CN204901803U

CN204901803U - Production boiler

Info

Publication number: CN204901803U
Application number: CN201520546283.XU
Authority: CN
Inventors: 杨湜
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-07-24
Filing date: 2015-07-24
Publication date: 2015-12-23
Anticipated expiration: 2025-07-24

Abstract

The utility model discloses a production boiler, including production boiler body and automatic cyclone, the upper portion on production boiler body right side is equipped with the chimney, the import pipe sets up in the left side of barrel upper end, and import pipe and chimney fixed connection, transparent observation hole sets up the lower extreme at the import pipe, outer vortex and interior vortex all set up in the inside of dust remover body, the outside of vortex including just outer vortex sets up, gas filtering apparatus's inside is equipped with sulfur dioxide adsorption and filtration ware and fuming nitric acid absorption oxidation unit, gas filtering apparatus passes through pipeline and barrel fixed connection, ash bucket and cone fixed connection. The utility model discloses simple structure, the cost is low, and installation, easy maintenance mainly are applicable to the non - fibre dust that dust particle is big, dry, are applicable to smelting, casting, sandblast, building materials, industry such as fire -resistant, make simultaneously and produce environmental protection more, reduce PM2.0's in the air emission, are favorable to the protection of environment.

Description

A kind of production boiler

Technical field

The utility model belongs to boiler technology field, is specifically related to a kind of production boiler.

Background technology

At present in reality in boiler for producing process, production boiler as cement plant, coking plant all gives off a large amount of dusts and pernicious gas, very large pollution is caused to surrounding environment, and existing cleaner, dust removing effects is undesirable again, and it is bulky, cost is high, and maintenance is inconvenient, and expense is also high, when thus causing the used time need not, the contradiction of production and environmental protection is never solved thoroughly.

For a long time, have the advantages such as simple, the easy to use and reduced investment of structure, be the cleaner that gas cleaning generally adopts to the cyclone dust collectors history of factory always.At present because economic fast development and environmental protection requirement improve day by day, cyclone dust collectors only have 70 ~ 90% because of actual efficiency of dust collection, are difficult to meet high purification requirement, have influence on other advantages and also no longer get the upper hand, and be faced with the situation subtracted in a large number.Protection of the environment; improvement smoke contamination must be implemented in full; when cyclone dust collectors can not meet the demands because efficiency of dust collection is low; each production industry generally will use other High-efficiency dust removal method (such as bag-type dust, electrostatic precipitation and wet dedusting etc.) instead; but existing High-efficiency dust removal method Technical comparing is complicated; investment and producing cost exceed tens times than cyclone dust collectors; limit by fund; most enterprise is all difficult to put into practice immediately; hamper gas pollution control process, environment protection standard requirement can not be met as soon as possible.Change this situation, the ash-laden gas that various Large-scale enterprises is discharged all reaches purification requirement, economizes most, the fastest method still uses cyclone dust collectors, but must the raising efficiency of dust collection of large degree.

Therefore, in order to respond national environmental protection policy, reducing the discharge capacity of PM2.0 in air, needing the exhanst gas outlet producing boiler to increase dedusting and pernicious gas filter plant.

Utility model content

The purpose of this utility model is that providing a kind of produces boiler, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme: a kind of production boiler, comprise and produce boiler body and automatic cyclone dust collectors, top on the right side of described production boiler body is provided with chimney, described chimney is fixedly connected with the inlet tube of automatic cyclone dust collectors, described automatic cyclone dust collectors are by deduster body, inlet tube, transparent window, outer vortex, inside vortex, cone, cylindrical shell, controller, upper vortex, gas-filtering device, outlet, upper top cover and ash bucket composition, described inlet tube is arranged on the left side of cylindrical shell upper end, and inlet tube is fixedly connected with chimney, described transparent window is arranged on the lower end of inlet tube, described outer vortex and inside vortex are all arranged on the inside of deduster body, and outer vortex is arranged on the outside of inside vortex, described cone is fixedly connected with cylindrical shell, described controller is arranged on the right side of cylindrical shell, described upper vortex is arranged on the right side of inner barrel, the inside of described gas-filtering device is provided with sulfur dioxide adsorption filter and fuming nitric aicd adsorption and oxidation device, described gas-filtering device is fixedly connected with cylindrical shell by pipeline, described outlet is fixedly connected with the top of gas-filtering device, described upper top cover is fixedly connected with cylindrical shell, described ash bucket is fixedly connected with cone.

Preferably, the junction of described inlet tube and chimney is provided with bayonet unit.

Preferably, described ash bucket lower end is provided with discharging opening, and described ash bucket is set to pyramidal structure.

Technique effect of the present utility model and advantage: this one produces boiler, can show the amount of ram in course of work middle cylinder body, be convenient to better operation, can improve the operating efficiency of deduster, reduce surplus simultaneously by controller; Can Dedusting Methods in clear view deduster body by transparent window; The gas-filtering device installed in the lower end of outlet effectively can remove the pernicious gas such as sulfur dioxide, oxynitrides in industrial processes; The utility model structure is simple; cost is low; installation, maintenance is convenient; mainly be applicable to the non-fiber dust that dust granules is large, dry; be applicable to smelting, casting, sandblasting, building materials, the industry such as fire-resistant; make production environmental protection more simultaneously, reduce the discharge capacity of PM2.0 in air, be conducive to the protection of environment.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure: 1 produces vortex, 13 gas-filtering devices, 14 sulfur dioxide adsorption filters, 15 fuming nitric aicd adsorption and oxidation devices, 16 outlets, 17 upper top covers, 18 ash buckets on boiler body, 2 chimneys, 3 automatic cyclone dust collectors, 4 deduster bodies, 5 inlet tubes, 6 transparent windows, 7 outer vortexs, 8 inside vortex, 9 cones, 10 cylindrical shells, 11 controllers, 12.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

The one that the utility model provides as shown in Figure 1 produces boiler, comprise and produce boiler body 1 and automatic cyclone dust collectors 3, top on the right side of described production boiler body 1 is provided with chimney 2, described chimney 2 is fixedly connected with the inlet tube of automatic cyclone dust collectors 3, described inlet tube 5 is provided with bayonet unit with the junction of chimney 2, described automatic cyclone dust collectors 3 are by deduster body 4, inlet tube 5, transparent window 6, outer vortex 7, inside vortex 8, cone 9, cylindrical shell 10, controller 11, upper vortex 12, gas-filtering device 13, outlet 16, upper top cover 17 and ash bucket 18 form, described inlet tube 5 is arranged on the left side of cylindrical shell 10 upper end, and inlet tube 5 is fixedly connected with chimney 2, described transparent window 6 is arranged on the lower end of inlet tube 16, described outer vortex 7 and inside vortex 8 are all arranged on the inside of deduster body 4, and outer vortex 7 is arranged on the outside of inside vortex 8, described cone 9 is fixedly connected with cylindrical shell 10, described controller 11 is arranged on the right side of cylindrical shell 10, described upper vortex 12 is arranged on the right side of cylindrical shell 10 inside, the inside of described gas-filtering device 13 is provided with sulfur dioxide adsorption filter 14 and fuming nitric aicd adsorption and oxidation device 15, described gas-filtering device 13 is fixedly connected with cylindrical shell 10 by pipeline, described outlet 16 is fixedly connected with the top of gas-filtering device 13, described upper top cover 17 is fixedly connected with cylindrical shell 10, described ash bucket 18 is fixedly connected with cone 9, described ash bucket 18 lower end is provided with discharging opening, described ash bucket is set to pyramidal structure.

Operation principle: when dust-contained airflow anticlockwise campaign, by making dust be separated from air-flow with centrifugal force and trapping in wall, relends and helps Action of Gravity Field to make grit fall into ash bucket 18; After dust-contained airflow enters deduster from inlet tube 5, between the shell importing automatic cyclone dust collectors 3 and blast pipe, air-flow anticlockwise campaign in automatic cyclone dust collectors 3, outer formation rotates downward contour stealth, grit in air-flow moves to outer wall under the action of the centrifugal, arrives wall, and fall into ash along wall under air-flow and Action of Gravity Field, 18 discharge, thus reach the object of grey gas separation.

Last it is noted that the foregoing is only preferred embodiment of the present utility model; be not limited to the utility model; although be described in detail the utility model with reference to previous embodiment; for a person skilled in the art; it still can be modified to the technical scheme described in foregoing embodiments; or equivalent replacement is carried out to wherein portion of techniques feature; all within spirit of the present utility model and principle; any amendment of doing, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims

1. a production boiler, comprise and produce boiler body (1) and automatic cyclone dust collectors (3), it is characterized in that: the top on described production boiler body (1) right side is provided with chimney (2), described chimney (2) is fixedly connected with the inlet tube of automatic cyclone dust collectors (3), described automatic cyclone dust collectors (3) are by deduster body (4), inlet tube (5), transparent window (6), outer vortex (7), inside vortex (8), cone (9), cylindrical shell (10), controller (11), upper vortex (12), gas-filtering device (13), outlet (16), upper top cover (17) and ash bucket (18) composition, described inlet tube (5) is arranged on the left side of cylindrical shell (10) upper end, and inlet tube (5) is fixedly connected with chimney (2), described transparent window (6) is arranged on the lower end of inlet tube (16), described outer vortex (7) and inside vortex (8) are all arranged on the inside of deduster body (4), and outer vortex (7) is arranged on the outside of inside vortex (8), described cone (9) is fixedly connected with cylindrical shell (10), described controller (11) is arranged on the right side of cylindrical shell (10), described upper vortex (12) is arranged on the inner right side of cylindrical shell (10), the inside of described gas-filtering device (13) is provided with sulfur dioxide adsorption filter (14) and fuming nitric aicd adsorption and oxidation device (15), described gas-filtering device (13) is fixedly connected with cylindrical shell (10) by pipeline, described outlet (16) is fixedly connected with the top of gas-filtering device (13), described upper top cover (17) is fixedly connected with cylindrical shell (10), described ash bucket (18) is fixedly connected with cone (9).

2. one according to claim 1 produces boiler, it is characterized in that: (5 are provided with bayonet unit with the junction of chimney (2) to described inlet tube.

3. one according to claim 1 produces boiler, it is characterized in that: described ash bucket (18) lower end is provided with discharging opening, and described ash bucket is set to pyramidal structure.