CN108592643A - Sintering furnace emission-control equipment - Google Patents

Abstract

The present invention relates to the technical fields of waste gas treatment equipment, specifically disclose a kind of sintering furnace emission-control equipment, including furnace body, the first cylinder body, filter chamber and spray chamber, it is connected with smoke exhaust pipe at the top of furnace body, smoke exhaust pipe is equipped with cushion chamber, and cushion chamber side wall is rotatably connected to shaft, and shaft has been fixedly and coaxially connected cam and several blades, blade is located in cushion chamber, and buffering cavity wall is equipped with the jet blower of jet flames；First piston is slidably connected in first cylinder body, first piston is fixedly connected with First piston bar, and First piston bar offsets with cam, and escape pipe is communicated between the first cylinder body and cushion chamber；Smoke exhaust pipe is connected to filter chamber, and exhaust pipe is communicated between filter chamber and spray chamber.The present invention enables to exhaust gas completely burned in cushion chamber, and the exhaust gas after burning removes flue dust after filter chamber is filtered, and removes the exhaust gas after flue dust and sprays desulfurization through spray chamber so that the exhaust gas being finally discharged is free of flue dust and sulphur, not can cause environmental pollution.

Description

Sintering furnace emission-control equipment

Technical field

The present invention relates to the technical fields of waste gas treatment equipment, specifically disclose a kind of sintering furnace emission-control equipment.

Background technology

Sintering furnace be it is a kind of at high temperature, mutually bonded, gap (stomata) and crystal boundary between the solid particle for keeping it internal It gradually reduces, the total volume of solid particle is shunk, density increases, and finally becomes the stove of certain dense multicrystalline sintered body.Sintering Stove is mainly used in steel industry, metallurgy industry, new material industry etc..

When the heat source of sintering furnace uses the thermal energy generated when coal combustion, containing sulphur and largely in the exhaust gas of sintering furnace discharge Flue dust can cause environmental pollution if direct emission.Common exhaust-gas treatment mode is directly connected in workshop top installation It is connected to the chimney stack of the smoke outlet of sintering furnace, depositing dust, sulfur reduction are realized by gravity, but effect is not satisfactory, and at This is higher.

Therefore, the Chinese utility model patent of 203731878 U of Publication No. CN discloses a kind of sintering furnace exhaust-gas treatment Device, the device include furnace body, and the top of furnace body is equipped with smoke outlet, and the side of furnace body is equipped with pond, has cover board on pond, have The inside in pond is separated into Multistage settling pond by polylith partition board, and the upper end of polylith partition board is respectively equipped with notch for gas to pass through, The notch of adjacent two pieces of partition board upper ends mutually staggers respectively, forms S-shaped gas channel；Smoke outlet, which is connected with, leads to Multistage settling pond In first order settling tank pipeline, air-introduced machine is installed in pipeline, is located on the afterbody settling tank in Multistage settling pond Cover board be equipped with gas outlet.It is remained in the utility model using gravity sulfur reduction, depositing dust, is contained in Multistage settling pond Water absorbs the sulphur in exhaust gas using water, but sulphur is not soluble in water, and water can not fully absorb the sulfur dioxide in exhaust gas, because This, exhaust gas can not be effectively treated in the device disclosed in above-mentioned patent, still there are problems that environmental pollution.

Invention content

The invention is intended to provide a kind of sintering furnace emission-control equipment, to solve waste gas treatment equipment in the prior art not The problem of exhaust gas capable of being effectively treated and causing environmental pollution.

In order to achieve the above object, base case of the invention is：Sintering furnace emission-control equipment, including furnace body, furnace body Top is connected with smoke exhaust pipe, and the smoke exhaust pipe is equipped with cushion chamber, and cushion chamber side wall is rotatably connected to shaft, and shaft is coaxially fixed to be connected It is connected to cam and several blades, the blade is respectively positioned in cushion chamber, and buffering cavity wall is equipped with the jet blower of jet flames；Institute It states and is installed with the first cylinder body by cushion chamber, slidably connect first piston in the first cylinder body, first piston is by the first cylinder body Separation is independent left chamber and right chamber, and left chamber is communicated with air inlet pipe and an air outlet pipe, is installed in air inlet pipe by gas Body imports the first check valve of left chamber, and the second check valve that gas is exported to left chamber, outlet are installed on escape pipe The one end of pipe far from the first cylinder body is connected to cushion chamber；It is fixedly connected with spring between right chamber side wall and first piston, first Piston is fixedly connected with First piston bar, and the one end of First piston bar far from the first cylinder body offsets with cam；First cylinder body Side is installed with the second cylinder body, and the second cylinder body is L-shaped, and second piston and third piston are slidably connected in the second cylinder body, the The separation of second cylinder body is independent first chamber, second chamber and third chamber, the right chamber by two pistons and third piston It is communicated with appendix, the one end of appendix far from the first cylinder body is connected to first chamber, and the third piston is fixedly connected with Two piston rods；The one end of the smoke exhaust pipe far from furnace body is connected with filter chamber, and the first sieve is fixedly connected in filter chamber, filtering Interior slidably connects slide plate, and for slide plate between the first sieve and the second cylinder body, slide plate offers several through-holes, slide plate direction The side of first sieve is fixedly connected with several pins, and the one end of the second piston bar far from the second cylinder body is connected to slide plate； The filter chamber is communicated with exhaust pipe, and the one end of exhaust pipe far from filter chamber is connected with spray chamber, and the roof of spray chamber fixes peace Equipped with the nozzle for spraying hydrogenperoxide steam generator, spray chamber roof offers several gas vents.

The operation principle of this base case is：The exhaust gas that furnace body is discharged by smoke exhaust pipe applies the blade in cushion chamber Active force so that blade rotates, so that shaft, cam rotate.Therefore, the effect of the cam and spring in rotation Under, first piston realization reciprocatingly slides, and the internal pressure of left chamber constantly changes, by extraneous air by sucking in left chamber, with Air is pressed by escape pipe in cushion chamber again afterwards so that the oxygen in cushion chamber is sufficient, so that exhaust gas is in cushion chamber Interior burning is abundant, and the reaction of Salmon-Saxl in exhaust gas generates sulfur dioxide.Exhaust gas after burning is through the first screen filtration in filter chamber, and One sieve intercepts the flue dust in exhaust gas in filter chamber, also, since first piston reciprocatingly slides, the volume of right chamber is continuous Variation, and is communicated with appendix between right chamber and first chamber, therefore, the volume of first chamber, the volume of second chamber, the The volume of three chambers constantly changes, and the sliding of third piston reciprocating, third piston rod pulls slide plate to reciprocatingly slide, on slide plate Pin be inserted into the first sieve sieve pore in, avoid the first sieve from blocking.Exhaust gas after the first screen filtration passes through row Tracheae enters in spray chamber, and the hydrogenperoxide steam generator that the sulfur dioxide in exhaust gas is sprayed with nozzle comes into full contact with and occurs chemical anti- It answers, sulfur dioxide generates sulfuric acid with hydroperoxidation, realizes the desulfurization process to exhaust gas, is discharged and sprays eventually by gas vent Flue dust and sulphur are free of in the exhaust gas of room.

The advantageous effect of this base case is：

1, in this base case, by the way that cushion chamber is arranged on smoke exhaust pipe, active force is applied to blade using exhaust gas so that Shaft rotates, so that cam rotary action delays in First piston bar so that extraneous air is pressed by the first cylinder body Rush intracavitary so that chemical reaction can occur with enough oxygen and generate sulfur dioxide for the sulphur in exhaust gas, and utilize hydrogen peroxide It is reacted in spray chamber with sulfur dioxide and generates sulfuric acid, realized the desulfurization to exhaust gas, prevent pollution of the sulphur to environment.

2, in this base case, by the way that filter chamber is arranged, and the first sieve is set in filter chamber, realizes to cigarette in exhaust gas The filtering of dirt so that be free of flue dust in the exhaust gas of discharge, flue dust is avoided to pollute the environment.Also, utilize first piston It reciprocatingly slides, simultaneously because first chamber is connected to by appendix with right chamber, third piston is reciprocal in the second cylinder body of realization Sliding drives slide plate to reciprocatingly slide, so that the pin intermittence on slide plate is inserted into the sieve pore of the first sieve, avoids first The sieve pore of sieve is blocked by flue dust, ensures the work well of the first sieve.

3, in this base case, flue dust is free of in indoor exhaust gas due to entering to spray, the sulfur dioxide in exhaust gas The sulfuric acid solution generated with hydrogenperoxide steam generator is free from foreign meter, collects the part of sulfuric acid solution and is packaged into product and sells, Neng Gouwei Enterprise's additional income.

Further, the exhaust pipe stretches into spray chamber from spray chamber bottom and is arranged, and is in positioned at indoor exhaust pipe is sprayed The radius of spin of helical form, spiral helicine exhaust pipe is gradually reduced along spray chamber axis upwardly direction, spiral helicine exhaust pipe On offer several ventholes.

The exhaust gas handled through filter chamber's dedirt enters spray chamber by the venthole on exhaust pipe, due to being located in spray chamber Exhaust pipe in the shape of a spiral, and its radius of spin along spray chamber axis upwardly direction be gradually reduced, therefore, from spray chamber roof Nozzle spray hydrogenperoxide steam generator obtained with exhaust gas contact it is more abundant so that the sulfur dioxide in exhaust gas fully reacts generation Sulfuric acid realizes the abundant desulfurization of exhaust gas.

Further, the spray chamber bottom wall is connected with drainpipe, and the one end of drainpipe far from spray chamber is connected with fluid reservoir.

The sulfuric acid solution generated in spray chamber can be flowed into fluid reservoir by drainpipe and be stored, so as to sulfuric acid solution into Row recycles.

Further, the slide plate offers opening, and opening is installed with the second sieve, and the mesh number of the second sieve is more than The mesh number of first sieve.

Second sieve may be by the flue dust of the first sieve in exhaust gas for intercepting, it is ensured that enters and sprays in indoor exhaust gas Without flue dust.

Further, the junction of the escape pipe and cushion chamber is located at the bottom of side wall of the cushion chamber far from the first cylinder body, The gas outlet of escape pipe is vertical with a blade in cushion chamber.

The gas entered in cushion chamber by escape pipe can act on blade together with exhaust gas, improve the speed of blade rotation Degree, to improve the first cylinder operation efficiency.

Further, the jet blower is located at the top of cushion chamber, and jet blower is with the angle of smoke exhaust pipe axis in downward direction 40 °~60 °.

Sulphur in exhaust gas discharges heat during clean-burning, since jet blower is arranged at the top of cushion chamber, because The flowing that this partial heat will be with exhaust gas applies active force to blade, further pushes blade rotation.

Description of the drawings

Fig. 1 is the structural schematic diagram of sintering furnace emission-control equipment in the embodiment of the present invention.

Specific implementation mode

It is further described below by specific implementation mode：

Reference numeral in Figure of description includes：Furnace body 1, smoke exhaust pipe 2, cushion chamber 3, shaft 4, blade 5, cam 6, spray Nozzle 7, first piston 8, left chamber 9, right chamber 10, air inlet pipe 11, escape pipe 12, the first check valve 13, the second check valve 14, It is spring 15, First piston bar 16, second piston 17, third piston 18, first chamber 19, second chamber 20, third chamber 21, defeated Tracheae 22, second piston bar 23, filter chamber 24, the first sieve 25, slide plate 26, pin 27, the second sieve 28, spray chamber 29, spray First 30, exhaust pipe 31, drainpipe 32, fluid reservoir 33.

Embodiment is basic as shown in Figure 1, sintering furnace emission-control equipment, including furnace body 1,1 top of furnace body are connected with smoke evacuation Pipe 2, smoke exhaust pipe 2 are equipped with cushion chamber 3, and 3 side wall of cushion chamber is rotatably connected to shaft 4, and shaft 4 has been fixedly and coaxially connected 6 He of cam Several blades 5, blade 5 are respectively positioned in cushion chamber 3.3 inner wall of cushion chamber is equipped with the jet blower 7 of jet flames, and jet blower 7 is located at 3 top of cushion chamber, jet blower 7 and the angle of 2 axis of smoke exhaust pipe in downward direction are 45 °.

The right side of cushion chamber 3 is installed with the first cylinder body, and first piston 8 is slidably connected in the first cylinder body, and first lives The separation of first cylinder body is independent left chamber 9 and right chamber 10 by plug 8, and left chamber 9 is communicated with air inlet pipe 11 and escape pipe 12, into It is installed with the first check valve 13 for introducing gas into left chamber 9 on tracheae 11, is installed with gas on escape pipe 12 The second check valve 14 of left chamber 9 is exported, the left end of escape pipe 12 is connected to the left side wall of cushion chamber 3, the outlet of escape pipe 12 Mouth is vertically arranged with a blade 5.Spring 15 is fixedly connected between 10 right side wall of right chamber and first piston 8, first piston 8 is solid Surely it is connected with First piston bar 16, left end and the cam 6 of First piston bar 16 offset.

The second cylinder body is installed on the right side of first cylinder body, the second cylinder body is L-shaped, and is slidably connected in the second cylinder body Two pistons 17 and third piston 18, second piston 17 and third piston 18 by the second cylinder body separation be independent first chamber 19, Second chamber 20 and third chamber 21.Right chamber 10 is communicated with appendix 22, and the right end of appendix 22 is connected to first chamber 19, Third piston 18 is fixedly connected with second piston bar 23.

The right end of smoke exhaust pipe 2 is connected with filter chamber 24, is fixedly connected with the first sieve 25 in filter chamber 24, in filter chamber 24 Slide plate 26 is slidably connected, slide plate 26 is located at the right side of the first sieve 25, and slide plate 26 is arranged in parallel with the first sieve 25, slide plate 26 left side is fixedly connected with several pins 27, and the left end of second piston bar 23 is connected to slide plate 26.Slide plate 26 offers opening, Opening is installed with the second sieve 28, and the mesh number of the second sieve 28 is more than the mesh number of the first sieve 25.

The right side of second cylinder body be equipped with spray chamber 29, spray chamber 29 roof fixed installation be useful for spray hydrogen peroxide it is molten The nozzle 30 of liquid, 29 roof of spray chamber offer several gas vents.Filter chamber 24 is communicated with exhaust pipe 31, the right end of exhaust pipe 31 Setting in spray chamber 29 is stretched into from the bottom of spray chamber 29, the exhaust pipe 31 in spray chamber 29 is in the shape of a spiral, spiral helicine The radius of spin of exhaust pipe 31 is gradually reduced from bottom to up, and several ventholes are offered on spiral helicine exhaust pipe 31.Spray chamber 29 bottom wall is communicated with drainpipe 32, and the lower end of drainpipe 32 is connected with fluid reservoir 33.

When specific works, it is flow in cushion chamber 3 from the exhaust gas discharged in furnace body 1 through smoke exhaust pipe 2, to the leaf in cushion chamber 3 Piece 5 apply active force so that blade 5 rotates counterclockwise so that shaft 4, be fixedly and coaxially connected it is convex in shaft 4 Wheel 6 rotates counterclockwise, meanwhile, 7 jet flames of jet blower makes the sulphur in exhaust gas burn, the heat that when burning generates Blade 5 is reacted on exhaust gas one, improves the rotating speed of shaft 4.

In the above process, the cam 6 rotated counterclockwise applies intermittent thrust to First piston bar 16, when cam 6 is to When one piston rod 16 applies thrust to the right, first piston 8 slides to the right, and the volume of left chamber 9 increases, internal pressure reduces, will be outer Boundary's air is sucked by air inlet pipe 11 in left chamber 9；When cam 6 does not apply thrust to the right to First piston bar 16, first Piston 8 slides to the left under the action of spring 15, and 9 volume of left chamber reduces, and the air in left chamber 9 is pressed by escape pipe 12 Enter in cushion chamber 3, supplements the oxygen in cushion chamber 3 so that the exhaust gas in cushion chamber 3 fully burns, so that in exhaust gas Sulphur, which fully burns, generates sulfur dioxide.In the process, since escape pipe 12 is located at the bottom of cushion chamber 3, and the nozzle of escape pipe 12 It is vertically arranged with blade 5, therefore, can act on blade 5 into the air in cushion chamber 3, further increase turning for blade 5 Speed.

Clean-burning exhaust gas enters in filter chamber 24 in cushion chamber 3, and the first sieve 25 intercepts the flue dust in exhaust gas, Realize the removing to flue dust in exhaust gas.During this, since left and right is reciprocal under the action of cam 6 and spring 15 for first piston 8 Sliding, the volume of right chamber 10 constantly changes, and appendix 22 is connected between right chamber 10 and first chamber 19, therefore, the The volume of one chamber 19 constantly changes, so that second chamber 20 and the volume of third chamber 21 constantly change, Finally, third piston 18 realizes that left and right reciprocatingly slides, so that second piston bar 23 or so moves back and forth, realizes slide plate 26 Left and right reciprocatingly slides, and the pin 27 being fixedly connected on 26 left side of slide plate is constantly inserted into the sieve pore of the first sieve 25, avoids flue dust Block the first sieve 25.In addition, the grain size due to flue dust is different, it is understood that there may be part flue dust by the situation of the first sieve 25, The second sieve 28 on slide plate 26 can intercept this part flue dust at this time, it is ensured that enter and be free of flue dust in the exhaust gas of spray chamber 29.

The exhaust gas handled through 24 dedirt of filter chamber enters spray chamber 29 through venthole from spiral helicine exhaust pipe 31, due to spiral shell The radius of spin for revolving the exhaust pipe 31 of shape is gradually reduced from bottom to up, and therefore, exhaust gas can be uniformly distributed in spray chamber 29, spray The hydrogenperoxide steam generator that the nozzle 30 at 29 top of leaching room sprays can be chemically reacted fully with the sulfur dioxide in exhaust gas, be made It obtains sulfur dioxide and oxidation reaction generation sulfuric acid occurs, then, in the exhaust gas being discharged by the gas vent on 29 roof of spray chamber not The sulfuric acid solution for containing flue dust and sulphur, avoiding and polluting the environment, and generated in spray chamber 29 is flowed by drainpipe 32 and is stored up Storage in flow container 33, to be used after.

Above-described is only the embodiment of the present invention, and the common sense such as well known concrete structure and characteristic are not made herein in scheme Excessive description.It, without departing from the structure of the invention, can be with it should be pointed out that for those skilled in the art Several modifications and improvements are made, these should also be considered as protection scope of the present invention, these all do not interfere with what the present invention was implemented Effect and patent practicability.

Claims (6)

1. sintering furnace emission-control equipment, including furnace body, furnace body top is connected with smoke exhaust pipe, it is characterised in that：The smoke exhaust pipe Equipped with cushion chamber, cushion chamber side wall is rotatably connected to shaft, and shaft has been fixedly and coaxially connected cam and several blades, the blade It is respectively positioned in cushion chamber, buffering cavity wall is equipped with the jet blower of jet flames；The first cylinder is installed with by the cushion chamber Body slidably connects first piston in the first cylinder body, and the separation of the first cylinder body is independent left chamber and right chamber by first piston, Left chamber is communicated with air inlet pipe and an air outlet pipe, and the first check valve for introducing gas into left chamber is installed in air inlet pipe, is gone out The second check valve that gas is exported to left chamber is installed on tracheae, the one end of escape pipe far from the first cylinder body is connected to slow Rush chamber；It is fixedly connected with spring between right chamber side wall and first piston, first piston is fixedly connected with First piston bar, and first The one end of piston rod far from the first cylinder body offsets with cam；The second cylinder body, the second cylinder body are installed with by first cylinder body L-shaped, the both ends in the second cylinder body slidably connect second piston and third piston respectively, and second piston and third piston are by Two cylinder bodies are divided into independent first chamber, second chamber and third chamber, and the right chamber is communicated with appendix, and appendix is remote One end from the first cylinder body is connected to first chamber, and the third piston is fixedly connected with second piston bar；The smoke exhaust pipe is remote One end from furnace body is connected with filter chamber, and the first sieve is fixedly connected in filter chamber, and slide plate is slidably connected in filter chamber, sliding For plate between the first sieve and the second cylinder body, slide plate offers several through-holes, and slide plate is fixed towards the side of the first sieve to be connected Several pins are connected to, the one end of the second piston bar far from the second cylinder body is connected to slide plate；The filter chamber is communicated with exhaust Pipe, the one end of exhaust pipe far from filter chamber are connected with spray chamber, and the roof fixed installation of spray chamber is useful for spraying hydrogen peroxide The nozzle of solution, spray chamber roof offer several gas vents.

2. sintering furnace emission-control equipment according to claim 1, it is characterised in that：The exhaust pipe is from spray chamber bottom Setting in spray chamber is stretched into, is located at and sprays indoor exhaust pipe in the shape of a spiral, the radius of spin of spiral helicine exhaust pipe is along spray Chamber axis upwardly direction is gradually reduced, and several ventholes are offered on spiral helicine exhaust pipe.

3. sintering furnace emission-control equipment according to claim 2, it is characterised in that：The spray chamber bottom wall is communicated with row Water pipe, the one end of drainpipe far from spray chamber are connected with fluid reservoir.

4. sintering furnace emission-control equipment according to claim 3, it is characterised in that：The slide plate offers opening, opens The second sieve is installed at mouthful, the mesh number of the second sieve is more than the mesh number of the first sieve.

5. sintering furnace emission-control equipment according to claim 4, it is characterised in that：The company of the escape pipe and cushion chamber Place is met positioned at the bottom of side wall of the cushion chamber far from the first cylinder body, the gas outlet of escape pipe is vertical with a blade in cushion chamber.

6. sintering furnace emission-control equipment according to claim 5, it is characterised in that：The jet blower is located at cushion chamber Top, jet blower and the angle of smoke exhaust pipe axis in downward direction are 40 °~60 °.