CN202024321U - Decelerating wear prevention device and boiler hearth comprising same - Google Patents

Abstract

The utility model provides a decelerating wear prevention device and a boiler hearth comprising the same. The decelerating wear prevention device comprises a plurality of decelerating wear prevention lashing strips arranged side by side. Each decelerating wear prevention lashing strip comprises a lashing strip main body, dowels and a plurality of shims, wherein the dowels are fixedly connected with the boiler hearth; the lashing strip main body is laid on the dowels; the shims are arranged between the two adjacent decelerating wear prevention lashing strips; and both ends of each shim respectively extend to the two adjacent decelerating wear prevention lashing strips. The decelerating wear prevention device provided by the utility model can be directly arranged on a heating surface in the hearth, thus, the large-area modification on the heating surface is avoided, and the cost is lower; the shims are arranged between the two adjacent decelerating wear prevention lashing strips, thus, the sidewall flow abrasion and the airflow lateral turbulent flow abrasion can be effectively eliminated, and moreover, the decelerating wear prevention device has a certain heat transfer performance per se, and thereby, the temperature increase range of the dense phase zone of an installed circulating fluidized bed boiler can be effectively reduced.

Description

Deceleration shoe and have the boiler furnace of this device

Technical field

The utility model relates to the CFBB field, especially, relates to a kind of deceleration shoe.In addition, the utility model also relates to a kind of boiler furnace that comprises above-mentioned deceleration shoe.

Background technology

Adopting CFBB is a widely used clean coal utilization technology at present, because of it has flameholding, clean environment firendly, the efficiently extremely favor of power-generating enterprise of characteristics such as low dirt.But, the restriction that is subjected to the CFBB inherent characteristics and uses coal, the CFBB ubiquity the serious problem of heating surface wear, must take adequate measures to alleviate the harm that the heating surface wear problem is brought to unit operation.

As shown in Figure 1, that has carried out studies have shown that in a large number, all the time exist in the burner hearth 1 of CFBB the center granule density low and totally move upward, Bian Bi district granule density is high and the nucleolus fluidal texture that totally moves downward, be to exist strong interior circulation and limit wall stream in the stove, this phenomenon makes that particle is reunited, sedimentation and cause gas-solid two alternate strong heat and mass exchange, though it can strengthen furnace heat transfer and mass transport process, can cause the heating surface in the burner hearth 1 to wear and tear.

Conventional method mainly adopts boss soft landing structure, allows tubular construction and metal spraying reduce heating surface wear, wherein, the boss soft landing is mainly used in the wearing and tearing that alleviate awl section Fire and abrasion resistant material and upper vertical water-cooling wall intersection, after operation a period of time, boss upper water cold wall pipe still serious wearing and tearing can occur, therefore is difficult to satisfy the abrasionproof requirement of the CFBB that uses relatively poor ature of coal; Make the abrasionproof effect of tubular construction relevant with boiler fluidizing velocity and cone section structure, be subjected to the restriction of construction condition, run duration occurs watering material feeding easily and comes off, and not only can not alleviate wearing and tearing, also can cause the wearing and tearing aggravation of regional area; Metal spraying can alleviate wearing and tearing to a certain extent, but CFBB for burning inferior coal (the gangue mixed-fuel burning proportion is big, ash content is high), the abrasionproof effect is not ideal enough mostly, the abrasionproof cycle, one was no more than three months, fold, perk appear after the part of generating units spraying, large tracts of land in service comes off, and becomes new wear point.

Chinese patent application 200520118121.2 provides a kind of boiler hearth of circulating fluidized bed that has shoe, the multistage layout of shoe in this burner hearth, agree with mutually but can not flow with the interior complicated gas-solid of stove fully, subregion (particularly four angular zones) wear protection degree is limited; Protect for difficult formation of the air-flow wearing and tearing of lower furnace portion and upside; Shoe self conduction heat is limited, behind the water-cooling wall of cover part, causes bed temperature to rise to some extent.

The utility model content

The utility model purpose is to provide a kind of deceleration shoe, with solve shoe in the existing circulating fluid bed boiler can not be fully with stove in the gas-solid of complexity is mobile agrees with, causes the serious technical problem of part heating surface wear mutually.

For achieving the above object,, provide a kind of deceleration shoe, having comprised according to an aspect of the present utility model: many deceleration abrasionproof shrouds that are arranged side by side, this deceleration abrasionproof shroud comprises: the shroud main body; Be used for the pin of fixedlying connected with boiler furnace, the shroud main body is laid on the pin; A plurality of shims are arranged between two adjacent deceleration abrasionproof shrouds, and extend to adjacent deceleration wear-resistant belt respectively at the two ends of each shim.

Further, deceleration abrasionproof shroud also comprises hexsteel, and hexsteel is fixed on the pin, and the shroud main body is laid on hexsteel and the pin.

Further, shim is arranged between adjacent deceleration abrasionproof shroud or the segmentation layout continuously.

Further, the pin that has one or more layers in every deceleration abrasionproof shroud.

According to another aspect of the present utility model, a kind of boiler furnace also is provided, its inside is provided with the heating surface that comprises cooling tube and be connected in the fin between the cooling tube, and this heating surface is provided with above-mentioned deceleration shoe.

Further, many deceleration abrasionproof shrouds of deceleration shoe end short transverse along burner hearth with certain pitch arrangement from the top of the emulsion zone of lower furnace portion to furnace roof.

Further, the following close mode thin, non-equidistance of deceleration abrasionproof shroud is arranged.

Further, the angle of deceleration abrasionproof shroud and horizontal direction is 0～90 °.

Further, shim is fixed on the fin.

Further, the center line range deviation of the center line of shim and fin is smaller or equal to 1 millimeter.

Further, the area coverage ratio of deceleration abrasionproof shroud on heating surface is smaller or equal to 5%.

Further, every deceleration abrasionproof shroud is arranged along the circumferentially continuous or interruption of burner hearth.

The utlity model has following beneficial effect:

1, between the deceleration abrasionproof shroud shim is set, can effectively eliminates limit wall stream wearing and tearing and the wearing and tearing of air-flow side direction flow-disturbing;

2, in the deceleration abrasionproof shroud hexsteel is set, can increases the intensity of shroud main body, make the installation of shroud main body more solid and reliable, not easy to wear, can play more lasting protection to the heating surface in the burner hearth;

3, the deceleration shoe is simple in structure, and is easy for installation, maintenance easily, and deceleration abrasionproof shroud can be set directly on the heating surface in the burner hearth, avoided that heating surface is carried out large tracts of land and changed, cost is low;

4, deceleration abrasionproof shroud and shim have certain heat transfer property, can effectively reduce the ascensional range that the back bed temperature is installed.

Except purpose described above, feature and advantage, the utility model also has other purpose, feature and advantage.With reference to figure, the utility model is described in further detail below.

Description of drawings

The accompanying drawing that constitutes the application's a part is used to provide further understanding of the present utility model, and illustrative examples of the present utility model and explanation thereof are used to explain the utility model, do not constitute improper qualification of the present utility model.In the accompanying drawings:

Fig. 1 is the schematic diagram of gas-solid flow flowing mode in the circulating fluid bed boiler;

Fig. 2 is the structural representation that the deceleration abrasionproof shroud of the utility model preferred embodiment is arranged along furnace height;

Fig. 3 is the arrangement schematic diagram of deceleration abrasionproof shroud on curtain wall of the utility model preferred embodiment;

Fig. 4 is the structural representation that the shroud main body of the utility model preferred embodiment is fixed by hexsteel and pin;

Fig. 5 is that the shroud main body section of the utility model preferred embodiment is trapezoidal and by the fixing structural representation of hexsteel and pin;

Fig. 6 is that the shroud main body section of the utility model preferred embodiment is a rectangle and by the fixing structural representation of hexsteel and pin;

Fig. 7 is that the shroud main body section of the utility model preferred embodiment is for semicircle and by hexsteel and the fixing structural representation of pin;

Fig. 8 is the side-looking structural representation that the shim interruption is arranged and the shroud main body is fixed by pin of the utility model preferred embodiment;

Fig. 9 is the side-looking structural representation that the shim interruption is arranged and the shroud main body is fixed by hexsteel and pin of the utility model preferred embodiment;

Figure 10 is that the deceleration abrasionproof shroud of the utility model preferred embodiment is collected the side-looking structural representation that case seal box partition through walls is arranged with horizontal discontinuous manner and the shroud main body is fixed by hexsteel and pin;

Figure 11 is that the deceleration abrasionproof shroud of the utility model preferred embodiment is collected the side-looking structural representation that case seal box partition through walls is fixed by pin with horizontal discontinuous manner layout and shroud main body;

Figure 12 is that the deceleration abrasionproof shroud of the utility model preferred embodiment is collected the main TV structure schematic diagram that case seal box partition through walls is arranged with horizontal discontinuous manner;

Figure 13 is the installation site schematic diagram of shim on fin of utility model preferred embodiment; And

Figure 14 is that the deceleration abrasionproof shroud of the utility model preferred embodiment is along the vertically arranged structural representation of heating surface short transverse.

The specific embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

An aspect of the present utility model provides a kind of deceleration shoe, and this deceleration shoe can be used for the heating surface in the circulating fluid bed boiler is protected.

As Fig. 2, Fig. 3 and shown in Figure 4, the deceleration shoe comprises deceleration abrasionproof shroud 20, the short transverse of burner hearth 10 that deceleration abrasionproof shroud 20 follows the circulation fluidized bed boiler with certain pitch arrangement on heating surface.Deceleration abrasionproof shroud 20 comprises shroud main body 21, pin 25, and hexsteel 23, wherein, pin 25 is welded on the water-cooling wall cooling tube 11 that forms water-cooling wall, form the curtain wall cooling tube 13 of curtain wall or be connected on the fin 12 between the adjacent cooling tube, hexsteel 23 is welded on the pin 25, and then shroud main body 21 is laid on hexsteel 23 and the pin 25, formed the deceleration abrasionproof shroud 20 that is covered in the heating surface surface.

Hexsteel 23 helps the typing of the shroud main body 21 of paste, and the expansion of hexsteel 25 is better than pin 23, and also better control of the profile construction of deceleration abrasionproof shroud 20 helps to improve construction quality.

Pin 25 both can only be welded on water-cooling wall cooling tube 11 or the curtain wall cooling tube 13, also can only be welded on a kind of carrier among water-cooling wall cooling tube 11, curtain wall cooling tube 13, the fin 12, can also be welded on simultaneously on three kinds or the two kinds of carriers.

As Fig. 5, Fig. 6 and shown in Figure 7, the cross section of deceleration abrasionproof shroud 20 can be trapezoidal, rectangle or semicircle, and excessive and being heated of heating surface impacted for the volume of the abrasionproof shroud 20 that prevents to slow down, the height (thickness) and the width of deceleration abrasionproof shroud 20 all are no more than 300 millimeters.

As Fig. 8 and shown in Figure 9, no matter slow down and whether be provided with hexsteel 23 in the abrasionproof shroud 20, in order to eliminate wall stream wearing and tearing of heating surface limit and the wearing and tearing of air-flow side direction flow-disturbing in the burner hearth 10, between adjacent deceleration abrasionproof shroud 20, all can realize by the mode that a plurality of shims 22 are set.Shim 22 is arranged between two adjacent deceleration abrasionproof shrouds 20, and extend to two adjacent deceleration wear-resistant belts respectively at the two ends of shim 22.Shim 22 can be used to cut down lateral airflow to the washing away of water-cooling wall and curtain wall, thereby alleviates the side wear of heating surface.

Every deceleration abrasionproof shroud can or be interrupted and arrange along the circumferentially continuous of the heating surface in the burner hearth 10.One adopts continuously and arranges, at some in particular cases, as Figure 10, Figure 11 and shown in Figure 12, the layout area of the abrasionproof shroud 20 that for example slows down has collection case wall pipe 30 or gaging hole, and deceleration abrasionproof shroud 20 also can be interrupted layout.

Shim 22 can connect layout between adjacent deceleration abrasionproof shroud 20, also can segmentation arrange, and be welded on the fin 12.

As shown in figure 13, because the width of fin 12 is less, for preventing that shim 22 is welded on the water-cooling wall cooling tube 11 or curtain wall cooling tube 13 of fin both sides, and the sidewall that prevents water-cooling wall cooling tube 11 and curtain wall cooling tube 13 is subjected to wearing and tearing in various degree, the center line of shim 22 should overlap with the center line of fin 12 as far as possible, preferably, the center line range deviation of the center line of shim 22 and fin 12 should be smaller or equal to 1 millimeter.

For shim 22 more firmly is welded on the fin 12, the weld seam H between shim 22 and the fin 12 should be greater than three millimeters.

In order to improve the service life of deceleration abrasionproof shroud 20, prevent it owing to high temperature, humidity are damaged, hexsteel 23, pin 25, and shim 22 all can adopt heat-resistance stainless steel.

Every deceleration abrasionproof shroud 20 interior pins 25 not only can be provided with one deck, for make that the shroud main body 21 that is in paste can be stable ride on the pin 25 or ride over pin 25 and hexsteel 23 on, the length of pin 25 is more than or equal to 20 millimeters, and every deceleration abrasionproof shroud 20 interior pins 25 that two-layer or multilayer can also be set along the short transverse of burner hearth 10.

According to another aspect of the present utility model, a kind of boiler furnace also is provided, the heating surface in this boiler furnace is provided with above-mentioned deceleration shoe.Wherein, heating surface mainly comprises water-cooling wall cooling tube 11, curtain wall cooling tube 13, and is connected the fin 12 between the parallel adjacent cooling tube.Curtain wall comprises membrane type heating surface, dividing waterwall heating surface, full dividing wall heating surface, overheated heating surface and hot again heating surface.In fact, from in appearance, the not significantly difference of water-cooling wall cooling tube 11 and curtain wall cooling tube 13, in Fig. 3, in order to show water-cooling wall cooling tube 11, curtain wall cooling tube 13, and the relation of the position between the fin 12, adopted different filling patterns to distinguish the three, do not represent picture on surface to limit to the three.

In the accompanying drawing below, only water-cooling wall cooling tube 11, curtain wall cooling tube 13 and fin 12 are distinguished, and no longer utilized picture on surface to distinguish by label.

See Fig. 2 again, for make heating device can be fully with stove in complicated gas-solid flow and agree with mutually, deceleration abrasionproof shroud 20 ends full burner hearth ground layout from emulsion zone 14 tops to the furnace roof 16 of burner hearth 10 bottoms of CFBB.

Deceleration abrasionproof shroud 20 both can adopt non-equidistance to arrange, also can adopt equidistant layout, the minimum arrangement pitch between the adjacent deceleration abrasionproof shroud 20 is one meter, and maximum arrangement pitch is six meters.

Height according to the overlay area of the heating surface of existing boiler designs, the layout quantity of deceleration abrasionproof shroud 20 be four to 14 comparatively suitable.

Deceleration abrasionproof shroud 20 is 0～90 degree with the angle of horizontal direction, that is to say, deceleration abrasionproof shroud 20 can be arranged along level side in burner hearth 10 mutually, also can vertically arrange, can also be with arbitrarily angled layout, to increase deceleration abrasionproof shroud 20 installation flexibility, adapt to multiple chamber structure.

As shown in figure 14, when deceleration abrasionproof shroud 20 is vertically arranged, when promptly being arranged in parallel with the short transverse of water-cooling wall cooling tube 11, the angle that belongs to deceleration abrasionproof shroud and horizontal direction is a kind of special arrangement mode of 90 degree, this kind arrangement can be used to realize the abrasionproof of 10 4 jiaos in burner hearth, improves the abrasionproof efficient of heating surface in all directions.

The area coverage ratio of deceleration abrasionproof shroud 20 on heating surface should have a negative impact with the heat transfer that reduces heating surface smaller or equal to 5%, avoids the fluctuating widely of temperature of CFBB emulsion zone.

Enumerate several different combining forms below:

Compound mode 1:

Referring to Fig. 4 and Fig. 5, deceleration abrasionproof shroud 20 is by being welded on hexsteel 23 and pin 25 on the fin 12, shroud main body 21 fixedly becomes one with hexsteel 23, pin 25 and constitutes deceleration abrasionproof shroud 20, deceleration abrasionproof shroud 20 is arranged on water-cooling wall cooling tube 11 and the curtain wall cooling tube 13, deceleration abrasionproof shroud 20 adopts non-equidistance to arrange, the cross section adopts the trapezoid cross section to arrange.The hexsteel 23 of deceleration abrasionproof shroud 20, pin 25 adopt the heat-resistance stainless steel material, and shroud main body 21 adopts fire-resistant abrasion-proof moldable.

Compound mode 2:

Referring to Fig. 6, deceleration abrasionproof shroud 20 is by being welded on hexsteel 23 and pin 25 on the fin 12, shroud main body 21 fixedly becomes one with hexsteel 23, pin 25 and constitutes deceleration abrasionproof shroud 20, deceleration abrasionproof shroud 20 is arranged on the water-cooling wall cooling tube 11, deceleration abrasionproof shroud 20 adopts non-equidistance to arrange that the cross section is rectangular.The hexsteel 23 of deceleration abrasionproof shroud 20, pin 25 adopt the heat-resistance stainless steel material, and shroud main body 21 adopts fire-resistant abrasion-proof to water material feeding.

Compound mode 3:

Referring to Fig. 7, deceleration abrasionproof shroud 20 is by being welded on hexsteel 23 and pin 25 on the fin 12, shroud main body 21 fixedly becomes one with hexsteel 23, pin 25 and constitutes deceleration abrasionproof shroud 20, deceleration abrasionproof shroud 20 is arranged on the curtain wall cooling tube 13, deceleration abrasionproof shroud 20 adopts non-equidistance to arrange, semi-circular cross-section is adopted in the cross section.The hexsteel 23 of deceleration abrasionproof shroud 20, pin 25 adopt the heat-resistance stainless steel material, and shroud main body 21 adopts fire-resistant abrasion-proof moldable.

Compound mode 4:

Referring to Figure 10 and Figure 12, deceleration abrasionproof shroud 20 is welded on the fin 12 by hexsteel 23 and pin 25, shroud main body 21 fixedly becomes one with hexsteel 23, pin 25 and constitutes deceleration abrasionproof shroud 20, deceleration abrasionproof shroud 20 is arranged on the water-cooling wall cooling tube 11, deceleration abrasionproof shroud 20 adopts to be interrupted and arranges, two ends are connected with collection case seal box 30 through walls respectively.The hexsteel 23 of deceleration abrasionproof shroud 20, pin 25 adopt the heat-resistance stainless steel material, and shroud main body 21 adopts fire-resistant abrasion-proof moldable.

Compound mode 5:

Referring to Figure 14, deceleration abrasionproof shroud 20 adopts and is arranged vertically.Deceleration abrasionproof shroud 20 is by being welded on pin 25 on the fin 12, shroud main body 21 fixedly becomes one with pin 25 and constitutes deceleration abrasionproof shroud 20, deceleration abrasionproof shroud 20 is arranged on the water-cooling wall cooling tube 11, and water-cooling wall cooling tube 11 can be four jiaos of water-cooling walls.The pin 25 of deceleration abrasionproof shroud 20 adopts the heat-resistance stainless steel material, and shroud main body 21 adopts fire-resistant abrasion-proof moldable.

Compound mode 6:

Referring to Fig. 8, pin 25 in the deceleration abrasionproof shroud 20 is welded on the fin 12, shroud main body 21 fixedly becomes one with pin 25 and constitutes deceleration abrasionproof shroud 20, and deceleration abrasionproof shroud 20 is arranged on the water-cooling wall cooling tube 11, and the cross section of deceleration abrasionproof shroud 20 is trapezoidal.Be furnished with the shim 22 that is used to alleviate the wearing and tearing of air-flow side direction flow-disturbing between the two-layer adjacent deceleration abrasionproof shroud 20, shim 22 segmentations are arranged.The pin 25 of deceleration abrasionproof shroud 20 and shim 22 adopt the heat-resistance stainless steel material, and shroud main body 21 adopts fire-resistant abrasion-proof moldable.

The above is a preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (12)

1. a deceleration shoe is characterized in that, comprising:

Many the deceleration abrasionproof shrouds (20) that are arranged side by side, described deceleration abrasionproof shroud (20) comprising:

Shroud main body (21);

Be used for the pin of fixedlying connected (25) with boiler furnace, described shroud main body (21) is laid on the described pin (25);

A plurality of shims (22) are arranged between adjacent two described deceleration abrasionproof shrouds (20), and extend to adjacent described deceleration wear-resistant belt (20) respectively at the two ends of each described shim (22).

2. deceleration shoe according to claim 1, it is characterized in that, described deceleration abrasionproof shroud (20) also comprises hexsteel (23), and described hexsteel (23) is fixed on the described pin (25), and described shroud main body (21) is laid on described hexsteel (23) and the described pin (25).

3. deceleration shoe according to claim 1 is characterized in that, described shim (22) arranges continuously between adjacent described deceleration abrasionproof shroud (20) or segmentation is arranged.

4. deceleration shoe according to claim 3 is characterized in that, has one or more layers described pin (25) in every described deceleration abrasionproof shroud (20).

5. boiler furnace, its inside is provided with the heating surface that comprises cooling tube (11,13) and be connected in the fin (12) between the described cooling tube (11,13), it is characterized in that described heating surface is provided with each described deceleration shoe in the claim 1 to 4.

6. boiler furnace according to claim 5, it is characterized in that many described deceleration abrasionproof shrouds (20) of described deceleration shoe end short transverse along described burner hearth (10) with certain pitch arrangement from the top of the emulsion zone (14) of described burner hearth (10) bottom to furnace roof (16).

7. boiler furnace according to claim 5 is characterized in that, the following close mode thin, non-equidistance of described deceleration abrasionproof shroud (20) is arranged.

8. boiler furnace according to claim 5 is characterized in that, described deceleration abrasionproof shroud (20) is 0～90 ° with the angle of horizontal direction.

9. boiler furnace according to claim 5 is characterized in that, described shim (22) is fixed on the described fin (12).

10. boiler furnace according to claim 9 is characterized in that, the center line range deviation of the center line of described shim (22) and described fin (12) is smaller or equal to 1 millimeter.

11. boiler furnace according to claim 5 is characterized in that, the area coverage ratio of described deceleration abrasionproof shroud (20) on described heating surface is smaller or equal to 5%.

12. boiler furnace according to claim 5 is characterized in that, every described deceleration abrasionproof shroud (20) is along the circumferentially continuous of described burner hearth (10) or be interrupted layout.

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