CN112361372A

CN112361372A - Combustor device of accuse air capacity wind pressure

Info

Publication number: CN112361372A
Application number: CN202011299574.5A
Authority: CN
Inventors: 黄秀有
Original assignee: Shenzhen Palm Lamp Trading Co ltd
Current assignee: Shenzhen Palm Lamp Trading Co ltd
Priority date: 2020-11-18
Filing date: 2020-11-18
Publication date: 2021-02-12

Abstract

The invention relates to the relevant field of burners, and discloses a burner device for controlling air volume and air pressure, which comprises a main box body, wherein the right side of the main box body is fixedly connected with a jet box body, a motor is arranged in the main box body, a motor gear cavity is arranged on the right side of the motor, a variable-speed conical wheel cavity is arranged between the motor gear cavity and the motor, the rotation of a fan wheel is driven by the rotation of the motor, so that the required air is provided for the combustion in the jet cavity, the corresponding required air pressure and air volume are also provided, then an impeller is driven to rotate by the air flow entering a wind sensing cavity, a variable-speed friction block moves on a variable-speed pull rod, the rotating speed of the fan wheel is regulated and controlled to keep the rotating speed of the impeller constant, the air volume entering the jet cavity is ensured, and finally, the size of a through hole formed by a deformation main rotating block and a deformation auxiliary rotating block is controlled by sensing, to ensure proper functioning of the spout.

Description

Combustor device of accuse air capacity wind pressure

Technical Field

The invention relates to the field of burners, in particular to a burner device for controlling air volume and air pressure.

Background

Along with the wide use of combustor, the combustor on the market is of a great variety, and most combustors on the market now have the place that needs to improve a lot of yet, there is certain requirement to the amount of wind and the wind pressure of its spout like most combustors now, the amount of wind and the wind pressure that can't reach the requirement then can make the spout appear dust deposit and block up the normal use that the spout influences the combustor, it can most burn it can't all regulate and control amount of wind and wind pressure, lead to spout jam inefficiency, and the apparatus that can regulate and control is too complicated again, make the cost rise.

Disclosure of Invention

The invention aims to provide a burner device for controlling air volume and air pressure, which can overcome the defects in the prior art, thereby improving the practicability of equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a burner device for controlling air volume and air pressure, which comprises a main box body, wherein the right side of the main box body is fixedly connected with a jet box body, a motor is arranged in the main box body, a motor gear cavity is arranged on the right side of the motor, a variable speed cone wheel cavity is arranged between the motor gear cavity and the motor, the lower side of the variable speed cone wheel cavity is communicated with a variable speed cavity, a wind power induction cavity is arranged on the lower side of the variable speed cavity and is positioned on the lower side of the motor gear cavity, an acceleration cavity is arranged on the left side of the wind power induction cavity and is communicated with the lower side of the variable speed cavity, a centrifugal pull rope is fixedly connected in the upper end wall of the acceleration cavity, a fan wheel transmission belt cavity which extends upwards into the main box body and is positioned on the left side of the variable speed cavity is arranged in the centrifugal pull rope, the left side of the filter screen bevel gear cavity is provided with a filter screen cavity which upwards penetrates through the speed increasing cavity, the right side of the filter screen cavity is provided with a sheave shaft cavity which is positioned at the lower side of the filter screen bevel gear cavity, a sheave cavity which is positioned at the lower side of the filter screen rotating shaft cavity is arranged between the sheave shaft cavity and the filter screen bevel gear cavity, the inside of the spraying box body is provided with a spraying cavity with a right opening, the left side of the spraying cavity is communicated with a deformation cavity which is positioned in the main box body, the left side of the deformation cavity is communicated with a deformation front cavity which is positioned at the right side of the motor gear cavity, the left side of the deformation cavity is provided with a rotating disc rack cavity which is vertically and symmetrically arranged by taking the deformation front cavity as the center, a phase-changing rotating disc cavity is arranged between the rotating disc rack cavity and the deformation front cavity, the right side of the phase-changing rotating disc cavity is communicated with the, the utility model provides a motor gear chamber, including the wind-force response chamber, be equipped with the slope setting between the fore-cavity that warp and be located the pressurization chamber on motor gear chamber right side, spray the interior fixedly connected with downwardly extending of lower end wall of chamber external and upwards extend to spray the spout that extends right behind the intracavity, spray the interior fixedly connected with of lower end wall of chamber and be located the temperature sensing original paper on spout right side, the deformation chamber downside is equipped with and is located the deformation stay cord on wind-force response chamber right side, warp the slider chamber with warp between the fore-cavity be equipped with four right with warp the chamber intercommunication and with warp the fore-cavity and regard as the main chamber of rotating of warping of deformation that central circumference.

On the basis of the technical scheme, the tail end of the right side of the motor is fixedly connected with a motor shaft which extends rightwards into the motor gear cavity, the tail end of the side of the motor shaft is fixedly connected with a motor gear, the right end wall of the motor gear cavity is connected with a speed change conical wheel shaft which extends leftwards and downwards into the speed change conical wheel cavity and rightwards and upwards into the motor gear cavity in a rotating and matching manner, the outer edge surface of the speed change conical wheel shaft is fixedly connected with a motor bevel gear which is positioned in the motor gear cavity and meshed with the motor gear, the outer edge surface of the speed change conical wheel shaft is fixedly connected with a conical friction block positioned in the speed change conical wheel cavity, the right end wall of the speed change cavity is connected with a speed change shaft which extends leftwards into the sector wheel transmission belt cavity in a rotating and matching manner, the outer edge surface of the speed changing shaft is fixedly connected with a speed reducing stop block which is positioned in the speed changing cavity and on the left side of the speed increasing stop block, the outer edge surface of the speed changing shaft is connected with a speed changing friction block which is positioned in the speed changing cavity and between the speed reducing stop block and the speed increasing stop block in a spline fit manner, the outer edge surface of the speed changing shaft is connected with a speed changing pull rod bearing which is positioned in the speed changing cavity and between the speed changing friction block and the speed increasing stop block in a rotating fit manner, the outer edge surface of the speed changing pull rod bearing is connected with a speed changing pull rod which is fixedly connected with the right end of the speed changing friction block leftwards, the right end of the speed changing pull rod bearing is fixedly connected with a speed changing compression spring between the right end wall of the speed changing cavity, and the right end wall of the fan wheel transmission belt cavity is connected, the fan wheel transmission belt cavity is connected with the fan wheel shaft in a power fit mode, and the tail end of the left side of the fan wheel shaft is fixedly connected with a fan wheel.

On the basis of the technical scheme, the upper end wall of the filter screen rotating shaft cavity is connected with a filter screen rotating shaft which extends downwards into the lower end wall of the grooved pulley cavity in a rotating fit manner, the outer edge surface of the filter screen rotating shaft is fixedly connected with a filter screen sliding block positioned in the filter screen rotating shaft cavity, the front end wall of the filter screen rotating shaft cavity is fixedly connected with a filter screen stop block which can be abutted against the filter screen sliding block, a right filter screen compression spring is fixedly connected between the rear end of the filter screen stop block and the left end of the filter screen sliding block, the outer edge surface of the filter screen rotating shaft is fixedly connected with a grooved pulley rotating disc positioned in the grooved pulley cavity, the upper end of the Susong household grooved pulley rotating disc is fixedly connected with a grooved pulley, the upper end wall of the grooved pulley cavity is connected with a grooved pulley shaft which extends downwards into the lower end wall of the grooved pulley shaft, the outer edge surface of the sheave shaft is fixedly connected with a sheave shaft gear positioned in the sheave shaft, the lower end wall of the sheave shaft is connected with a sheave bevel gear shaft which extends upwards into the filter screen bevel gear cavity in a rotating fit manner, the outer edge surface of the sheave bevel gear shaft is fixedly connected with a bevel gear shaft gear which is positioned in the sheave shaft and is meshed with the sheave shaft gear, the tail end of the upper side of the sheave bevel gear shaft is fixedly connected with a sheave bevel gear, the left end wall of the filter screen bevel gear cavity is connected with a filter screen shaft which extends leftwards into the filter screen cavity and extends rightwards into the filter screen bevel gear cavity in a rotating fit manner, the tail end of the filter screen shaft on one side is fixedly connected with a filter screen bevel gear which is meshed with the sheave bevel gear, the tail end of the left side of the filter screen shaft is fixedly connected with a filter screen, the filter screen dust removal brush that the filter screen chamber downside left and right sides end wall internal fixation connected with symmetry set up and can with the terminal laminating of filter screen left and right sides.

On the basis of the technical scheme, the lower end wall of the rotary disc rack cavity is connected with a reciprocating rotary disc rack capable of sliding left and right in a sliding fit manner, the reciprocating rotary disc rack is fixedly connected with a deformation extension spring between the tail end of the reciprocating rotary disc rack and the left end wall of the rotary disc rack cavity, the upper end wall of the rotary disc rack cavity is connected with a reciprocating rotary disc shaft which extends downwards into the phase-variable rotary disc cavity and extends upwards into the rotary disc rack cavity in a rotating fit manner, the tail end of the upper side of the reciprocating rotary disc shaft is fixedly connected with a reciprocating rotary disc gear meshed with the reciprocating rotary disc rack, the tail end of the lower side of the reciprocating rotary disc shaft is fixedly connected with a deformation rotary disc pin, the lower end of the deformation rotary disc cavity is connected with a push rod capable of sliding left and right, the tail end of the lower side of the deformation rotary disc pin is connected with a rotary disc push rod capable of, it uses to warp main pivoted cavity the normal running fit is connected with and warp main axis of rotation between the tangential lateral wall in preceding chamber warp, warp main axis of rotation outer fringe face fixed connection extend right to warp the main turning block of deformation in preceding intracavity, be equipped with inside open-ended centrifugation sliding chamber in the main turning block warp, warp preceding chamber with warp and be equipped with four between the main turning chamber and with warp vice rotation chamber and every of deformation that preceding chamber set up as center circumference warp vice rotation chamber and near both sides warp the contained angle between the main turning chamber of deformation be one hundred thirty-five degrees, warp vice rotation chamber with it is connected with and warp vice axis of rotation to warp the normal running fit between the tangential lateral wall in preceding chamber, warp vice axis of rotation outer fringe face fixed connection extend right to warp the vice turning block of deformation in preceding intracavity, every it is close to warp vice turning block to warp main turning block side end fixed connection to warp main turning block direction extend to warp main turning block direction from the distance The centrifugal sliding block in the heart sliding cavity, centrifugal sliding block with be sliding fit link between the centrifugal sliding cavity, the articulated piece of deformation of the terminal fixedly connected with in main turning block outside warp, warp articulated piece with it has the deformation push rod to articulate between the push rod slider.

On the basis of the technical scheme, the rear end wall of the wind-force sensing cavity is connected with a centrifugal shaft which extends backwards and penetrates through the centrifugal wheel cavity and extends forwards to the wind-force sensing cavity, the front end of the centrifugal shaft is fixedly connected with an impeller, four centrifugal blocks are fixedly connected with the outer edge surface of the centrifugal shaft and are located in the centrifugal wheel cavity and are circumferentially arranged around the centrifugal shaft, centrifugal push rod cavities with outward openings are arranged in the centrifugal blocks, centrifugal stop blocks are fixedly connected into the outer end walls of the centrifugal push rod cavities, centrifugal push rods which extend outwards and penetrate through the centrifugal stop blocks are connected onto the inner end walls of the centrifugal push rod cavities in a sliding fit mode, centrifugal push blocks are fixedly connected with the outer ends of the centrifugal push rods and can form a ring, centrifugal limit blocks are fixedly connected to the inner ends of the centrifugal push rods, and centrifugal limit blocks are fixedly connected with centrifugal stretching blocks between the inner end walls of the centrifugal push rod cavities The spring, sliding fit is connected with centrifugal slider on the lower terminal wall in centrifugal slider chamber, centrifugal slider upside terminal with speed change pull rod bearing has the side terminal fixedly connected with centrifugation stay cord between the end of filter screen slider left side, sliding fit is connected with the deformation and draws the piece on the lower terminal wall of deformation stay cord, the fixedly connected with electro-magnet in the lower terminal wall of deformation stay cord, electro-magnet upside terminal with fixedly connected with magnet compression spring between the end of electro-magnet chamber downside, draw piece upside terminal with fixedly connected with deformation stay cord between the end of reciprocal carousel rack right side.

The invention has the beneficial effects that: rotation through the motor drives the rotation of fan wheel, thereby reach and also provide corresponding required wind pressure and amount of wind when providing required air to the burning of spraying the intracavity, the air current that the rethread got into the wind-force response intracavity drives the impeller and rotates, make the removal of variable speed clutch blocks on the variable speed pull rod, reach the rotational speed that the regulation and control fan wheel makes the rotational speed of impeller keep the definite value, guarantee to get into the amount of wind size of spraying the intracavity, spray the intracavity temperature through the sensing of temperature sensing original paper response at last and control the main rotor block that warp, the wind pressure size that the opening size control that the vice rotor block that warp formed gets into in the spraying intracavity, in order to ensure the normal operating of spout.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of a burner device for controlling air volume and air pressure according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B-B in fig. 1.

Fig. 4 is an enlarged schematic view of C-C in fig. 1.

Fig. 5 is an enlarged schematic view of D-D in fig. 1.

Fig. 6 is an enlarged schematic view of E in fig. 1.

Fig. 7 is an enlarged schematic view of F in fig. 1.

Fig. 8 is an enlarged schematic view of G in fig. 1.

Fig. 9 is an enlarged schematic view of H in fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-9, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Combine figures 1-9 a combustor device of accuse amount of wind pressure, including the main tank body 10, main tank body 10 right side fixedly connected with sprays box 22, be equipped with motor 11 in the main tank body 10, motor 11 right side is equipped with motor gear chamber 15, motor gear chamber 15 with be equipped with variable speed cone pulley chamber 14 between the motor 11, variable speed cone pulley chamber 14 downside intercommunication is equipped with variable speed chamber 95, variable speed chamber 95 downside is equipped with the same position wind-force response chamber 34 of motor gear chamber 15 downside, wind-force response chamber 34 left side intercommunication is equipped with and is located the acceleration rate chamber 35 of variable speed chamber 95 downside, fixedly connected with centrifugation stay cord 58 in the upper end wall of acceleration rate chamber 35, be equipped with in the centrifugation stay cord 58 upwards extend to in the main tank body 10 and be located the left sector wheel drive belt chamber 55 in variable speed chamber 95, acceleration rate chamber 35 downside is equipped with filter screen pivot chamber 80, the left side of the filter screen rotating shaft cavity 80 is provided with a filter screen bevel gear cavity 50 positioned on the lower side of the speed increasing cavity 35, the left side of the filter screen bevel gear cavity 50 is provided with a filter screen cavity 52 upwards penetrating through the speed increasing cavity 35, the right side of the filter screen cavity 52 is provided with a grooved pulley cavity 41 positioned on the lower side of the filter screen bevel gear cavity 50, a grooved pulley cavity 36 positioned on the lower side of the filter screen rotating shaft cavity 80 is arranged between the grooved pulley cavity 41 and the filter screen bevel gear cavity 50, the spraying box body 22 is internally provided with a spraying cavity 23 with a right opening, the left side of the spraying cavity 23 is communicated with a deformation cavity 21 positioned in the main box body 10, the left side of the deformation cavity 21 is communicated with a deformation front cavity 26 positioned on the right side of the motor gear cavity 15, the left side of the deformation cavity 21 is provided with a rotating disc rack cavity 100 which is vertically and symmetrically arranged by taking the deformation front cavity 26 as a center, the right side of the phase-change rotating disk cavity 85 is communicated with a deformation sliding block cavity 91 which extends rightwards to be communicated with the deformation front cavity 26 and is positioned between the rotating disk gear cavity 100 and the deformation front cavity 26, a pressure increasing cavity 33 which is obliquely arranged and is positioned on the right side of the motor gear cavity 15 is arranged between the deformation front cavity 26 and the wind power induction cavity 34, a nozzle 24 which extends downwards to the outside and upwards to the inside of the spraying cavity 23 and extends to the right is fixedly connected in the lower end wall of the spraying cavity 23, a temperature sensing element 25 positioned at the right side of the nozzle 24 is fixedly connected in the lower end wall of the spraying cavity 23, the lower side of the deformation cavity 21 is provided with a deformation pulling rope 27 positioned at the right side of the wind sensing cavity 34, four deformation main rotating cavities 71 which are communicated with the deformation cavity 21 rightwards and are circumferentially arranged by taking the deformation front cavity 26 as a center are arranged between the deformation sliding block cavity 91 and the deformation front cavity 26.

In addition, in one embodiment, the right end of the motor 11 is fixedly connected with a motor shaft 12 extending rightwards into the motor gear cavity 15, the motor shaft 12 has a side end fixedly connected with a motor gear 16, the right end wall of the motor gear cavity 15 is rotatably and fittingly connected with a transmission bevel wheel shaft 13 extending leftwards and downwards into the transmission bevel wheel cavity 14 and rightwards and upwards into the motor gear cavity 15, the outer edge surface of the transmission bevel wheel shaft 13 is fixedly connected with a motor bevel gear 17 positioned in the motor gear cavity 15 and meshed with the motor gear 16, the outer edge surface of the transmission bevel wheel shaft 13 is fixedly connected with a conical friction block 94 positioned in the transmission bevel wheel cavity 14, the right end wall of the transmission cavity 95 is rotatably and fittingly connected with a transmission shaft 57 extending leftwards into the fan wheel belt cavity 55, the outer edge surface of the transmission shaft 57 is fixedly connected with an acceleration block 96 positioned in the transmission cavity 95, the outer edge surface of the speed changing shaft 57 is fixedly connected with a speed changing cavity 95 and a speed reducing stop 98 positioned on the left side of the speed increasing stop 96, the outer edge surface of the speed changing shaft 57 is connected with a speed changing friction block 92 positioned in the speed changing cavity 95 and positioned between the speed reducing stop 98 and the speed increasing stop 96 in a spline fit manner, the outer edge surface of the speed changing shaft 57 is connected with a speed changing pull rod 93 positioned in the speed changing cavity 95 and positioned between the speed changing friction block 92 and the speed increasing stop 96 in a rotating fit manner, the outer edge surface of the speed changing pull rod bearing 99 is connected with a speed changing pull rod 93 fixedly connected with the right end of the speed changing friction block 92 in a left direction in a rotating fit manner, the right end wall of the fan wheel transmission belt cavity 55 is connected with a fan wheel shaft 54 extending to the left direction in the speed increasing cavity 35 and extending to the right direction in the fan wheel transmission belt cavity 55 in a rotating fit manner, a fan wheel transmission belt 56 is connected between the fan wheel transmission belt cavity 55 and the fan wheel shaft 54 in a power fit manner, and the fan wheel 53 is fixedly connected at the left end of the fan wheel shaft 54.

In addition, in an embodiment, the upper end wall of the filter screen rotation shaft cavity 80 is connected with a filter screen rotation shaft 82 which extends downwards into the lower end wall of the sheave cavity 36 in a rotationally-matched manner, the outer edge surface of the filter screen rotation shaft 82 is fixedly connected with a filter screen sliding block 81 which is located in the filter screen rotation shaft cavity 80, the inner end wall of the front end of the filter screen rotation shaft cavity 80 is fixedly connected with a filter screen stopper 83 which can be abutted against the filter screen sliding block 81, the rear end of the filter screen stopper 83 is fixedly connected with a right filter screen compression spring 79 between the left end of the filter screen sliding block 81 and the rear end of the filter screen sliding block, the outer edge surface of the filter screen rotation shaft 82 is fixedly connected with a sheave rotary table 37 which is located in the sheave cavity 36, the upper end of the soytongs rotary table 37 is fixedly connected with a sheave shift lever 44, the upper end wall of the sheave cavity 36 is connected with a sheave shaft 40 which extends downwards into the lower end wall of the A grooved pulley 38, a grooved pulley shaft gear 39 located in the grooved pulley shaft 40 is fixedly connected to the outer edge surface of the grooved pulley shaft 40, a grooved pulley bevel gear shaft 42 extending upward into the screen bevel gear cavity 50 is connected to the lower end wall of the grooved pulley shaft 40 in a rotationally matched manner, a bevel gear shaft gear 43 located in the grooved pulley shaft 40 and meshed with the grooved pulley shaft gear 39 is fixedly connected to the outer edge surface of the grooved pulley bevel gear shaft 42, a grooved bevel gear 49 is fixedly connected to the upper end of the grooved pulley bevel gear shaft 42, a screen shaft 47 extending leftward into the screen cavity 52 and extending rightward into the screen bevel gear cavity 50 is connected to the left end wall of the screen bevel gear cavity 50 in a rotationally matched manner, a screen bevel gear 48 meshed with the grooved pulley 49 is fixedly connected to the side end of the screen shaft 47, and a screen connecting block 46 is fixedly connected to the left end of the screen shaft 47, filter screen connecting block 46 outer fringe face fixedly connected with two with filter screen connecting block 46 is the filter screen 51 of central circumference setting, filter screen chamber 52 downside left and right sides end wall internal fixation connected with symmetry set up and can with the terminal filter screen dust removal brush 45 of laminating in the filter screen 51 left and right sides.

In addition, in one embodiment, a reciprocating turntable rack 20 capable of sliding left and right is connected to the lower end wall of the turntable rack cavity 100 in a sliding fit manner, a reciprocating turntable shaft 18 extending downward into the phase-change turntable cavity 85 and extending upward into the turntable rack cavity 100 is fixedly connected between the side end of the reciprocating turntable rack 20 and the left end wall of the turntable rack cavity 100, a reciprocating turntable gear 19 meshed with the reciprocating turntable rack 20 is fixedly connected to the upper end wall of the turntable rack cavity 100 in a rotating fit manner, a deformation turntable 84 is fixedly connected to the lower end of the reciprocating turntable shaft 18, a deformation turntable pin 89 is fixedly connected to the lower end of the deformation turntable 84, a left and right sliding push rod slider 87 is connected to the lower end wall of the deformation slider cavity 91 in a sliding fit manner, a right extending and a left end of the push rod slider 87 are connected to the lower end of the deformation turntable pin 89 in a rotating fit manner End hinged's carousel push rod 86, it is connected with main axis of rotation 72 to warp main rotation chamber 71 with normal running fit between the tangential lateral wall of antechamber 26, warp main axis of rotation 72 outer fringe face fixed connection and extend to right warp main turning block 75 in the antechamber 26 that warp, be equipped with inside open-ended centrifugation sliding chamber 76 in warping main turning block 75, warp antechamber 26 with warp and be equipped with four between the main rotation chamber 71 with warp the vice rotation chamber 74 and every of warping that the antechamber 26 set up as center circumference warp vice rotation chamber 74 and adjacent to both sides warp the contained angle between the main rotation chamber 71 of warping is one hundred thirty-five degrees, warp vice rotation chamber 74 with normal running fit between the tangential lateral wall of antechamber 26 is connected with warp vice rotation axis 73, warp vice rotation axis 73 outer fringe face fixed connection extend to right warp vice turning block 78 in the antechamber 26, every vice turning block 78 warp be close to warp main turning block 75 side end fixed connection to warp main turning block 75 direction extend to the centrifugation sliding block 77 in the centrifugation sliding chamber 76, centrifugation sliding block 77 with be sliding fit link between the centrifugation sliding chamber 76, warp main turning block 75 outside end fixed connection have warp articulated piece 90, warp articulated piece 90 with it has warp push rod 88 to articulate between the push rod slider 87.

In addition, in one embodiment, a centrifugal shaft 62 extending backward and passing through the centrifugal wheel cavity 63 and extending forward into the wind sensing cavity 34 is connected to the rear end wall of the wind sensing cavity 34 in a rotationally-matched manner, an impeller 61 is fixedly connected to the front end of the centrifugal shaft 62, four centrifugal blocks 70 located in the centrifugal wheel cavity 63 and circumferentially arranged with the centrifugal shaft 62 as the center are fixedly connected to the outer edge surface of the centrifugal shaft 62, a centrifugal push rod cavity 67 with an outward opening is formed in the centrifugal block 70, a centrifugal block 66 is fixedly connected to the inner end wall of the centrifugal push rod cavity 67, a centrifugal push rod 65 extending outward and passing through the centrifugal block 66 is connected to the inner end wall of the centrifugal push rod cavity 67 in a sliding-matched manner, a centrifugal push block 64 is fixedly connected to the outer end of the centrifugal push rod 65, the four centrifugal push blocks 64 can form a circular ring, and a centrifugal limit block 69 is fixedly connected to the inner end of the centrifugal push rod 65, the inboard end of centrifugal stopper 69 with fixedly connected with centrifugation extension spring 68 between the inner end wall in centrifugal push rod chamber 67, sliding fit is connected with centrifugal slider 60 on the end wall under centrifugal slider chamber 59, centrifugal slider 60 upside end with speed change pull rod bearing 99 has the side end fixedly connected with centrifugation stay cord 58 between the end of filter screen slider 81 left side, sliding fit is connected with on the end wall and warp pull block 30 under the deformation stay cord 27, warp fixedly connected with electro-magnet 32 in the 27 lower end wall of stay cord, electro-magnet 32 upside end with fixedly connected with magnet compression spring 31 between the end of electro-magnet chamber 29 downside, warp pull block 30 upside end with fixedly connected with warp pull cord 27 between the end of reciprocal carousel rack 20 right side.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1-9, when the apparatus of the present invention is in the initial state, the motor 11 is in the stop state, the sheave shaft gear 39 and the sheave deflector rod 44 are just disengaged, the magnet compression spring 31 is in the relaxed state, the deformed pull block 30 is at the highest point in the electromagnet cavity 29, the deformed extension spring 28 is in the relaxed state, the variable speed compression spring 97 is in the compressed state, the variable speed friction block 92 is at the rightmost side on the tapered friction block 94, the deformed main rotation block 75 is in the horizontal direction, and the centrifugal pull rope 58 and the deformed pull rope 27 are in the tightened state;

sequence of mechanical actions of the whole device:

when the air-powered air-assisted combustion device starts to work, the motor 11 is started, the motor shaft 12 is driven to rotate by the rotation of the motor shaft 12, the motor gear 16 is driven to rotate by the rotation of the motor bevel gear 17, the speed-changing bevel wheel shaft 13 is driven to rotate, the conical friction block 94 is driven to rotate by the rotation of the motor shaft 12, the speed-changing shaft 57 is driven to rotate by the speed-changing friction block 92, the speed-changing shaft 57 drives the speed-increasing stop 96 and the speed-reducing stop 98 to rotate, the fan wheel shaft 54 is driven to rotate by the fan wheel transmission belt 56, the fan wheel 53 is driven to rotate, so that the purpose of sucking the outside air into the speed-increasing cavity 35 is achieved, the air sucked into the wind-driven cavity 34 along with the air flow, then enters the deformation front cavity 26 through the pressurization of the pressurization cavity 33, the air sucked into the deformation front cavity 26 enters the injection cavity 23 through the deformation cavity 21, so that Pressure and air volume;

when the air current passes through the wind sensing cavity 34, the impeller 61 is driven to rotate, the centrifugal shaft 62 is driven to rotate by the rotation of the impeller 61, the centrifugal block 70 is driven to rotate by the rotation of the centrifugal shaft 62, so that the centrifugal push rod 65 is driven to move outwards under the centrifugal action against the elastic force of the centrifugal extension spring 68, the centrifugal push rod 64 is driven to move outwards while the centrifugal limit block 69 is driven to move by the movement of the centrifugal push rod 65, the centrifugal push block 64 moves outwards to drive the centrifugal slider 60 to move upwards under the thrust action of the centrifugal push block 64, the movement of the centrifugal slider 60 causes the speed change pull rod bearing 99 to move leftwards under the elastic force of the speed change compression spring 97, the movement of the speed change pull rod bearing 99 drives the speed change pull rod 93 to move along with the movement of the speed change pull rod 93, the movement of the speed change friction block 92 is driven to move, so that the position of the speed change, therefore, the rotating speed of the variable speed friction block 92 is changed to change the rotating speed of the variable speed shaft 57, and finally the purpose of changing the rotating speed of the fan wheel 53 is achieved, so that the rotating speed of the fan wheel 53 is regulated according to the rotating speed of the impeller 61, the air volume entering the speed increasing cavity 35 is ensured to keep a fixed value, and the air volume inside the combustor is not influenced by the outside;

if the temperature in the injection cavity 23 rises, the problem that the temperature in the injection cavity 23 is increased due to the reduction of the air pressure entering the injection cavity 23, and the temperature in the nozzle 24 is increased and is blocked is possibly caused, so the temperature rise in the injection cavity 23 triggers the electromagnet 32 to increase the magnetic force after the induction of the temperature sensing element 25, so that the electromagnet cavity 29 overcomes the elastic force of the deformation pulling block 30 and the deformation stretching spring 28 to move downwards under the action of the magnetic force of the electromagnet 32 and the self gravity, the downward movement of the electromagnet cavity 29 drives the reciprocating turntable rack 20 to move rightwards, the movement of the reciprocating turntable rack 20 drives the reciprocating turntable gear 19 to rotate, the rotation of the reciprocating turntable gear 19 drives the reciprocating turntable shaft 18 to rotate, the rotation of the reciprocating turntable shaft 18 drives the deformation turntable pin 89 to rotate along with the deformation turntable 84, and the push rod slider 87 is driven to slide rightwards by the turntable push rod 86, the sliding of the push rod slider 87 drives the deformation hinge block 90 to have a tendency of moving rightward through the deformation push rod 88, so as to drive the deformation main rotating block 75 to have a tendency of moving rightward, and the rightward movement tendency is converted into inward rotation of the deformation main rotating shaft 72 under the limitation of the deformation main rotating shaft 72, so as to drive the deformation main rotating block 75 to rotate, the rotation of the deformation main rotating block 75 drives the deformation hinge block 90 to rotate along with the rotation, and simultaneously drives the deformation auxiliary rotating block 78 to rotate inward through the sliding of the centrifugal sliding block 77, so as to regulate and control the size of a channel wall formed by the deformation main rotating block 75 and the deformation auxiliary rotating block 78, and a through hole formed by the deformation auxiliary rotating block 78 and the deformation main rotating block 75 can be always aligned with the nozzle 24 to directly influence the temperature reduction of the nozzle 24 after receiving a large wind pressure while increasing the wind pressure in the injection cavity 23 in the process of reducing, thereby achieving the purpose of regulating and controlling the supply air pressure according to the temperature body so as to indirectly regulate and control the temperature in the injection cavity 23;

when the rotation speed of the impeller 61 is reduced and regulated by the speed-changing friction block 92 and still cannot reach the predetermined rotation speed, it indicates that the filter screen 51 is blocked by dust, so that the outside air cannot normally enter the speed-increasing cavity 35, and therefore the centrifugal slider 60 moves under the action of its own gravity against the elastic force of the filter screen compression spring 79 under the condition that the centrifugal push block 64 is inferiorly insufficient due to the reduction of the rotation speed of the impeller 61, so that the filter screen slider 81 is driven to rotate by the centrifugal pull rope 58, and the rotation of the filter screen slider 81 drives the filter screen rotating shaft 82 to rotate, thereby driving the sheave turntable 37 to rotate, the rotation of the sheave turntable 37 drives the sheave shift lever 44 to rotate, the rotation of the sheave shift lever 44 causes the shift lever 44 to be engaged with the four-groove sheave 38 and drive the four-groove sheave 38 to rotate, the rotation of the four-groove sheave 38 drives the rotation of the sheave shaft 40, and the, the rotation of bevel gear shaft gear 43 drives sheave bevel gear shaft 42 to rotate, the rotation of sheave bevel gear shaft 42 drives sheave bevel gear 49 to rotate, the rotation of sheave bevel gear 49 drives filter screen shaft 47 to rotate through filter screen bevel gear 48, the rotation of filter screen shaft 47 drives filter screen 51 to rotate one hundred eighty degrees through adjustment between filter screen connecting block 46 and sheave shaft gear 39, sheave bevel gear shaft 42, thereby two upper and lower filter screens 51 are exchanged in position, and the upper filter screen 51 rotates the downside and is attached to filter screen dust removal brush 45 in the process, thereby the purpose of automatically replacing the new filter screen 51 is also carried out when the dust of the upper filter screen 51 is cleared, and the purpose of recycling is achieved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a combustor device of accuse amount of wind pressure, includes the main tank body, its characterized in that: the right side of the main box body is fixedly connected with an injection box body, a motor is arranged in the main box body, a motor gear cavity is arranged on the right side of the motor, a speed change conical wheel cavity is arranged between the motor gear cavity and the motor, the lower side of the speed change conical wheel cavity is communicated with a speed change cavity, a wind power induction cavity which is positioned on the lower side of the motor gear cavity is arranged on the lower side of the speed change cavity, a speed increase cavity positioned on the lower side of the speed change cavity is communicated with the left side of the wind power induction cavity, a centrifugal pull rope is fixedly connected in the upper end wall of the speed increase cavity, a fan wheel transmission belt cavity which extends upwards into the main box body and is positioned on the left side of the speed change cavity is arranged in the centrifugal pull rope, a filter screen rotating cavity is arranged on the lower side of the speed increase cavity, a filter screen, the right side of the filter screen cavity is provided with a grooved pulley shaft cavity positioned on the lower side of the filter screen bevel gear cavity, a grooved pulley cavity positioned on the lower side of the filter screen rotating shaft cavity is arranged between the grooved pulley shaft cavity and the filter screen bevel gear cavity, the inside of the injection box body is provided with an injection cavity with a right opening, the left side of the injection cavity is communicated with a deformation cavity positioned in the main box body, the left side of the deformation cavity is communicated with a deformation front cavity positioned on the right side of the motor gear cavity, the left side of the deformation cavity is provided with a rotary disc rack cavity which is vertically and symmetrically arranged by taking the deformation front cavity as a center, a phase-change rotary disc cavity is arranged between the rotary disc rack cavity and the deformation front cavity, the right side of the phase-change rotary disc cavity is communicated with a deformation sliding block cavity which is communicated with the deformation front cavity and positioned between the rotary disc rack cavity and the deformation front cavity, and a pressurization cavity which is obliquely arranged and positioned on the, the utility model discloses a wind-force response chamber, including spout chamber, deformation slider chamber, deformation chamber, spout chamber lower extreme wall, fixedly connected with downwardly extending's external and upwards extend to spout that extends to the right behind the spout chamber, fixedly connected with is located in the spout lower extreme wall temperature sensing original paper on right side, the deformation chamber downside is equipped with and is located the deformation stay cord on wind-force response chamber right side, deformation slider chamber with be equipped with four right between the preceding chamber of deformation with deformation chamber intercommunication just with the preceding chamber of deformation is the main chamber of rotating of deformation that central circumference set up.

2. The burner device for controlling wind volume and wind pressure according to claim 1, wherein: the end of the right side of the motor is fixedly connected with a motor shaft which extends rightwards into the motor gear cavity, the end of the side of the motor shaft is fixedly connected with a motor gear, the wall of the right end of the motor gear cavity is connected with a variable speed conical wheel shaft which extends leftwards and downwards into the variable speed conical wheel cavity and rightwards and upwards into the motor gear cavity in a rotating matching manner, the outer edge surface of the variable speed conical wheel shaft is fixedly connected with a motor bevel gear which is positioned in the motor gear cavity and is meshed with the motor gear, the outer edge surface of the variable speed conical wheel shaft is fixedly connected with a conical friction block positioned in the variable speed conical wheel cavity, the wall of the right end of the variable speed cavity is connected with a variable speed shaft which extends leftwards into the fan wheel transmission belt cavity in a rotating matching manner, the outer edge surface of the variable speed shaft is fixedly connected with a speed increasing stop block positioned in, the outer edge surface of the speed change shaft is in spline fit connection with a speed change friction block which is positioned in the speed change cavity and between the speed reduction stop block and the speed increase stop block, the outer edge surface of the speed change shaft is connected with a speed change pull rod bearing which is positioned in the speed change cavity and is positioned between the speed change friction block and the speed increasing stop block in a rotating fit manner, the outer edge surface of the speed change pull rod bearing is connected with a speed change pull rod which is fixedly connected with the right end of the speed change friction block leftwards in a rotating matching way, a variable speed compression spring is fixedly connected between the right end of the variable speed pull rod bearing and the right end wall of the variable speed cavity, the right end wall of the fan wheel transmission belt cavity is connected with a fan wheel shaft which extends leftwards into the speed increasing cavity and rightwards into the fan wheel transmission belt cavity in a rotating matching manner, the fan wheel transmission belt cavity is connected with the fan wheel shaft in a power fit mode, and the tail end of the left side of the fan wheel shaft is fixedly connected with a fan wheel.

3. The burner device for controlling wind volume and wind pressure according to claim 1, wherein: the upper end wall of the filter screen rotating shaft cavity is connected with a filter screen rotating shaft which extends downwards into the lower end wall of the sheave cavity in a rotating manner, the outer edge surface of the filter screen rotating shaft is fixedly connected with a filter screen sliding block positioned in the filter screen rotating shaft cavity, the front end wall of the filter screen rotating shaft cavity is fixedly connected with a filter screen stop block which can be abutted against the filter screen sliding block, a right filter screen compression spring is fixedly connected between the rear end of the filter screen stop block and the left end of the filter screen sliding block, the outer edge surface of the filter screen rotating shaft is fixedly connected with a sheave rotating disc positioned in the sheave cavity, the upper end of the Susonhu sheave rotating disc is fixedly connected with a sheave driving lever, the upper end wall of the sheave cavity is connected with a sheave shaft which extends downwards into the lower end wall of the sheave shaft cavity in a rotating manner, and, the outer edge surface of the sheave shaft is fixedly connected with a sheave shaft gear positioned in the sheave shaft, the lower end wall of the sheave shaft is connected with a sheave bevel gear shaft which extends upwards into the filter screen bevel gear cavity in a rotating fit manner, the outer edge surface of the sheave bevel gear shaft is fixedly connected with a bevel gear shaft gear which is positioned in the sheave shaft and is meshed with the sheave shaft gear, the tail end of the upper side of the sheave bevel gear shaft is fixedly connected with a sheave bevel gear, the left end wall of the filter screen bevel gear cavity is connected with a filter screen shaft which extends leftwards into the filter screen cavity and extends rightwards into the filter screen bevel gear cavity in a rotating fit manner, the tail end of the filter screen shaft on one side is fixedly connected with a filter screen bevel gear which is meshed with the sheave bevel gear, the tail end of the left side of the filter screen shaft is fixedly connected with a filter screen, the filter screen dust removal brush that the filter screen chamber downside left and right sides end wall internal fixation connected with symmetry set up and can with the terminal laminating of filter screen left and right sides.

4. The burner device for controlling wind volume and wind pressure according to claim 1, wherein: the lower end wall of the rotary disc rack cavity is connected with a reciprocating rotary disc rack capable of sliding left and right in a sliding fit manner, the reciprocating rotary disc rack is fixedly connected between the side tail end and the left end wall of the rotary disc rack cavity, the upper end wall of the rotary disc rack cavity is connected with a reciprocating rotary disc shaft which extends downwards into the phase-variable rotary disc cavity and upwards into the rotary disc rack cavity in a rotating fit manner, the upper end of the reciprocating rotary disc shaft is fixedly connected with a reciprocating rotary disc gear meshed with the reciprocating rotary disc rack, the lower end of the reciprocating rotary disc shaft is fixedly connected with a deformable rotary disc, the lower end of the deformable rotary disc shaft is fixedly connected with a deformable rotary disc pin, the lower end wall of the deformable rotary disc cavity is connected with a push rod sliding block capable of sliding left and right in a sliding fit manner, and the lower end of the deformable rotary disc pin is connected with a rotary disc push, it uses to warp main pivoted cavity the normal running fit is connected with and warp main axis of rotation between the tangential lateral wall in preceding chamber warp, warp main axis of rotation outer fringe face fixed connection extend right to warp the main turning block of deformation in preceding intracavity, be equipped with inside open-ended centrifugation sliding chamber in the main turning block warp, warp preceding chamber with warp and be equipped with four between the main turning chamber and with warp vice rotation chamber and every of deformation that preceding chamber set up as center circumference warp vice rotation chamber and near both sides warp the contained angle between the main turning chamber of deformation be one hundred thirty-five degrees, warp vice rotation chamber with it is connected with and warp vice axis of rotation to warp the normal running fit between the tangential lateral wall in preceding chamber, warp vice axis of rotation outer fringe face fixed connection extend right to warp the vice turning block of deformation in preceding intracavity, every it is close to warp vice turning block to warp main turning block side end fixed connection to warp main turning block direction extend to warp main turning block direction from the distance The centrifugal sliding block in the heart sliding cavity, centrifugal sliding block with be sliding fit link between the centrifugal sliding cavity, the articulated piece of deformation of the terminal fixedly connected with in main turning block outside warp, warp articulated piece with it has the deformation push rod to articulate between the push rod slider.

5. The burner device for controlling wind volume and wind pressure according to claim 1, wherein: the rear end wall of the wind force sensing cavity is connected with a centrifugal shaft which extends backwards and penetrates through the centrifugal wheel cavity in a rotating fit manner and extends forwards into the wind force sensing cavity, the front end of the centrifugal shaft is fixedly connected with an impeller, the outer edge surface of the centrifugal shaft is fixedly connected with four centrifugal blocks which are positioned in the centrifugal wheel cavity and are circumferentially arranged by taking the centrifugal shaft as a center, a centrifugal push rod cavity with an outward opening is arranged in each centrifugal block, a centrifugal stop block is fixedly connected in the outer end wall of the centrifugal push rod cavity, a centrifugal push rod which extends outwards and penetrates through the centrifugal stop block is connected on the inner end wall of the centrifugal push rod cavity in a sliding fit manner, the outer end of the centrifugal push rod is fixedly connected with a centrifugal push block, the four centrifugal push blocks can form a ring, the inner end of the centrifugal push rod is fixedly connected with a centrifugal limit block, and a centrifugal extension spring is fixedly connected between the, sliding fit is connected with centrifugal slider on the lower terminal wall in centrifugal slider chamber, centrifugal slider upside terminal with speed change pull rod bearing has the side terminal fixedly connected with centrifugation stay cord between the end of filter screen slider left side, sliding fit is connected with on the wall of deformation stay cord lower extreme and warp the piece of drawing, warp fixedly connected with electro-magnet in the stay cord lower extreme wall, electro-magnet upside terminal with fixedly connected with magnet compression spring between the end of electro-magnet chamber downside, warp draw the piece upside terminal with fixedly connected with warp the stay cord between the reciprocal carousel rack right side is terminal.