CN106196047A - Flame anti-rotation noise-reduction energy-saving combustion chamber for compression combustion furnace - Google Patents

Abstract

The present invention relates to a kind of flame for compression combustion furnace anti-rotation noise-reduction energy-saving combustion chamber, it includes that combustion chamber main body, the hollow region of combustion chamber main body are combustion zone, and the fire end that goes out of combustion zone is located at the top of this combustion chamber main body；The medial wall of this combustion chamber main body is provided with ring-shaped depression, and ring-shaped depression is arranged around combustion chamber main body medial wall.The structure of the ring-shaped depression of the present invention arranges and flame flow can play good rectified action, and then effectively reduces the noise of combustion furnace running so that flame flow can either be concentrated and go out, and noise is controlled, and is maintained at about 50 decibels.

Description

Flame anti-rotation noise-reduction energy-saving combustion chamber for compression combustion furnace

Technical field

The present invention relates to a kind of composition component for compression combustion furnace, particularly relate to a kind of for compression combustion furnace Flame anti-rotation noise-reduction energy-saving combustion chamber.

Background technology

Compression combustion furnace belongs to the one in tubular heater, and it is, by blower fan or compressor, air is blasted combustion Burn pond, light fuel by lighter, under the agitating of air, flame is quickly released.

Existing compression combustor mainly includes combustion cell, oil supply mechanism, lighter, Blast mechanism, atomising mechanism etc.. In use can there is following problems in existing compression burner: one is, noise is big；Two are, part fuel oil can be at wind Under the promotion of power along combustion cell inwall outwardly, cause part fuel oil to be wasted, increase use cost.

Summary of the invention

The present invention provides a kind of flame for compression combustion furnace anti-rotation noise-reduction energy-saving combustion chamber, to overcome existing compression The problem that noise is big, fuel availability is relatively low that formula combustion furnace exists.

The present invention adopts the following technical scheme that

Flame anti-rotation noise-reduction energy-saving combustion chamber for compression combustion furnace, including combustion chamber main body, the hollow region of combustion chamber main body is Combustion zone, the fire end that goes out of combustion zone is located at the top of this combustion chamber main body；The medial wall of this combustion chamber main body is provided with ring-shaped depression, annular Depression is arranged around combustion chamber main body medial wall.

Further:

Above-mentioned combustion zone is made up of the combustion cell arranged the most successively, above-mentioned ring-shaped depression and reducing district；Fuel is in burning Pond burning produces flame.

The most following two kinds of frame modes of above-mentioned ring-shaped depression: one is, the concave surface of ring-shaped depression is a cambered surface, ring-shaped depression Top edge and above-mentioned reducing district bottom edge cambered surface transition connect, the edge, the end of ring-shaped depression and the top of above-mentioned combustion cell are along cambered surface transition Connect.Two are, above-mentioned ring-shaped depression is made up of upper loop concave and lower loop concave, and upper loop concave and lower loop concave are Cambered surface structure, and the diameter of upper loop concave is more than the diameter of lower loop concave；The edge, top of upper loop concave and above-mentioned reducing district Bottom edge cambered surface transition connect, the edge, the end of lower loop concave and the top of above-mentioned combustion cell connect along cambered surface transition.

Above-mentioned combustion cell is up-narrow and down-wide structure, is provided with the installing hole for fitting into oil nozzle, combustion cell bottom combustion cell Sidewall is circumferentially arranged with the fresh air inlet of uniformly arrangement.Above-mentioned combustion cell is provided with at least two row the first air inlets from lower to upper, and first The number of air inlet successively decreases the most line by line, and these first air inlets all are from bottom to top and tilt to extend cloth to the left Put.

Above-mentioned combustion cell is provided with above-mentioned first air inlet of two row, and combustion cell inwall is provided with circumferentially distributed annular oil partition tank, This annular oil partition tank bottom land is located in the inner of this first air inlet of lastrow.

It is downward-sloping extension by middle part to pool wall direction at the bottom of above-mentioned combustion cell pond.

Above-mentioned reducing district is the structure that upper and lower end is big and middle part is little, and reducing district sidewall is provided with at least a line the second air inlet, Every a line is constituted by the second air inlet of a plurality of uniform arrangements, and these second air inlets all are from bottom to top and to the right Inclination is disposed to extend.

From the above-mentioned description to present configuration, compared to the prior art, present invention have the advantage that the present invention The structure of ring-shaped depression arrange and flame flow can be played good rectified action, and then effectively reduce combustion furnace running Noise so that flame flow can either be concentrated and go out, and noise is controlled, and is maintained at about 50 decibels；It addition, this annular The setting of depression, increases the stroke that fuel is upwards climbed to along combustion chamber main body inner wall, and the expansion energy of ring-shaped depression the latter half Enough reduce current rate, reduce the thrust of fuel oil, and then part fuel oil is strapped in this ring-shaped depression, thus effectively reduce Fuel oil, with the number of dropouts of air-flow, improves the utilization rate of fuel oil, reduces the use cost of combustion furnace；And the structure in reducing district arranges energy Enough perpendicularity controlling flame flow ejection well and stability so that the heat of flame flow can be grouped as hot body to be added and add Heat, is effectively improved the utilization rate of energy；Finally, the structure at the bottom of combustion cell pond is arranged so that when combustion furnace is stopped using, combustion cell The surplus oil of interior savings can rest on base angle, pond and fall, and this can reduce the volatilization face area of surplus oil, and the air-flow flowed is not easy to Fall through base angle, pond, so that surplus oil is the most volatile.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of the low-noise energy-saving combustion chamber of the present invention.

Fig. 2 is the sectional structure schematic diagram of the combustion chamber of embodiment one.

Fig. 3 is the sectional structure schematic diagram of the combustion chamber of embodiment two.

Detailed description of the invention

The detailed description of the invention of the present invention is described with reference to the accompanying drawings.

Embodiment one

With reference to Fig. 1, Fig. 2, the flame anti-rotation noise-reduction energy-saving combustion chamber for compression combustion furnace, including combustion chamber main body 1, combustion chamber main body The hollow region of 1 is combustion zone 10；Combustion zone 10 is by the combustion cell 11 arranged the most successively, ring-shaped depression 12 and reducing district 13 are constituted；Ring-shaped depression 12 is arranged around combustion chamber main body 1 medial wall.Fuel produces flame in combustion cell 11 burning, and flame is by firing Burn and sprayed by the fire end that goes out at the top of combustion chamber main body 1 after pond 11 sequentially passes through ring-shaped depression 12, reducing district 13.Ring-shaped depression 12 Concave surface is a cambered surface, and the top of ring-shaped depression 12 connects along the end in 121 and above-mentioned reducing district 13 along 131 cambered surface transition, ring-shaped depression The end of 12, connects along the top of 122 and above-mentioned combustion cell 11 along 111 cambered surface transition.The structure of the ring-shaped depression 12 of the present invention arranges energy Enough flame flow is played good rectified action, and then effectively reduces the noise of combustion furnace running so that flame flow can Enough concentrations are gone out, and noise is controlled, and is maintained at about 50 decibels；It addition, the setting of this ring-shaped depression 12, increase combustion The stroke that material is upwards climbed to along combustion chamber main body 1 inwall, and the expansion of ring-shaped depression 12 the latter half can reduce current rate, subtracts The weak thrust of fuel oil, and then part fuel oil is strapped in this ring-shaped depression 12, thus effectively reduce the fuel oil stream with air-flow Vector, improves the utilization rate of fuel oil, reduces the use cost of combustion furnace.

With continued reference to Fig. 1, Fig. 2, above-mentioned reducing district 13 structure that middle part is little for upper and lower end is big, reducing district 13 sidewall sets Having a line the second air inlet 132, this row is made up of the second air inlet 132 of 12 uniform arrangements, these second air inlets 132 all It is and tilts to be disposed to extend from bottom to top and to the right.And above-mentioned combustion cell 11 is up-narrow and down-wide structure, set bottom combustion cell 11 Having the installing hole 110 for fitting into oil nozzle, combustion cell 11 sidewall is circumferentially arranged with the first air inlet 112 of uniformly arrangement.On Stating combustion cell 11 and be provided with two row the first air inlets 112, these first air inlets 112 all are from bottom to top and tilt to prolong to the left Stretching layout, the number of lastrow the first air inlet 112 is 12, and the number of next line the first air inlet 112 is 24.By One air inlet 112 and the second air inlet 132 opposition towards setting so that the air entered by the second air inlet 132 is to rotation Flame flow produce a corrective action so that the flame flow in combustion zone 10 does not rotate motion, This reduces both noise, Also effectively reduce the track area that flame contacts with sidewall of combustion chamber, reduce the waste of flame heat energy, it is ensured that go out burning The flame temperature of room, improves the utilization rate of the energy.Additionally, combustion cell 11 inwall is provided with circumferentially distributed annular oil partition tank 113, on This annular oil partition tank 113 bottom land is located in the inner of this first air inlet 112 of a line, and the setting of this annular oil partition tank 113 can Stop fuel oil upwards to be creeped further, and the first air inlet 112 of annular oil partition tank 113 bottom land can will flow to annular oil partition tank The fuel oil blowout of 113 is burnt to combustion cell 11, thus improves the utilization rate of fuel oil further.

With continued reference to Fig. 2, by middle part to the structure that pool wall direction is downward-sloping extension at the bottom of above-mentioned combustion cell 11 pond.So Structure arrange so that when combustion furnace is stopped using, in combustion cell 11, the surplus oil of savings can rest on base angle, pond and falls, and this can Reduce the volatilization face area of surplus oil, and the air-flow flowed is not easy to fall through base angle, pond, so that surplus oil is the most volatile.

Embodiment two

Present embodiment and embodiment one difference are the frame mode of ring-shaped depression 12.With reference to Fig. 3, present embodiment Ring-shaped depression 12 be made up of upper loop concave 123 and lower loop concave 124, upper loop concave 123 and lower loop concave 124 are equal For cambered surface structure, and the diameter of upper loop concave 123 is more than the diameter of lower loop concave 124；The edge, top of upper loop concave 123 121 and the end in above-mentioned reducing district 13 connect along 131 cambered surface transition, the end of lower loop concave 124, is along 122 and above-mentioned combustion cell 11 Push up and connect along 111 cambered surface transition.

Above are only the detailed description of the invention of the present invention, but the design concept of the present invention is not limited thereto, all utilize this Design carries out the change of unsubstantiality to the present invention, all should belong to the behavior invading scope.

Claims (3)

1. for the flame anti-rotation noise-reduction energy-saving combustion chamber of compression combustion furnace, including combustion chamber main body, the hollow region of combustion chamber main body For combustion zone, the fire end that goes out of combustion zone is located at the top of this combustion chamber main body；It is characterized in that: the medial wall of described combustion chamber main body sets Having ring-shaped depression, ring-shaped depression is arranged around combustion chamber main body medial wall；Described combustion zone is by the burning arranged the most successively Pond, described ring-shaped depression and reducing district are constituted；Fuel produces flame in combustion cell burning；Described ring-shaped depression is by upper loop concave Constitute with lower loop concave, under upper loop concave and lower loop concave are cambered surface structure, and the diameter of upper loop concave is more than The diameter of loop concave；The edge, top of upper loop concave and the bottom edge cambered surface transition in described reducing district connect, the end of lower loop concave The top of edge and described combustion cell connects along cambered surface transition；Described reducing district sidewall is provided with at least a line the second air inlet, every a line The second air inlet by a plurality of uniform arrangements is constituted, and these second air inlets all are from bottom to top and tilt to prolong to the right Stretch layout.

2. the flame anti-rotation noise-reduction energy-saving combustion chamber for compression combustion furnace as claimed in claim 1, it is characterised in that: described Combustion cell is provided with at least two row the first air inlets from lower to upper, and the number of the first air inlet successively decreases the most line by line, all should First air inlet is from bottom to top and tilts to be disposed to extend to the left.

3. the flame anti-rotation noise-reduction energy-saving combustion chamber for compression combustion furnace as claimed in claim 2, it is characterised in that: described Combustion cell is provided with the first air inlet described in two row, and combustion cell inwall is provided with circumferentially distributed annular oil partition tank, lastrow this This annular oil partition tank bottom land is located in the inner of one air inlet.