CN112207112A

CN112207112A - Garbage pyrolysis power generation device

Info

Publication number: CN112207112A
Application number: CN202010939313.9A
Authority: CN
Inventors: 苏明兰
Original assignee: Individual
Current assignee: Shandong Nuotai Environmental Protection Technology Co ltd
Priority date: 2020-09-09
Filing date: 2020-09-09
Publication date: 2021-01-12
Anticipated expiration: 2040-09-09
Also published as: CN112207112B

Abstract

The invention discloses a garbage pyrolysis power generation device, which structurally comprises a support, a heat source box, a garbage pyrolysis box, a connecting pipe, a combustion generator, a wiring board and an exhaust pipe, wherein the heat source box is vertically arranged on the inner side of the upper end of the support; the lower end of the separation structure is provided with the crushing paddle, tires are separated, pyrolysis is better carried out, stable output of combustible gas is further guaranteed, and power generation efficiency is improved.

Description

Garbage pyrolysis power generation device

Technical Field

The invention belongs to the field of garbage treatment, and particularly relates to a garbage pyrolysis power generation device.

Background

The garbage is mainly waste which loses the utilization value, along with the continuous development of the society, the produced products are more and more, the waste which loses the utilization value is also continuously increased, the treatment mode of the garbage is less at present, most of garbage treatment easily pollutes the environment, people continuously update the treatment mode of the garbage, and then the garbage pyrolysis is derived, the pyrolysis can generate some combustible gases and can be used for combustion power generation, so a garbage pyrolysis power generation device is formed, but the prior art has the following defects:

because old and useless tire is circular, directly puts into the pyrolysis chamber, will directly be in same axis with the inboard, and then forms the laminating with the inner wall, causes the gas outlet of side to be blockked up, when influencing the tire and carrying out the pyrolysis, has also caused the gas that its pyrolysis produced to be restricted, and influence combustible gas's output, and then has reduced the efficiency of electricity generation.

Therefore, the application provides a garbage pyrolysis power generation device, and the defects are improved.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a garbage pyrolysis power generation device, which solves the problems that in the prior art, as waste tires are round and are directly placed in a pyrolysis cavity, the waste tires are directly positioned on the same axis with the inner side and are attached to the inner wall, the gas outlet at the side end is blocked, the tires are pyrolyzed, gas generated by pyrolysis is limited, the output of combustible gas is influenced, and the power generation efficiency is reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: a garbage pyrolysis power generation device structurally comprises a support, a heat source box, a garbage pyrolysis box, a connecting pipe, a combustion generator, a wiring board and an exhaust pipe, wherein the heat source box is vertically arranged on the inner side of the upper end of the support and welded, the garbage pyrolysis box is arranged on the upper end of the heat source box and communicated with the inner side of the heat source box, the connecting pipe is horizontally embedded into the inner side of the garbage pyrolysis box and welded, the combustion generator is arranged at the right end of the garbage pyrolysis box and connected through the connecting pipe, the wiring board is arranged on the outer side of the combustion generator and electrically connected through a wire, and the exhaust pipe is vertically arranged on the; the garbage pyrolysis box comprises a box body, a crushing structure, a separation net, a flange plate and a pyrolysis cavity, wherein the crushing structure penetrates through the lower end of the box body and is installed on the inner side, the separation net is embedded in the bottom of the box body, the flange plate is horizontally installed on the right side of the box body and is communicated with the inner side, the pyrolysis cavity is arranged on the inner side of the box body and is of an integrated structure, and the box body is vertically installed at the upper end of a heat source box and is located on the same axis.

The crushing structure is further improved, the crushing structure comprises a rotating shaft, a separating structure, a connecting frame and crushing paddles, the crushing paddles are arranged on the outer side of the rotating shaft and fixedly connected, the connecting frame is obliquely arranged between the rotating shaft and the crushing paddles, and the separating structure is sleeved at the upper end of the outer side of the rotating shaft and fixed through bolts.

The invention is further improved, the separation structure comprises a fixing ring, a clamping plate and a separation paddle, the clamping plate is embedded and installed on the inner side of the fixing ring and movably connected, and the separation paddle is installed on the outer side of the clamping plate and fixedly connected.

The invention is further improved, the separating paddle comprises an upper cutting edge, a paddle body, side cutting edges and a stripping structure, the upper cutting edge is arranged at the upper end of the paddle body and is of an integrated structure, the side cutting edges are inclined upwards from the paddle body and are converged with the upper cutting edge, and the stripping structure is arranged at the side end of the paddle body and is positioned between the upper cutting edge and the side cutting edges.

The invention is further improved, the stripping structure comprises an embedded block, an arc plate, a separation block, a tip and an arc cutting edge, the embedded block is arranged on the right side of the arc plate and is of an integrated structure, the separation block is arranged on the outer side of the arc plate and is uniformly distributed, the tip is arranged at the left end of the arc plate and is of an integrated structure, and the arc cutting edge is positioned at the left end of the arc plate and is converged at the tip.

The crushing paddle is further improved by comprising a mounting frame, a fixing plate and cutting blades, wherein the fixing plate is annularly mounted on the outer side of the mounting frame and is uniformly distributed, and the cutting blades are fixed on the outer side of the fixing plate and are welded with the fixing plate.

The invention is further improved, the cutting blade comprises a blade, a cutting edge and a separation groove, the cutting edge is arranged at the right end of the blade and is of an integrated structure, the separation groove is recessed in the inner side of the blade and is of an integrated structure, and the separation groove penetrates through the front end of the cutting edge.

In a further improvement of the invention, the cutting edge is inclined from outside to inside gradually, the depth of the separation groove is increased from outside to inside gradually, and a triangular gap is formed between the separation groove and the cutting edge.

According to the technical scheme, the garbage pyrolysis power generation device has the following beneficial effects:

the crushing structure is arranged on the inner side of the box body, the crushing structure is driven by the rotating shaft to start rotating to act on the lower end face of the tire, the separating paddle rotates along with the fixing ring, the stripping structure penetrates into the inner side of the tire, the tire is inserted into the top of the separating structure and is cut along the arc cutting edge, the separating block on the outer side of the arc plate also separates the tire, the upper cutting edge and the side cutting edge are separated along with the rotation of the paddle body, fragments separated from the tire fall to the lower side, the tire is separated while being lifted, the phenomenon that the tire slides down along the inner wall to block an air outlet is prevented, the supply of gas generated by pyrolysis is guaranteed, and the power generation efficiency is improved better.

According to the invention, the crushing paddle is arranged at the lower end of the separation structure, the cutting blade positioned at the outer side is driven to act on the tire fragment along with the rotation of the mounting frame, the blade rotates clockwise to enable the cutting edge to be firstly contacted with the tire fragment and separated, and then the blade continuously moves along the separation groove to be separated, so that the tire is separated, the pyrolysis is better carried out, the stable output of combustible gas is further ensured, and the power generation efficiency is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a garbage pyrolytic power generation apparatus according to the present invention;

FIG. 2 is a schematic structural view of the garbage pyrolysis box of the present invention;

FIG. 3 is a schematic view of the crushing structure of the present invention;

FIG. 4 is a schematic structural view of a separation structure according to the present invention;

FIG. 5 is a schematic view of the structure of the separation paddle of the present invention;

FIG. 6 is a schematic structural view of a lift-off structure according to the present invention;

FIG. 7 is a schematic view of the structure of a crushing paddle according to the present invention;

fig. 8 is a schematic structural diagram of the cutting blade of the present invention.

In the figure: the device comprises a bracket-1, a heat source box-2, a garbage pyrolysis box-3, a connecting pipe-4, a combustion generator-5, a wiring board-6, an exhaust pipe-7, a box body-31, a crushing structure-32, a separation net-33, a flange-34, a pyrolysis cavity-35, a rotating shaft-321, a separation structure-322, a connecting frame-323, a crushing paddle-324, a fixing ring-22 a, a clamping plate-22 b, a separation paddle-22 c, an upper cutting edge-c 1, a paddle-c 2, a side cutting edge-c 3, a stripping structure-c 4, an embedded block-c 41, an arc plate-c 42, a separation block-c 43, a tip-c 44, an arc cutting edge-c 45, an installation frame-24 a, a fixing plate-24 b, a cutting piece-24 c, a blade-4 c1, Cutting edge-4 c2, separating groove-4 c 3.

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. 1-6, the embodiments of the present invention are as follows:

the structure of the garbage thermal decomposition device comprises a support 1, a heat source box 2, a garbage thermal decomposition box 3, a connecting pipe 4, a combustion generator 5, a wiring board 6 and an exhaust pipe 7, wherein the heat source box 2 is vertically arranged on the inner side of the upper end of the support 1 and welded with the upper end of the support, the garbage thermal decomposition box 3 is arranged on the upper end of the heat source box 2 and communicated with the inner side of the heat source box, the connecting pipe 4 is horizontally embedded into the inner side of the garbage thermal decomposition box 3 and welded with the inner side of the garbage thermal decomposition box, the combustion generator 5 is arranged at the right end of the garbage thermal decomposition box 3 and connected with the connecting pipe 4, the wiring board 6 is; the garbage pyrolysis box 3 comprises a box body 31, a crushing structure 32, a separation net 33, a flange plate 34 and a pyrolysis cavity 35, wherein the crushing structure 32 penetrates through the lower end of the box body 31 and is installed on the inner side, the separation net 33 is embedded in the bottom of the box body 31, the flange plate 34 is horizontally installed on the right side of the box body 31 and communicated with the inner side, the pyrolysis cavity 35 is arranged on the inner side of the box body 31 and is of an integrated structure, and the box body 31 is vertically installed at the upper end of the heat source box 2 and is located on the same axis.

Referring to fig. 3, the crushing structure 32 includes a rotating shaft 321, a separating structure 322, a connecting frame 323 and crushing paddles 324, the crushing paddles 324 are mounted outside the rotating shaft 321 and fixedly connected, the connecting frame 323 is obliquely mounted between the rotating shaft 321 and the crushing paddles 324, the separating structure 322 is sleeved on the upper end of the outside of the rotating shaft 321 and fixed by bolts, and separates and crushes the horizontally dropped tires, and the air outlet is prevented from being blocked due to the overhead space.

Referring to fig. 4, the separation structure 322 includes a fixing ring 22a, a catch plate 22b, and a separation paddle 22c, the catch plate 22b is embedded inside the fixing ring 22a and is movably connected, the separation paddle 22c is installed outside the catch plate 22b and is fixedly connected to cooperate with the downward gravity of the tire to continuously separate the lower end of the tire to form pieces.

Referring to fig. 5, the separating paddle 22c includes an upper cutting edge c1, a paddle c2, a side cutting edge c3 and a stripping structure c4, the upper cutting edge c1 is provided at the upper end of the paddle c2 and is an integrated structure, the side cutting edge c3 is inclined upwards from the paddle c2 and converges with the upper cutting edge c1, and the stripping structure c4 is mounted at the side end of the paddle c2 and is located between the upper cutting edge c1 and the side cutting edge c3 to perform inclined separation and gradually separate fragments.

Referring to fig. 6, the peeling structure c4 includes an embedded block c41, an arc plate c42, a separating block c43, a tip c44 and an arc edge c45, the embedded block c41 is arranged on the right side of the arc plate c42 and is an integrated structure, the separating block c43 is arranged on the outer side of the arc plate c42 and is uniformly distributed, the tip c44 is arranged on the left end of the arc plate c42 and is an integrated structure, the arc edge c45 is arranged on the left end of the arc plate c42 and converges with the tip c44, and small fragments are peeled off while the separation is performed, so that the air outlet is not easily blocked.

Based on the above embodiment, the specific working principle is as follows:

the tires to be pyrolyzed are thrown into the inner side of the garbage pyrolysis box 3, the box door is closed, the work can be started, at the moment, the heat source box 2 heats the pyrolysis cavity 35 from the separation net 33, so that the tires can be subjected to anaerobic pyrolysis reaction, meanwhile, the crushing structure 32 is driven to start rotating along with the driving of the rotating shaft 321, the separating paddle 22c acts on the lower end face of the tire, the separating structure c4 pierces into the inner side of the tire along with the rotating of the fixing ring 22a, the apex c44 pierces into the tire and cuts along the arc cutting edge c45, the separating block c43 outside the arc plate c42 also separates the tire, the upper cutting edge c1 and the side cutting edge c3 are separated along with the rotation of the paddle c2, so that the broken pieces separated from the tire fall to the lower part and are pyrolyzed under the action of the connecting frame 323 and the crushing paddle 324, when the pyrolysis generates combustible gas, the combustible gas is sent to a combustion generator 5 along with the connecting pipe 4 to carry out combustion power generation.

Example two: referring to fig. 3, 7-8, the embodiment of the present invention is as follows:

the crushing structure 32 comprises a rotating shaft 321, a separating structure 322, a connecting frame 323 and crushing paddles 324, wherein the crushing paddles 324 are installed on the outer side of the rotating shaft 321 and fixedly connected with the rotating shaft, the connecting frame 323 is obliquely installed between the rotating shaft 321 and the crushing paddles 324, and the separating structure 322 is sleeved on the upper end of the outer side of the rotating shaft 321 and fixed with the rotating shaft 321 through bolts.

Referring to fig. 7, the crushing paddle 324 includes a mounting frame 24a, a fixing plate 24b and cutting blades 24c, the fixing plate 24b is annularly mounted on the outer side of the mounting frame 24a and is uniformly distributed, and the cutting blades 24c are fixed on the outer side of the fixing plate 24b and are welded to further cut the dropped fragments and move along with the rotation of the cutting blades, so that the falling fragments are prevented from blocking the air outlet.

Referring to fig. 8, the cutting blade 24c includes a blade 4c1, a cutting edge 4c2 and a separation groove 4c3, the cutting edge 4c2 is provided at the right end of the blade 4c1 and is of an integrated structure, the separation groove 4c3 is recessed inside the blade 4c1 and is of an integrated structure, and the separation groove 4c3 penetrates through the front end of the cutting edge 4c2, so that the separated fragments form an inclined block and are not easy to block.

Referring to fig. 8, the cutting edge 4c2 is inclined from outside to inside, the separation groove 4c3 is gradually increased in depth from outside to inside, and a triangular notch is formed with the cutting edge 4c2, so that fragments close to the inside are better separated.

Based on the above embodiment, the specific working principle is as follows:

after the tire is separated by the separation structure 322, the tire falls downwards and is stirred by the connecting frame 323, and then continuously falls to the upper end of the crushing paddle 324, the cutting blade 24c on the outer side is driven to act on the tire fragments along with the rotation of the mounting frame 24a, the blade 4c1 rotates clockwise, so that the cutting edge 4c2 is firstly contacted with and separated from the tire fragments, and then continuously moves along the separation groove 4c3 to be separated, and the cyclic work is carried out, so that the fragments are further separated, and the pyrolysis is facilitated.

The invention solves the problems that in the prior art, because the waste tire is circular and is directly placed in a pyrolysis cavity, the waste tire is directly positioned on the same axis with the inner side and is attached to the inner wall, the gas outlet at the side end is blocked, the pyrolysis of the tire is influenced, simultaneously, the gas generated by the pyrolysis of the tire is limited, the output of combustible gas is influenced, and the power generation efficiency is further reduced, through the mutual combination of the components, the crushing structure is arranged on the inner side of a box body, the crushing structure is driven by a rotating shaft to start rotating to act on the lower end surface of the tire, the separating paddle rotates along with a fixing ring, the peeling structure penetrates into the inner side of the tire, the top tip penetrates into the tire and cuts along an arc cutting edge, the separating block on the outer side of the arc plate also separates the tire, and the upper cutting edge and the side cutting edge are separated along with the rotation of the paddle body, the fragments separated from the tires fall to the lower part, and the tires are separated while being lifted, so that the tires are prevented from sliding down along the inner wall to block the air outlet, the supply of gas generated by pyrolysis is ensured, and the power generation efficiency is better improved; the broken oar has been set up at the separation structure lower extreme, and on will driving the cutting piece that is in the outside to act on the tire fragment along with the rotation of installing frame, the clockwise rotation of blade will make the blade at first contact with the tire fragment and separate, then continue to remove and separate along the separating tank, separates the tire, and the better pyrolysis that carries on has further guaranteed combustible gas's stable output, has improved the efficiency of electricity generation.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A garbage pyrolysis power generation device structurally comprises a support (1), a heat source box (2), a garbage pyrolysis box (3), a connecting pipe (4), a combustion generator (5), a wiring board (6) and an exhaust pipe (7), wherein the heat source box (2) is vertically installed on the inner side of the upper end of the support (1) and welded with the inner side of the upper end of the support, the garbage pyrolysis box (3) is installed on the upper end of the heat source box (2), the connecting pipe (4) is horizontally embedded into the inner side of the garbage pyrolysis box (3), the combustion generator (5) is arranged at the right end of the garbage pyrolysis box (3), the wiring board (6) is installed on the outer side of the combustion generator (5), and the exhaust pipe (7) is vertically installed on the upper end of the; the method is characterized in that:

garbage pyrolysis case (3) include box (31), broken structure (32), separate net (33), ring flange (34), pyrolysis chamber (35), broken structure (32) run through in box (31) lower extreme, separate net (33) embedding and install in box (31) bottom, ring flange (34) horizontal installation is on box (31) right side, box (31) inboard is located in pyrolysis chamber (35), box (31) vertical installation is in heat source case (2) upper end.

2. The apparatus of claim 1, wherein: broken structure (32) include axis of rotation (321), separation structure (322), link (323), broken oar (324), install in axis of rotation (321) outside broken oar (324), link (323) slope is installed between axis of rotation (321) and broken oar (324), axis of rotation (321) outside upper end is located to separation structure (322) cover.

3. A refuse pyrolysis power generation installation according to claim 2, characterized in that: the separation structure (322) comprises a fixing ring (22a), a clamping plate (22b) and a separation paddle (22c), the clamping plate (22b) is embedded in the fixing ring (22a), and the separation paddle (22c) is arranged on the outer side of the clamping plate (22 b).

4. A refuse pyrolysis power generation installation according to claim 3, characterized in that: the separating paddle (22c) comprises an upper cutting edge (c1), a paddle body (c2), a side cutting edge (c3) and a stripping structure (c4), wherein the upper cutting edge (c1) is arranged at the upper end of the paddle body (c2), the side cutting edge (c3) is inclined upwards from the paddle body (c2) and is converged with the upper cutting edge (c1), and the stripping structure (c4) is arranged at the side end of the paddle body (c 2).

5. The apparatus according to claim 4, wherein: the peeling structure (c4) comprises an embedded block (c41), an arc plate (c42), a separating block (c43), an apex (c44) and an arc cutting edge (c45), wherein the embedded block (c41) is arranged on the right side of the arc plate (c42), the separating block (c43) is arranged on the outer side of the arc plate (c42), the apex (c44) is arranged at the left end of the arc plate (c42), and the arc cutting edge (c45) is located at the left end of the arc plate (c 42).

6. A refuse pyrolysis power generation installation according to claim 2, characterized in that: broken oar (324) are including installing frame (24a), fixed plate (24b), cutting piece (24c), the annular of fixed plate (24b) is installed in installing frame (24a) outside, cutting piece (24c) are fixed in fixed plate (24b) outside.

7. The apparatus according to claim 6, wherein: the cutting blade (24c) comprises a blade (4c1), a cutting edge (4c2) and a separating groove (4c3), wherein the cutting edge (4c2) is arranged at the right end of the blade (4c1), the separating groove (4c3) is recessed in the inner side of the blade (4c1), and the separating groove (4c3) penetrates through the front end of the cutting edge (4c 2).

8. The apparatus according to claim 7, wherein: the cutting edge (4c2) is inclined from outside to inside, and the depth of the separation groove (4c3) is increased from outside to inside.