CN110220199B

CN110220199B - Garbage incineration disposal system with efficient combustion

Info

Publication number: CN110220199B
Application number: CN201910317565.5A
Authority: CN
Inventors: 杨春斌
Original assignee: Zhejiang Huarong Battery Co ltd
Current assignee: Qinghai Yiruizhou Environmental Protection Technology Co ltd
Priority date: 2019-04-19
Filing date: 2019-04-19
Publication date: 2020-07-21
Anticipated expiration: 2039-04-19
Also published as: CN110220199A

Abstract

The invention discloses a high-efficiency combustion garbage incineration disposal system, which structurally comprises a chimney, a feeding device, a combustion chamber, a secondary combustion chamber, an inspection opening, a controller, a fan and a combustor, wherein the top of the secondary combustion chamber is connected with the combustion chamber, the top of the combustion chamber is provided with the chimney, the feeding device is arranged on the side surface of the combustion chamber, the fan is connected with the combustion chamber, the combustor is arranged on the side surface of the combustion chamber, the controller is arranged on the outer side of the secondary combustion chamber, the feeding device comprises a material guide opening, a crushing roller group, a rotary power device, a material sprinkling mechanism and a crushing shell, the material guide opening is wide at the top and narrow at the bottom, the crushing shell is connected below the material guide opening, the crushing roller group is arranged inside the crushing shell, the bottom of the crushing shell is hinged with the material sprinkling mechanism, and the material sprinkling mechanism: the material sprinkling mechanism capable of moving back and forth can evenly pave the material in the combustion chamber, so that the accumulation of the material is avoided, the material is fully combusted, and the combustion efficiency is improved.

Description

Garbage incineration disposal system with efficient combustion

Technical Field

The invention relates to the field of waste incineration treatment, in particular to a waste incineration treatment system with efficient combustion.

Background

Garbage disposal is the difficult problem in the world today, current generally through burn to handle, current small-size burning furnace is because the material piles up when burning, and the mid portion is difficult to abundant burning, and the wind through the fan can't blow heavier fixed material, and unable thoroughly to solve piles up the mid portion and burn inadequately, can only from outer inside burning, when rubbish lasts the feeding, blocks up easily, and the burning is more difficult, and the centre has the time difference with outside burning, reduces combustion efficiency.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a waste incineration disposal system with efficient combustion.

The invention is realized by adopting the following technical scheme: an efficient combustion garbage incineration disposal system comprises a chimney, a feeding device, a combustion chamber, a secondary combustion chamber, an inspection port, a controller, a fan and a combustor, the top of the secondary combustion chamber is connected with a combustion chamber, the top of the combustion chamber is provided with a chimney, the feeding device is arranged on the side surface of the combustion chamber, the fan is connected with the combustion chamber, the combustor is arranged on the side surface of the combustion chamber, the controller is arranged outside the secondary combustion chamber, the feeding device comprises a material guide port, a crushing roller group, a rotary power device, a material spraying mechanism and a crushing shell, the material guide opening is wide at the upper part and narrow at the lower part, a crushing shell is connected below the material guide opening, a crushing roller set is arranged inside the crushing shell, the bottom of the crushing shell is connected with a material sprinkling mechanism through a hinge, the material sprinkling mechanism is in transmission connection with a rotary power device, and the rotary power device is installed on the outer side of the crushing shell.

As an optimization, the material sprinkling mechanism comprises a first movable plate, a connecting rod, a second movable plate and a limiting rod, the tops of the first movable plate and the second movable plate are respectively hinged to two sides of the bottom of the crushing shell, the connecting rod is hinged between the bottoms of the first movable plate and the second movable plate, the outer side of the top of the first movable plate is connected with the rotary power device, and the outer side of the top of the second movable plate is connected with the limiting rod.

Preferably, the rotary power device comprises a shaft bracket, a trigger mechanism, a sector gear, a first belt pulley, a belt, a second belt pulley and a motor, wherein the gear is installed at the bottom of the shaft bracket, the top of the shaft bracket is connected with the crushing shell, the sector gear is arranged on the side surface of the gear and meshed with the gear, and one side of the sector gear is connected with the first moving plate.

Preferably, the gear is connected with the first belt pulley through a shaft, the first belt pulley is in transmission connection with the second belt pulley through a belt, the second belt pulley is connected with the motor, the base of the motor is connected with the shaft bracket, and the motor is electrically connected with the touch mechanism.

Preferably, the trigger mechanism comprises a forward rotation switch, a lever, a hinge shaft, a reverse rotation switch and a sliding block, the hinge shaft is arranged in the middle of the shaft frame, the lever is sleeved on the hinge shaft, a sliding groove is formed in the thick end of the lever, the sliding block is connected with the sector gear and arranged in the sliding groove, and the thin end of the lever is arranged between the forward rotation switch and the reverse rotation switch.

Preferably, the forward switch is arranged above the motor, the reverse switch is arranged on the shaft bracket, and the forward switch and the reverse switch are respectively and electrically connected with the motor h.

Preferably, the angle of the fan-shaped teeth is larger than 90 degrees.

As optimization, the circle center of the sector gear is consistent with the hinge point of the first moving plate.

Advantageous effects

When the invention is used, the first moving plate and the second moving plate are driven by the motor to move back and forth repeatedly, when the first moving plate is positioned at the leftmost side, the lever triggers the forward rotation switch to enable the motor to rotate clockwise to drive the gear to rotate, so that the sector teeth meshed with the gear drive the first moving plate to move rightwards, because the first moving plate is hinged with the second moving plate, the first moving plate and the second moving plate can move simultaneously, when the first moving plate moves to the rightmost side, the sliding block on the sector tooth moves to the bottom through rotation, thereby driving the right end of the lever to descend, enabling the left end of the lever to move upwards to trigger the reversing switch, and the first moving plate and the second moving plate which are opposite to the first moving plate and the second moving plate move leftwards, so relapse, make can carry out the breakage with the material through broken roller set when the feeding and then at the uniform velocity make a round trip to spill, make the material burning fall into the postcombustion chamber and carry out the postcombustion, the flue gas is discharged from the chimney.

Compared with the prior art, the invention has the beneficial effects that: the material sprinkling mechanism capable of moving back and forth can evenly pave the material in the combustion chamber, so that the accumulation of the material is avoided, the material is fully combusted, and the combustion 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 view of an incineration system for disposing wastes with high combustion efficiency according to the present invention.

FIG. 2 is a schematic structural diagram of the feeding device of the present invention.

Fig. 3 is a schematic structural diagram of a first working state of the rotary power device of the invention.

Fig. 4 is a structural schematic diagram of a second working state of the rotary power device of the invention.

In the figure: the device comprises a chimney 1, a feeding device 2, a combustion chamber 3, a secondary combustion chamber 4, an inspection opening 5, a controller 6, a fan 7, a combustor 8, a material guide opening 20, a crushing roller group 21, a rotary power device 22, a material sprinkling mechanism 23, a crushing shell 24, a first moving plate 230, a connecting rod 231, a second moving plate 232, a limiting rod 233, a shaft bracket a, a touch mechanism b, a sector tooth c, a gear d, a first belt pulley e, a belt f, a second belt pulley g, a motor h, a forward rotation switch b1, a lever b2, a hinge shaft b3, a reverse rotation switch b4 and a slide block b 5.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution of a waste incineration system with efficient combustion: the structure of the device comprises a chimney 1, a feeding device 2, a combustion chamber 3, a secondary combustion chamber 4, an inspection opening 5, a controller 6, a fan 7 and a combustor 8, wherein the top of the secondary combustion chamber 4 is connected with the combustion chamber 3, the top of the combustion chamber 3 is provided with the chimney 1, the feeding device 2 is arranged on the side surface of the combustion chamber 3, the fan 7 is connected with the combustion chamber 3, the combustor 8 is arranged on the side surface of the combustion chamber 3, the controller 6 is arranged on the outer side of the secondary combustion chamber 4, the feeding device 2 comprises a material guide opening 20, a crushing roller set 21, a rotary power device 22, a material spraying mechanism 23 and a crushing shell 24, the material guide opening 20 is wide at the top and narrow at the bottom, the crushing shell 24 is internally provided with the crushing roller set 21, the bottom of the crushing shell 24 is hinged with the material spraying mechanism 23, the material spraying mechanism 23 is in transmission connection with the rotary power device 22, the swing power unit 22 is mounted outside the crushing shell 24.

The material sprinkling mechanism 23 comprises a first moving plate 230, a connecting rod 231, a second moving plate 232 and a limiting rod 233, the tops of the first moving plate 230 and the second moving plate 232 are respectively hinged to two sides of the bottom of the crushing shell 24, the connecting rod 231 is hinged between the bottoms of the first moving plate 230 and the second moving plate 232, the outer side of the top of the first moving plate 230 is connected with the rotary power device 22, the outer side of the top of the second moving plate 232 is connected with the limiting rod 233, and the limiting rod 233 can prevent the second moving plate 232 from excessively rotating.

The rotary power device 22 comprises a shaft bracket a, a trigger mechanism b, a sector gear c, a gear d, a first belt pulley e, a belt f, a second belt pulley g and a motor h, wherein the gear d is installed at the bottom of the shaft bracket a, the top of the shaft bracket a is connected with the crushing shell 24, the sector gear c is arranged on the side surface of the gear d and meshed with the gear d, and one side of the sector gear c is connected with the first moving plate 230.

The gear d is connected with a first belt pulley e through a shaft, the first belt pulley e is in transmission connection with a second belt pulley g through a belt f, the second belt pulley g is connected with a motor h, a base of the motor h is connected with a shaft bracket a, the motor h is electrically connected with a touch mechanism b, power is transmitted through the belt, impact on the motor h due to direct transmission can be avoided, and the motor h can be buffered.

The triggering mechanism b comprises a forward rotation switch b1, a lever b2, a hinge shaft b3, a reverse rotation switch b4 and a sliding block b5, the hinge shaft b3 is arranged in the middle of the shaft bracket a, the lever b2 is sleeved on the hinge shaft b3, a sliding groove is formed in the thick end of the lever b2, the sliding block b5 is connected with the fan-shaped teeth c and arranged in the sliding groove, the thin end of the lever b2 is arranged between the forward rotation switch b1 and the reverse rotation switch b4, and the sliding groove facilitates the sliding of the sliding block b5 to prevent the clamping.

The forward switch b1 is arranged above the motor h, the reverse switch b4 is arranged on the shaft bracket a, and the forward switch b1 and the reverse switch b4 are respectively and electrically connected with the motor h.

The angle of the sector-shaped teeth c is greater than 90 degrees, so that the sector-shaped teeth c still mesh with the gear d after the first moving plate 230 rotates 90 degrees.

The center of the sector-shaped tooth c is coincident with the hinge point of the first moving plate 230, so that the first moving plate 230 can rotate at a relative angle.

When the device is used, the motor h drives the first moving plate 230 and the second moving plate 232 to move back and forth repeatedly from left to right, when the first moving plate 230 is positioned at the leftmost side, the lever b2 triggers the forward rotation switch b1 to enable the motor h to rotate clockwise, the gear d is driven to rotate, so that the sector tooth c meshed with the gear d drives the first moving plate 230 to move right, because the first moving plate 230 is hinged with the second moving plate 232, the first moving plate 230 and the second moving plate 232 can move simultaneously, when the first moving plate moves to the rightmost side, the slide block b5 on the sector tooth c moves to the bottom through rotation, the right end of the lever b2 is driven to descend, the left end of the lever b2 moves upwards to trigger the reverse rotation switch b4, the first moving plate 230 and the second moving plate 232 move leftwards opposite to the above, and the materials can be crushed by the crushing roller group 21 during feeding and then uniformly and back and forth, so that the materials fall into, the flue gas is discharged from the stack 1.

Compared with the prior art, the invention has the technical progress that: the material sprinkling mechanism capable of moving back and forth can evenly pave the material in the combustion chamber, so that the accumulation of the material is avoided, the material is fully combusted, and the combustion efficiency is improved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a refuse incineration disposal system of high-efficient burning, its structure includes chimney (1), feed arrangement (2), combustion chamber (3), secondary combustion chamber (4), inspection opening (5), controller (6), fan (7), combustor (8), secondary combustion chamber (4) top is connected with combustion chamber (3), combustion chamber (3) top is equipped with chimney (1), establish in combustion chamber (3) side feed arrangement (2), fan (7) are connected with combustion chamber (3), install in combustion chamber (3) side combustor (8), establish in the secondary combustion chamber (4) outside controller (6), its characterized in that:

the feeding device (2) comprises a material guide opening (20), a crushing roller set (21), a rotary power device (22), a material spraying mechanism (23) and a crushing shell (24), wherein the material guide opening (20) is wide at the top and narrow at the bottom, the crushing shell (24) is connected below the material guide opening (20), the crushing roller set (21) is arranged inside the crushing shell (24), the bottom of the crushing shell (24) is hinged with the material spraying mechanism (23), the material spraying mechanism (23) is in transmission connection with the rotary power device (22), and the rotary power device (22) is installed on the outer side of the crushing shell (24);

the material sprinkling mechanism (23) comprises a first moving plate (230), a connecting rod (231), a second moving plate (232) and a limiting rod (233), the tops of the first moving plate (230) and the second moving plate (232) are respectively hinged to two sides of the bottom of the crushing shell (24), the connecting rod (231) is hinged between the bottoms of the first moving plate (230) and the second moving plate (232), the outer side of the top of the first moving plate (230) is connected with the rotary power device (22), and the outer side of the top of the second moving plate (232) is connected with the limiting rod (233);

the rotary power device (22) comprises a shaft bracket (a), a trigger mechanism (b), a sector gear (c), a gear (d), a first belt pulley (e), a belt (f), a second belt pulley (g) and a motor (h), wherein the gear (d) is installed at the bottom of the shaft bracket (a), the top of the shaft bracket (a) is connected with a crushing shell (24), the sector gear (c) is arranged on the side surface of the gear (d) and meshed with the gear (d), and one side of the sector gear (c) is connected with a first moving plate (230);

the gear (d) is connected with a first belt pulley (e) through a shaft, the first belt pulley (e) is in transmission connection with a second belt pulley (g) through a belt (f), the second belt pulley (g) is connected with a motor (h), a base of the motor (h) is connected with a shaft bracket (a), and the motor (h) is electrically connected with a touch mechanism (b).

2. An efficient combustion disposed waste incineration system as claimed in claim 1, wherein: the triggering mechanism (b) comprises a forward rotation switch (b1), a lever (b2), a hinge shaft (b3), a reverse rotation switch (b4) and a sliding block (b5), wherein the hinge shaft (b3) is arranged in the middle of the shaft bracket (a), the lever (b2) is sleeved on the hinge shaft (b3), a sliding groove is formed in the thick end of the lever (b2), the sliding block (b5) is connected with the sector gear (c) and arranged in the sliding groove, and the thin end of the lever (b2) is arranged between the forward rotation switch (b1) and the reverse rotation switch (b 4).

3. A high efficiency combustion disposed waste incineration system as claimed in claim 2, wherein: the forward switch (b1) is arranged above the motor (h), the reverse switch (b4) is arranged on the shaft bracket (a), and the forward switch (b1) and the reverse switch (b4) are respectively and electrically connected with the motor (h).