阅读说明：本技术 一种垃圾焚烧炉 (Garbage incinerator ) 是由 林淑花 于 2021-01-19 设计创作，主要内容包括：本发明公开了一种垃圾焚烧炉,其结构包括：排气弯管、法兰短套筒、压流排气阀罐、梯形罩台槽、焚烧炉槽、翻盖门板,本发明实现了运用压流排气阀罐与梯形罩台槽相配合,通过压盖板座在梯形壳罩的顶部通气给甬道槽座与阀罐壳体,再通过排气弯管端对接法兰短套筒和提气框筒座操作,保障轮压条带架压流防焦油粘结高效,且粘结量配合气动冲刷形成压流旋桨盘与传送带联动沉降焦油流体的操作效果,提升下料补给充分焚烧的效率,也保障液态与固态混合降解度高,提升气体外排卸荷焚烧炉槽的缸压,提升垃圾处理的高效性和高低位密度承接沉降与外排的均分度。(The invention discloses a garbage incinerator, the structure of which comprises: the invention realizes the matching of the pressure flow exhaust valve tank and the trapezoidal cover table groove, the ventilation of a channel groove seat and a valve tank shell is realized at the top of the trapezoidal shell cover through a gland plate seat, and the operation of connecting the flange short sleeve and a gas lifting frame cylinder seat is realized through the end of the exhaust elbow, so that the pressure flow of a wheel pressure strip frame is ensured to prevent tar from being bonded with high efficiency, the bonding quantity is matched with pneumatic scouring to form the operation effect of linkage sedimentation of a pressure flow propeller disc and a conveyor belt and tar fluid, the efficiency of fully incinerating the blanking is improved, the high degradation degree of liquid and solid mixing is also ensured, the cylinder pressure of a gas discharging unloading incinerator groove is improved, and the high efficiency of garbage treatment and the uniform degree of high-low bit density carrying sedimentation and discharging are improved.)

1. A garbage incinerator structurally comprises: exhaust return bend (1), flange short sleeve (2), pressure flow exhaust valve jar (3), trapezoidal cover platform groove (4), incinerator groove (5), flip door plant (6), its characterized in that:

the pressure flow exhaust valve tank (3) is nested in the upper right corner of the trapezoid cover platform groove (4), the incinerator groove (5) is mechanically connected with the flip door panel (6) through a hinge, the trapezoid cover platform groove (4) is nested on the top of the incinerator groove (5), the exhaust elbow (1) is inserted on the top of the flange short sleeve (2), and the flange short sleeve (2) is nested on the top of the pressure flow exhaust valve tank (3);

the pressure flow exhaust valve tank (3) is provided with a wheel pressure belt rack (3A), a gas extraction frame cylinder seat (3B), a channel groove seat (3C) and a valve tank shell (3D);

wheel pressure strip frame (3A) is installed between two gas-lifting frame barrel bases (3B), wheel pressure strip frame (3A) is inserted and is inlayed in the inside of valve jar casing (3D), gas-lifting frame barrel bases (3B) are equipped with two and insert respectively and inlay the left and right sides at valve jar casing (3D), channel groove seat (3C) nest is under the bottom of valve jar casing (3D), valve jar casing (3D) nest in the upper right corner of trapezoidal cover bench groove (4).

2. A waste incinerator according to claim 1 wherein: the wheel-pressing strip rack (3A) is composed of a pressure-flow propeller disc (3A1), a conveyor belt (3A2) and a shaft wheel disc rack (3A3), wherein the pressure-flow propeller disc (3A1) is mechanically connected with the conveyor belt (3A2), and the conveyor belt (3A2) is mechanically connected with the shaft wheel disc rack (3A 3).

3. A waste incinerator according to claim 2 wherein: the pressure flow propeller disc (3A1) is composed of a propeller frame plate (3A11), a pressure flow valve block (3A12) and a disc body (3A13), the propeller frame plate (3A11) and the pressure flow valve block (3A12) are buckled together, and the pressure flow valve block (3A12) is matched with the disc body (3A 13).

4. A waste incinerator according to claim 1 wherein: the gas lifting frame cylinder seat (3B) is composed of a frame cylinder groove (3B1) and a transverse plate seat (3B2), the frame cylinder groove (3B1) is installed on the top of the transverse plate seat (3B2), and the frame cylinder groove (3B1) and the transverse plate seat (3B2) are tightly attached together.

5. A waste incinerator according to claim 4 wherein: frame barrel groove (3B1) comprise sacculus post (3B11), ellipsoid gas carrying cylinder (3B12), frame cell body (3B13), sacculus post (3B11) are installed in the inside of ellipsoid gas carrying cylinder (3B12), ellipsoid gas carrying cylinder (3B12) and frame cell body (3B13) nestification are as an organic whole.

6. A waste incinerator according to claim 1 wherein: the flange short sleeve (2) is composed of a flange plate groove (21) and a short cylinder groove (22), and the short cylinder groove (22) vertically penetrates through the inside of the flange plate groove (21).

7. A waste incinerator according to claim 6 wherein: the flange plate groove (21) is composed of a spring wire frame (211) and a traction plate ring groove (212), the spring wire frame (211) is installed inside the traction plate ring groove (212), and the spring wire frame (211) is mechanically connected with the traction plate ring groove (212).

8. A waste incinerator according to claim 1 wherein: trapezoidal cover platform groove (4) comprise gland plate seat (41), trapezoidal clamshell (42), gland plate seat (41) are installed in the inside of trapezoidal clamshell (42), gland plate seat (41) cooperate with trapezoidal clamshell (42).

9. A waste incinerator according to claim 8 wherein: gland plate seat (41) comprises board groove (411), pole vaulting pole piece (412), concave knot piece (413), board groove (411) cooperatees with pole vaulting pole piece (412), concave knot piece (413) are equipped with two and nest respectively in the left and right sides in board groove (411).

Technical Field

The invention relates to a garbage incinerator, belonging to the field of garbage treatment.

Background

Waste incinerator is a waste stack and handles the operating equipment who concentrates on burning the degradation, makes things convenient for the rubbish material sediment to burn into the coke and makes things convenient for the clearance of carbon material recovery and follow-up material sediment, also reduces the area of stack rubbish, promotes and decomposes in advance and makes things convenient for follow-up environmental protection degradation operation effect, and the public shortcoming of treating the optimization of prior art has:

waste incineration's furnace body heating is the deposit to the material sediment and cleans the processing, and the flocculation liquid such as tar that rubbish produced can form a pump pressure at exhaust pipe mouth and promote, and this can cause and glue thick thing shutoff pump mouth to influence incineration discharge of fumes and smelting pot jar pressure load degree, lead to waste incineration's jar of exploding and the serious phenomenon of pipeline pneumatics plug, it is relatively poor to handle the fluidic such as tar, and subsequent abundant incineration efficiency is not high.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a garbage incinerator to solve the problems that the slag is cleaned by deposition when a furnace body of the garbage incinerator is heated, a pump pressure lifting is formed in an exhaust pipe opening by a flocculated liquid such as tar generated by garbage, a pump opening is blocked by sticky substances, the incineration exhaust gas quantity and the pressure load degree of a smelting furnace cylinder are influenced, the phenomena of cylinder explosion and serious pipeline pneumatic plug of the garbage incinerator are caused, the treatment of fluids such as tar is poor, and the subsequent sufficient incineration efficiency is low.

In order to achieve the purpose, the invention is realized by the following technical scheme: a garbage incinerator structurally comprises: exhaust elbow, flange short sleeve, pressure flow exhaust valve jar, trapezoidal cover platform groove, incinerator groove, flip door plant, pressure flow exhaust valve jar nestification is in the upper right corner and mutually perpendicular in trapezoidal cover platform groove, the incinerator groove passes through hinge and flip door plant mechanical connection, trapezoidal cover platform groove nestification is on the top of incinerator groove and on being in same vertical face, exhaust elbow inserts and inlays on the top of flange short sleeve and link up each other, flange short sleeve nestification is on the top of pressure flow exhaust valve jar and the axle center collineation, pressure flow exhaust valve jar is equipped with wheel pressure strip frame, carries gas frame tube base, corridor groove seat, valve jar casing, wheel pressure strip frame is installed between two and carries gas frame tube bases, wheel pressure strip frame inserts the inside at the valve jar casing, carry gas frame tube base and be equipped with two and insert the left and right sides of inlaying at the valve jar casing respectively, the channel groove seat is nested below the bottom of the valve pot shell, and the valve pot shell is nested at the upper right corner of the trapezoidal cover table groove and is perpendicular to the trapezoidal cover table groove.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the wheel-pressing strip belt frame consists of a pressure-flow propeller disc, a conveyor belt and a shaft wheel disc frame, wherein the pressure-flow propeller disc is mechanically connected with the conveyor belt and is positioned on the same vertical plane, and the conveyor belt is mechanically connected with the shaft wheel disc frame.

As a further improvement of the invention, the pressure-flow propeller disc consists of a propeller frame plate, pressure-flow valve blocks and a disc body, wherein the propeller frame plate and the pressure-flow valve blocks are buckled together and are perpendicular to each other, and the pressure-flow valve blocks and the disc body are in clearance fit and are positioned on the same vertical plane.

As a further improvement of the invention, the lifting frame cylinder seat consists of a frame cylinder groove and a transverse plate seat, the frame cylinder groove is arranged on the top of the transverse plate seat, and the frame cylinder groove and the transverse plate seat are tightly attached together and are mutually vertical.

As a further improvement of the invention, the frame cylinder groove consists of a balloon column rod, an ellipsoid gas extraction cylinder and a frame groove body, the balloon column rod is arranged in the ellipsoid gas extraction cylinder, the axes of the balloon column rod and the ellipsoid gas extraction cylinder are collinear, and the ellipsoid gas extraction cylinder and the frame groove body are nested into a whole.

As a further improvement of the invention, the flange short sleeve is composed of a flange plate groove and a short sleeve groove, wherein the short sleeve groove vertically penetrates through the inner part of the flange plate groove and is coaxially arranged.

As a further improvement of the invention, the flange plate groove consists of a spring wire frame and a pulling plate ring groove, the spring wire frame is installed inside the pulling plate ring groove, and the spring wire frame is mechanically connected with the pulling plate ring groove and is positioned on the same horizontal plane.

As a further improvement of the invention, the trapezoidal cover platform groove is composed of a gland plate seat and a trapezoidal shell cover, the gland plate seat is arranged inside the trapezoidal shell cover and is positioned on the same horizontal plane, and the gland plate seat and the trapezoidal shell cover are in interference fit.

As a further improvement of the invention, the gland plate seat consists of a plate groove, a rod brace column block and two concave buckling blocks, wherein the plate groove and the rod brace column block are in clearance fit and are positioned on the same horizontal plane, and the concave buckling blocks are respectively nested on the left side and the right side of the plate groove.

As a further improvement of the invention, the pressure flow valve block is a gradient cushion block structure with a square groove and a superposed convex valve block, so that the operation effect of gradient pressure flow rotation outward expansion transmission is conveniently formed by cushion pressure, and the operation effect of secondary full incineration is realized by sweeping and settling condensed fluid such as tar and the like after being bonded is ensured.

As a further improvement of the invention, the balloon post rod is of a post rod frame structure with upper and lower piston blocks and double balloons in the middle, so that the support is convenient to have high efficiency on the output of compressed elastic lifting air, and the operation effect of lifting air and dredging after lateral pressure flow is improved.

As a further improvement of the invention, the spring wire frame is of a spring frame structure that spring wires are inserted in the middle of the upper and lower button wheels at the left and right narrow plates in the middle, so that the transverse spacing support is convenient and the high efficiency of the flange tension tightening degree is guaranteed.

As a further improvement of the invention, the strut block is a composite rod block structure with a left arc cushion block and a right inserted rod, so that the transverse opposite-top internal pressure is convenient to form an operation effect of compressing and lifting adjustment.

Advantageous effects

The invention relates to a garbage incinerator, wherein a worker butt-joints a flange plate groove of an exhaust elbow inserted with a flange short sleeve with a short cylinder groove on the top of a valve tank shell of a pressure flow exhaust valve tank, tightly fastens a sealed pipeline joint for preventing gas overflow through a spring wire frame and a pulling plate ring groove, then puts solid garbage into an incinerator groove through a flip-open door panel, is inserted with an internal combustion engine for burning and decomposing the garbage, then leads water vapor and gas lifted by garbage burning to be brushed and cleaned at the front end and the rear end of a disk body through a shaft wheel disk frame of a wheel pressing belt frame and a rotating paddle frame plate of a motor driving a transmission belt to link a pressure flow rotating paddle disk by a rotating paddle frame plate of a motor driving the transmission belt to drive pressure flow paddle blocks to sweep and clean tar condensation liquid water vapor bonded at the front end and the rear end of the disk body and then carry out secondary burning operation, then leads a ball bag column rod to be lifted along the receiving and pressing gas of a transverse plate seat through a frame groove of a gas lifting frame seat in, the solid-liquid-gas separation operation effect is guaranteed, solid-liquid garbage is fully incinerated and degraded efficiently, pollution-free exhaust efficiency of the gas circuit is improved, and the garbage treatment efficiency of the garbage incinerator is guaranteed.

The invention has the following advantages after operation:

the application presses and flows the exhaust valve jar and cooperatees with trapezoidal cover platform groove, ventilate at the top of trapezoidal shell cover through gland plate seat and give channel groove seat and valve jar casing, rethread exhaust return bend end butt joint flange short sleeve and carry the operation of gas frame cylinder base, it is high-efficient to ensure that wheel pressure strip puts up pressure flow and prevents the tar bonding, and the bonding volume cooperates the pneumatic scouring to form the pressure flow propeller disc and the conveyer belt linkage and subsides the operational effect of tar fluid, promote the unloading and supply the efficiency of fully burning, also ensure that liquid and solid-state mixture degradation degree is high, promote the jar pressure of gaseous outer row of burning off-load furnace groove, promote the high efficiency and the high low bit density of refuse treatment and accept the equal degree of subsiding and outer row.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic view of a garbage incinerator according to the present invention.

FIG. 2 is a detailed cross-sectional structural diagram of the flange short sleeve and the pressure flow exhaust valve canister of the present invention.

FIG. 3 is a detailed cross-sectional structural diagram of the pressure-flow exhaust valve pot and the trapezoidal cover groove of the present invention.

FIG. 4 is a detailed sectional structure diagram of the pressure-flow exhaust valve canister, the wheel-pressure strip rack and the air-lifting frame canister seat of the present invention.

Fig. 5 is an enlarged sectional structural view of the flange plate groove of the present invention in an operating state.

Fig. 6 is a schematic cross-sectional enlarged structure view of the gland plate seat in the working state of the present invention.

Fig. 7 is a schematic cross-sectional enlarged structure view of the pressure-flow propeller disk in the working state.

FIG. 8 is an enlarged cross-sectional view of the barrel groove of the present invention.

Description of reference numerals: exhaust elbow-1, flange short sleeve-2, pressure flow exhaust valve tank-3, trapezoid hood table groove-4, incinerator groove-5, flip door panel-6, wheel pressure strip rack-3A, air lifting frame barrel seat-3B, channel groove seat-3C, valve tank shell-3D, pressure flow propeller disc-3A 1, conveyor belt-3A 2, shaft wheel disc frame-3A 3, propeller frame plate-3A 11, pressure flow petal block-3A 12, disc body-3A 13, frame barrel groove-3B 1, transverse plate seat-3B 2, balloon column rod-3B 11, ellipsoid lifting cylinder-3B 12, frame groove body-3B 13, flange disc groove-21, short barrel groove-22, spring wire rack-211, traction plate ring groove-212, pressure cover plate seat-41, trapezoid hood-42, Plate slot-411, strut block-412 and concave buckle block-413.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1 to 8, the present invention provides a garbage incinerator, which comprises: exhaust elbow 1, flange short sleeve 2, pressure flow exhaust valve jar 3, trapezoidal cover bench groove 4, incinerator groove 5, flip door plant 6, pressure flow exhaust valve jar 3 nestification is in the upper right corner of trapezoidal cover bench groove 4 and mutually perpendicular, incinerator groove 5 passes through hinge and flip door plant 6 mechanical connection, trapezoidal cover bench groove 4 nestification is on the top of incinerator groove 5 and is in same vertical face, exhaust elbow 1 inserts on the top of flange short sleeve 2 and link up each other, flange short sleeve 2 nestification is on the top of pressure flow exhaust valve jar 3 and the axle center collineation, pressure flow exhaust valve jar 3 is equipped with wheel pressure strip frame 3A, carries gas frame tube seat 3B, channel groove seat 3C, valve jar casing 3D, wheel pressure strip frame 3A installs between two and carries gas frame tube seat 3B, wheel pressure strip frame 3A inserts in the inside of valve jar casing 3D, the gas lifting frame tube bases 3B are two and are respectively inserted and embedded in the left side and the right side of the valve tank shell 3D, the channel groove bases 3C are embedded under the bottom of the valve tank shell 3D, and the valve tank shell 3D is embedded in the upper right corner of the trapezoidal cover platform groove 4 and is perpendicular to the upper right corner.

Referring to fig. 4, the wheel pressing strip rack 3A is composed of a pressure-flow propeller disc 3A1, a conveyor belt 3A2 and a shaft wheel disc rack 3A3, the pressure-flow propeller disc 3A1 is mechanically connected with the conveyor belt 3A2 and is on the same vertical plane, the conveyor belt 3A2 is mechanically connected with the shaft wheel disc rack 3A3, the air lifting frame cylinder seat 3B is composed of a frame cylinder groove 3B1 and a transverse plate seat 3B2, the frame cylinder groove 3B1 is installed on the top of the transverse plate seat 3B2, the frame cylinder groove 3B1 is closely attached to the transverse plate seat 3B2 and is perpendicular to each other, and a flow isolation and air lifting and pressure flow descending segmentation operation effect is formed at the bottom of the transverse plate seat 3B2 through the pressure-flow propeller disc 3A 1.

Referring to fig. 7, the pressure-flow propeller disc 3a1 is composed of a propeller frame plate 3a11, a pressure-flow flap 3a12 and a disc body 3a13, the propeller frame plate 3a11 and the pressure-flow flap 3a12 are fastened together and are perpendicular to each other, the pressure-flow flap 3a12 and the disc body 3a13 are in clearance fit and are located on the same vertical plane, the pressure-flow flap 3a12 is a gradient cushion block structure with a square groove and a convex flap block stacked in the square groove, so that the operation effect of gradient pressure-flow rotation outward expansion transmission is conveniently formed by cushion pressure, the tar and other flocculated fluids are bonded to achieve a secondary full incineration operation effect by sweeping and settling, and the pressure-flow flap 3a12 is driven by the propeller frame plate 3a11 to bond tar and other fluids for refuse incineration around the rotation edge, so that a secondary incineration operation effect of a downward sweeping and sweeping brush is achieved.

Referring to fig. 8, the frame cylinder groove 3B1 is composed of a balloon post 3B11, an ellipsoidal gas extraction cylinder 3B12, and a frame groove 3B13, the balloon post 3B11 is installed inside the ellipsoidal gas extraction cylinder 3B12, the axes of the balloon post 3B11 and the frame groove 3B13 are collinear, the ellipsoidal gas extraction cylinder 3B12 and the frame groove 3B13 are nested into a whole, the balloon post 3B11 is a post frame structure with two balloons in the middle of upper and lower piston blocks, so that the bracket is convenient to eject and extract gas to output high efficiency, the gas extraction dredging operation effect after lateral pressure flow is improved, and the balloon post 3B11 is inserted into the ellipsoidal gas extraction cylinder 3B12 to eject to form the effect of gas extraction both side suction operation.

Referring to fig. 2, the flange short sleeve 2 is composed of a flange groove 21 and a short sleeve groove 22, the short sleeve groove 22 vertically penetrates through the inside of the flange groove 21, and the axial center of the short sleeve groove 22 is collinear, and the short sleeve groove 22 is locked by the flange groove 21, so that the operation effects of exhaust pipe butt joint and bonnet butt joint locking are achieved.

Referring to fig. 5, the flange plate groove 21 is composed of a spring frame 211 and a pulling plate ring groove 212, the spring frame 211 is installed inside the pulling plate ring groove 212, the spring frame 211 is mechanically connected with the pulling plate ring groove 212 and is located on the same horizontal plane, the spring frame 211 is a spring frame structure with middle inserted spring wires installed on the left and right of a middle narrow plate between an upper button wheel and a lower button wheel, a transverse spacer is convenient to ensure high efficiency of flange tension binding, and the pulling plate ring groove 212 is transversely pressed by the spring frame 211 to ensure tightness of air leakage prevention at a binding opening.

The working process is as follows: the worker inserts the flange plate groove 21 of the flange short sleeve 2 of the exhaust elbow 1 and the short sleeve groove 22 to the top of the valve tank shell 3D of the pressure flow exhaust valve tank 3, then tightens the sealed pipeline joint for preventing gas overflow through the spring wire frame 211 and the pulling plate ring groove 212, then puts the solid garbage into the incinerator groove 5 through the turnover cover door plate 6, inserts the internal combustion engine to burn and decompose the garbage, and then connects the trapezoid cover table groove 4 to the channel groove seat 3C, so that the steam and gas lifted by the garbage incineration are sleeved with the motor traction conveyor belt 3A2 through the shaft wheel disc frame 3A3 of the wheel pressing strip frame 3A to link the pressure flow rotary propeller disc 3A1, the propeller frame plate 3A11 drives the pressure flow petal 3A12 to clean the condensed tar floccule liquid steam at the front end and the back end of the disc 3A13 to descend for secondary incineration operation, then the gas is separated by the transverse plate seat 3B2 through the frame cylinder groove 3B1 of the gas lifting frame cylinder seat 3B, the balloon post rod 3B11 is lifted along the collecting and loading air pressure of the frame groove body 3B13 in the ellipsoid air extracting cylinder 3B12, the operation effect of solid-liquid-gas separation is guaranteed, solid-liquid garbage is fully incinerated and degraded efficiently, the pollution-free exhaust efficiency of an air path is improved, and the garbage treatment efficiency of the garbage incinerator is guaranteed.

Example two:

referring to fig. 1 to 8, the present invention provides a garbage incinerator, which is otherwise the same as embodiment 1, except that:

referring to fig. 3, the trapezoidal cover platform groove 4 is composed of a gland plate seat 41 and a trapezoidal shell cover 42, the gland plate seat 41 is installed inside the trapezoidal shell cover 42 and is located on the same horizontal plane, the gland plate seat 41 and the trapezoidal shell cover 42 are in interference fit, and an upper row of butt joint dredging operation effect of combustion steam is formed on the top of the trapezoidal shell cover 42 through the gland plate seat 41.

Referring to fig. 6, the gland plate base 41 is composed of a plate groove 411, a strut block 412 and two concave buckle blocks 413, the plate groove 411 and the strut block 412 are in clearance fit and are located on the same horizontal plane, the concave buckle blocks 413 are arranged and are respectively nested on the left side and the right side of the plate groove 411, the strut block 412 is a composite rod block structure with an arc cushion block on the left side and a ball rod on the right side, the operation effect of compression and air lifting regulation is conveniently formed by transversely abutting against the internal pressure, and the intermittent air compression lifting operation effect is formed by abutting the concave buckle blocks 413 against the internal pressure through the strut block 412.

After the solid garbage blocks are incinerated into steam liquid and gas through early-stage low-level input and ascend, the trapezoidal shell 42 of the trapezoidal shell platform groove 4 is filled with hydraulic steam and gas to lift the plate groove 411 of the cover pressing plate seat 41, a timing gas outward expansion and in-center collision internal pressure intermittent type adjustment gas path conveying operation effect is formed through the strut block 412 and the concave buckling block 413, the phenomenon of pipe explosion in follow-up gas supply is guaranteed, and the stability of garbage incineration gas path conveying is improved.

The invention uses the mutual combination of the components to achieve the purposes that the pressure flow exhaust valve tank 3 is matched with the trapezoidal cover platform groove 4, the top of the trapezoidal shell cover 42 is ventilated with the channel tank seat 3C and the valve tank shell 3D through the gland plate seat 41, the 1 end of the exhaust elbow is connected with the flange short sleeve 2 and the air lifting frame cylinder seat 3B for operation, the pressure flow of the wheel pressure strip frame 3A is ensured to prevent tar from being bonded with high efficiency, the bonding quantity is matched with the pneumatic scouring to form the operation effect that the pressure flow rotating propeller disc 3A1 is linked with the conveyor belt 3A2 to settle tar fluid, the efficiency of feeding and fully incinerating the baits is improved, the high degree of degradation of liquid and solid mixture is also ensured, the cylinder pressure of the gas discharge unloading incinerator groove 5 is improved, the high efficiency of garbage treatment and the uniform degree of high and low bit density bearing settlement and discharge are improved, thereby solving the problems that the heating furnace body for garbage incineration is used for material slag deposition and cleaning treatment, and tar and other condensed flocculent liquid generated by garbage can form a pumping pressure lifting, this can cause the ropy thing shutoff pump mouth to influence incineration discharge and smelting pot jar pressure load degree, lead to the phenomenon that the jar is exploded and the pipeline pneumatics of waste incinerator is serious with stopping up, it is relatively poor to handle to fluid such as tar, and subsequent abundant incineration efficiency is not high problem.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.