CN105157016A

CN105157016A - Integrated burner

Info

Publication number: CN105157016A
Application number: CN201510452536.1A
Authority: CN
Inventors: 张纯勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-09-10
Filing date: 2013-09-10
Publication date: 2015-12-16
Also published as: CN105157017A; CN105240833A; CN105042569A; CN105135879A; CN105066108A; CN105240830A; CN105240831A; CN103471087B; CN105276570A; CN105222124A; CN105042613A; CN105240837A; CN105240838A; CN105240834A; CN105042571A; CN105240835A; CN105042570A; CN105240836A; CN105241240A; CN105222125A

Abstract

Provided is an integrated burner. The integrated burner comprises a box body. A hopper is installed on the upper portion of the box body. A feed motor is installed at the bottom of the hopper. The feed motor is connected with a first pipeline and a third pipeline through a spiral feed mechanism. An electric control cabinet is further installed on the upper portion of the box body. An air blow motor is installed at the bottom in the box body. One end of the air blow motor is connected with the first pipeline, and the other end of the air blow motor is connected with a second pipeline. A shell is installed on one side of the box body. The inner wall face of the shell is provided with a thermal insulation layer. Castable is installed on the inner wall face of the thermal insulation layer. A furnace bridge is installed at the bottom of the shell. A crucible is installed in the middle of the furnace bridge through a furnace support. A combustion chamber is formed between the outer wall face of the crucible and the inner wall face of the castable. Biomass particles are in the combustion chamber. A cast iron pressing cover is installed on the top of the combustion chamber. The third pipeline sequentially penetrates through the shell, the thermal insulation layer and the castable to enter the combustion chamber. The second pipeline sequentially penetrates through the shell, the thermal insulation layer and the castable to the lower portion of the furnace bridge. The work efficiency is high.

Description

Integral type combustor

The application is divisional application, and the application number of original application is: 2013104086914, and invention and created name is: integral biomass particle burning machine, and the applying date is: on September 10th, 2013.

Technical field

The present invention relates to combustor, especially a kind of integral type combustor.

Background technology

Biomass fuel mostly is the block environmental protection new forms of energy that rice husk, peanut shell, corncob, oil tea shell, cotton seed hulls and " three surplus things " process processing produce.

Biological particles to have won with its distinctive advantage as a kind of novel granular fuel to be approved widely.Compared with traditional fuel, not only there are economic advantages and also there is environmental benefit, met the requirement of sustainable development completely.First, because shape is particle, have compressed volume, save storage area, be also convenient to transport, decrease cost of transportation.Secondly, combustion benefits is high, is easy to after-flame, and residual carbon amounts is few.With coal facies ratio, volatile content height burning-point is low, easily lights; Density improves, and energy density is large, and firing duration significantly increases, and can directly apply on coal-burning boiler.In addition, during biological particles burning, pernicious gas component content is extremely low, and the pernicious gas of discharge is few, has environmental benefit.And the ash after burning directly can also use as potash fertilizer, saves spending.

Biological particles is generally formed through pulverizing compacting by agricultural crop straw.At present, rural area agricultural crop straw is generally undertaken returning field by directly burning in field, and directly burn and return field to environmental destruction very greatly, contaminated air, affects flight safety, also causes the waste of resource simultaneously.Biomass combustion machine of the prior art, may be used for heat supply, heating, and produce coal gas, but general structure is complicated, efficiency of combustion is low, unstable properties, manufacturing cost is high.

Summary of the invention

The applicant, for the shortcoming in above-mentioned existing production technology, provides a kind of integral type combustor rational in infrastructure, thus improves combustor running stability, and completely, efficiency is high in burning, pollutes few.

The technical solution adopted in the present invention is as follows:

A kind of integral type combustor, comprise casing, described casing top is provided with hopper, and described feed hopper bottom installs feeding motor, and described feeding motor connects the first pipeline and the 3rd pipeline by screw feed mechanism; Described casing top is also provided with electrical control cubicles; Be positioned at casing inner bottom part and be provided with blower motor, one end of described blower motor is connected with the first pipeline, and the other end of described blower motor connects the second pipeline; Be positioned at the side mounting casing of casing, the internal face of described shell is provided with heat-insulation layer, the internal face of described heat-insulation layer is provided with castable, the bottom being positioned at shell is provided with grate, squatted by stove and install crucible in the middle part of described grate, forming combustion chamber between the outside wall surface of described crucible and the internal face of castable, is biological particles in described combustion chamber, and cast iron gland is installed at the top of described combustion chamber; Described 3rd pipeline passes shell, heat-insulation layer and castable successively in combustion chamber, and described second pipeline passes shell, heat-insulation layer and castable successively to grate bottom; The side being positioned at shell is also provided with waste heat recovery plant, the structure of described waste heat recovery plant is: be provided with path in described combustion chamber, described lane exit connects dust setting chamber, be positioned at bottom, dust setting chamber and be provided with shoot door, being positioned at top, dust setting chamber is flue gas reflection channel, and the exhanst gas outlet of described flue gas reflection channel docks with in the middle part of crucible.

Further improvement as technique scheme:

The outside wall surface being positioned at shell is provided with lighting door, and described lighting door is connected by the combustion chamber of the 4th pipeline with embedded biometric matter particle;

The bottom being positioned at shell side is provided with aluminium water valve clearly by pipeline;

Be hollow cavity in described heat-insulation layer;

Leave gap between described heat-insulation layer and castable, in described gap, be filled with heat insulation foam;

Described castable adopts high-alumina brick to surround hollow cylindrical structure;

Described shell becomes hollow cylindrical structure;

Described second pipeline is provided with air-quantity adjusting valve;

The top being positioned at flue gas reflection channel is provided with suspension ring.

Described shell is also provided with sight burner.

Beneficial effect of the present invention is as follows:

Compact conformation of the present invention, rationally, easy to make.Completed the automatic transport of biological particles by feeding motor and conveying worm, lighting door, in housing exterior, conveniently completes igniting, and the setting of waste heat recovery plant improves the utilization rate of fuel, its running stability, and completely, efficiency is high in burning, pollutes few.The present invention can be applicable to molten aluminium stove, and has heat insulation function.

Accompanying drawing explanation

Fig. 1 is front view of the present invention.

Fig. 2 is the top view of Fig. 1.

Wherein: 1, hopper; 2, electrical control cubicles; 3, casing; 4, feeding motor; 5, the first pipeline; 6, blower motor; 7, air-quantity adjusting valve; 8, the second pipeline; 9, the 3rd pipeline; 10, cast iron gland; 11, crucible; 12, exhanst gas outlet; 13, suspension ring; 14, flue gas reflection channel; 15, path; 16, dust setting chamber; 17, shoot door; 18, combustion chamber; 19, stove is squatted; 20, grate; 21, castable; 22, heat-insulation layer; 23, shell; 24, clear aluminium water valve; 25, the 4th pipeline; 26, lighting door.

Detailed description of the invention

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

As depicted in figs. 1 and 2, the integral type combustor of the present embodiment, comprises casing 3, and casing 3 top is provided with hopper 1, installs feeding motor 4 bottom hopper 1, and feeding motor 4 connects the first pipeline 5 and the 3rd pipeline 9 by screw feed mechanism; Casing 3 top is also provided with electrical control cubicles 2; Be positioned at casing 3 inner bottom part and be provided with blower motor 6, one end of blower motor 6 is connected with the first pipeline 5, and the other end of blower motor 6 connects the second pipeline 8; Be positioned at the side mounting casing 23 of casing 3, the internal face of shell 23 is provided with heat-insulation layer 22, the internal face of heat-insulation layer 22 is provided with castable 21, the bottom being positioned at shell 23 is provided with grate 20, crucibles 11 are installed by stove crouching 19 in the middle part of grate 20, forming combustion chamber 18 between the outside wall surface of crucible 11 and the internal face of castable 21, is biological particles in combustion chamber 18, and cast iron gland 10 is installed at the top of combustion chamber 18; 3rd pipeline 9 is successively through in shell 23, heat-insulation layer 22 and castable 21 to combustion chamber 18, and the second pipeline 8 is successively through shell 23, heat-insulation layer 22 and castable 21 to grate 20 bottom; The side being positioned at shell 23 is also provided with waste heat recovery plant, the structure of waste heat recovery plant is: be provided with path 15 in combustion chamber 18, path 15 exports and connects dust setting chamber 16, be positioned at bottom, dust setting chamber 16 and be provided with shoot door 17, being positioned at top, dust setting chamber 16 is flue gas reflection channel 14, and the exhanst gas outlet 12 of flue gas reflection channel 14 docks with in the middle part of crucible 11.

The outside wall surface being positioned at shell 23 is provided with lighting door 26, and lighting door 26 is connected by the combustion chamber of the 4th pipeline 25 with embedded biometric matter particle.Igniting is convenient, and operating efficiency is high.

The bottom being positioned at shell 23 side is provided with aluminium water valve 24 clearly by pipeline.In crucible 11 during heating aluminium water, facilitate the discharge of aluminium water, not easily block.

Be hollow cavity in heat-insulation layer 22.Be convenient to heat insulation in the course of the work, shell 23 can not be hot, ensures the safety of staff.

Leave gap between heat-insulation layer 22 and castable 21, in gap, be filled with heat insulation foam.Increase effect of heat insulation.

Castable 21 adopts high-alumina brick to surround hollow cylindrical structure.High-alumina brick is refractory material, improves functional reliability.

23 one-tenth, shell hollow cylindrical structure.

Second pipeline 8 is provided with air-quantity adjusting valve 7.The air output of blower motor 6 can be regulated easily.

The top being positioned at flue gas reflection channel 14 is provided with suspension ring 13.Facilitate the transfer of machine in the course of work.Shell 23 is also provided with and sees burner (not shown in FIG.).Handled easily workman observes the duration and degree of heating in stove.

Operation principle of the present invention is:

Start electrical control cubicles 2, first control feeding motor 4 to work, biological particles is put in hopper 1, be delivered to combustion chamber 18 in by biological particles by the 3rd pipeline 9 by conveying worm, lighted a fire by lighting door 26, blower motor 6 starts simultaneously, second pipeline 8 is bottom grate 20, make burning more prosperous, due to the design of the first pipeline 5, effectively prevent the phenomenon of tempering; Produce after aluminium heating in crucible 11, flue gas in combustion chamber 18 is run out of from path 15, dust in flue gas enters dust setting chamber 16, and is discharged by shoot door 17, and the heat in flue gas is entered in crucible 11 from exhanst gas outlet 12 by flue gas reflection channel 14.Its working stability is reliable, and combustion utilization efficiency is high, and cost is low.

More than describing is explanation of the invention, and be not the restriction to invention, limited range of the present invention, see claim, within protection scope of the present invention, can do any type of amendment.

Claims

1. integral type combustor, it is characterized in that: comprise casing (3), described casing (3) top is provided with hopper (1), feeding motor (4) is installed in described hopper (1) bottom, and described feeding motor (4) connects the first pipeline (5) and the 3rd pipeline (9) by screw feed mechanism, described casing (3) top is also provided with electrical control cubicles (2), be positioned at casing (3) inner bottom part and blower motor (6) is installed, one end of described blower motor (6) is connected with the first pipeline (5), and the other end of described blower motor (6) connects the second pipeline (8), be positioned at the side mounting casing (23) of casing (3), the internal face of described shell (23) is provided with heat-insulation layer (22), the internal face of described heat-insulation layer (22) is provided with castable (21), the bottom being positioned at shell (23) is provided with grate (20), crucible (11) is installed by stove crouching (19) in the middle part of described grate (20), combustion chamber (18) is formed between the outside wall surface of described crucible (11) and the internal face of castable (21), be biological particles in described combustion chamber (18), cast iron gland (10) is installed at the top of described combustion chamber (18), described 3rd pipeline (9) passes shell (23), heat-insulation layer (22) and castable (21) successively in combustion chamber (18), and described second pipeline (8) passes shell (23), heat-insulation layer (22) and castable (21) successively to grate (20) bottom, the side being positioned at shell (23) is also provided with waste heat recovery plant, the structure of described waste heat recovery plant is: be provided with path (15) in described combustion chamber (18), described path (15) outlet connects dust setting chamber (16), be positioned at dust setting chamber (16) bottom and be provided with shoot door (17), being positioned at dust setting chamber (16) top is flue gas reflection channel (14), the exhanst gas outlet (12) of described flue gas reflection channel (14) docks with crucible (11) middle part, the outside wall surface being positioned at shell (23) is provided with lighting door (26), described lighting door (26) is connected with the combustion chamber (18) of embedded biometric matter particle by the 4th pipeline (25), described shell (23) becomes hollow cylindrical structure.

2. integral type combustor as claimed in claim 1, is characterized in that: described second pipeline (8) is provided with air-quantity adjusting valve (7).

3. integral type combustor as claimed in claim 1, is characterized in that: the top being positioned at flue gas reflection channel (14) is provided with suspension ring (13).

4. integral type combustor as claimed in claim 1, is characterized in that: (23) are also provided with sight burner to described shell.