CN110487082A - Radiation chamber ash cellar - Google Patents

Abstract

The invention discloses a kind of radiation chamber ash cellars, including warehouse and multiple resilient support assemblies.Wherein, the warehouse limits ash discharge chamber, is connected to lower outlet, the upper opening and the lower outlet with the grey chamber at the top of the warehouse with upper open and bottom, the radiation chamber furnace wall of the warehouse and waste heat boiler is connected by dismountable sealing structure；Multiple resilient support assemblies intervals are circumferentially positioned at the outer peripheral surface of the warehouse, to support the warehouse, when lime-ash falls intracavitary in the ash in the radiation chamber, and impact force of multiple resilient support assemblies buffering lime-ash to the warehouse.The resiliency of radiation chamber ash cellar of the invention is good, it is smaller to the shock loading of warehouse and furnace wall when bulk lime-ash falls, it can be torn to avoid water screen tube on furnace wall, larger tensile stress can be generated to avoid water screen tube, be conducive to waste heat boiler safe operation, flexibly, project amount is small, easy access for warehouse dismounting.

Description

Radiation chamber ash cellar

Technical field

The present invention relates to waste heat boiler correlative technology fields, more particularly, to a kind of radiation chamber ash cellar.

Background technique

Waste heat boiler is one of the core equipment in non-ferrous metal metallurgy technique, is mainly used for recycling metallurgical industrial furnace discharge High-temperature flue gas entrained by heat, while output technique production needed for steam.Into waste heat boiler high-temperature flue gas often Containing a large amount of dusts, wherein about 30% can deposit in waste heat boiler, it is therefore desirable in waste heat boiler furnace bottom, especially radiation chamber Ash cellar is arranged in bottom, with effective dust for collecting deposition.

Design conventional at present is that radiation chamber ash cellar and radiation chamber furnace wall are welded into an entirety, while also in ash cellar A small amount of water-cooling wall is arranged on inclined surface to recycle the heat of radiation chamber bottom flue gas.

Since current radiation chamber ash cellar and furnace wall are welded into an entirety, while a small amount of water cooling is arranged on ash cellar inclined surface Wall is to recycle the heat of radiation chamber bottom flue gas.Therefore current radiation chamber ash cellar is primarily present following disadvantage:

The first, radiation chamber ash cellar and radiation chamber furnace wall are overall structure, and flexibility is poor, and to be overhauled, needing will be whole A ash cellar is cut from radiation chamber furnace wall and is separated, and project amount is big and influences the continuous operation of boiler；

The second, the large-scale clinker that accumulation is formed in radiation chamber falls in ash cellar inner wall, easily by arrangement at ash cellar inclined surface Water screen tube breakdown；

The large-scale clinker that formation is accumulated in third, radiation chamber falls in ash cellar inner wall, and clinker and ash cellar Contact are to water Cold wall pipe integrally causes huge shock loading, causes water screen tube tearing；

4th, the clinker of the self weight of radiation chamber ash cellar and its internal deposition can also generate biggish stretching to water screen tube and answer Power is unfavorable for the safe operation of boiler.

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art.For this purpose, one object of the present invention It is to propose a kind of radiation chamber ash cellar, resiliency is good and storehouse dismounting is flexible, dismounting project amount is small, easy access.

Radiation chamber ash cellar according to an embodiment of the present invention, comprising:

Warehouse, the warehouse limit ash discharge chamber, have upper open and bottom at the top of the warehouse with lower outlet, it is described on The open and described lower outlet is connected to the grey chamber, and the radiation chamber furnace wall of the warehouse and waste heat boiler is by removably sealing Structure connection；

Multiple resilient support assemblies, multiple resilient support assemblies intervals are circumferentially positioned at the outer peripheral surface of the warehouse, To support the warehouse, when lime-ash falls intracavitary in the ash in the radiation chamber, multiple resilient support assemblies bufferings Impact force of the lime-ash to the warehouse.

Radiation chamber ash cellar according to an embodiment of the present invention, has the advantages that following several respects: since resilient support assemblies have There is certain elasticity, when bulk lime-ash falls intracavitary in ash in radiation chamber, can effectively buffer impact of the lime-ash to warehouse Power protects warehouse not to be destroyed, meanwhile, the shock loading that the impact force of warehouse is passed up to furnace wall is smaller, so as to keep away Exempt from the case where water screen tube is torn on furnace wall；Warehouse is supported by resilient support assemblies, can be to avoid conventional radiation room ash cellar The clinker of self weight and its internal deposition generates larger tensile stress to the water screen tube on furnace wall, is conducive to waste heat boiler and transports safely Row；Warehouse 1 can be dismounted flexibly, and dismounting project amount is small, easy to repair；It is sealed between warehouse and radiation chamber furnace wall, it can To avoid smoke dust leaks and pollutes environment.

It in some embodiments, further include sealing plate, the top of the sealing plate is welded on the radiation chamber furnace wall；The storehouse The periphery top of body is equipped with opening up annular groove, and sand, the lower part insertion of the sealing plate are filled in the annular groove In the sand.

Further, the sealing plate includes lateral ring flat-plate and vertical ring flat-plate, and the medial surface of the transverse direction ring flat-plate is welded and fixed On the radiation chamber furnace wall, the upper end of the vertical ring flat-plate is fixed on the lateral ring flat-plate, the lower end of the vertical ring flat-plate It is inserted into the sand.

Optionally, the cross sectional shape of the sealing plate is in inverted "L" shape, and the sealing plate is integrally formed part.

It in some embodiments, further include multiple first reinforcers, multiple first reinforcer spacer rings are solid around setting It is scheduled on the sealing plate and the radiation chamber furnace wall.

In some embodiments, the periphery of the warehouse is equipped with lateral mounting plate, and the resilient support assemblies include the One bolt, the first nut, elastic component, supporting element, the second bolt and the second nut；Wherein, the supporting element include upper flange, under The lower end of wing plate and the web being fixed between the upper flange and the lower wing plate, first bolt is fixed on support platform On, the upper end of first bolt uses the threaded upper ends of first nut and first bolt after the lower wing plate The elastic component and the supporting element are locked in cooperation, wherein the elastic component is fastened on the support platform and the lower wing plate Between；The mounting plate is supported on the upper flange and is fixed by second bolt and second nut.

Further, the supporting element is channel steel or I-steel or/and the elastic component is spring.

It further, further include the second reinforcer, second reinforcer is fixed on upper surface and the institute of the mounting plate It states on the lateral surface of warehouse.

In some embodiments, the section of the warehouse in the lateral direction is in " W " type, and the warehouse is in front-rear direction On section be in " V " type.

In some embodiments, water screen tube is not arranged on the warehouse, is provided on the outer peripheral surface of the warehouse multiple Third reinforcer.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is a lateral diagrammatic cross-section of the radiation chamber ash cellar of the embodiment of the present invention.

Fig. 2 is enlarged diagram at A in Fig. 1.

Fig. 3 is another lateral diagrammatic cross-section of the radiation chamber ash cellar of the embodiment of the present invention.

Fig. 4 is the top view of the radiation chamber ash cellar of the embodiment of the present invention.

Appended drawing reference:

Radiation chamber ash cellar 1000

Warehouse 1

Opening 102 is lower on grey chamber 101 exports 103 annular groove, 104 mounting plate 105

Resilient support assemblies 2

First 201 first nut of bolt, 202 elastic component 203

204 lower wing plate of supporting element, 20401 web, 20402 upper flange 20403

Second bolt, 205 second nut 206

The vertical ring flat-plate 302 of the lateral ring flat-plate 301 of sealing plate 3

Sand 4

First reinforcer 5

Second reinforcer 6

Third reinforcer 7

Support platform 8

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

Radiation chamber ash cellar 1000 according to an embodiment of the present invention is described below with reference to Fig. 1 to Fig. 4.

As shown in Figures 1 to 4, radiation chamber ash cellar 1000 according to an embodiment of the present invention, including warehouse 1 and multiple resilient support Component 2.Wherein, warehouse 1 limits ash discharge chamber 101, has upper open 102 at the top of warehouse 1 and bottom has lower outlet 103, upper to open Mouth 102 and lower outlet 103 are connected to grey chamber 101, and the radiation chamber furnace wall of warehouse 1 and waste heat boiler passes through dismountable sealing structure Connection；Multiple resilient support assemblies 2 are spaced the outer peripheral surface for being circumferentially positioned at warehouse 1, to support warehouse 1, when lime-ash in radiation chamber It falls when in grey chamber 101, multiple resilient support assemblies 2 buffer lime-ash to the impact force of warehouse 1.

Specifically, warehouse 1 limits ash discharge chamber 101, have at the top of warehouse 1 upper open 102 and bottom with lower outlet 103, upper open 102 and it is lower outlet 103 with ash chamber 101 be connected to, can be from upper opening when indoor lime-ash falls in this way, radiating 102 enter grey chamber 101 again from lower 103 discharge of outlet.The radiation chamber furnace wall of warehouse 1 and waste heat boiler is tied by removably sealing Structure connection, flexibly dismounts convenient for warehouse 1 as a result, and dismounting project amount is small, easy to repair, simultaneously as warehouse 1 and radiation chamber furnace It is sealed between wall, it can be to avoid smoke dust leaks and pollutes environment.

Multiple resilient support assemblies 2 are spaced the outer peripheral surface for being circumferentially positioned at warehouse 1, to support warehouse 1, when grey in radiation chamber Slag falls when in grey chamber 101, and multiple resilient support assemblies 2 buffer lime-ash to the impact force of warehouse 1.It is understood that In The outer peripheral surface spacer ring of warehouse 1 has the advantage that first, due to resilient support group around multiple resilient support assemblies 2 are arranged Part 2 has certain elasticity, when bulk lime-ash falls when in grey chamber 101 in radiation chamber, can effectively buffer bulk lime-ash To the impact force of warehouse 1, warehouse 1 is protected not to be destroyed, meanwhile, the impact force of warehouse 1 is passed up to the shock loading of furnace wall It is smaller, so as to avoid the case where water screen tube is torn on furnace wall；The second, warehouse 1 is supported by resilient support assemblies 2, It can be self-possessed to avoid conventional radiation room ash cellar 1000 and its clinker of internal deposition generates larger drawing to the water screen tube on furnace wall Stress is stretched, waste heat boiler safe operation is conducive to.

Radiation chamber ash cellar 1000 according to an embodiment of the present invention, has the advantages that following several respects: due to resilient support group Part 2 has certain elasticity, when bulk lime-ash falls when in grey chamber 101 in radiation chamber, can effectively buffer lime-ash to storehouse The impact force of body 1 protects warehouse 1 not to be destroyed, meanwhile, the shock loading that the impact force of warehouse 1 is passed up to furnace wall is smaller, So as to avoid the case where water screen tube is torn on furnace wall；Warehouse 1 is supported by resilient support assemblies 2, can be to avoid biography The clinker of radiation chamber ash cellar 1000 of uniting self weight and its internal deposition generates larger tensile stress to the water screen tube on furnace wall, favorably It is safely operated in waste heat boiler；Warehouse 1 can be dismounted flexibly, and dismounting project amount is small, easy to repair；Warehouse 1 and radiation chamber furnace wall Between sealed, can be to avoid smoke dust leaks and pollutes environment.

It in some embodiments, further include sealing plate 3, the top of sealing plate 3 is welded on radiation chamber furnace wall；The periphery of warehouse 1 Top is equipped with opening up annular groove 104, and sand 4 is filled in annular groove 104, and the lower part of sealing plate 3 is inserted into sand 4.By This, will effectively be sealed using sand 4 and sealing plate 3 between warehouse 1 and radiation chamber furnace wall, can to avoid smoke dust leaks and it is dirty Environment is contaminated, meanwhile, when dismantling warehouse 1, only need directly to pull down warehouse 1, so that it may so that warehouse 1 is separated with radiation chamber furnace wall, Conversely, warehouse 1 is moved upwardly so that the sand 4 that sealing plate 3 is inserted into annular groove 104 when warehouse 1 is connect with radiation chamber furnace wall In, 4 envelope of sand is carried out, convenient for disassembly and assembly flexible, dismounting project amount is small, easy to repair.In addition, when bulk lime-ash falls warehouse 1, by In the effect of resilient support assemblies 2, bulk lime-ash is smaller to the shock loading of warehouse 1, due to using the detachable close of sand seal plate Seal structure, it is ensured that shock loading will not be passed up on furnace wall by warehouse 1, thus more can be to avoid water cooling on furnace wall Wall pipe is torn.

It should be noted that the annular groove 104 of 1 periphery of warehouse can be by by the web 20402 of H profile steel or U-steel Laterally it is arranged and a wing plate is welded on 1 outer peripheral surface of warehouse and realizes.If in order to avoid the sand 4 in annular groove 104 It runs out of, an angle steel can be welded on another wing plate of H profile steel or U-steel, to increase the depth of annular groove 104 while make The opening width for obtaining circumferential groove narrows.

Further, sealing plate 3 includes lateral ring flat-plate 301 and vertical ring flat-plate 302, and the medial surface welding of lateral ring flat-plate 301 is solid It is scheduled on radiation chamber furnace wall, the upper end of vertical ring flat-plate 302 is fixed on lateral ring flat-plate 301, and sand is inserted into the lower end of vertical ring flat-plate 302 In 4.There are certain spacing between the vertical ring flat-plate 302 and radiation chamber furnace wall of sealing plate 3 as a result, are inserted into warehouse 1 convenient for sealing plate 3 In sand 4 in annular groove 104, to carry out sand seal.

Optionally, the cross sectional shape of sealing plate 3 is in inverted "L" shape, and sealing plate 3 is integrally formed part.3 structure of sealing plate letter as a result, It is single, it is easy to process.

It in some embodiments, further include multiple first reinforcers 5, multiple first reinforcer, 5 spacer rings are fixed around setting On sealing plate 3 and radiation chamber furnace wall.The bonding strength between sealing plate 3 and radiation chamber furnace wall is improved as a result,.

Preferably, the first reinforcer 5 can be fixed on the upper surface of the lateral ring flat-plate 301 of sealing plate 3 and radiation chamber furnace wall On.The bonding strength between sealing plate 3 and radiation chamber furnace wall is improved as a result,.

In some embodiments, the periphery of warehouse 1 is equipped with lateral mounting plate 105, and resilient support assemblies 2 include the first spiral shell Bolt 201, the first nut 202, elastic component 203, supporting element 204, the second bolt 205 and the second nut 206；Wherein, supporting element 204 Including upper flange 20403, lower wing plate 20401 and the web 20402 being fixed between upper flange 20403 and lower wing plate 20401, The lower end of one bolt 201 is fixed in support platform 8, and the upper end of the first bolt 201 uses the first spiral shell after passing through lower wing plate 20401 The threaded upper ends of cap 202 and the first bolt 201, which cooperate, locks elastic component 203 and supporting element 204, wherein the card of elastic component 203 is set Between support platform 8 and lower wing plate 20401；Mounting plate 105 is supported on upper flange 20403 and by 205 He of the second bolt Second nut 206 is fixed.In other words, elastic component 203 is located on the upper surface of support platform 8, the lower wing plate of supporting element 204 20401 are located on the upper surface of elastic component 203, by the first bolt 201 and the first nut 202 by elastic component 203 and supporting element 204 are fixed in support platform 8；Mounting plate 105 is folded to be located on the upper surface of upper flange 20403 of supporting element 204, and passes through the Two bolts 205 and the second nut 206 are locked.Warehouse 1 is convenient for disassembly and assembly as a result, and support strength is good, and convenient for reducing, meanwhile, Resilient support assemblies 2 are provided with elastic component 203, so that resilient support assemblies 2 have certain elasticity, when bulk ash in radiation chamber Slag falls when in grey chamber 101, can effectively buffer lime-ash to the impact force of warehouse 1, warehouse 1 is protected not to be destroyed.

Further, supporting element 204 is channel steel or I-steel, and structure is simple, easy for installation.Or/and elastic component 203 is bullet Spring may insure that resilient support assemblies 2 have stronger elasticity in above-below direction using spring, meanwhile, spring can be set in On first bolt 201, installation positioning also facilitates.

It further, further include the second reinforcer 6, the second reinforcer 6 is fixed on upper surface and the warehouse 1 of mounting plate 105 Lateral surface on.Thus, it is possible to improve the bonding strength between mounting plate 105 and warehouse 1.

In some embodiments, warehouse 1 is generally rectangular shaped, and the section of warehouse 1 in the lateral direction is in " W " type, and warehouse 1 Section in the longitudinal direction is in " V " type.Thereby it is ensured that the peripheral wall of grey chamber 101 has the suitable inclination angle for sliding slag ash smoothly In the case where, the section of warehouse 1 in the lateral direction is designed to " W " type, can substantially reduce the height of warehouse 1, is saved Height space.

In some embodiments, water screen tube is not arranged on warehouse 1.Relative to arranging water screen tube on existing warehouse 1 For, the phenomenon that smashing water screen tube when large-scale cinder block falls is avoided, the safety of boiler operatiopn is improved.Warehouse 1 Multiple third reinforcers 7 are provided on outer peripheral surface.Thus, it is possible to improve the intensity of warehouse 1 itself.

It should be noted that manhole (not shown) is additionally provided on the side wall of warehouse 1, convenient for observation and maintenance.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are included at least one embodiment or example of the invention.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can be combined in any suitable manner in any one or more of the embodiments or examples.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: not A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle of the present invention and objective, this The range of invention is defined by the claims and their equivalents.

Claims (10)

1. a kind of radiation chamber ash cellar characterized by comprising

Warehouse, the warehouse limit ash discharge chamber, and the warehouse top has lower outlet, the upper opening with upper open and bottom It is connected to the lower outlet with the grey chamber, the radiation chamber furnace wall of the warehouse and waste heat boiler passes through dismountable sealing structure Connection；

Multiple resilient support assemblies, multiple resilient support assemblies intervals are circumferentially positioned at the outer peripheral surface of the warehouse, with branch The warehouse is supportted, when lime-ash falls intracavitary in the ash in the radiation chamber, multiple resilient support assemblies buffer lime-ash To the impact force of the warehouse.

2. radiation chamber ash cellar according to claim 1, which is characterized in that it further include sealing plate, the top welding of the sealing plate On the radiation chamber furnace wall；The periphery top of the warehouse is equipped with opening up annular groove, fills in the annular groove It is filled with sand, the lower part of the sealing plate is inserted into the sand.

3. radiation chamber ash cellar according to claim 2, which is characterized in that the sealing plate includes lateral ring flat-plate and vertical ring The medial surface of plate, the transverse direction ring flat-plate is weldingly fixed on the radiation chamber furnace wall, and the upper end of the vertical ring flat-plate is fixed on institute It states on lateral ring flat-plate, the lower end of the vertical ring flat-plate is inserted into the sand.

4. radiation chamber ash cellar according to claim 3, which is characterized in that the cross sectional shape of the sealing plate is in inverted "L" shape, and The sealing plate is integrally formed part.

5. radiation chamber ash cellar as claimed in any of claims 2 to 4, which is characterized in that further include multiple first plus Strong part, multiple first reinforcer spacer rings are fixed on the sealing plate and the radiation chamber furnace wall around setting.

6. radiation chamber ash cellar according to claim 1, which is characterized in that the periphery of the warehouse is equipped with lateral installation Plate, the resilient support assemblies include the first bolt, the first nut, elastic component, supporting element, the second bolt and the second nut；Its In, the supporting element includes upper flange, lower wing plate and the web being fixed between the upper flange and the lower wing plate, and described The lower end of one bolt is fixed in support platform, and the upper end of first bolt uses first spiral shell after passing through the lower wing plate The elastic component and the supporting element are locked in the cooperation of the threaded upper ends of cap and first bolt, wherein the elastic component card is set Between the support platform and the lower wing plate；The mounting plate is supported on the upper flange and by second bolt It is fixed with second nut.

7. radiation chamber ash cellar according to claim 6, which is characterized in that the supporting element be channel steel or I-steel, or/and The elastic component is spring.

8. radiation chamber ash cellar according to claim 6, which is characterized in that further include the second reinforcer, described second reinforces Part is fixed on the upper surface of the mounting plate and the lateral surface of the warehouse.

9. radiation chamber ash cellar according to claim 1, which is characterized in that the section of the warehouse in the lateral direction is in " W " type, and the section of the warehouse in the longitudinal direction is in " V " type.

10. radiation chamber ash cellar according to claim 1, which is characterized in that water screen tube is not arranged on the warehouse, it is described Multiple third reinforcers are provided on the outer peripheral surface of warehouse.