CN115419898A - Environment-friendly waste incineration device - Google Patents

Abstract

The invention belongs to the technical field of garbage incineration equipment, and particularly relates to an environment-friendly garbage incineration device, which aims to solve the technical problem that the function of one pipe for two purposes of a material pipe cannot be realized, namely the technical problem of adding garbage to be incinerated and discharging ash generated by incinerating the garbage; when the ash formed by discharging the incineration waste is in the process, the feeding port becomes an exhaust port, and the discharge of waste gas is realized through the feeding ash discharging assembly.

Description

Environment-friendly waste incineration device

Technical Field

The invention belongs to the technical field of waste incineration equipment, and particularly relates to an environment-friendly waste incineration device.

Background

The domestic garbage incineration power generation method has the advantages that the domestic standard of people is improved, the urban and rural domestic garbage production amount is increased sharply, the problem of enclosing the city by the garbage is increasingly obvious, two treatment modes are generally adopted for the domestic garbage at present, one mode is sanitary landfill, the other mode is incineration power generation, and compared with the sanitary landfill, the garbage incineration power generation has the remarkable characteristics of small occupied area, obvious decrement effect, availability of waste heat resources and the like, so that the garbage incineration power generation gradually replaces the sanitary landfill mode;

be CN202011487888.8 a waste incinerator, the induction cooker comprises a cooker bod, be provided with the furnace chamber in the furnace body, feed inlet and discharge gate have been seted up on the furnace body, the grate has been laid between feed inlet and the discharge gate, be provided with the water-cooling wall on the inner wall of furnace body, the inside of water-cooling wall is provided with the water storage chamber, water storage chamber and outside water source intercommunication, be provided with the outlet duct to the intercommunication with the water storage chamber on the water-cooling wall, still be provided with the cleaning device who is used for clearing up water-cooling wall surface smoke and dust on the furnace body, but this technical scheme's shortcoming is that can not realize the dual-purpose function of a pipe of material pipe, add the rubbish that needs to burn promptly and the ashes that the rubbish that the discharge incineration produced.

Disclosure of Invention

The invention aims to provide an environment-friendly garbage incineration device, which aims to solve the technical problem that the function of one pipe with two purposes of a material pipe cannot be realized, namely the garbage to be incinerated is added and the ash generated by the incinerated garbage is discharged.

In order to achieve the purpose, the specific technical scheme of the environment-friendly waste incineration device is as follows:

the utility model provides an environment-friendly waste incineration device, includes incinerator subassembly, pan feeding ash discharge assembly, power component and sliding fit subassembly, the incinerator subassembly is connected with pan feeding ash discharge assembly, and pan feeding ash discharge assembly is connected with power component, and power component is connected with incinerator subassembly, and sliding fit subassembly is connected with incinerator subassembly and pan feeding ash discharge assembly.

The incinerator component comprises an incinerator body, a rectangular boss, a closed door plate, a hinged terminal, a terminal slide bar, a slide bar limiting ring I, a sliding ring I, a rectangular matching bar, a matching rack, a feeding port, an ash discharge port, a waist groove opening, a positioning clamp groove I, a positioning clamp groove II, a spring I, a matching notch, a sealing plate, a closed hinged plate, a matching boss I, a matching boss II, an ash discharge spiral rotating rod, an execution cylinder and a hinged terminal II.

Further, the waist slot opening is opened on rectangle cooperation pole, waist slot opening's the inner is opened there are positioning channel section one and positioning channel section two, closing plate fixed mounting is on burning the burning furnace body, cooperation boss fixed mounting is in the inner that burns the burning furnace body, the articulated closed articulated slab that installs on the cooperation boss one, the articulated hinge that installs on the closed articulated slab is connected with terminal two, two fixed mounting of hinge terminal are on the output shaft of actuating cylinder, actuating cylinder is articulated to be installed in the inner that burns the burning furnace body, cooperation boss two fixed mounting is in the inner that burns the burning furnace body, ash discharge spiral pole rotates and installs on burning the burning furnace body, fixed mounting has ash discharge spiral on the ash discharge spiral pole.

Furthermore, an inclined surface A is arranged on the first matching boss, and a rectangular groove is formed in the second matching boss.

Further, the ash discharge spiral is arranged in the rectangular groove, and the rectangular groove is parallel and level to the ash discharge port.

Further, burn burning furnace subassembly still includes connecting portion, connecting portion include polygon arch, spacing ring A, circular traveller, inner spring A, the smooth chamber of cylindricality is opened on ash discharge spiral rotating rod, and circular traveller slidable mounting is in the inner in the smooth chamber of cylindricality, and inner spring A sets up between circular traveller and the smooth chamber of cylindricality, and spacing ring A fixed mounting is in the inner in the smooth chamber of cylindricality, and polygon arch sliding fit installs on spacing ring A, polygon arch and circular traveller fixed connection.

Further, the feeding and ash discharging assembly comprises a first underframe, a first vertical frame, a material pipe, a first vent pipe, a second vent pipe, a fan blade rotary column, a first connecting belt, a rotatable sleeve, a connecting belt wheel, a rotatable mounting plate, a first inner clamping rod push spring, a first connecting bevel gear shaft, a first connecting bevel gear, a second connecting bevel gear shaft, a fan blade, a first inner clamping groove A, a polygonal matching groove, a first inner rotary shaft, an inner spiral, a driving belt wheel, a positioning sleeve, a mounting screw A, a first inner positioning clamping rod, a spring B, a positioning clamping groove A, a positioning clamping groove B and an arc-shaped sliding groove, wherein the first vertical frame is fixedly connected with the first underframe, the material pipe is fixedly mounted on the first vertical frame, the rotatable sleeve is rotatably mounted on the material pipe, the positioning sleeve is mounted on the rotatable sleeve, and the mounting screw A is mounted on the positioning sleeve, an inner end positioning clamp rod is slidably arranged at the inner end of the positioning sleeve, an inner end spring B is arranged between the inner end positioning clamp rod and the mounting screw A, an arc-shaped chute is formed in the rotatable sleeve, a positioning clamp groove A and a positioning clamp groove B are formed in the inner end of the arc-shaped chute, the inner end positioning clamp rod is connected with the positioning clamp groove A or the positioning clamp groove B in a matched mode, a first ventilation pipe is fixedly arranged on a stand I, a second ventilation pipe is fixedly arranged on the first ventilation pipe and communicated with the first ventilation pipe, the first ventilation pipe is rotatably arranged with one end of a fan blade rotating column, the other end of the fan blade rotating column is rotatably connected with the rotatable mounting plate, a first inner end clamp rod is slidably arranged on the connecting belt wheel, a first inner end clamp rod push spring is arranged between the first inner end clamp rod and the connecting belt wheel, the rotatable mounting plate is rotatably arranged on the first ventilation pipe, a plurality of inner end clamp grooves A are formed in the rotatable mounting plate, the first inner end clamp rod is connected with the inner end clamp groove A in a matched mode, and the rotatable mounting plate is fixedly connected with the fan blade rotating column, the blade rotating column is connected with one end of a first connecting bevel gear shaft in a rotating mode, a first connecting bevel gear is fixedly mounted at the other end of the first connecting bevel gear shaft, the first connecting bevel gear is in meshing transmission with a second connecting bevel gear, a second connecting bevel gear is fixedly mounted at one end of a second connecting bevel gear shaft, a fan blade is fixedly mounted at the other end of the second connecting bevel gear shaft, the second connecting bevel gear shaft is connected with the rotating column of the fan blade in a rotating mode, the first connecting bevel gear shaft is fixedly connected with a connecting belt wheel, the inner rotating shaft is rotatably mounted on a material pipe, a polygonal matching groove is formed in the inner rotating shaft and is matched and connected with a polygonal bulge, an inner spiral is fixedly connected with the inner rotating shaft, a driving belt wheel is fixedly mounted on the inner rotating shaft, a first connecting belt is mounted between the driving belt wheel and the connecting belt wheel in a matching mode, and the first vertical frame is in sliding fit with the rectangular matching rod.

Further, the power assembly comprises a power bottom plate, a bottom plate vertical frame, a driving straight tooth, a first clutch output shaft, a rectangular sliding groove, a first clutch disc, a second clutch disc, a first clutch slide rod push spring, a middle-end rotating column, a first matching transmission bevel gear, a matching transmission sleeve, a first matching support, a second executing cylinder, a first executing motor, a first driving bevel gear, a second matching transmission bevel gear, a first matching sleeve, a second clutch slide rod push spring, a third clutch disc, a fourth clutch disc, a second clutch output shaft and a second matching sleeve, wherein the bottom plate vertical frame is fixedly installed on the power bottom plate, the first clutch output shaft is rotatably installed on the power bottom plate, one end of the first clutch output shaft is fixedly installed on the driving straight tooth, the other end of the first clutch output shaft is fixedly installed on the first clutch disc, the first clutch disc is connected with the second clutch disc in a matching mode, and the second clutch slide rod is connected with the first clutch output shaft, a first clutch slide bar is sleeved with a first clutch slide bar push spring, the first clutch slide bar is rotatably installed on a power bottom plate, the first clutch slide bar is fixedly installed at one end of a middle-end rotating column, a second clutch slide bar is fixedly installed at the other end of the middle-end rotating column, a second clutch slide bar push spring is sleeved on the second clutch slide bar, a third clutch disc is slidably installed on the second clutch slide bar, a fourth clutch disc is cooperatively installed on the third clutch disc, a second clutch output shaft is fixedly installed on the fourth clutch disc, the second clutch output shaft is rotatably installed on the power bottom plate, a first matching transmission bevel gear and a second matching transmission bevel gear are simultaneously rotatably installed on the middle-end rotating column, a first matching sleeve is fixedly installed on the second matching transmission bevel gear, a second matching sleeve is fixedly installed on the first transmission bevel gear and is slidably matched with the first matching support, the first matching support is slidably mounted in the rectangular sliding groove, the first matching support is mounted on an output shaft of the second executing cylinder, the second executing cylinder is mounted on the bottom plate vertical frame, the first executing motor is mounted on the power bottom plate, the output shaft of the first executing motor is fixedly mounted on the first driving bevel gear, the first driving bevel gear is simultaneously in meshing transmission with the second matching transmission bevel gear and the first matching transmission bevel gear, the first matching transmission sleeve is in matching transmission with the first matching sleeve or the second matching sleeve, the straight driving gear is in meshing transmission with the matching rack, the power bottom plate is fixedly connected with the first chassis, and the second clutch output shaft is in matching connection with the connecting belt.

Further, the sliding fit assembly comprises a mounting plate, a connecting sleeve, a positioning slide rod and a positioning slide rod push spring, the mounting plate is fixedly provided with the connecting sleeve, the inner end of the connecting sleeve is slidably provided with the positioning slide rod, the positioning slide rod and the connecting sleeve are provided with the positioning slide rod push spring, the mounting plate is fixedly connected with the first chassis, the connecting sleeve is slidably mounted in the waist groove opening, and the positioning slide rod is connected with the first positioning groove or the second positioning groove in a matched mode.

The invention has the advantages that:

1. the garbage incineration disposal method comprises the steps that garbage to be incinerated is added into an incinerator body through a feeding port through a feeding ash discharging assembly, meanwhile, a terminal sliding rod is pushed manually to be separated from a matching notch, a closed door plate is pulled manually to be separated from a rectangular boss, a combustion improver is further added into the incinerator body, meanwhile, the rectangular boss and the closed door plate are matched again, the terminal sliding rod is matched with the matching notch again, a sliding ring I is attached to the closed door plate tightly under the pushing of elastic force of a spring, a firing device in the incinerator body is started, the garbage in the incinerator body is ignited, the garbage incineration is completed, when the garbage incineration is completed to form ash, an execution cylinder is started, a hinged terminal II is driven to move through the execution cylinder, a closed hinged plate is driven to move through the hinged terminal II, the ash formed by the incineration on the closed hinged plate falls onto the matching boss II, the ash discharging screw rod is driven to rotate through the feeding ash discharging assembly, the ash discharging screw rotating rod is driven to rotate, and the ash is discharged through a screw spiral ash discharging action, and the ash discharging effect of the garbage to the incineration to the ash is formed by the garbage incineration; when ash formed by burning garbage is discharged, the feeding port is changed into an exhaust port, and waste gas is discharged through the feeding and ash discharging assembly;

2. when the garbage to be incinerated needs to be added into the incinerator assembly, the material pipe at the initial position is communicated with the material inlet, the power assembly drives the inner end rotating shaft to rotate through the connecting belt, the inner end rotating shaft drives the inner end to rotate in a spiral manner, and the garbage to be incinerated is further rushed into the incinerator assembly through the material inlet under the action of the inner end spiral; when the garbage to be incinerated in the incinerator assembly is finished, the feeding and ash discharging assembly is driven to move downwards to the position where the material pipe is communicated with the ash discharging opening through the power assembly, meanwhile, the vent pipe I is communicated with the feeding opening, at the moment, the connecting belt is driven to move reversely through the power assembly, then the inner end rotating shaft is driven to rotate reversely through the connecting belt, at the moment, the polygonal matching groove is connected with the polygonal protrusion in a matched mode, the ash discharging spiral rotating rod is driven to rotate through the inner end rotating shaft, then the ash discharging spiral is driven to move through the ash discharging spiral rotating rod, and the ash is discharged by matching the inner end spiral; meanwhile, when garbage to be incinerated needs to be added, the inner end positioning clamping rod is connected with the positioning clamping groove A in a matched mode, when ash needs to be discharged, the rotatable sleeve is manually rotated, so that the inner end positioning clamping rod is separated from the positioning clamping groove A, the inner end positioning clamping rod is matched with the positioning clamping groove B, the opening of the rotatable sleeve faces downwards, and the ash is conveniently discharged; meanwhile, when the inner rotating shaft rotates to drive the belt wheel to move, the connecting belt wheel is driven to move through the first connecting belt, the first connecting belt wheel is connected with the inner clamping groove A in a matched mode through the first inner clamping rod, the rotating mounting plate is driven to rotate, the fan blade rotating column is driven to move through the rotating mounting plate, the fan blade rotating column is driven to connect the second conical gear shaft to move, the fan blade is driven to move through the second connecting conical gear shaft, air in the first ventilating pipe is driven to flow through the fan blade, waste gas generated by incineration in the incinerator component is discharged through the second ventilating pipe, and the second ventilating pipe is externally connected with a waste gas treatment device to treat waste gas generated by incineration; meanwhile, the connecting belt wheel and the rotating mounting plate rotate relatively to drive the connecting bevel gear shaft I to rotate, the connecting bevel gear shaft I is driven to move through the connecting bevel gear shaft I, the connecting bevel gear I and the connecting bevel gear II are in meshed transmission, and the fan blades are driven to move through the connecting bevel gear shaft II, so that the inclination degree of the fan blades is changed, the speed of driving air flow through the fan blades is changed, and the exhaust speed of waste gas is changed;

3. when the garbage to be incinerated needs to be added into the device, an execution motor I is started, the execution motor I drives a driving bevel gear I to rotate, the driving bevel gear I drives a matching transmission bevel gear II to rotate, an execution cylinder II drives a matching support I to enable a matching transmission sleeve and a matching sleeve to be in matching transmission, the matching transmission sleeve is driven to move by the matching sleeve II, a middle rotating column is driven to rotate by the matching transmission sleeve, a clutch sliding rod II is driven to rotate by the middle rotating column, a clutch disc III is driven to rotate by the clutch sliding rod II, the clutch disc III is driven to rotate, the clutch output shaft II is driven to rotate by the clutch disc IV, a connecting belt is driven to move by the clutch output shaft II, and an ash discharging rotating rod spiral is driven to rotate positively by the connecting belt, so that the garbage to be incinerated is transported; at the moment, under the matching of the driving straight tooth and the matching rack, the first underframe drives the sliding matching component to slide to the uppermost end of the waist groove opening; when ash needs to be discharged, the first matching support is driven by the second execution cylinder to separate the first matching transmission sleeve from the second matching sleeve, the first matching transmission sleeve and the first matching sleeve are in matching transmission, the power output by the second clutch output shaft and the first clutch output shaft is reversed, the first chassis drives the power bottom plate to move downwards simultaneously by driving the straight teeth to be matched with the matching racks, the first chassis drives the sliding matching assembly to slide to the lowest end of the waist groove opening, the first vent pipe is communicated with the feed inlet to discharge waste gas, and the ash discharge port is communicated with the feed pipe to discharge the ash; simultaneously, inner pivot is driving inner spiral antiport, and then realizes the automatic discharge to the ashes that the rubbish that burns produced, and then realizes the dual-purpose function of a pipe of material pipe, adds the ashes that the rubbish that needs to burn and the rubbish that burns of discharging produced promptly.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall view of the present invention;

FIG. 3 is a schematic view of the position of the cutting line of FIG. 1;

FIG. 4 isbase:Sub>A cross-sectional view taken along section A-A of FIG. 3;

FIG. 5 is a cross-sectional view taken along section B-B of FIG. 3;

FIG. 6 is a cross-sectional view taken along section C-C of FIG. 3;

FIG. 7 is a first schematic view of the incinerator assembly of the present invention;

FIG. 8 is a schematic view of the incinerator assembly of the present invention;

FIG. 9 is a first schematic view of the position of the cut line of FIG. 7;

FIG. 10 is a cross-sectional view taken along section D-D of FIG. 9;

FIG. 11 is a partial enlarged view B of FIG. 10;

FIG. 12 is a cross-sectional view taken along section E-E of FIG. 9;

FIG. 13 is a cross-sectional view taken along section F-F of FIG. 9;

FIG. 14 is a second sectional view of FIG. 7;

FIG. 15 is a sectional view taken along section G-G of FIG. 14;

FIG. 16 is a schematic view of a material feeding and ash discharging assembly according to the present invention;

FIG. 17 is a schematic view of the position of the cut line of FIG. 16;

FIG. 18 is a cross-sectional view taken along section I-I of FIG. 17;

FIG. 19 is a partial enlarged view A of FIG. 18;

FIG. 20 is a schematic view of the rotary mounting plate of the present invention;

FIG. 21 is a cross-sectional view taken along section N-N of FIG. 17;

FIG. 22 is a schematic view of the power assembly of the present invention;

FIG. 23 is a schematic view of the position of the cut line of FIG. 22;

FIG. 24 is a cross-sectional view taken along section K-K of FIG. 23;

FIG. 25 is a schematic view of a slip fit assembly of the present invention;

FIG. 26 is a schematic view of the position of the cut line of FIG. 26;

FIG. 27 is a cross-sectional view taken along section M-M of FIG. 26;

the notation in the figure is:

an incinerator assembly 1; an incinerator body 1-1; 1-2 of a rectangular boss; closing the door plates 1-3; hinge terminals 1-4; a terminal slide bar 1-5; 1-6 parts of a slide rod limiting ring; 1-7 of a first sliding ring; 1-8 rectangular matching rods; matching with the racks 1-9; a feeding port is 1-10; 1-11 parts of an ash discharge port; 1-12 parts of a waist groove opening; 1-13 of a positioning clamping groove; positioning a second clamping groove 1-14; 1-15 parts of a first spring; 1-16 of matching gap; sealing plates 1-17; closing the hinged plates 1-18; 1-19 of a first matching boss; 1-20 of a second matched boss; 1-21 parts of ash discharge spiral; ash-removing spiral rotating rods 1-22; the execution cylinders 1-23; a second hinged terminal 1-24; connecting parts 1 to 25; 1-25-1 of polygonal bulges; a limiting ring A1-25-2; 1-25-3 of a circular sliding column; inner end springs A1-25-4; 1-25-5 of a cylindrical sliding cavity; a material feeding and ash discharging component 2; 2-1 of a first underframe; 2-2 parts of a first vertical frame; a material pipe 2-3; 2-4 parts of a first vent pipe; 2-5 parts of a second vent pipe; 2-6 of a fan blade rotating column; connecting the first belt 2-7; 2-8 parts of a rotatable sleeve; connecting belts 2-9; 2-10 of connecting belt wheel; rotating the mounting plate 2-11; 2-12 parts of an inner end clamping rod; the inner end clamping rod pushes a spring I2-13; connecting the bevel gear shaft I2-14; connecting the first bevel gear 2-15; connecting a second bevel gear 2-16; connecting a second bevel gear shaft 2-17; 2-18 of fan blades; inner end clamping grooves A2-19; 2-20 parts of polygonal matching grooves; inner end rotating shafts 2-21; inner end spiral 2-22; drive pulleys 2-23; 2-24 of a positioning sleeve; mounting screws A2-25; positioning clamping rods 2 to 26 at the inner ends; inner end springs B2-27; positioning a clamping groove A2-28; positioning a clamping groove B2-29; 2-30 of arc chutes; a power assembly 3; a power soleplate 3-1; a bottom plate vertical frame 3-2; 3-3 of driving straight teeth; a first clutch output shaft 3-4; 3-5 of a rectangular chute; 3-6 parts of a first clutch disc; 3-7 parts of a second clutch disc; 3-8 parts of a clutch slide bar I; a clutch slide bar push spring I is 3-9; 3-10 of a middle-end rotating column; matching with the transmission bevel gear I for 3-11; matching with a transmission sleeve 3-12; 3-13 of a first matching bracket; actuating cylinders two 3-14; the first execution motor is 3-15; driving the bevel gear I by 3-16; 3-17 of a second matching transmission bevel gear; matching the first sleeve 3-18; a second clutch sliding rod 3-19; a second clutch slide rod push spring is 3-20; 3-21 parts of a clutch disc III; clutch plates four 3-22; a second clutch output shaft 3-23; a second matching sleeve 3-24; a slip fit assembly 4; mounting plate 4-1; connecting a sleeve 4-2; positioning a slide bar 4-3; and 4-4 of a positioning slide rod push spring.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

As shown in fig. 1-6, an environment-friendly waste incineration device comprises an incinerator assembly 1, a feeding ash discharge assembly 2, a power assembly 3 and a sliding fit assembly 4, wherein the incinerator assembly 1 is connected with the feeding ash discharge assembly 2, the feeding ash discharge assembly 2 is connected with the power assembly 3, the power assembly 3 is connected with the incinerator assembly 1, and the sliding fit assembly 4 is connected with the incinerator assembly 1 and the feeding ash discharge assembly 2.

Example 2

As shown in figures 7-15, the incinerator component 1 comprises an incinerator body 1-1, rectangular bosses 1-2, closed door plates 1-3, hinged terminals 1-4, terminal slide bars 1-5, slide bar limiting rings 1-6, slide rings 1-7, rectangular matching bars 1-8, matching racks 1-9, material inlets 1-10, ash discharge ports 1-11, waist groove openings 1-12, positioning clamping grooves 1-13, positioning clamping grooves two 1-14, springs 1-15, matching notches 1-16, sealing plates 1-17, closed hinged plates 1-18, matching bosses 1-19, matching bosses two 1-20, ash discharge screws 1-21, ash discharge screw rotating bars 1-22, actuating cylinders 1-23 and hinged terminals two 1-24, the incinerator body 1-1 is fixedly connected with a rectangular boss 1-2, a closed door panel 1-3 is hinged and matched with the rectangular boss 1-2, a hinged terminal 1-4 is hinged and installed on the rectangular boss 1-2, the hinged terminal 1-4 is fixedly installed at one end of a terminal sliding rod 1-5, the other end of the terminal sliding rod 1-5 is fixedly installed on a sliding rod limiting ring 1-6, a sliding ring 1-7 is slidably installed on the terminal sliding rod 1-5, a spring 1-15 is sleeved on the terminal sliding rod 1-5, the spring 1-15 is arranged between the sliding ring 1-7 and the sliding rod limiting ring 1-6, a matching notch 1-16 is formed in the closed door panel 1-3, and the matching notch 1-16 is matched and connected with the terminal sliding rod 1-5, the rectangular matching rod 1-8 is fixedly arranged on the incinerator body 1-1, the rectangular matching rod 1-8 is fixedly connected with a matching rack 1-9, and the feeding port 1-10 and the ash discharging port 1-11 are simultaneously arranged on the rectangular matching rod 1-8.

Wherein, the opening 1-12 of the waist slot is opened on the rectangular matching rod 1-8, the inner end of the opening 1-12 of the waist slot is opened with a first positioning slot 1-13 and a second positioning slot 1-14, the sealing plate 1-17 is fixedly arranged on the incinerator body 1-1, the first matching boss 1-19 is fixedly arranged on the inner end of the incinerator body 1-1, the first matching boss 1-19 is hinged with a closed hinged plate 1-18, the closed hinged plate 1-18 is hinged with a second hinged terminal 1-24, the second hinged terminal 1-24 is fixedly arranged on the output shaft of the actuating cylinder 1-23, the actuating cylinder 1-23 is hinged on the inner end of the incinerator body 1-1, the second matching boss 1-20 is fixedly arranged on the inner end of the incinerator body 1-1, the ash discharge spiral rod 1-22 is rotatably arranged on the incinerator body 1-1, the ash discharge spiral 1-21 is fixedly arranged on the ash discharge spiral rod 1-22, the rectangular ash discharge component 2 is arranged to add the incinerator body 1-1 through the material inlet 1-10, the door plate 1-3 is pushed by hand to be matched with the door plate 1-3, and the door plate 1-3 is pulled again to be matched with the closed boss 1-1, the door plate 1-1, and the door plate 2 is pulled again to be matched with the closed boss 2, and the combustion-1-16, meanwhile, under the pushing of the elastic force of the first spring 1-15, the first sliding ring 1-7 is attached to the closed door plate 1-3 in a closed mode, a lighting device in the incinerator body 1-1 is started, garbage in the incinerator body 1-1 is ignited, the garbage is burnt, when the garbage is burnt to form ash, the execution air cylinder 1-23 is started, the execution air cylinder 1-23 drives the hinged terminals 1-24 to move, the hinged terminals 1-24 drive the closed hinged plates 1-18 to move, the ash formed by the burnt garbage on the closed hinged plates 1-18 falls onto the matched bosses 1-20, the ash discharging spiral rotating rods 1-22 are driven to rotate by the feeding and ash discharging component 2, the ash discharging spiral rods 1-21 are driven to rotate by the ash discharging spiral rods 1-22, and the ash formed by the ash discharging spiral rods 1-21 acts on the ash formed by the burnt garbage, and the ash formed by the burnt garbage is discharged through the ash discharging ports 1-11; when ash formed by burning garbage is discharged, the material inlet 1-10 becomes an exhaust port, and the waste gas is discharged through the material inlet and ash discharge assembly 2.

The first matching bosses 1-19 are provided with inclined planes A, and the second matching bosses 1-20 are provided with rectangular grooves.

The ash discharge screw 1-21 is arranged in the rectangular groove, and the rectangular groove is flush with the ash discharge port 1-11.

The incinerator component 1 further comprises a connecting part 1-25, the connecting part 1-25 comprises polygonal protrusions 1-25-1, a limiting ring A1-25-2, a circular sliding column 1-25-3, an inner end spring A1-25-4 and a cylindrical sliding cavity 1-25-5, the cylindrical sliding cavity 1-25-5 is formed in an ash discharge spiral rotating rod 1-22, the circular sliding column 1-25-3 is installed at the inner end of the cylindrical sliding cavity 1-25-5 in a sliding mode, the inner end spring A1-25-4 is arranged between the circular sliding column 1-25-3 and the cylindrical sliding cavity 1-25-5, the limiting ring A1-25-2 is fixedly installed at the inner end of the cylindrical sliding cavity 1-25-5, the polygonal protrusions 1-25-1 are installed on the limiting ring A1-25-2 in a sliding fit mode, and the polygonal protrusions 1-25-1 are fixedly connected with the circular sliding column 1-25-3.

Example 3

As shown in fig. 16-21, the material feeding and ash discharging component 2 comprises a first underframe 2-1, a first vertical frame 2-2, a material pipe 2-3, a first vent pipe 2-4, a second vent pipe 2-5, a fan blade rotary column 2-6, a first connecting belt 2-7, a rotatable sleeve 2-8, a connecting belt 2-9, a connecting belt wheel 2-10, a rotatable mounting plate 2-11, a first inner end clamping rod 2-12, a first inner end clamping rod push spring 2-13, a first connecting bevel gear shaft 2-14, a first connecting bevel gear 2-15, a second connecting bevel gear 2-16, a second connecting bevel gear shaft 2-17, a fan blade 2-18, an inner end clamping groove A2-19, a polygonal matching groove 2-20, an inner end rotary shaft 2-21, an inner end spiral 2-22, a driving belt wheel 2-23, a positioning sleeve 2-24, a mounting screw A2-25, an inner end positioning clamping rod 2-26, an inner end clamping groove spring B2-27, a positioning clamping groove A2-28, a positioning clamping groove B2-29 and an arc chute 2-30, the base frame I2-1 is fixedly connected with a vertical frame I2-2, the vertical frame I2-2 is fixedly provided with a material pipe 2-3, the material pipe 2-3 is rotatably provided with a rotatable sleeve 2-8, the rotatable sleeve 2-8 is provided with a positioning sleeve 2-24, the positioning sleeve 2-24 is provided with a mounting screw A2-25 by screw thread, the inner end of the positioning sleeve 2-24 is slidably provided with an inner end positioning clamping rod 2-26, an inner end spring B2-27 is arranged between the inner end positioning clamping rod 2-26 and the mounting screw A2-25, an arc-shaped chute 2-30 is arranged on the rotatable sleeve 2-8, a positioning clamping groove A2-28 and a positioning clamping groove B2-29 are arranged at the inner end of the arc-shaped chute 2-30, an inner end positioning clamping rod 2-26 is matched and connected with the positioning clamping groove A2-28 or the positioning clamping groove B2-29, a first vent pipe 2-4 is fixedly arranged on the first vertical frame 2-2, a second vent pipe 2-5 is fixedly arranged on the first vent pipe 2-4 and communicated with the first vent pipe 2-5, the first vent pipe 2-4 is rotatably arranged with one end of a fan blade rotating column 2-6, the other end of the fan blade rotating column 2-6 is rotatably connected with a rotating mounting plate 2-11, an inner end clamping rod 2-12 is slidably arranged on a connecting belt wheel 2-10, and an inner end clamping rod push spring 2-13 is arranged between the inner end clamping rod 2-12 and the connecting belt wheel 2-10, the rotary mounting plate 2-11 is rotatably mounted on the first vent pipe 2-4, the rotary mounting plate 2-11 is provided with a plurality of inner end clamping grooves A2-19, inner end clamping rods A2-12 are matched and connected with the inner end clamping grooves A2-19, the rotary mounting plate 2-11 is fixedly connected with the fan blade rotary column 2-6, she Zhuaizhu 2-6 is rotatably connected with one end of a connecting conical gear shaft I2-14, the other end of the connecting conical gear shaft I2-14 is fixedly provided with a connecting conical gear I2-15, the connecting conical gear I2-15 is in meshing transmission with a connecting conical gear II 2-16, the connecting conical gear II 2-16 is fixedly mounted at one end of the connecting conical gear shaft II 2-17, the other end of the connecting conical gear shaft II 2-17 is fixedly provided with fan blades 2-18, the connecting conical gear shaft II 2-17 is rotatably connected with the rotary column 2-6, a connecting conical tooth shaft I2-14 is fixedly connected with a connecting belt wheel 2-10, an inner end rotating shaft 2-21 is rotatably arranged on a material pipe 2-3, a polygonal matching groove 2-20 is formed in the inner end rotating shaft 2-21, the polygonal matching groove 2-20 is matched with or connected with a polygonal bulge 1-25-1, an inner end screw 2-22 is fixedly connected with the inner end rotating shaft 2-21, a driving belt wheel 2-23 is fixedly arranged on the inner end rotating shaft 2-21, a connecting belt I2-7 is arranged between the driving belt wheel 2-23 and the connecting belt wheel 2-10 in a matching way, a stand I2-2 is in sliding fit with a rectangular matching rod 1-8, the arrangement is such that when garbage to be incinerated is required to be added into an incinerator assembly 1, the material pipe 2-3 is initially positioned to be communicated with the material inlet 1-10, the power assembly 3 drives the inner end rotating shaft 2-21 to rotate through the connecting belt 2-9, the inner end screw 2-22 is driven to rotate through the inner end rotating shaft 2-21, and the garbage to be incinerated is further fed into the incinerator assembly 1-10 through the incinerator assembly 1-10; when the garbage to be incinerated in the incinerator component 1 is finished, the power component 3 drives the material feeding and ash discharging component 2 to move downwards to a position where the material pipe 2-3 is communicated with the ash discharging port 1-11, meanwhile, the vent pipe I2-4 is communicated with the material feeding port 1-10, at the moment, the power component 3 reversely drives the connecting belt 2-9 to move, the connecting belt 2-9 drives the inner end rotating shaft 2-21 to reversely rotate, the polygonal matching groove 2-20 is matched and connected with the polygonal bulge 1-25-1, the inner end rotating shaft 2-21 drives the ash discharging spiral rotating rod 1-22 to rotate, the ash discharging spiral rod 1-21 is driven by the ash discharging spiral rod 1-22 to move, and the inner end spiral 2-22 is matched to discharge ash; meanwhile, when garbage to be incinerated needs to be added, the inner end positioning clamping rods 2-26 are connected with the positioning clamping grooves A2-28 in a matched mode, when ash needs to be discharged, the rotatable sleeve 2-8 is rotated manually, the inner end positioning clamping rods 2-26 are separated from the positioning clamping grooves A2-28, the inner end positioning clamping rods 2-26 are matched with the positioning clamping grooves B2-29, the openings of the rotatable sleeve 2-8 face downwards, and the ash is convenient to discharge; meanwhile, when the inner end rotating shaft 2-21 rotates to drive the belt wheel 2-23 to move, the connecting belt wheel 2-10 is driven to move through the connecting belt I2-7, the connecting conical tooth shaft II 2-17 is driven to move through the fan blade rotating column 2-6, the connecting conical tooth shaft II 2-17 is driven to move through the connecting conical tooth shaft II 2-17, the fan blade 2-18 is driven to move through the connecting conical tooth shaft II 2-17, air in the vent pipe I2-4 is driven to flow through the fan blade 2-18, waste gas generated by burning in the incinerator component 1 is discharged through the vent pipe II 2-5, and the vent pipe II 2-5 is externally connected with a waste gas treatment device, so that the waste gas generated by burning is treated; meanwhile, the connecting belt wheels 2-10 and the rotating mounting plates 2-11 rotate relatively to drive the connecting bevel gear shafts 2-14 to rotate, the connecting bevel gears 2-15 are driven to move through the connecting bevel gear shafts 2-14, the connecting bevel gears 2-15 are meshed with the connecting bevel gears 2-16 for transmission, the fan blades 2-18 are driven to move through the connecting bevel gear shafts 2-17, the inclination degree of the fan blades 2-18 is further enabled, the speed of air flow driven by the fan blades 2-18 is further enabled to change, and the exhaust speed of waste gas is further enabled to change.

Example 4

As shown in figures 22-24, the power assembly 3 comprises a power bottom plate 3-1, a bottom plate vertical frame 3-2, a driving straight tooth 3-3, a clutch output shaft I3-4, a rectangular chute 3-5, a clutch disc I3-6, a clutch disc II 3-7, a clutch slide rod I3-8, a clutch slide rod push spring I3-9, a middle end rotary column 3-10, a matching transmission bevel gear I3-11, a matching transmission sleeve 3-12, a matching support I3-13, an execution cylinder II 3-14, an execution motor I3-15, a driving bevel gear I3-16, a matching transmission bevel gear II 3-17, a matching sleeve I3-18, a clutch slide rod II 3-19, a clutch slide rod push spring II 3-20, a clutch disc III 3-21, a clutch disc IV 3-22, a clutch output shaft II 3-23 and a matching sleeve II 3-24, wherein the bottom plate vertical frame 3-2 is fixedly arranged on the power bottom plate 3-1, the clutch output shaft I3-4 is rotatably arranged on the power bottom plate I3-1, the clutch output shaft I3-4 is rotatably arranged on the power bottom plate 3-1, one end of the clutch disc I3-4, one is fixedly arranged on the clutch slide rod I3-1, the clutch disc I3-4, one end of the clutch disc I3-7 is fixedly arranged on the clutch slide rod I3-8, the clutch slide rod I3-8 is connected with the clutch disc II 3-8, the clutch slide rod I3-8, the clutch disc II 3-8 is connected with the clutch slide rod I3-8, a clutch slide rod I3-7 is connected with the clutch disc II 3-7, a clutch slide rod I3-8, a clutch slide rod I3-8, a clutch disc II 3-7 is connected with the clutch slide rod II 3-8, a clutch disc II 3-8-6 is arranged on the clutch slide rod I3-6, the other end of the middle-end rotary column 3-10 is fixedly provided with a clutch slide bar II 3-19, the clutch slide bar II 3-19 is sleeved with a clutch slide bar push spring II 3-20, the clutch slide bar II 3-19 is provided with a clutch disc III 3-21 in a sliding manner, the clutch disc III 3-21 is provided with a clutch disc IV 3-22 in a matching manner, the clutch disc IV 3-22 is fixedly provided with a clutch output shaft II 3-23, the clutch output shaft II 3-23 is rotatably arranged on the power bottom plate 3-1, the middle-end rotary column 3-10 is simultaneously and rotatably provided with a matching transmission bevel gear I3-11 and a matching transmission bevel gear II 3-17, the matching transmission bevel gear II 3-17 is fixedly provided with a matching sleeve I3-18, the matching sleeve II 3-24 is fixedly arranged on the transmission bevel gear I3-11, the matching transmission sleeve II 3-12 is slidably matched and arranged on the middle-end rotary column 3-10, the matching transmission sleeve I3-12 is rotatably matched with the matching support I3-13, the matching support I3-13 is slidably arranged in the rectangular transmission chute 3-5, the matching with the transmission bevel gear II 3-13, the transmission bevel gear I3-14 is arranged on the transmission bevel gear executing frame I3-14, the transmission bevel gear executing frame I3-15 is matched with the executing motor I3-13, the executing cylinder I3-17, the driving straight teeth 3-3 are in meshed transmission with the matching racks 1-9, the power bottom plate 3-1 is fixedly connected with the first underframe 2-1, the second clutch output shaft 3-23 is in matched connection with the connecting belt 2-9, the arrangement is such that when garbage to be incinerated needs to be added into the device, the first execution motor 3-15 is started, the first driving bevel teeth 3-16 are driven to rotate through the first execution motor 3-15, the second matching transmission bevel teeth 3-17 are driven to rotate through the first driving bevel teeth 3-16, the second execution cylinder 3-14 drives the first matching support 3-13 to enable the second matching transmission sleeve 3-12 to be in matched transmission with the second matching sleeve 3-24, the second matching transmission sleeve 3-24 is driven to move, the middle end rotary column 3-10 is driven to rotate through the second matching transmission sleeve 3-12, the second clutch slide rod 3-19 is driven to rotate through the middle end rotary column 3-10, the second clutch disc 3-19 is driven to rotate through the second clutch disc 3-19, the third clutch disc 3-21 is driven to drive the fourth clutch disc 3-21 to drive the fourth clutch disc 3-22 to drive the second clutch output shaft 3-22 to rotate, the belt 22, and the ash-2-3-23 is driven to rotate, the ash to transport to the ash to the second row 2 row to transport through the connecting belt, and the ash row 2-3-22; at the moment, under the matching of the driving straight teeth 3-3 and the matching racks 1-9, the first underframe 2-1 drives the sliding matching component 4 to slide to the uppermost end of the waist groove opening 1-12; when ash needs to be discharged, the first matching support 3-13 is driven by the second actuating cylinder 3-14, the second matching transmission sleeve 3-12 is driven to be separated from the second matching sleeve 3-24, the first matching transmission sleeve 3-12 is driven to be matched with the first matching sleeve 3-18, the power output by the second clutch output shaft 3-23 and the first clutch output shaft 3-4 is reversed, the first chassis 2-1 drives the power bottom plate 3-1 to move downwards simultaneously by driving the straight teeth 3-3 to be matched with the matching racks 1-9, the first chassis 2-1 drives the sliding matching assembly 4 to slide to the lowest end of the waist groove opening 1-12, at the moment, the first vent pipe 2-4 is communicated with the feed inlet 1-10 to discharge waste gas, and the ash discharge port 1-11 is communicated with the feed pipe 2-3 to discharge ash; meanwhile, the inner end rotating shaft 2-21 drives the inner end screw 2-22 to rotate reversely, so that the ash generated by burning the garbage is automatically discharged, and the function of one pipe of the material pipe 2-3 for two purposes, namely adding the garbage to be burned and discharging the ash generated by burning the garbage, is realized.

Example 5

As shown in fig. 25 to 27, the sliding fit assembly 4 includes a mounting plate 4-1, a connecting sleeve 4-2, a positioning slide bar 4-3 and a positioning slide bar push spring 4-4, the mounting plate 4-1 is fixedly mounted with the connecting sleeve 4-2, the inner end of the connecting sleeve 4-2 is slidably mounted with the positioning slide bar 4-3, the positioning slide bar push spring 4-4 is disposed between the positioning slide bar 4-3 and the connecting sleeve 4-2, the mounting plate 4-1 is fixedly connected with the first chassis 2-1, the connecting sleeve 4-2 is slidably mounted in the waist slot opening 1-12, and the positioning slide bar 4-3 is connected with the first positioning slot 1-13 or the second positioning slot 1-14 in a matching manner.

It is to be understood that the present invention has been described with reference to certain embodiments and that various changes in form and details may be made therein by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. The utility model provides an environment-friendly waste incineration device, its characterized in that, includes incinerator subassembly (1), pan feeding ash discharge assembly (2), power component (3) and sliding fit subassembly (4), incinerator subassembly (1) is connected with pan feeding ash discharge assembly (2), and pan feeding ash discharge assembly (2) is connected with power component (3), and power component (3) are connected with incinerator subassembly (1), and sliding fit subassembly (4) are connected with incinerator subassembly (1) and pan feeding ash discharge assembly (2).

2. The environment-friendly garbage incineration device according to claim 1, wherein the incinerator assembly (1) comprises an incinerator body (1-1), a rectangular boss (1-2), a closed door panel (1-3), a hinged terminal (1-4), a terminal slide bar (1-5), a slide bar limiting ring I (1-6), a slide ring I (1-7), a rectangular matching bar (1-8), a matching rack bar (1-9), a feeding port (1-10), an ash discharge port (1-11), a waist groove opening (1-12), a positioning clamping groove I (1-13), a positioning clamping groove II (1-14), a spring I (1-15), a matching notch (1-16), a sealing plate (1-17), a closed hinge plate (1-18), a matching boss I (1-19), a matching boss II (1-20), an ash discharge spiral (1-21), an incinerator ash discharge spiral rotating bar (1-22), an execution cylinder (1-23) and a hinged terminal II (1-24), wherein the door panel (1-2) is fixedly connected with the door panel (1-3), and the hinged terminal (1-2) is connected with the rectangular boss (1-15), the hinged terminal (1-4) is hinged to the rectangular boss (1-2), the hinged terminal (1-4) is fixedly mounted at one end of the terminal sliding rod (1-5), the other end of the terminal sliding rod (1-5) is fixedly mounted on a sliding rod limiting ring I (1-6), the sliding ring I (1-7) is slidably mounted on the terminal sliding rod (1-5), a spring I (1-15) is sleeved on the terminal sliding rod (1-5), the spring I (1-15) is arranged between the sliding ring I (1-7) and the sliding rod limiting ring I (1-6), a matching notch (1-16) is formed in the closed door plate (1-3), the matching notch (1-16) is connected with the terminal sliding rod (1-5) in a matching mode, the rectangular matching rod (1-8) is fixedly mounted on the incinerator body (1-1), a matching rack (1-9) is fixedly connected to the rectangular matching rod (1-8), and the material inlet (1-10) and the ash discharge port (1-11) are simultaneously matched with the rectangular matching rod (1-8).

3. The environment-friendly garbage incineration device according to claim 2, wherein the waist slot openings (1-12) are formed in rectangular matching rods (1-8), the inner ends of the waist slot openings (1-12) are provided with first positioning clamping grooves (1-13) and second positioning clamping grooves (1-14), the sealing plates (1-17) are fixedly mounted on the incinerator body (1-1), the first matching bosses (1-19) are fixedly mounted at the inner end of the incinerator body (1-1), the first matching bosses (1-19) are hinged with closed hinge plates (1-18), the closed hinge terminals (1-18) are hinged with second hinged terminals (1-24), the second hinged terminals (1-24) are fixedly mounted on output shafts of the actuating cylinders (1-23), the actuating cylinders (1-23) are hinged with the inner end of the incinerator body (1-1), the second matching bosses (1-20) are fixedly mounted at the inner end of the incinerator body (1-1), the ash discharge rotary rods (1-22) are rotatably mounted on the incinerator body (1-1), and the ash discharge rotary rods (1-22) are fixedly mounted on the spiral ash discharge rods (1-1).

4. The environment-friendly garbage incineration device according to claim 2, wherein the incinerator assembly (1) further comprises a connecting part (1-25), the connecting part (1-25) comprises a polygonal protrusion (1-25-1), a limiting ring A (1-25-2), a circular sliding column (1-25-3), an inner end spring A (1-25-4) and a cylindrical sliding cavity (1-25-5), the cylindrical sliding cavity (1-25-5) is arranged on the ash discharge spiral rotating rod (1-22), the circular sliding column (1-25-3) is slidably mounted at the inner end of the cylindrical sliding cavity (1-25-5), the inner end spring A (1-25-4) is arranged between the circular sliding column (1-25-3) and the cylindrical sliding cavity (1-25-5), the limiting ring A (1-25-2) is fixedly mounted at the inner end of the cylindrical sliding cavity (1-25-5), the polygonal protrusion (1-25-1) is slidably mounted on the limiting ring A (1-25-2), and the polygonal protrusion (1-25-3) is fixedly connected with the polygonal protrusion (1-25-5).

5. The environment-friendly waste incineration device as claimed in claim 1, wherein the feeding and ash discharging assembly (2) comprises a first underframe (2-1), a first vertical frame (2-2), a material pipe (2-3), a first vent pipe (2-4), a second vent pipe (2-5), a fan blade rotating column (2-6), a first connecting belt (2-7), a rotatable sleeve (2-8), a connecting belt (2-9), a connecting belt wheel (2-10), a rotating mounting plate (2-11), a first inner end clamping rod (2-12), a first inner end clamping rod pushing spring (2-13), a first connecting bevel gear shaft (2-14), a first connecting bevel gear (2-15), a second connecting bevel gear (2-16), a second connecting bevel gear shaft (2-17), a fan blade (2-18), an inner end A (2-19), a polygonal matching groove (2-20), an inner end rotating shaft (2-21), a spiral clamping groove (2-22), a driving belt wheel (2-23), a positioning sleeve (2-24), a mounting positioning screw (2-25), a positioning screw (2-26), a positioning screw (26-7), a positioning screw (2-14), a positioning screw) and a positioning screw (2-13), the air ventilation pipe type air conditioner comprises an arc-shaped chute (2-30), a first vertical frame (2-2) is fixedly connected to a first underframe (2-1), a material pipe (2-3) is fixedly installed on the first vertical frame (2-2), a rotatable sleeve (2-8) is rotatably installed on the material pipe (2-3), a positioning sleeve (2-24) is installed on the rotatable sleeve (2-8), a mounting screw A (2-25) is installed on the positioning sleeve (2-24) in a threaded manner, an inner end positioning clamping rod (2-26) is slidably installed at the inner end of the positioning sleeve (2-24), an inner end spring B (2-27) is arranged between the inner end positioning clamping rod (2-26) and the mounting screw A (2-25), the arc-shaped chute (2-30) is formed in the rotatable sleeve (2-8), a positioning clamping groove A (2-28) and a positioning clamping groove B (2-29) are simultaneously formed in the inner end of the arc-shaped chute (2-30), a positioning clamping groove A (2-28) and a positioning clamping groove B (2-29) are fixedly connected with a positioning clamping groove A (2-28) or a positioning clamping groove B (2-29), a first ventilation pipe (4-5) is fixedly installed on the first vertical frame (2-2), a first ventilating pipe (2-4) is rotatably installed at one end of a fan blade rotating column (2-6), the other end of the fan blade rotating column (2-6) is rotatably connected with a rotating installation plate (2-11), a first inner end clamping rod (2-12) is slidably installed on a connecting belt wheel (2-10), a first inner end clamping rod push spring (2-13) is arranged between the first inner end clamping rod (2-12) and the connecting belt wheel (2-10), the rotating installation plate (2-11) is rotatably installed on the first ventilating pipe (2-4), a plurality of first inner end clamping grooves A (2-19) are formed in the rotating installation plate (2-11), the first inner end clamping rod (2-12) is in matched connection with the first inner end clamping grooves A (2-19), the rotating installation plate (2-11) is fixedly connected with the fan blade rotating column (2-6), she Zhuaizhu (2-6) is rotatably connected with one end of a connecting conical gear shaft (2-14), a first connecting conical gear (2-15) is fixedly installed at the other end of the connecting conical gear shaft (2-14), a second conical gear (16-17) is fixedly installed on a second conical gear shaft (2-15), the connecting bevel gear shaft II (2-17) is rotatably connected with the fan blade rotating column (2-6), the connecting bevel gear shaft I (2-14) is fixedly connected with the connecting belt wheel (2-10), the inner end rotating shaft (2-21) is rotatably installed on the material pipe (2-3), a polygonal matching groove (2-20) is formed in the inner end rotating shaft (2-21), the polygonal matching groove (2-20) is matched and connected with the polygonal protrusion (1-25-1), the inner end spiral (2-22) is fixedly connected with the inner end rotating shaft (2-21), a driving belt wheel (2-23) is fixedly installed on the inner end rotating shaft (2-21), a connecting belt I (2-7) is installed between the driving belt wheel (2-23) and the connecting belt wheel (2-10) in a matching mode, and the vertical frame I (2-2) is in sliding fit with the rectangular matching rod (1-8).

6. The environment-friendly garbage incineration device as claimed in claim 1, wherein the power assembly (3) comprises a power bottom plate (3-1), a bottom plate vertical frame (3-2), a driving straight tooth (3-3), a first clutch output shaft (3-4), a rectangular sliding chute (3-5), a first clutch disc (3-6), a second clutch disc (3-7), a first clutch sliding rod (3-8), a first clutch sliding rod push spring (3-9), a middle end rotating column (3-10), a first matching transmission bevel gear (3-11), a first matching transmission sleeve (3-12), a first matching support (3-13), a second execution cylinder (3-14), a first execution motor (3-15), a first driving bevel gear (3-16), a second matching transmission bevel gear (3-17), a first matching sleeve (3-18), a second clutch sliding rod (3-19), a second clutch sliding rod push spring (3-20), a third clutch disc (3-21), a fourth clutch disc output shaft (3-22), a second clutch sliding rod (3-23) and a second matching sleeve (3-24), wherein the first matching sleeve (3-24) is fixedly mounted on the power bottom plate (3-1), and the power output shaft (3-1) is fixedly mounted on the power bottom plate (3-1), one end of a first clutch output shaft (3-4) is fixedly installed on a first driving straight tooth (3-3), the other end of the first clutch output shaft (3-4) is fixedly installed on a first clutch disc (3-6), the first clutch disc (3-6) is connected with a second clutch disc (3-7) in a matched mode, the second clutch disc (3-7) is connected with a first clutch slide bar (3-8) in a sliding mode, a first clutch slide bar push spring (3-9) is sleeved on the first clutch slide bar (3-8), the first clutch slide bar (3-8) is rotatably installed on a power bottom plate (3-1), the first clutch slide bar (3-8) is fixedly installed at one end of a middle end rotary column (3-10), the second clutch slide bar (3-19) is fixedly installed at the other end of the middle end rotary column (3-10), a second clutch slide bar (3-19) is sleeved with a second clutch slide bar push spring (3-20), a third clutch disc (3-21) is slidably installed on the second clutch slide bar (3-19), a third clutch disc (3-21) is fixedly installed on a fourth clutch disc (22) in a matched mode, a fourth clutch disc (3-22) is installed on a fourth clutch output shaft (3-19), a fourth clutch disc (3-23) is installed on a fixed transmission shaft (3-23), a second clutch output shaft (3-23) is installed on a rotary column (3-10), and a rotary transmission base plate (3-23) at the other end of the same time, a rotary transmission shaft (3-23) is installed on a rotary transmission shaft, and a second clutch disc (3-23) is installed on a transmission shaft (3-23) and a transmission shaft (3-23) is installed on a transmission base plate (3-23), and a transmission shaft (3-10), and a transmission shaft (3-23) at the other end of the transmission -11) and a second matching transmission bevel gear (3-17), a first matching sleeve (3-18) is fixedly arranged on the second matching transmission bevel gear (3-17), a second matching sleeve (3-24) is fixedly arranged on the first transmission bevel gear (3-11), the matching transmission sleeve (3-12) is arranged on the middle rotating column (3-10) in a sliding fit manner, the matching transmission sleeve (3-12) is in a rotating fit with the first matching support (3-13), the first matching support (3-13) is arranged in the rectangular sliding chute (3-5) in a sliding fit manner, the first matching support (3-13) is arranged on an output shaft of the second execution cylinder (3-14), the second execution cylinder (3-14) is arranged on the vertical base plate (3-2), the first execution motor (3-15) is arranged on the power base plate (3-1), an output shaft of the first execution motor (3-15) is fixedly arranged on the first driving bevel gear (3-16), the first driving bevel gear (3-16) is simultaneously matched with the second matching transmission bevel gear (3-17) and the first transmission bevel gear (3-1) to be meshed with the transmission sleeve (3-12), or the straight transmission sleeve (3-12) is matched with the driving straight transmission bevel gear (3-14), the power bottom plate (3-1) is fixedly connected with the first underframe (2-1), and the second clutch output shaft (3-23) is connected with the connecting belt (2-9) in a matching way.

7. The environment-friendly waste incineration device according to claim 1, wherein the sliding fit assembly (4) comprises a mounting plate (4-1), a connecting sleeve (4-2), a positioning slide rod (4-3) and a positioning slide rod push spring (4-4), the connecting sleeve (4-2) is fixedly mounted on the mounting plate (4-1), the positioning slide rod (4-3) is slidably mounted at the inner end of the connecting sleeve (4-2), the positioning slide rod push spring (4-4) is arranged between the positioning slide rod (4-3) and the connecting sleeve (4-2), the mounting plate (4-1) is fixedly connected with the first chassis (2-1), the connecting sleeve (4-2) is slidably mounted in the waist groove opening (1-12), and the positioning slide rod (4-3) is connected with the first positioning clamping groove (1-13) or the second positioning clamping groove (1-14) in a matching manner.

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