arranged on the front end face of the device shell 5 and is movably matched and connected with the device shell 5, the movable baffle 2 is provided on the front surface of the device case 5 while being coupled with the device case 5, the intelligent activity control combustion device 4 is arranged on the inner side end surface of the device shell 5 and forms an integrated structure with the device shell 5 in an activity way, the feeding frame 3 is vertical to the front end of the upper side surface of the device shell 5 and is connected with the device shell 5 in a penetrating way to form an integrated structure, the adjusting handle 1 is vertically embedded into the inner side surface of the device shell 4 and is connected with the device shell 5 through threads;
the intelligent activity control combustion device 4 is provided with a power adjusting device 41, a power output device 42, a matching adjusting device 43, a power transmission device 44, a matching clamping device 45, an activity rolling device 46 and a matching support device 47;
the power adjusting device 41 is arranged on the left end face in the equipment and forms an integrated structure with the equipment in a welding mode, the power output device 42 is arranged on the right end face of the power adjusting device 41 and is connected with the power adjusting device 41 in a penetrating mode, the matching adjusting device 43 is arranged on the lower side of the power output device 42 and is connected with the power output device 42 in a matching mode through a belt body, the movable transmission device 44 is arranged on the right end face of the matching adjusting device 43 and is connected into an integrated structure in a meshing mode, the matching clamping device 45 is arranged on the upper side of the power transmission device 44 and is movably connected with the power transmission device 44, the matching support device 47 is arranged on the outer side face of the matching clamping device 45 and is connected with the matching clamping device 45 in a matching mode, and the movable rolling device 46 is vertically and fixedly connected with the power output device 47, the power adjusting device 41 is provided with an adjusting channel 411, a rubber block 412, a shell frame 413, a top rod 414, a matching rod 415, an electromagnet 416, a movable block 417 and a limiting frame 418, the electromagnet 416 is positioned on the left side surface and the right side surface of the limiting frame 418 and welded into an integrated structure, the matching rod 415 is perpendicular to the lower end surface of the movable block 417 and is matched and connected together, the movable block 417 is fixedly installed on the lower side surface of the limiting frame 418, the top rod 414 is the structure that the matching rod 415 extends downwards vertically and is welded together, the shell frame 413 wraps the outer side surface of the top rod 414 and is matched and connected together, the rubber block 412 wraps the outer side surface of the top rod 414 and is matched and connected together, the inner side surface of the shell frame 413 is provided with the adjusting channel 411 and is fixedly connected together, the adjusting channel 411 is connected together with the power output device 42 on the right side end surface, the power output device 42 is provided with a pressure cylinder 421, a pressure rod 422, a matching wheel 423, an output frame 424, a limiting frame 425 and a matching wheel 426, the pressure rod 422 is positioned on the inner side surface of the pressure cylinder 421 and is connected with the pressure cylinder 421 in a clearance fit manner, the matching wheel 423 is arranged on the upper side surface of the pressure rod 422, the limiting frame 425 is arranged on the front end surface of the pressure rod 422, the pressure rod is hinged with the limiting frame 425 to form an integrated structure, the matching wheel 426 is arranged on the lower side surface of the limiting frame 425 and is movably matched and connected with the limiting frame 425, the output frame 424 and the matching wheel 426 are in a concentric structure, the pressure cylinder 421 is movably connected with an upper adjusting channel 411, the matching adjusting device 43 is provided with an output shaft 431, a support shaft 432, a pulling belt 433, a poking rod 434, a displacement frame 435, a mounting seat 436, The driving wheel 437 and the cam rack 438 are fixedly welded into an integrated structure with the driving wheel 437 in a concentric structure, the displacement rack 435 is arranged on the lower surface of the cam rack 438 and is connected with the cam rack in a matched manner, the poke rod 434 is arranged on the lower surface of the displacement rack 435 and is welded with the displacement rack 435 into an integrated structure, the poke rod 434 is arranged on the inner side surface of the mounting seat 436 and is movably connected with the mounting seat 436, the pull belt 433 is arranged on the upper surface of the poke rod 434 and is movably connected with the mounting seat, the support shaft 432 is arranged on the upper surface of the pull belt 433 and is movably connected with the support shaft 432 in a matched manner, the output shaft 431 is perpendicular to the front end surface of the support shaft 432 and is connected with the support shaft 432 in a meshed manner, the output shaft 431 is movably connected with the power transmission device 44 at the front end, and, The threaded rod 442 is embedded into the inner side surface of the mounting seat 443 and is matched and connected with the mounting seat 443 to form an integrated structure, the bracket 444 wraps the outer side surface of the threaded rod 442 and is connected with the threaded rod 442 in a threaded manner, the bevel gear 446 is fixedly connected with the middle section of the outer side surface of the threaded rod 442 in a welding manner, the bracket 444 is arranged on the inner side surface of the bracket seat 445 and is movably matched and connected with the bracket seat 445 to form an integrated structure, the bevel gear 446 is meshed and connected with the output shaft 431 at the right side end, the matching and clamping device 45 is provided with a rotating shaft 451, a baffle plate 452, a sliding block 453, a special-shaped frame 454, a sliding groove rod 455, a matching block 456, a fixed pulley 457, a rope body 458 and a collecting wheel 459, the matching frame 458 is arranged on the upper side end surface of the collecting wheel and is movably matched and connected with the fixed pulley 457 at the front end through the rope body 459, the matching block 456 is arranged on the lower side surface of the fixed pulley 456 and is in clearance fit with the fixed pulley 456, the matching block 456 is embedded in the inner side surface of the front chute bar 455 and is movably matched and connected with the chute bar 455, the sliding block 453 is arranged on the inner side end surface of the special-shaped frame 454 and is fixedly matched and connected with the special-shaped frame 454, the baffle 452 and the sliding block 453 are parallel to each other and are welded together to form an integrated structure, the rotating shaft 451 is arranged on the rear side surface of the baffle 452 and is fixedly welded with the baffle 452, the movable rolling device 46 is provided with a feeding frame 461, a matching wheel 462, a shifting frame 463, a crank 464, a pressing block 465 and a matching seat 466, the matching wheel 462 is arranged in the center of the pressing block 465 and is fixedly welded with the pressing block 465 to form an integrated structure, the matching seat 466 and the matching wheel 466 are in a concentric structure and are movably connected with the matching wheel, the shifting frame 463 is arranged on the lower side of the matching seat 466 and movably connected with the matching seat 466, the pressing block 465 is arranged on the inner side surface of the feeding frame 461 and fixedly matched and connected with the feeding frame 461 to form an integrated structure, the crank 464 is movably connected with the feeding frame 461, the feeding frame 461 and the matching bracket device 47 below are in an integrated structure, the matching bracket device 47 is provided with a partition plate 471, a movable bracket 472, a hinge plate 473, a combustion chamber 474, an output belt 475, a displacement block 476, a sliding block 477, a motor 478 and a limiting rod 479, the motor 479 is embedded in the lower side surface of the limiting rod 479 and movably matched with the limiting rod 479, the output belt 475 is movably connected with the outer side surface of the limiting rod 479 in a wrapping manner, the displacement block 476 is arranged on the outer surface of the output belt 475 and movably connected with the outer side surface of the limiting rod 479, the sliding block 477 is arranged on the outer side surface of the limiting rod 479 and movably connected, the movable support 472 is mounted on the upper side of the sliding block 476 in a hinged connection mode and mechanically connected with the upper side of the sliding block, the hinged plate 473 is arranged on the upper side of the movable support 472 and fixedly connected with the upper side of the sliding block, the combustion chamber 474 wraps the outer side surface of the hinged plate 473 in a movable fit mode, the partition 471 is fixedly welded on the inner side surface of the combustion chamber 474, and the combustion chamber 474 is fixedly connected with the feeding frame 461 on the upper side surface.
The principle of the invention is as follows: when the device is used, after the device is powered on in advance, the adjusting channel 411 is connected with external hydraulic oil, the power-on and power-off of the electromagnet 416 in the device is controlled through the power-on seat above, meanwhile, after the electromagnet 416 is powered on, the movable block 417 below is pressed downwards and moves upwards to adjust the position of the rubber block 412 in the adjusting channel 411 through the rubber block 412, whether the oil circuit in the adjusting channel 411 is connected or not is adjusted through the rubber block 412, whether the device runs or not is started, then the biofuel is fed into the device through the feeding frame 3, then the matching seat 466 in the device is rotated through the rotation of the crank 464 through the poking of the crank 464, meanwhile, the rotating wheel 462 below can repeatedly cut the fuel briquetting into the device through the pressing block 465 in the matching seat 466 in a certain interval time, and the entering can be limited for drying due to the characteristics of the appearance, meanwhile, the coal enters the inner side of a combustion chamber 474 for incineration, after a period of incineration, the upper matching wheel 423 is pushed by a pressure rod 422 in the pressure cylinder 421, the upper matching wheel 426 is clamped by the matching wheel 423, the output frame 424 rotates to output power through a belt body, the power enters the outer side of a lower driving wheel 437, a cam frame 438 under the driving wheel 437 rotates to effectively press a lower displacement frame 435 through the shape characteristics, a poke rod 434 can poke and pull the belt 433 to change the transmission of the power, then an engaged output shaft 431 drives a front threaded rod 442 and drives the matching frame 444 to move upwards and downwards through the rotation of the threaded rod 442, and a rope 458 is pulled simultaneously, a baffle 452 moves upwards on a special-shaped frame 454 along with a sliding groove rod 455 by virtue of the pulling between the wheels so as to open and close the lower pipeline, ascending being used for discharging hot gas, the entering cold air of top, the restriction output that the baffle 471 also can be fine simultaneously to make inside gas circulation get up, and after burning, make gag lever post 49 rotate through motor 478 and make sliding block 477 shift on output belt 475, jack-up or put down movable support 472, thereby make the ash that discharges better on hinge plate 473, thereby accomplish work.
The power transmission device 44 according to the present invention refers to a mechanical device that transmits and transports power inside the device.
The invention solves the problem that when a biofuel furnace works, hot air generated during internal combustion cannot be output through the turning plate, and new combustion air enters, so that the internal combustion efficiency is reduced, and meanwhile, fuel in the equipment cannot be dried and crushed before combustion, so that the use efficiency of the combustion furnace cannot be improved.
While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. Double-turning plate type biofuel furnace, its structure includes: adjust handle (1), adjustable fender (2), feeding frame (3), intelligent activity control burner (4), device casing (5), unable adjustment base (6), hinge frame (7), two liang of mutual parallels of unable adjustment base (6) are installed perpendicularly at the downside surface of device casing (5) through the welded mode simultaneously, hinge frame (7) are located the preceding terminal surface of device casing (5) and are agreed with the activity with device casing (5) and link together, adjustable fender (2) are located the preceding surface of device casing (5) and are linked together with device casing (5) simultaneously, the inboard terminal surface that device casing (5) were located in intelligence activity control burner (4) forms integrated structure, its characterized in that with device casing (5) activity simultaneously:
the feeding frame (3) is perpendicular to the front end of the upper side surface of the device shell (5) and is in through connection with the device shell (5) to form an integrated structure, and the adjusting handle (1) is vertically embedded into the inner side surface of the device shell (4) and is in threaded connection with the device shell (5);
the intelligent movable control combustion device (4) is provided with a power adjusting device (41), a power output device (42), a matching adjusting device (43), a power transmission device (44), a matching clamping device (45), a movable rolling device (46) and a matching support device (47);
the power adjusting device (41) is arranged on the left end face in the equipment and forms an integrated structure with the equipment in a welding mode, the power output device (42) is positioned on the right end face of the power adjusting device (41) and is communicated and connected with the power adjusting device (41), the matching adjusting device (43) is arranged on the lower side of the power output device (42) and is matched and connected with the power output device (42) through a belt body, the power transmission device (44) is arranged on the right end face of the matching adjusting device (43), the two are connected into an integrated structure in a meshing mode, the matching clamping device (45) is positioned on the upper side of the power transmission device (44) and is movably connected with the power transmission device (44), the matching support device (47) is arranged on the outer side face of the matching clamping device (45) and is matched and connected with the two, the movable rolling device (46) and the power output device (47) are vertically and fixedly connected together.
2. The double-flap biofuel furnace of claim 1, wherein: the power adjusting device (41) is provided with an adjusting channel (411), a rubber block (412), a shell frame (413), a top rod (414), a matching rod (415), an electromagnet (416), a movable block (417) and a limiting frame (418), the electromagnet (416) is positioned on the left side surface and the right side surface of the limiting frame (418) and welded into an integrated structure, the matching rod (415) is vertical to the lower end surface of the movable block (417) and is connected together in a matching way, the movable block (417) is fixedly installed on the lower side surface of the limiting frame (418), the top rod (414) is vertically extended downwards by the matching rod (415) and is connected into an integrated structure in a welding way, the shell frame (413) wraps the outer side surface of the top rod (414) and is connected together in a matching way, the rubber block (412) wraps the outer side surface of the top rod (414) and is connected together in a matching way, the inner side surface of the shell frame (413) is provided with an adjusting channel (411) which are fixedly connected together, and the adjusting channel (411) is communicated with a power output device (42) on the right side end surface.
3. The double-flap biofuel furnace of claim 1 or 2, wherein: the power output device (42) is provided with a pressure cylinder (421), a pressure rod (422), a matching wheel (423), an output frame (424), a limit frame (425) and a matching wheel (426), the pressure rod (422) is positioned on the inner side surface of the pressure cylinder (421) and is connected with the pressure cylinder (421) in a clearance fit way, the matching wheel (423) is arranged on the upper side surface of the pressure rod (422) and is hinged together, the limiting frame (425) is arranged on the front end surface of the pressure rod (422) and is hinged with the pressure rod to form an integrated structure, the matching wheel (426) is arranged on the lower side surface of the limiting frame (425) and is movably matched and connected with the limiting frame (425), the output frame (424) and the matching wheel (426) are in concentric circle structures and are movably matched and connected together, the pressure cylinder (421) is movably connected with the upper adjusting channel (411).
4. The double-flap biofuel furnace of claim 1, wherein: the matching adjusting device (43) is provided with an output shaft (431), a support shaft (432), a pulling belt (433), a poking rod (434), a displacement frame (435), a mounting seat (436), a driving wheel (437) and a cam frame (438), the cam frame (438) and the driving wheel (437) are of concentric circle structures and are fixedly welded into an integrated structure, the displacement frame (435) is arranged on the lower side surface of the cam frame (438) and is connected together in a matching manner, the poking rod (434) is arranged on the lower side surface of the displacement frame (435) and is welded into an integrated structure with the displacement frame (435), the poking rod (434) is arranged on the inner side surface of the mounting seat (436) and is movably connected together, the pulling belt (433) is arranged on the upper side surface of the poking rod (434) and is movably connected together, the support shaft (432) is arranged on the upper side surface of the pulling belt (433) and is connected into an integrated structure, the output shaft (431) is perpendicular to the front end face of the support shaft (432) and is meshed with the support shaft (432), and the output shaft (431) is movably connected with the power transmission device (44) at the front end.
5. The double-flap biofuel furnace of claim 4, wherein: the power transmission device (44) is provided with a pulling rod (441), a threaded rod (442), an installation seat (443), a matching support (444), a support seat (445) and a bevel gear (446), the threaded rod (442) is embedded into the inner side surface of the installation seat (443) and is simultaneously matched and connected with the installation seat (443) to form an integrated structure, the support (444) wraps the outer side surface of the threaded rod (442) and is simultaneously in threaded connection with the threaded rod (442), the bevel gear (446) is fixedly connected with the middle section of the outer side surface of the threaded rod (442) in a welding mode, the support (444) is arranged on the inner side surface of the support seat (445) and is simultaneously movably matched and connected with the support seat (445) to form an integrated structure, and the bevel gear (446) is meshed and connected with an output shaft (431) at.
6. The double-flap biofuel furnace of claim 1, wherein: the matching and clamping device (45) is provided with a rotating shaft (451), a baffle (452), a sliding block (453), a special-shaped frame (454), a chute rod (455), a matching block (456), a fixed pulley (457), a rope body (458) and a collection wheel (459), the matching frame (458) is arranged on the upper end face of the collection wheel (459) and is movably matched and connected with the fixed pulley (457) at the front end through the rope body (458), the matching block (456) is arranged on the lower side surface of the fixed pulley (456) and is in clearance fit with the fixed pulley (456), the matching block (456) is embedded into the inner side surface of the chute rod (455) in front and is movably matched and connected with the chute rod (455), the sliding block (453) is arranged on the inner side end face of the special-shaped frame (454) and is fixedly matched and connected with the special-shaped frame (454), the baffle (452) and the sliding block (453) are parallel to each other and form an integrated structure through a welding mode, the rotating shaft (451) is located on the rear side surface of the baffle plate (452) and is fixedly welded with the baffle plate (452).
7. The double-flap biofuel furnace of claim 1, wherein: the movable rolling device (46) is provided with a feeding frame (461), a matching wheel (462), a shifting frame (463), a crank (464), a pressing block (465) and a matching seat (466), the matching wheel (462) is positioned in the center of the pressing block (465) and is fixedly welded with the pressing block (465) into an integrated structure, the matching seat (466) and the matching wheel (466) are concentric structures and are movably connected with the matching wheel (466) at the same time, the toggle frame (463) is arranged at the lower side of the matching seat (466) and is movably connected with the matching seat (466), the pressing block (465) is positioned on the inner side surface of the feeding frame (461) and is fixedly matched and connected with the feeding frame (461) to form an integrated structure, the crank (464) is movably connected with the feeding frame (461), and the feeding frame (461) and the matching support device (47) below the feeding frame are of an integrated structure.
8. The double-flap biofuel furnace of claim 1, wherein: the matching support device (47) is provided with a partition plate (471), a movable support (472), a hinge plate (473), a combustion chamber (474), an output belt (475), a displacement block (476), a sliding block (477), a motor (478) and a limiting rod (479), the motor (479) is embedded into the lower side surface of the limiting rod (479) and is movably matched with the limiting rod (479), the output belt (475) wraps the outer side surface of the limiting rod (479) and is movably connected with the outer side surface of the limiting rod (479), the displacement block (476) is arranged on the outer surface of the output belt (475) and is movably connected with the outer side surface of the limiting rod (479), the movable support (472) is arranged on the upper side surface of the sliding block (476) in a hinged connection mode and is mechanically connected with the upper side surface of the movable support (472), the hinge plate (473) is arranged on the upper side surface of the movable support (472) and is fixedly connected with the upper side surface of the movable support (472), the outer side surfaces of the hinge plates (473) are wrapped by the combustion chamber (474) in movable fit, the partition plates (471) are fixedly welded on the inner side surfaces of the combustion chamber (474), and the combustion chamber (474) is fixedly connected with the feeding frame (461) on the upper side surface.
CN201811202026.9A 2018-10-16 2018-10-16 Double-turning plate type biofuel furnace Expired - Fee Related CN109442432B (en)

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KR100896238B1 (en) * 2007-06-28 2009-05-08 한국하이테크 주식회사 A carbide producing apparatus with an organic waste
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CN206682947U (en) * 2017-03-30 2017-11-28 吴银娣 One kind burns sufficient waste incinerator
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