CN211041745U - Silicon-manganese alloy raw material for production drying system - Google Patents

Abstract

The utility model discloses a silicon manganese alloy raw materials for production drying system, including the box, run through the conveyer belt of box around, set up the heating structure on the box to and set up the wind circulation structure on the box. The utility model provides a silicon manganese alloy raw materials for production drying system, the drying process of completion material that can be effectual, very big improvement silicon manganese alloy's quality, the dry efficiency of improvement material that simultaneously can also be fine has further improved the efficiency of production, can also carry out the hydrofuge when needing and handle, fine avoided because of the too high condition emergence that the effect reduces is got rid of to the material moisture content that leads to of humidity.

Description

Silicon-manganese alloy raw material for production drying system

Technical Field

The utility model belongs to alloy production facility field specifically indicates a silicon manganese alloy raw materials for production drying system.

Background

The silicon-manganese alloy is an alloy consisting of manganese, silicon, iron, a small amount of carbon and other elements, and is an iron alloy with wide application and high yield. The manganese-silicon alloy is a compound deoxidizer commonly used for steel making, and is also a reducing agent for producing medium-low carbon ferromanganese and producing metal manganese by an electro-silicothermic method. The raw materials for producing the manganese-silicon alloy comprise manganese ore, manganese-rich slag, silica, coke, dolomite (or limestone) and fluorite. The manganese-silicon alloy can be produced by using one manganese ore or a mixed ore of several manganese ores (including manganese-rich slag).

When the silicon-manganese alloy is produced, the materials need to be dried, so that the quality of the product cannot be reduced due to moisture contained in the materials in subsequent processing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned problem, provide a silicon manganese alloy raw materials for production drying system, can be effectual the drying process of completion material, very big improvement silicon manganese alloy's quality, the dry efficiency of improvement material that simultaneously can also be fine has further improved the efficiency of production, can also carry out the hydrofuge when needing and handle, fine avoided because of the too high condition emergence that leads to of the material moisture content effect of getting rid of that humidity reduces.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a silicon manganese alloy raw materials for production drying system, includes the box, runs through the conveyer belt of box around, sets up the heating structure on the box to and set up the wind circulation structure on the box.

Preferably, the bottom end of the box body is provided with a plurality of adjustable support legs.

Furthermore, the heating structure is composed of a high-temperature air inlet pump, a high-temperature air valve connected with the high-temperature air inlet pump through a pipeline, and a plurality of high-temperature pipelines connected with the high-temperature air valve.

Preferably, the high-temperature pipelines are coiled into a snake shape, the number of the high-temperature pipelines is at least two, at least one high-temperature pipeline is arranged at the upper end inside the box body, and at least one high-temperature pipeline is arranged at the lower end inside the box body.

Preferably, the outer wall of the high-temperature pipeline is provided with a radiating block.

Furthermore, the air circulation structure is composed of circulating air pipes which are attached to the upper wall, the lower wall, the left wall and the right wall in the box body, a circulating moisture discharging box which penetrates through the upper wall of the box body and is connected with the circulating air pipes, a circulating air pump which is arranged on the circulating moisture discharging box, and a bottom air outlet which is arranged on the circulating air pipes adjacent to the lower wall and is opened upwards; and a plurality of openings are also oppositely formed on the circulating air pipes adjacent to the left wall and the right wall of the box body.

Preferably, the circulating dehumidification box mainly comprises an air inlet duct communicated with the interior of the box body, an air outlet duct communicated with a circulating air pipe arranged adjacent to the upper wall of the box body, a dehumidification pipe penetrating through the circulating dehumidification box, and an electromagnetic valve arranged on the dehumidification pipe.

Preferably, the air inlet of the circulating air pump is connected with the air inlet channel, and the air outlet of the circulating air pump is connected with the air outlet channel.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

the utility model has the advantages of simple structure convenient to use, the drying process of completion material that can be effectual, very big improvement silicomanganese's quality, the dry efficiency of improvement material that simultaneously can also be fine has further improved the efficiency of production, can also carry out the hydrofuge when needing and handle, fine avoided because of the too high condition emergence that leads to of the material moisture content effect of getting rid of reduction of humidity.

Drawings

Fig. 1 is a schematic sectional view of the present invention.

Fig. 2 is a partial sectional structure view of the present invention.

Description of reference numerals: 1. a box body; 2. a high temperature air intake pump; 3. a high-temperature gas valve; 4. a high temperature pipeline; 5. a heat dissipating block; 6. a conveyor belt; 7. a circulating air pump; 8. a circulating moisture discharging box; 9. a circulating air duct; 10. a bottom air outlet; 11. an adjustable support leg; 12. a turbine; 13. an air outlet; 14. an air outlet channel; 15. an air inlet duct; 16. an electromagnetic valve; 17. and (4) a moisture removal pipe.

Detailed Description

The present invention will be described in further detail with reference to examples, but the present invention is not limited thereto.

Examples

As shown in figure 1, a silicon-manganese alloy production raw material drying system comprises a box body 1, a conveying belt 6 which penetrates through the box body 1 from front to back, a heating structure arranged on the box body 1, and a wind circulation structure arranged on the box body 1.

The conveyer belt is used for conveying the material for the material can be through passing the box to be heated in the box, thereby make the moisture content in the material can be by the evaporation in the box, reached the purpose of dry material. When setting up, the quantity of conveyer belt can set up according to actual demand, and two arbitrary equal parallel arrangement of conveyer belt, and the quantity of preferred conveyer belt is three.

The bottom end of the box body 1 is provided with a plurality of adjustable supporting feet 11.

The adjustable support leg is the prior art in this field, and its setting purpose is the whole equilibrium that is used for adjusting the box for the box can not take place to incline at during operation its inner structure, thereby has avoided the material to drop from the conveyer belt when the product is worked. The setting of the adjustable foot can be done without inventive effort by a person skilled in the art based on the above description in combination with the prior art in this field, and will not be described in detail here.

The heating structure is composed of a high-temperature air inlet pump 2, a high-temperature air valve 3 connected with the high-temperature air inlet pump 2 through a pipeline, and a plurality of high-temperature pipelines 4 connected with the high-temperature air valve 3.

The high-temperature air inlet pump can obtain high-temperature steam from equipment such as a waste heat boiler and the like, and drives the high-temperature steam to circulate in a high-temperature pipeline, so that the purpose of heating the interior of the box body is well achieved.

High temperature pipeline 4 coils into snakelike, and high temperature pipeline 4's quantity is two at least, and at least one high temperature pipeline 4 sets up in the inside upper end of box 1, and at least one high temperature pipeline 4 sets up at the inside lower extreme of box 1.

The time and the area that increase high temperature pipeline that snakelike setting's high temperature pipeline can be very big and the inside air contact of box have further improved the heat transfer effect of high temperature steam and the inside air of box.

And a heat dissipation block 5 is arranged on the outer wall of the high-temperature pipeline 4.

The heat dissipation block is arranged on the high-temperature pipeline, so that the heating effect of the high-temperature pipeline can be further improved, and the use efficiency and the use effect of the product are further improved.

The air circulation structure consists of a circulating air pipe 9 which is attached to the upper wall, the lower wall, the left wall and the right wall in the box body 1, a circulating moisture discharging box 8 which penetrates through the upper wall of the box body 1 and is connected with the circulating air pipe 9, a circulating air pump 7 which is arranged on the circulating moisture discharging box 8, and a bottom air outlet 10 which is arranged on the circulating air pipe 9 adjacent to the lower wall and is opened upwards; and a plurality of openings are also oppositely arranged on the circulating air pipes 9 adjacent to the left wall and the right wall of the box body 1.

The air inside the box body can flow through the circulating air pipe, so that moisture in the materials can be blown out better, and the drying effect of the product is further improved.

As shown in fig. 2, the circulating dehumidifying box 8 mainly comprises an air inlet duct 15 communicated with the inside of the box body 1, an air outlet duct 14 communicated with the circulating air duct 9 disposed adjacent to the upper wall of the box body 1, a dehumidifying pipe 17 penetrating through the circulating dehumidifying box 8, and an electromagnetic valve 16 disposed on the dehumidifying pipe 17.

The air inlet of the circulating air pump 7 is connected with the air inlet duct 15, and the air outlet 13 of the circulating air pump 7 is connected with the air outlet duct 14.

The solenoid valve keeps closed at normal during operation, and the circulation air pump then drives the inside gas of box and gets into by the air inlet duct and blow off by the exhaust stack again in order to form a circulation in the box, and when air humidity was higher in the box, then can control the battery valve and open for the inside air of box is discharged through the hydrofuge pipe gradually at the in-process of circulation, so has reached the purpose that reduces the inside air humidity of box, has further improved the drying effect of product to the material.

As described above, the utility model discloses alright fine realization.

Claims (6)

1. The utility model provides a silicon manganese alloy raw materials for production drying system which characterized in that: the device comprises a box body (1), a conveyor belt (6) which penetrates through the box body (1) from front to back, a heating structure arranged on the box body (1), and a wind circulating structure arranged on the box body (1); the bottom end of the box body (1) is provided with a plurality of adjustable supporting legs (11); the heating structure consists of a high-temperature air inlet pump (2), a high-temperature air valve (3) connected with the high-temperature air inlet pump (2) through a pipeline, and a plurality of high-temperature pipelines (4) connected with the high-temperature air valve (3).

2. The silicon-manganese alloy production raw material drying system of claim 1, characterized in that: high temperature pipeline (4) are coiled into snakelike, and the quantity of high temperature pipeline (4) is two at least, and at least one high temperature pipeline (4) set up in the inside upper end of box (1), and at least one high temperature pipeline (4) set up at the inside lower extreme of box (1).

3. The silicon-manganese alloy production raw material drying system of claim 2, characterized in that: and a heat dissipation block (5) is arranged on the outer wall of the high-temperature pipeline (4).

4. The silicon-manganese alloy production raw material drying system of claim 3, wherein: the air circulation structure consists of a circulation air pipe (9) which is attached to the upper wall, the lower wall, the left wall and the right wall in the box body (1), a circulation moisture discharging box (8) which penetrates through the upper wall of the box body (1) and is connected with the circulation air pipe (9), a circulation air pump (7) which is arranged on the circulation moisture discharging box (8), and a bottom air outlet (10) which is arranged on the circulation air pipe (9) adjacent to the lower wall and is opened upwards; and a plurality of openings are also oppositely formed on the circulating air pipes (9) adjacent to the left wall and the right wall of the box body (1).

5. The silicon-manganese alloy production raw material drying system of claim 4, wherein: the circulating dehumidifying box (8) mainly comprises an air inlet duct (15) communicated with the inside of the box body (1), an air outlet duct (14) communicated with a circulating air pipe (9) adjacently arranged on the upper wall of the box body (1), a dehumidifying pipe (17) penetrating through the circulating dehumidifying box (8) and an electromagnetic valve (16) arranged on the dehumidifying pipe (17).

6. The silicon-manganese alloy production raw material drying system of claim 5, wherein: the air inlet of the circulating air pump (7) is connected with the air inlet duct (15), and the air outlet (13) of the circulating air pump (7) is connected with the air outlet duct (14).

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