CN205228128U - Drying system of gangue shale adobe - Google Patents

Abstract

The utility model discloses a drying system of gangue shale adobe, including sintering chamber, drying chamber, sintering chamber and drying chamber bottom all are equipped with the transmission track, the sintering chamber top is equipped with the air -blower, the air outlet and the heat supply seal for pipe joints of air -blower are connected, the heat supply pipeline by the drying chamber lateral wall gets into transmission track bottom, transmission track bottom is equipped with a plurality of heat outlet pipe, heat outlet pipe is equipped with two heat -supplying port, and heat -supplying port is located the orbital both sides of transmission respectively, the heat pipe say in proper order with a plurality of heat outlet pipe connect, drying chamber outer wall adopts double -deck brick wall structure, and inside is the heat preservation, and the outer wall is the insulating layer, top of the drying room is equipped with moisture discharging fan, moisture discharging fan air outlet and the damp passageway sealing connection of row, it is connected with the desulfurizing tower to arrange damp passageway, the drying chamber inside wall is equipped with temperature and humidity sensor, and the lateral wall correspondence is equipped with humiture display device. The utility model discloses drying system of gangue shale adobe drying efficiency is high, heat energy loses less, low in the pollution of the environment.

Description

A kind of drying system of coal gangue shale adobe

Technical field

The utility model relates to the drying unit of brick, relates in particular to a kind of drying system of coal gangue shale adobe.

Background technology

Adobe is a kind of adobe of unfired, also known as base substrate or green compact, refers to by means of external force and model, is have pug machine-shaping definite shape, size and intensity and can be used for the intermediate products that burn till, and the adobe after shaping needs to be transported to calcining in stove.

Adobe enter fire in kiln before need by brick moisture discharge, a lot of refractory brick manufacturer all adopts a set of drying kiln at present, and provide a set of firing equipment for drying kiln, because tunnel cave has a large amount of heat energy to waste in the process of firing refractory bricks base, because exhaust gas temperature reaches 150 ~ 200 DEG C, wherein contain a large amount of used heat.Brickkiln factory has a large amount of waste gas and dust emission aborning, and severe contamination surrounding enviroment, have a large amount of heat sources to be utilized in brickkiln production process.Containing a large amount of sulfur dioxide, carbon monoxide in smoke evacuation, severe contamination air, air quality reduces, and smoke evacuation simultaneously makes ambient temperature raise, and causes thermal waste.Therefore, the heat energy that tunnel cave slatterns is made full use of to dry firebrick billet in drying kiln be the problem needing solution badly.

Utility model content

The technical problems to be solved in the utility model is to provide the drying system of the coal gangue shale adobe that a kind of drying efficiency is high, heat-energy losses is few, low in the pollution of the environment.

For achieving the above object, the utility model provides a kind of drying system of coal gangue shale adobe, comprises agglomerating chamber, drying chamber, is equipped with transporting rail bottom described agglomerating chamber and drying chamber; Described agglomerating chamber top is provided with air blast; Air outlet and the heat supply pipeline of described air blast are tightly connected; Described heat supply pipeline enters bottom described transporting rail by described drying chamber sidewall; Be provided with bottom described transporting rail multiple go out heat pipe, described in go out heat pipe and be provided with two heat supply mouths, described heat supply mouth lays respectively at the both sides of described transporting rail; Described hot channel successively with described multiple go out heat pipe be connected; Described outer wall of drying room adopts double-layer brick wall construction, and inside is heat-insulation layer, and outer wall is thermal insulation layer; Described drying chamber top is provided with moisture-eliminating blower, and described moisture-eliminating blower air outlet is connected with humidity discharging channel seal; Described humidity discharging passage is connected with desulfurizing tower; Described drying chamber madial wall is provided with humiture inductor, and lateral wall correspondence is provided with humiture display unit.

Preferably, described humidity discharging passage is 2, is positioned at the roof both sides of described drying chamber.

As preferably, described air blast is provided with variable frequency adjustment device.

More preferably, described agglomerating chamber top is provided with observation panel; Dump is provided with around described observation panel.

As preferably, described in go out heat pipe and be embedded in underground, described heat supply mouth is tubaeform.

The beneficial effects of the utility model are: the hot gas 1, utilizing agglomerating chamber to produce is dried adobe, have fully saved heat energy, and do not need separately to establish drying unit, have greatly saved cost; 2, the outer wall of drying chamber adopts double-deck brick wall, and inside is provided with heat-insulation layer, and outer wall is thermal insulation layer, greatly reduces heat energy and falls apart outward, be incubated in drying chamber, reduces the thermal loss of drying heat supply; 3, by arranging humiture inductor in drying chamber, arranging humiture device in the outer correspondence of drying chamber can monitor oven dry indoor temperature, humidity in real time, can ensure the monitoring of brick blank drying effect and degree very well; 4, connect desulfurizer by wind pipe, nitrogen, the sulfide of going out well in waste gas, purified the quality of Exhaust Gas, avoided contaminated environment.

Accompanying drawing explanation

Accompanying drawing is used to provide further understanding of the present utility model, and forms a part for description, is used from explanation the utility model, does not form restriction of the present utility model with embodiment one of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation of the drying system of the utility model coal gangue shale adobe;

Fig. 2 is the structural front view of the drying system of the utility model coal gangue shale adobe;

The drying system that Fig. 3 is the adobe of the utility model coal gangue shale go out heat pipe structure front view.

In the drawings, 1, agglomerating chamber; 2, drying chamber; 3, air blast; 4, heat supply pipeline; 5, heat pipe is gone out; 51, heat supply mouth; 6, moisture-eliminating blower; 7, humidity discharging passage; 8, desulfurizing tower; 9, humiture inductor; 91, humiture display unit; 10, observation panel; 11, dump.

Detailed description of the invention

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described, should be appreciated that preferred embodiment described herein is only for instruction and explanation of the utility model, and be not used in restriction the utility model.

As shown in Figures 1 to 3, the drying system of a kind of coal gangue shale adobe of the utility model, comprises agglomerating chamber 1, drying chamber 2, is equipped with transporting rail bottom described agglomerating chamber 1 and drying chamber 2; Described agglomerating chamber 1 top is provided with air blast 3; Air outlet and the heat supply pipeline 4 of described air blast 3 are tightly connected; Described heat supply pipeline 4 enters bottom described transporting rail by described drying chamber 2 sidewall; Be provided with bottom described transporting rail multiple go out heat pipe 5, described in go out heat pipe 5 and be provided with two heat supply mouths 51, described heat supply mouth 51 lays respectively at the both sides of described transporting rail; Described hot channel 4 successively with described multiple go out heat pipe 5 be connected; Described drying chamber 2 outer wall adopts double-layer brick wall construction, and inside is heat-insulation layer, and outer wall is thermal insulation layer; Described drying chamber 2 top is provided with moisture-eliminating blower 6, and described moisture-eliminating blower 6 air outlet and humidity discharging passage 7 are tightly connected; Described humidity discharging passage 7 is connected with desulfurizing tower 8; Described drying chamber 2 madial wall is provided with humiture inductor 9, and lateral wall correspondence is provided with humiture display unit 91.

Utility model works realizes like this, calcining adobe in agglomerating chamber 1, then the hot gas in agglomerating chamber 1 is extracted in drying chamber 2 by air blast 3, heat pipe 5 is transferred to out by heat supply pipeline 4, discharged by the heat supply mouth 51 going out heat pipe 5, by the hot gas of heat supply mouth 51 to the wet adobe heat supply in drying chamber 2, thus dry adobe, the cold moisture in top enters humidity discharging passage 7 by moisture-eliminating blower 6, enters in desulfurizing tower 8 carry out desulfurization process through humidity discharging passage 7.

The hot gas that the utility model utilizes agglomerating chamber 1 to produce is dried adobe, has fully saved heat energy, and does not need separately to establish drying unit, has greatly saved cost; The outer wall of drying chamber 2 adopts double-deck brick wall, and inside is provided with heat-insulation layer, and outer wall is thermal insulation layer, greatly reduces heat energy and falls apart outward, be incubated in drying chamber, reduces the thermal loss of drying heat supply; By arranging humiture inductor 9 in drying chamber 2, arranging humiture device 91 in the outer correspondence of drying chamber can monitor oven dry indoor temperature, humidity in real time, can ensure the monitoring of brick blank drying effect and degree very well; Connect desulfurizing tower 8 by humidity discharging passage 7, nitrogen, the sulfide of going out well in waste gas, purified the quality of Exhaust Gas, avoided contaminated environment.

In order to get rid of moisture better, described humidity discharging passage 7 is 2, is positioned at the roof both sides of described drying chamber 2.

For the ease of regulating the air intake size of air blast 3, described air blast 3 is provided with variable frequency adjustment device.

In order to observe situation in agglomerating chamber 1, described agglomerating chamber 1 top is provided with observation panel 10; Just can be observed the situation in agglomerating chamber 1 by observation panel 10, around described observation panel 10, be provided with dump 11, according to the combustion case coal in agglomerating chamber 1, ensure the needs of drying sintering fuel.

Evacuate for the ease of heat, described in go out heat pipe 5 and be embedded in underground, described heat supply mouth 51 is tubaeform.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (5)

1. a drying system for coal gangue shale adobe, comprises agglomerating chamber (1), drying chamber (2), and described agglomerating chamber (1) and drying chamber (2) bottom are equipped with transporting rail; Described agglomerating chamber (1) top is provided with air blast (3); Air outlet and the heat supply pipeline (4) of described air blast (3) are tightly connected; It is characterized in that: described heat supply pipeline (4) enters bottom described transporting rail by described drying chamber (2) sidewall; Be provided with bottom described transporting rail multiple go out heat pipe (5), described in go out heat pipe (5) and be provided with two heat supply mouths (51), described heat supply mouth (51) lays respectively at the both sides of described transporting rail; Described hot channel (4) successively with described multiple go out heat pipe (5) be connected; Described drying chamber (2) outer wall adopts double-layer brick wall construction, and inside is heat-insulation layer, and outer wall is thermal insulation layer; Described drying chamber (2) top is provided with moisture-eliminating blower (6), and described moisture-eliminating blower (6) air outlet and humidity discharging passage (7) are tightly connected; Described humidity discharging passage (7) is connected with desulfurizing tower (8); Described drying chamber (2) madial wall is provided with humiture inductor (9), and lateral wall correspondence is provided with humiture display unit (91).

2. the drying system of coal gangue shale adobe according to claim 1, is characterized in that: described humidity discharging passage (7) is 2, is positioned at the roof both sides of described drying chamber (2).

3. the drying system of coal gangue shale adobe according to claim 1 or 2, is characterized in that: described air blast (3) is provided with variable frequency adjustment device.

4. the drying system of coal gangue shale adobe according to claim 3, is characterized in that: described agglomerating chamber (1) top is provided with observation panel (10); Described observation panel (10) is provided with dump (11) around.

5. the drying system of coal gangue shale adobe according to claim 1, is characterized in that: described in go out heat pipe (5) and be embedded in underground, described heat supply mouth (51) is for tubaeform.