CN108916906B - Multifunctional fuel heating stove - Google Patents

Abstract

The invention discloses a multifunctional fuel heating stove, which structurally comprises a fixed mounting base, a fixed support frame, a material fuel heating operation stove, a material guide input port and an air duct output end, wherein the material guide input port is arranged on the fixed mounting base; the fixed support frame is welded between the fixed mounting base and the object fuel heating operation furnace, the material guide input port is embedded in the top end of the object fuel heating operation furnace, and the air duct output end is mounted in the surfaces of two sides of the object fuel heating operation furnace; the object fuel heating operation furnace comprises a charging input port, a telescopic pushing magnetic field device, a pressure ignition device, a magnetic field rotating device, a protective shell, an object fuel main input channel, a charging alarm device, an intermittent charging device, a stress extrusion triggering group, a rolling uniform device and a pushing triggering slide rod.

Description

Multifunctional fuel heating stove

Technical Field

The invention relates to the field of physical fuel heating stoves, in particular to a multifunctional fuel heating stove.

Background

Heating furnaces can be classified into electric heating boilers, oil-fired heating boilers, gas-fired heating boilers, coal-fired heating boilers and the like according to the difference of fuels; the boiler can be divided into an atmospheric heating boiler and a pressure-bearing heating boiler according to whether the boiler bears pressure or not, the pressure-bearing hot water heating boiler is mainly selected for heating the high-rise building in the prior art, because of the increase of water heating accessories and the improvement of installation technology, no matter the high-rise building or the low-rise building is heated by adopting an atmospheric hot water boiler, after the heating boiler is powered on, a control system starts to detect the water level and the shell temperature of the boiler, the boiler starts to start a burner to heat water when the detection is normal, the boiler stops heating when the water temperature reaches a set temperature, meanwhile, the water temperature of the boiler reaches the pump-on temperature (the pump-on temperature can be freely set), the boiler starts a hot water circulating pump, the hot water circulates in a heating pipeline system, the heating purpose is realized by heat dissipation of a radiator (such as a radiator, a coil pipe fan air conditioner, a central air conditioning unit and the like), and the coal-fired heating boiler, coal is used as a main fuel, is mostly used in rural areas or urban and rural junctions without central heating or gas heating conditions, has low heating cost, is an ideal choice for heating, needs to be watched and kept by the outside, and also needs to pay attention to the application of physical fuel when needed.

To present thing fuel heating stove need the external world to feed in raw materials and watch on often, if nobody watch on more probably lead to it to catch fire, or the thing fuel is not enough thereby extinguish, will be for wasting energy when opening once more, and easy caking makes it be heated inhomogeneous when the thing fuel heating, thereby leads to its waste, can't in time remind the user after the material exhausts.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a multifunctional fuel heating stove, which aims to solve one of the technical problems in the prior art.

The invention is realized by the following technical scheme: a multifunctional fuel heating stove structurally comprises a fixed mounting base, a fixed support frame, a material fuel heating operation stove, a material guide input port and an air duct output end;

the top ends of the four fixed support frames are uniformly distributed and installed at four corners of the bottom end of the object fuel heating operation furnace, the fixed support frames are welded between the fixed installation base and the object fuel heating operation furnace, the material guide input port is embedded in the top end of the object fuel heating operation furnace, and the air duct output end is installed in the surface of two sides of the object fuel heating operation furnace;

the object fuel heating operation furnace comprises a charging input port, a telescopic pushing magnetic field device, a pressure ignition device, a magnetic field rotating device, a protective shell, an object fuel main input channel, a charging alarm device, an intermittent object adding device, a stress extrusion triggering group, a rolling uniform device and a pushing triggering slide rod, the top end of the telescopic magnetic field pushing device is movably connected with the bottom end of the magnetic field rotating equipment, the main input channel of the fuel is embedded into one side of the top end of the protective shell, the feeding inlet is arranged in the inner part of the top end of the protective shell far away from the main feeding channel of the fuel, the intermittent feeding device is arranged right below the feeding input port, the feeding alarm device is connected inside the intermittent feeding device, the stress extrusion triggers the group and cooperatees with even equipment that rolls, promote and trigger slide bar one end and stress extrusion and trigger group hinged joint, pressure ignition locates magnetic field rotating equipment side.

As a further optimization of this technical scheme, intermittent type adds thing device includes tight pulley, atress perk board, arc spring, fixed mounting board, atress pivot, stay cord, dead lever, catch bar, magnetic field wheel, central pivot, fixed mounting board fixed mounting is in reinforced input port below, the tight pulley welds in one side bottom surface that fixed mounting board was kept away from to the atress perk board, the arc spring is the arc and installs between atress perk board and dead lever, the atress pivot is embedded into inside the one end that the atress perk board is close to fixed mounting board, the dead lever top is installed in atress pivot bottom surface perpendicularly, stay cord one end internal surface is connected with the tight pulley surface, the central pivot is embedded into inside catch bar one end, the central pivot is installed in the inside centre of magnetic field wheel and clearance fit.

The feeding alarm device comprises a movable bottom plate, a supporting spring, a powerful magnet, an upper movable plate, a lower movable plate, a clamping spring, a clamping block, a clamping groove, a sliding groove, a rack, a gear, a stirring mechanism, an adsorption magnet, a movable trigger block, a trigger base, a fixed trigger block, a conducting wire and an alarm, wherein the movable bottom plate is movably arranged above the stressed seesaw, the movable bottom plate is connected with the stressed seesaw through the supporting spring, the upper left side of the movable bottom plate is provided with the upper movable plate and the lower movable plate, the lower ends of the upper movable plate and the lower movable plate are in contact with the left side of the movable bottom plate, the clamping spring is fixedly arranged on the left side of the upper movable plate and the lower movable plate, the other end of the clamping spring is connected with the clamping block, the clamping groove is arranged on the left side wall inside the protective shell and matched with the clamping block, the upper movable plate and the lower movable plate are movably arranged inside the sliding groove, the utility model discloses a portable electronic device, including activity bottom plate, movable bottom plate, adsorption magnet, movable bottom plate upper end fixed mounting has the rack, the rack is connected with the gear through the cooperation of the teeth of a cogwheel, gear fixedly connected with homogenizes the mechanism, activity bottom plate right-hand member face is provided with powerful magnet, the powerful magnet right side is located the intermittent type and adds the thing device outside and be provided with adsorption magnet, adsorption magnet fixed mounting is on the movable trigger piece, movable trigger piece movable mounting is on triggering the base, trigger base upper end fixed mounting has the fixed block that triggers, trigger the base and pass through the alarm electric connection of conductor wire and top.

Magnetic field rotating equipment is including removing anodal magnetic field, reset spring, magnetic force wheel, fixed negative pole magnetic field, fixed mounting plate, rotation axis, remove anodal magnetic field and locate under the fixed negative pole magnetic field, the reset spring top welds in fixed mounting plate bottom one side, the rotation axis embedding is in the inside centre of magnetic force wheel and clearance fit, fixed negative pole magnetic field is installed and is kept away from reset spring one side in fixed mounting plate bottom, reset spring bottom surface welding is in flexible promotion magnetic field device top.

As the further optimization of the technical scheme, the uniform rolling equipment comprises return springs, rolling rods, a transmission shaft, a transmission belt, a stressed magnetic field wheel, a stressed rotating body and a fixed stressed plate, wherein the two return spring bottoms are arranged on the outer surface of the top of the fixed stressed plate and are symmetrically distributed, the inner surface of one end of the transmission belt is connected with the outer surface of the transmission shaft, the transmission shaft is welded with one end of the rolling rods, the inner surface of one end, away from the transmission shaft, of the transmission belt is connected with the outer surface of the stressed rotating body, the stressed rotating body is embedded in the middle of the inside of the stressed magnetic field wheel and matched with the stressed rotating body, the top end of each return spring is arranged at the bottom end of a stressed extrusion trigger set, each pushed trigger sliding rod comprises a rotating shaft, a pushing rod, a rotating shaft, an external force pushing block, a positioning sliding block, an extrusion spring, a fixed plate block, a fixed sliding position and a movable magnetic field ball, and the rotating shaft is embedded in the inside of one end of the pushing rod and hinged with the other, promote the pivot and imbed inside and hinged joint in the one end that the pivot was kept away from to the catch bar, install the location slider between promotion pivot and the mobile magnetic field ball, external force promotes piece top and welds in the positive centre in the bottom of the location slider perpendicularly, external force promotes to install the extrusion spring between piece and the fixed plate, fixed smooth position imbeds in the inside and swing joint of location slider.

As the further optimization of this technical scheme, flexible promotion magnetic field device promotes piece, telescopic bracket, toughness spring, supplementary pivot, promotion slide rail including the slope, the slope promotes the piece and locates supplementary pivot side and swing joint, supplementary pivot embedding is in telescopic bracket one end and hinged joint, toughness spring horizontal installation is between two supplementary pivots and symmetric distribution, supplementary pivot embedding is in promoting slide rail inside groove and swing joint, reset spring bottom surface welds in promoting the slide rail top.

As a further optimization of this technical scheme, the atress extrusion triggers the group and includes that indirect magnetic field wheel, rotor, special slide rail turn, carriage release lever, joint pole, spout, in the same direction as slider, main atress board, the welding of rotor top has indirect magnetic field wheel and is located the centre, the rotor imbeds in special slide rail turn inside and be located same axle, the carriage release lever is installed in special slide rail turn inside groove and swing joint, in the same direction as the inside swing joint of spout, weld in the same direction as the slider in main atress board both sides and symmetric distribution, two return spring tops are installed in main atress board bottom and symmetric distribution.

As a further optimization of the technical scheme, the pressure ignition device comprises a closed extrusion body, a fixed hollow column, a spring, a stressed pushing body, a pushing main body, a fire spraying port, a conductive grid, a conductive body, a pressure inlet and a fuel oil placing grid, wherein the closed extrusion body is embedded into the fuel oil placing grid from the top end and movably connected with the fuel oil placing grid, the bottom end of the stressed pushing body is welded with the top end of the closed extrusion body and is positioned on the same axis, the spring is installed between the fixed hollow column and the pushing main body and is positioned in the center, the conductive grid is embedded into the conductive body and is electrically connected with the conductive body, the fire spraying port is embedded into the conductive grid from the side and is communicated with the conductive grid, and the pressure inlet is installed inside the fuel oil placing grid shell.

Advantageous effects

Based on the prior art, the invention can put in needed fuel in advance, so that the fuel is prepared, the fuel can be indirectly added when the fuel runs, the interior of the fuel has a rolling effect when the fuel runs, the fuel is not easy to adhere together, the residual quantity of the standby material is detected in real time, and the alarm is given in time to remind a user when the prepared material is used up, so that the situation that no material can be added is avoided.

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 multifunctional fuel heating stove according to the present invention.

Fig. 2 is a first schematic view showing the internal structure of the heating operation furnace using biofuel of the present invention.

Fig. 3 is a second schematic view showing the internal structure of the heating operation furnace using biomass fuel according to the present invention.

Fig. 4 is a schematic view showing an internal structure of the operating state of the heating operation furnace using a biofuel according to the present invention.

Fig. 5 is a schematic view showing the internal structure of the pressure ignition device of the present invention.

Fig. 6 is a partial structural schematic diagram of the trigger state of the charging alarm device.

In the figure: a fixed mounting base-1, a fixed support frame-2, a material fuel heating operation furnace-3, a material guide input port-4, an air channel output end-5, a charging input port-30, a telescopic pushing magnetic field device-31, a pressure ignition device-32, a magnetic field rotating device-33, a protective shell-34, a material fuel main input channel-35, a charging alarm device-36, an intermittent material adding device-37, a forced extrusion triggering group-38, a rolling uniform device-39, a pushing triggering slide bar-310, a fixed wheel-371, a forced tilting plate-372, an arc spring-373, a fixed mounting plate-374, a forced rotating shaft-375, a pull rope-376, a fixed rod-377, a push rod-378, a magnetic field wheel-379, a central rotating shaft-3710, a material fuel heating operation furnace, A movable bottom plate-361, a supporting spring-362, a powerful magnet-363, an upper movable plate-364, a lower movable plate-364, a clamping spring-365, a clamping block-366, a clamping groove-367, a sliding groove-368, a rack-369, a gear-3610, a stirring mechanism-3611, an adsorption magnet-3612, a movable trigger block-3613, a trigger base-3614, a fixed trigger block-3615, a conducting wire-3616, an alarm-3617, a movable positive magnetic field-331, a reset spring-332, a magnetic wheel-333, a fixed negative magnetic field-334, a fixed mounting plate-335, a rotating shaft-336, a reset spring-391, a rolling rod-392, a transmission shaft-393, a transmission belt-394, a stressed magnetic field wheel-395, a stressed rotating body-396, a fixed stressed plate-397, a transmission belt-394, a stressed magnetic field wheel-395, a stressed rotating body-396, and a fixed stressed plate-397, A rotating shaft-3101, a push rod-3102, a push rotating shaft-3103, an external force push block-3104, a positioning slide block-3105, an extrusion spring-3106, a fixed plate-3107, a fixed slide position-3108, a moving magnetic field ball-3109, an inclined push block-311, a telescopic bracket-312, a flexible spring-313, an auxiliary rotating shaft-314, a push slide rail-315, an indirect magnetic field wheel-381, a rotator-382, a special slide rail rotator-383, a moving rod-384, an engagement rod-385, a chute-386, a smooth block-387, a main stressed plate-388, a closed extrusion body-321, a fixed hollow column-322, a spring-323, a stressed push body-324, a push main body-325, a flame-326, a conductive grid-327, Electric conductor-328, pressure inlet-329, fuel oil storage grid-3210.

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 multifunctional fuel heating stove, which comprises a fixed mounting base 1, a fixed support frame 2, a material fuel heating operation stove 3, a material guiding input port 4, and an air duct output end 5;

the top ends of the four fixed support frames 2 are uniformly distributed and installed at four corners at the bottom end of the object fuel heating operation furnace 3, the fixed support frames 2 are welded between the fixed installation base 1 and the object fuel heating operation furnace 3, the material guide input port 4 is embedded in the top end of the object fuel heating operation furnace 3, and the air duct output end 5 is installed in the surface of two sides of the object fuel heating operation furnace 3;

the heating operation furnace 3 comprises a feeding input port 30, a telescopic pushing magnetic field device 31, a pressure ignition device 32, a magnetic field rotating device 33, a protective shell 34, a main material fuel input channel 35, a feeding alarm device 36, an intermittent material feeding device 37, a stress extrusion triggering group 38, a rolling uniform device 39 and a pushing triggering slide rod 310, wherein the telescopic pushing magnetic field device 31 is movably connected with the bottom end of the magnetic field rotating device 33, the main material fuel input channel 35 is embedded into one side of the top end of the protective shell 34, the feeding input port 30 is arranged inside one side of the top end of the protective shell 34 far away from the main material fuel input channel 35, the intermittent material feeding device 37 is arranged under the feeding input port 30, the feeding alarm device 36 is connected inside the intermittent material feeding device 37, the stress extrusion triggering group 38 is matched with the rolling uniform device 39, one end of the pushing triggering slide rod 310 is hinged with the stress extrusion triggering group 38, the pressure ignition device 32 is provided on the side of the magnetic field rotating device 33.

The intermittent feeding device 37 comprises a fixed wheel 371, a stressed tilting plate 372, an arc-shaped spring 373, a fixed mounting plate 374, a stressed rotating shaft 375, a pull rope 376, a fixed rod 377, a push rod 378, a magnetic field wheel 379 and a central rotating shaft 3710, the fixed mounting plate 374 is fixedly mounted below the charging input port 30, the fixed wheel 371 is welded on the outer surface of the bottom end of the stressed tilting plate 372 far away from the fixed mounting plate 374, the arc spring 373 is installed between the stressed tilting plate 372 and the fixing rod 377 in an arc shape, the stressed rotating shaft 375 is embedded in one end of the stressed tilting plate 372 close to the fixed mounting plate 374, the top end of the fixing rod 377 is vertically arranged on the outer surface of the bottom of the stressed rotating shaft 375, the inner surface of one end of the pulling rope 376 is connected with the outer surface of the fixing wheel 371, the central rotating shaft 3710 is embedded in one end of the pushing rod 378, and the central rotating shaft 3710 is installed in the middle of the inside of the magnetic field wheel 379 and is in clearance fit with the inside of the magnetic field wheel 379.

The charging alarm device 36 comprises a movable bottom plate 361, a supporting spring 362, a powerful magnet 363, an upper movable plate 364, a lower movable plate 364, a clamping spring 365, a clamping block 366, a clamping groove 367, a sliding groove 368, a rack 369, a gear 3610, a stirring mechanism 3611, an adsorption magnet 3612, a movable trigger block 3613, a trigger base 3614, a fixed trigger block 3615, a conducting wire 3616 and an alarm 3617, wherein the movable bottom plate 361 is movably arranged above the stressed tilted plate 372, the movable bottom plate 361 is connected with the stressed tilted plate 372 through the supporting spring 362, when the material in the intermittent charging device 37 is reduced, the movable bottom plate 361 rises under the action of the supporting spring 362, the upper movable plate 361 is arranged above the left, the lower end of the upper movable plate 364 is in contact with the left side of the movable bottom plate 361, the clamping spring 365 is fixedly arranged on the left side of the upper movable plate 364, the other end of the clamping spring 365 is connected with the clamping block 366, a clamping groove 367 is arranged on the left side of the clamping block 366, the clamping groove 367 is arranged on the side wall inside the protective shell 34 and is matched with the clamping block 366, the upper and lower movable plates 364 are movably arranged inside the sliding groove 368, when the movable bottom plate 361 rises due to the reduction of materials in the intermittent material adding device 37, the upper and lower movable plates 364 can rise together under the action of the movable bottom plate 361, the upper and lower movable plates 364 can not fall down when the movable bottom plate 361 rotates to dump the materials due to the matching of the clamping block 366 and the clamping groove 367, a rack 369 is fixedly arranged on the right side of the upper and lower movable plates 364, the rack 369 is connected with a gear 3610 through the matching of gear teeth, the gear 3610 is fixedly connected with a homogenizing mechanism 3611, when the quantity of the materials changes, the vertical movement of the rack 369 can drive the gear 3610 to move, the driving mechanism 3611 to homogenize the materials, a strong magnet 363 is arranged on the right end face of the movable bottom plate 361, the right side of the powerful magnet 363 is provided with an adsorption magnet 3612 outside the intermittent material adding device 37, the adsorption magnet 3612 is fixedly mounted on a movable trigger block 3613, the movable trigger block 3613 is movably mounted on a trigger base 3614, a fixed trigger block 3615 is fixedly mounted at the upper end of the trigger base 3614, the trigger base 3614 is electrically connected with an alarm 3617 above through an electric lead 3616, when materials in the intermittent material adding device 37 are used up, the movable trigger block 3613 contacts with the fixed trigger block 3615 under the action of magnetic force to trigger the alarm 3617, and a user is reminded.

The magnetic field rotating device 33 comprises a movable positive magnetic field 331, a reset spring 332, a magnetic wheel 333, a fixed negative magnetic field 334, a fixed mounting plate 335 and a rotating shaft 336, wherein the movable positive magnetic field 331 is arranged under the fixed negative magnetic field 334, the top end of the reset spring 332 is welded on one side of the bottom of the fixed mounting plate 335, the rotating shaft 336 is embedded in the middle inside the magnetic wheel 333 and is in clearance fit with the magnetic wheel, the fixed negative magnetic field 334 is arranged at the bottom end of the fixed mounting plate 335 and is far away from one side of the reset spring 332, and the outer surface of the bottom of the reset spring 332 is welded on the top end of the telescopic pushing magnetic field device 31.

The rolling uniform equipment 39 comprises return springs 391, a rolling rod 392, a transmission shaft 393, a transmission belt 394, a stressed magnetic field wheel 395, a stressed rotating body 396 and a fixed stressed plate 397, the bottom ends of the two return springs 391 are installed on the outer surface of the top of the fixed stressed plate 397 and are symmetrically distributed, the inner surface of one end of the transmission belt 394 is connected with the outer surface of the transmission shaft 393, the transmission shaft 393 is welded with one end of the rolling rod 392, the inner surface of one end, far away from the transmission shaft 393, of the transmission belt 394 is connected with the outer surface of the stressed rotating body 396, the stressed rotating body 396 is embedded in the middle of the inside of the stressed magnetic field wheel 395 and is matched with the stressed rotating body, and the top ends of the return springs 391 are installed at the bottom end of the stressed extrusion triggering group 38.

The pushing trigger slide bar 310 comprises a rotating shaft 3101, a pushing rod 3102, a pushing rotating shaft 3103, an external force pushing block 3104, a positioning slider 3105, an extrusion spring 3106, a fixed plate 3107, a fixed slide position 3108 and a movable magnetic field ball 3109, wherein the rotating shaft 3101 is embedded in one end of the pushing rod 3102 and is hinged, the pushing rotating shaft 3103 is embedded in one end of the pushing rod 3102, which is far away from the rotating shaft 3101, and is hinged, the positioning slider 3105 is installed between the pushing rotating shaft 3103 and the movable magnetic field ball 3109, the top end of the external force pushing block 3104 is vertically welded in the middle of the bottom of the positioning slider 3105, the extrusion spring 3106 is installed between the external force pushing block 3104 and the fixed plate 3107, and the fixed slide position 3108 is embedded in the positioning slider 3105 and is movably connected.

The telescopic pushing magnetic field device 31 comprises an inclined pushing block 311, a telescopic support 312, a flexible spring 313, an auxiliary rotating shaft 314 and a pushing sliding rail 315, wherein the inclined pushing block 311 is arranged on the side of the auxiliary rotating shaft 314 and is movably connected with the auxiliary rotating shaft 314, the auxiliary rotating shaft 314 is embedded into one end of the telescopic support 312 and is hinged with the telescopic support, the flexible spring 313 is horizontally arranged between the two auxiliary rotating shafts 314 and is symmetrically distributed, the auxiliary rotating shaft 314 is embedded into an inner groove of the pushing sliding rail 315 and is movably connected with the inner groove, and the outer surface of the bottom of the reset spring 332 is welded on the top end of the pushing sliding rail 315.

The forced extrusion trigger set 38 comprises an indirect magnetic field wheel 381, a rotating body 382, a special sliding rail rotating body 383, a moving rod 384, a connecting rod 385, a sliding groove 386, a smooth block 387 and a main stress plate 388, wherein the indirect magnetic field wheel 381 is welded to the top end of the rotating body 382 and is located in the middle of the top end of the rotating body 382, the rotating body 382 is embedded into the special sliding rail rotating body 383 and is located on the same axis, the moving rod 384 is installed in an inner groove of the special sliding rail rotating body 383 and is movably connected, the smooth block 387 is embedded into the sliding groove 386 and is movably connected, the smooth block 387 is welded to two sides of the main stress plate 388 and is symmetrically distributed, and the top ends of the two return springs 391 are installed at the bottom end of the main stress plate 388 and are symmetrically distributed.

The pressure ignition device 32 comprises a closed extrusion body 321, a fixed hollow column 322, a spring 323, a stressed pushing body 324, a pushing body 325, a fire spraying port 326, a conductive grid 327, a conductive body 328, a pressure inlet 329 and a fuel containing grid 3210, wherein the closed extrusion body 321 is embedded in the fuel containing grid 3210 from the top end and movably connected, the bottom end of the stressed pushing body 324 is welded with the top end of the closed extrusion body 321 and is positioned on the same axis, the spring 323 is arranged between the fixed hollow column 322 and the pushing body 325 and is positioned in the center, the conductive grid 327 is embedded in the conductive body 328 and electrically connected, the fire spraying port 326 is embedded in the conductive grid 327 from the side and is mutually communicated, and the pressure inlet 329 is arranged in the shell of the fuel containing grid 3210.

The principle of the invention is as follows: the material fuel is guided into the upper part of the main stress plate 388 through the material fuel main input channel 35, the spare material fuel is guided into the movable bottom plate 361, when the main stress plate 388 moves downwards under the gravity, the spare material fuel slides downwards along the sliding groove 386 through the sliding block 387, when the spare material fuel slides along the sliding block 387, the inclined pushing block 311 arranged on the outer surface slides along the sliding block, in the sliding process, the auxiliary rotating shaft 314 is extruded towards one side, so that the toughness spring 313 is extruded, the telescopic bracket 312 pushes the auxiliary rotating shaft 314 to move towards one side, so that the sliding rail 315 is pushed to move upwards, the moving positive magnetic field 331 arranged on the pushing sliding rail 315 moves to touch the fixed negative magnetic field 334, the two touch and generate energy, so that the magnetic wheel 333 is pushed to rotate along the rotating shaft 336 through the mutual repulsive force of the magnetic fields, in the rotating process, the pushing main body 325 is pushed to press, thereby the spring 323 is squeezed, when the pushing main body 325 moves downwards, the forced pushing body 324 and the closed pushing body 321 are pushed together, thereby the raw material in the fuel oil containing grid 3210 is pushed into the conductive grid 327 through the pressure inlet 329, the electric conductor 328 operates, thereby the flame is formed and sprayed out through the flame spraying port 326, thereby the material fuel above the main stressed plate 388 is ignited, when the main stressed plate 388 moves downwards, the rotating shaft 3101 moves together with the main stressed plate, thereby the pushing rod 3102 and the positioning slide block 3105 are pushed to slide to one side along the fixed sliding position 3108 until the moving magnetic field ball 3109 slides to the lower part of the stressed magnetic field wheel 395, thereby the stressed magnetic field wheel pushes the stressed rotating body 396 to rotate together through the mutual repulsive force of the magnetic field, the rotating force is transmitted to the transmission shaft 393 through the transmission belt 394, thereby the rolling rod 392 is driven to roll the material fuel in the inner part, when the sliding block 387 moves downwards, the connecting rod 385 and the moving rod 384 are driven together, so that the connecting rod 385 moves along a sliding groove in the special sliding rail rotator 383 by moving force, the special sliding rail rotator 383 is pushed to rotate, the upper indirect magnetic field wheel 381 rotates along the rotating direction, when the connecting rod rotates to the position near the magnetic field wheel 379, the connecting rod 378 is pushed to rotate along the central rotating shaft 3710 by the mutual repulsive force of the magnetic fields, the pull rope 376 is extruded downwards when the connecting rod 378 rotates to a certain position, the fixed wheel 371 and the stressed tilting plate 372 are pulled to rotate downwards along the stressed rotating shaft 375 by the extruding force, the internal fuel falls onto the main stressed plate 388, automatic feeding can be realized, when the material on the movable bottom plate 361 is gradually reduced, the movable bottom plate 361 can ascend under the action of the supporting spring 362, when the movable bottom plate 361 ascends due to the reduction of the material in the intermittent feeding device 37, the upper movable plate 364 and the lower plate 364 can ascend together under the action of the movable bottom plate 361, and the cooperation of screens piece 366 and screens groove 367 enables movable floor 361 to rotate and to empty the material about the activity board 364 can not descend, when the volume of material changes, the up-and-down motion of rack 369 can drive gear 3610 motion, and then drive mechanism 3611 of stirring homogenizes to the material, use up when the material in intermittent type material feeding device 37, activity trigger block 3613 and fixed trigger block 3615 contact under the magnetic force effect, trigger alarm 3617, remind the user, the user can relieve the warning and continue work through pressing upper and lower movable board 364, and add the prepare material.

The invention relates to an arc spring 373 torsion spring which belongs to a spiral spring, the torsion spring can store and release angular energy or statically fix a certain device by rotating an arm of force around a central shaft of a spring body, the end part of the torsion spring is fixed to other components, when the other components rotate around the center of the spring, the spring pulls the components back to an initial position to generate torque or rotary force, a chute 386 is also called a guide rail or a slideway, and is a hardware connecting part which is fixed on a cabinet body of furniture and used for enabling a drawer or a cabinet plate of the furniture to come in and go out, and the slide rail is suitable for connecting wooden furniture such as a cabinet, the furniture, a document cabinet, a bathroom cabinet and the like with a drawer of steel drawer and the like.

The invention solves the problem that the existing material fuel heating furnace needs to be fed outside and often watched, if nobody watches the furnace, the furnace is likely to fire or the material fuel is insufficient and goes out, when the furnace is opened again, the furnace consumes energy, when the material is used up, a user cannot know that the material fuel is easy to agglomerate when being heated, so that the material fuel is heated unevenly, thereby causing the waste of the material fuel.

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 (1)

1. The utility model provides a multi-functional fuel heating stove, its structure includes fixed mounting base (1), fix the support frame (2), thing fuel heating operation stove (3), guide input port (4), wind channel output (5), its characterized in that:

the top ends of the fixed support frames (2) are uniformly distributed and installed at four corners at the bottom end of the object fuel heating operation furnace (3), the fixed support frames (2) are welded between the fixed installation base (1) and the object fuel heating operation furnace (3), the material guide input port (4) is embedded in the top end of the object fuel heating operation furnace (3), and the air duct output end (5) is installed in the surfaces of two sides of the object fuel heating operation furnace (3);

the object fuel heating operation furnace (3) comprises a charging input port (30), a telescopic pushing magnetic field device (31), a pressure ignition device (32), a magnetic field rotating device (33), a protective shell (34), an object fuel main input channel (35), a charging alarm device (36), an intermittent charging device (37), a forced extrusion triggering group (38), a rolling uniform device (39) and a pushing triggering slide bar (310);

the top end of the telescopic pushing magnetic field device (31) is movably connected with the lower end of a magnetic field rotating device (33), the main material and fuel input channel (35) is embedded into one side of the top end of the protective shell (34), the feeding input port (30) is installed inside one side, far away from the main material and fuel input channel (35), of the top end of the protective shell (34), the intermittent material adding device (37) is arranged right below the feeding input port (30), the feeding alarm device (36) is connected inside the intermittent material adding device (37), the forced extrusion triggering group (38) is matched with the rolling uniform device (39), one end of the pushing triggering slide rod (310) is hinged with the forced extrusion triggering group (38), and the pressure ignition device (32) is arranged on the side of the magnetic field rotating device (33);

the intermittent material adding device (37) comprises a fixed wheel (371), a stress tilting plate (372), an arc spring (373), a fixed mounting plate (374), a stress rotating shaft (375), a pull rope (376), a fixed rod (377), a push rod (378), a magnetic field wheel (379) and a central rotating shaft (3710), wherein the fixed mounting plate (374) is fixedly mounted below a feeding input port (30), the fixed wheel (371) is welded on the outer surface of the bottom end of one side, away from the fixed mounting plate (374), of the stress tilting plate (372), the arc spring (373) is mounted between the stress tilting plate (372) and the fixed rod (377) in an arc shape, the stress rotating shaft (375) is embedded into one end, close to the fixed mounting plate (374), of the stress tilting plate (372), the top end of the fixed rod (377) is vertically mounted on the outer surface of the bottom of the stress rotating shaft (375), and the inner surface of one end of the pull rope (376) is connected with the outer surface of the fixed wheel (371), the central rotating shaft (3710) is embedded into one end of the push rod (378), and the central rotating shaft (3710) is arranged in the middle of the inside of the magnetic field wheel (379) and is in clearance fit with the magnetic field wheel;

the charging alarm device (36) comprises a movable bottom plate (361), a supporting spring (362), a powerful magnet (363), an upper movable plate and a lower movable plate (364), a clamping spring (365), a clamping block (366), a clamping groove (367), a sliding groove (368), a rack (369), a gear (3610), a stirring mechanism (3611), an adsorption magnet (3612), a movable trigger block (3613), a trigger base (3614), a fixed trigger block (3615), a conducting wire (3616) and an alarm (3617), wherein the movable bottom plate (361) is movably arranged above a stress tilting plate (372), the movable bottom plate (361) is connected with the stress tilting plate (372) through the supporting spring (362), the upper movable plate (361) and the lower movable plate (364) are arranged above the left side, the lower end of the upper movable plate and the lower movable plate (364) are in contact with the left side of the movable bottom plate (361), the clamping spring (365) is fixedly arranged on the left side of the upper movable bottom plate (364), the utility model discloses a material feeding device, including screens spring (365), screens piece (366), screens groove (367) sets up on protective housing (34) inside lateral wall and cooperatees with screens piece (366), upper and lower fly leaf (364) movable mounting is inside spout (368), upper and lower fly leaf (364) right side fixed mounting has rack (369), rack (369) is connected with gear (3610) through the tooth cooperation, gear (3610) fixed connection homogenizes mechanism (3611), movable bottom plate (361) right-hand member face is provided with powerful magnet (363), powerful magnet (363) right side is located intermittent type and adds thing device (37) outside and is provided with adsorption magnet (3612), adsorption magnet (3612) fixed mounting is on activity trigger piece (3613), activity trigger piece (3613) movable mounting is on trigger base (3614), a fixed trigger block (3615) is fixedly mounted at the upper end of the trigger base (3614), and the trigger base (3614) is electrically connected with an alarm (3617) above through a conducting wire (3616);

the magnetic field rotating equipment (33) comprises a movable positive magnetic field (331), a reset spring (332), a magnetic wheel (333), a fixed negative magnetic field (334), a fixed mounting plate (335) and a rotating shaft (336), wherein the movable positive magnetic field (331) is arranged under the fixed negative magnetic field (334), the top end of the reset spring (332) is welded on one side of the bottom of the fixed mounting plate (335), the rotating shaft (336) is embedded in the middle of the inside of the magnetic wheel (333) and is in clearance fit with the inside of the magnetic wheel, the fixed negative magnetic field (334) is arranged at the bottom end of the fixed mounting plate (335) far away from one side of the reset spring (332), and the outer surface of the bottom of the reset spring (332) is welded on the top end of the telescopic pushing magnetic field device (31);

the rolling uniform equipment (39) comprises a return spring (391), a rolling rod (392), a transmission shaft (393), a transmission belt (394), a stressed magnetic field wheel (395), a stressed rotating body (396) and a fixed stressed plate (397), wherein the bottom ends of the return spring (391) are installed on the outer surface of the top of the fixed stressed plate (397) and are symmetrically distributed, the inner surface of one end of the transmission belt (394) is connected with the outer surface of the transmission shaft (393), the transmission shaft (393) is welded with one end of the rolling rod (392), the inner surface of one end, far away from the transmission shaft (393), of the transmission belt (394) is connected with the outer surface of the stressed rotating body (396), the stressed rotating body (396) is embedded in the middle inside the stressed magnetic field wheel (395) and is matched with the stressed magnetic field wheel, and the top end of the return spring (391) is installed at the bottom end of the stressed extrusion triggering group (38);

the pushing trigger slide bar (310) comprises a rotating shaft (3101), a pushing bar (3102), a pushing rotating shaft (3103), an external force pushing block (3104), a positioning slide block (3105), an extrusion spring (3106), a fixed plate block (3107), a fixed slide position (3108) and a movable magnetic field ball (3109), the rotating shaft (3101) is embedded inside one end of the pushing rod (3102) and is connected with the pushing rod through a hinge, the pushing rotating shaft (3103) is embedded inside one end of the pushing rod (3102) far away from the rotating shaft (3101) and is connected with the pushing rod through a hinge, a positioning slide block (3105) is arranged between the pushing rotating shaft (3103) and the moving magnetic field ball (3109), the top end of the external force pushing block (3104) is vertically welded in the middle of the bottom of the positioning slide block (3105), an extrusion spring (3106) is arranged between the external force pushing block (3104) and the fixed plate (3107), the fixed slide position (3108) is embedded in the positioning slide block (3105) and is movably connected with the positioning slide block;

the telescopic pushing magnetic field device (31) comprises an inclined pushing block (311), a telescopic support (312), a flexible spring (313), an auxiliary rotating shaft (314) and a pushing sliding rail (315), wherein the inclined pushing block (311) is arranged on the side of the auxiliary rotating shaft (314) and movably connected with the auxiliary rotating shaft, the auxiliary rotating shaft (314) is embedded into one end of the telescopic support (312) and is hinged with the auxiliary rotating shaft, the flexible spring (313) is horizontally arranged between the two auxiliary rotating shafts (314) and is symmetrically distributed, the auxiliary rotating shaft (314) is embedded into an inner groove of the pushing sliding rail (315) and is movably connected with the inner groove, and the outer surface of the bottom of the reset spring (332) is welded at the top end of the pushing sliding rail (315);

the stress extrusion trigger set (38) comprises an indirect magnetic field wheel (381), a rotating body (382), a special sliding rail rotating body (383), a moving rod (384), a connecting rod (385), a sliding groove (386), a smooth block (387) and a main stress plate (388), wherein the indirect magnetic field wheel (381) is welded at the top end of the rotating body (382) and is located in the middle of the center, the rotating body (382) is embedded in the special sliding rail rotating body (383) and is located on the same axis, the moving rod (384) is installed in an inner groove of the special sliding rail rotating body (383) and is movably connected with the inner groove of the special sliding rail rotating body (383), the smooth block (387) is embedded in the sliding groove (386) and is movably connected with the inner groove, the smooth blocks (387) are welded on two sides of the main stress plate (388) and are symmetrically distributed, and the top ends of return springs (391) are installed at the bottom end of the main stress plate (388) and are symmetrically distributed;

the pressure ignition device (32) comprises a closed extrusion body (321), a fixed hollow column (322), a spring (323), a stressed pushing body (324), a pushing main body (325), a flame jet (326), a conductive grid (327), a conductive body (328), a pressure inlet (329) and a fuel oil containing grid (3210), the closed extrusion body (321) is embedded in the fuel oil containing grid (3210) from the top end and is movably connected, the bottom end of the stressed pushing body (324) is welded with the top end of the closed squeezing body (321) and is positioned on the same axis, the spring (323) is installed between the fixed hollow column (322) and the pushing body (325) and is positioned at the center, the conductive grid (327) is embedded in the conductive body (328) and electrically connected, the flame ports (326) are embedded in the conductive grid (327) from the side and are mutually communicated, the pressure inlet (329) is arranged in the shell of the fuel oil containing grid (3210).

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