CN203518632U - High temperature fuel gas diversion apparatus - Google Patents

Abstract

The utility model discloses a high temperature fuel gas diversion apparatus comprising a fuel gas cover, a fuel gas channel and an annular diversion cover formed by a plurality of metal connecting block units. The fuel gas cover is arranged on the top of a mine heating furnace; the annular diversion cover is arranged in the fuel gas cover; the lower end of the fuel gas channel is placed in the annular diversion cover; in the annular diversion cover, sides of each two adjacent metal connecting block units are mutually inserted; two ends of the annular diversion cover are opened; and the area of a cross section of the diversion cover gradually increases from the bottom to the top. The high temperature fuel gas diversion apparatus is simply structured with convenient assembling; by the use of the diversion apparatus, cold air can be effectively prevented mixing in the fuel gas, so the temperature of the fuel gas is maintained at 350 DEG C and 500 DEG C.

Description

A kind of high-temperature flue gas guiding device

Technical field

The utility model relates to a kind of flue gas flow guiding device, is specifically related to a kind of high-temperature flue gas guiding device, is applied to the metallurgical furnaces such as mineral hot furnace, carbon bar furnace, electrolytic furnace and does low-temperature flue gas waste heat recovery.

Background technology

At present the ferroalloy industry mineral hot furnace and electrode furnace etc. utilize fume afterheat power generation project, major part to be all to cause generated energy maybe can not generate electricity less because the flue-gas temperature of utilizing is too low according to investigations.So mineral hot furnace waste heat recovery flue gas has become a technical bottleneck in industry.Main cause is can not be entering the cold wind of stove and hot flue gas separately when flue exhausting, the amount that oven door opening cold air enters flue too much when smoke evacuation cold air more than hot-air, cause flue-gas temperature too low and do not generate electricity or generated energy minimizing.The 4th batch of the ferroalloy industry access list You700Duo company of National Development and Reform Committee according to incompletely statistics, mineral hot furnace has several thousand more than.If all make exhaust heat recovery power generation station, interests of bringing and energy-conservationly all can not despise.

Existing In The Sub-mergedfurnace of The Ferroalloys is done in exhaust heat recovery power generation project, and the flue-gas temperature of extraction, in 150 degree left and right, degree-200, does not reach the generating effect of expection.Its main cause is that a large amount of cold airs enters flue by fire door, and the flue-gas temperature of stove inside has been reduced, if fire door is shut, the carbon monoxide that does not have cold air to enter in stove raises again, has potential safety hazard; Secondly fire door shutoff operation workman also cannot be led to stove and reinforced operation.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of flue gas flow guiding device, simple in structure, easy to assembly, can effectively avoid cold air to sneak in flue gas, keeps the higher temperature of flue gas.

For addressing the above problem, the technical scheme that the utility model adopts is as follows:

A high-temperature flue gas guiding device, it comprises petticoat pipe, flue and the annular kuppe being comprised of several metal contiguous block unit, and petticoat pipe is arranged on mineral hot furnace top, and annular kuppe is positioned at petticoat pipe inside, and the lower end of flue is positioned at annular kuppe; In annular kuppe, every two adjacent metal contiguous block unit sides are pegged graft mutually, described annular kuppe both ends open, and the area of the lateral cross section of kuppe is increased toward top gradually from bottom.

The utility model can also be realized by following scheme:

Preferred embodiment a kind of as the utility model, described metal contiguous block unit comprises two identical contiguous blocks of structure and contiguous block; On described contiguous block side, along side short transverse, be provided with raised line, its opposite side is provided with the groove matching with described raised line, and two contiguous blocks are pegged graft by raised line and groove.

Preferred embodiment a kind of as the utility model, described metal contiguous block unit comprises the first contiguous block and the second contiguous block, wherein the first contiguous block dual-side is respectively equipped with groove along its short transverse, and the dual-side on the second contiguous block is respectively equipped with the raised line matching with described groove.

Preferred embodiment a kind of as the utility model, the acute angle between described annular kuppe outer wall and horizontal plane is 80 °-40 °.

Preferred embodiment a kind of as the utility model, the metal contiguous block unit of described annular kuppe is resistant to elevated temperatures corrosion resistant plate, and the thickness of corrosion resistant plate is 0.5-1cm.

Compared to existing technology, the beneficial effects of the utility model are: high-temperature flue gas guiding device of the present utility model arranges an annular kuppe, the cold air that makes to enter in stove flows to change, by original cold air, directly enter flue and change into by path, furnace high-temperature district and heat up, thereby the flue-gas temperature entering in flue is increased to 350-500 ℃; In the utility model, annular kuppe can be by the access hole of petticoat pipe, fritter is installed combination and is made to enter the cold air flow direction change in stove, neither affect operative employee's operation, do not affect cold wind and enter filling in stove yet, not only safe but also reliable, fundamentally solved the technical bottleneck problem of mineral hot furnace cogeneration, make to send out waste heat group of motors working stability and reduce fluctuation fluctuating, improve generating efficiency, extend unit service life, fully UTILIZATION OF VESIDUAL HEAT IN cuts the waste.

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Accompanying drawing explanation

Fig. 1 is that high-temperature flue gas guiding device described in the utility model is used state diagram;

Fig. 2 is annular kuppe structural representation described in the utility model;

Fig. 3 is the utility model embodiment 1 structural representation;

Fig. 4 is the utility model embodiment 2 structural representations.

The specific embodiment

As shown in Figure 1 and Figure 2, high-temperature flue gas guiding device described in the utility model, it comprises petticoat pipe 3, flue 4 and the annular kuppe 2 being comprised of several metal contiguous block unit, petticoat pipe 3 is arranged on mineral hot furnace 1 top, annular kuppe 2 is positioned at petticoat pipe 3 inside, and the lower end of flue 4 is positioned at annular kuppe 2; In annular kuppe 2, every two adjacent metal contiguous block unit 21 sides are pegged graft mutually, described annular kuppe 2 both ends opens, and the area of the lateral cross section of annular kuppe 2 is increased toward top gradually from bottom.In the utility model, described annular kuppe 2 is installed combination by the access hole fritter of petticoat pipe 3 and is made to enter the cold air flow direction change in stove, by original cold air, directly entering flue changes into by path, furnace high-temperature district and heats up, neither affect operative employee's operation, do not affect cold wind and enter filling in stove yet, obviously improved flue-gas temperature, by original 180-200 ℃, brought up between 350-500 ℃.Residual heat generating efficiency has been improved more than 60%.

The utility model can also be realized by following scheme:

Embodiment 1: as shown in Figure 3, in such scheme, metal contiguous block described in the utility model unit 21 comprises two identical contiguous blocks 210 of structure; On described contiguous block 210 sides, along side short transverse, be provided with raised line 212, its opposite side is provided with 211, two contiguous blocks of groove that match with described raised line 212 and pegs graft by raised line 212 and groove 210.

Embodiment 2: as shown in Figure 4, in such scheme, metal contiguous block described in the utility model unit 21 comprises the first contiguous block 213 and the second contiguous block (not shown), the dual-side that wherein the first contiguous block 213 dual-sides are respectively equipped with on groove 211, the second contiguous blocks along its short transverse is respectively equipped with the raised line (not shown) matching with described groove.

Preferred embodiment a kind of as the utility model on the basis of above-described embodiment 1 or embodiment 2, the acute angle between described annular kuppe outer wall and horizontal plane is 80 °-40 °.Wherein, for a suitable flow direction is provided to cold air, preferably this acute angle is 45 °.

On the basis of such scheme, preferred embodiment a kind of as the utility model, the metal contiguous block unit of described annular kuppe is resistant to elevated temperatures corrosion resistant plate, and the thickness of corrosion resistant plate is 0.5-1cm, can tolerate 1000-1500 ℃ of high temperature.

Above-mentioned embodiment is only preferred embodiment of the present utility model; can not limit with this scope of the utility model protection, the variation of any unsubstantiality that those skilled in the art does on basis of the present utility model and replacement all belong to the utility model scope required for protection.

Claims (5)

1. a high-temperature flue gas guiding device, is characterized in that: it comprises petticoat pipe, flue and the annular kuppe being comprised of several metal contiguous block unit; Petticoat pipe is arranged on mineral hot furnace top, and annular kuppe is positioned at petticoat pipe inside, and the lower end of flue is positioned at annular kuppe; In annular kuppe, every two adjacent metal contiguous block unit sides are pegged graft mutually, described annular kuppe both ends open, and the area of the lateral cross section of kuppe is increased toward top gradually from bottom.

2. high-temperature flue gas guiding device according to claim 1, is characterized in that: described metal contiguous block unit comprises two contiguous blocks that structure is identical; On described contiguous block side, along side short transverse, be provided with raised line, its opposite side is provided with the groove matching with described raised line, and two contiguous blocks are pegged graft by raised line and groove.

3. high-temperature flue gas guiding device according to claim 1, it is characterized in that: described metal contiguous block unit comprises the first contiguous block and the second contiguous block, wherein the first contiguous block dual-side is respectively equipped with groove along its short transverse, and the dual-side on the second contiguous block is respectively equipped with the raised line matching with described groove.

4. according to the high-temperature flue gas guiding device described in claim 2 or 3, it is characterized in that: the acute angle between described annular kuppe outer wall and horizontal plane is 80 °-40 °.

5. high-temperature flue gas guiding device according to claim 4, is characterized in that: the metal contiguous block unit of described annular kuppe is resistant to elevated temperatures corrosion resistant plate, and the thickness of corrosion resistant plate is 0.5-1cm.

Images