CN214193395U - Recycling device for filter residues in silicon-manganese alloy production - Google Patents

Abstract

The utility model discloses a recycle device of filter residue in silicomanganese production, include: the main part subassembly, the main part subassembly includes bottom plate, presses ball machine, body an, arc, bracing piece, box, body b, motor a, backup pad, body c, valve, the body of rod, filter screen, deflector and hob. The utility model discloses the silicon manganese alloy filter residue that separates through the separator during with production and the dust after the flue gas is handled are leading-in to inside the box, make dust cover mix on the filter residue surface, rotate through starter motor b drive lead screw, slider in the lead screw slides in the polished rod, it filters the rear surface adnexed to drive the brush to intercept in the dust removal sack, and the dust that contains silicon manganese alloy cleans, and dust and the filter residue that falls into the inside diapire of box and retrieve carry to pressing the ball machine in the press forming can smelt once more, it can occupy the soil to have avoided directly falling, can cause the problem of pollution and leading to the fact certain harm to human health and environment to soil simultaneously.

Description

Recycling device for filter residues in silicon-manganese alloy production

The technical field is as follows:

the utility model relates to a silicon manganese alloy production technical field specifically is a recycle device of filter residue in silicon manganese alloy production.

Background art:

as is known to all, in the smelting process of silicon-manganese alloy, manganese ore, silica and other materials are sintered by a silicon-manganese alloy electric furnace and then pass through a separator to separate a part of silicon-manganese alloy filter residues, the filter residues are light green in color and high in hardness, and the main components of the filter residues are Si, Mn, SiO2 and the like. And the fume generated in the smelting process of the silicon-manganese alloy and the dust generated after purification also contain silicon-manganese components.

However, the existing production of silicon-manganese alloy has certain problems:

1. silicomanganese is at the in-process of smelting, materials such as manganese ore, silica can separate out partly silicomanganese filter residue through the separator after the silicomanganese electric furnace sintering, and silicomanganese can produce the flue gas at the in-process of smelting, also contain the silicomanganese composition in the dust of output after gas cleaning, current filter residue and dust do not have fine processing mode yet, consequently can directly pour it at the in-process of production, such processing mode can occupy the land, contain the chemical composition in the filter residue simultaneously, can cause the pollution to soil, still can cause certain harm to human health and environment.

2. In the silicon-manganese alloy flue gas purification process, a cooling mechanism is often lacked to cool the interior of the treatment device, so that the internal parts of the treatment device are accelerated to age under the influence of high temperature after long-term use, and therefore, the device for recycling filter residues in silicon-manganese alloy production is provided.

The utility model has the following contents:

an object of the utility model is to provide a recycle device of filter residue in silicon manganese alloy production to solve the problem that proposes in the above-mentioned background art.

The utility model discloses by following technical scheme implement: a recycle device of filter residue in silicomanganese production includes: the device comprises a main body component, a water tank and a water tank, wherein the main body component comprises a bottom plate, a ball press, a pipe body a, an arc-shaped plate, a supporting rod, a box body, a pipe body b, a motor a, a supporting plate, a pipe body c, a valve, a rod body, a filter screen, a guide plate and a spiral rod;

the top of the bottom plate is welded with a box body, the front surface of the box body is welded with a supporting plate, and the inner side wall of the box body is symmetrically welded with two guide plates;

the cooling assembly comprises an air pump, a pipe body d, a plate body, a movable plate and a stop block;

an air pump is mounted on the upper surface of the supporting plate, an air outlet of the air pump is symmetrically communicated with two pipe bodies d, the repellent ends of the two pipe bodies d are communicated with the two sides of the box body, four plate bodies are symmetrically welded on the inner side wall of the box body, a movable plate is hinged to one side adjacent to the four plate bodies, and a stop block is welded to one side adjacent to the four plate bodies;

the filter assembly comprises a motor b, a fan, a graphene filter layer, a dust removal cloth bag, a screw rod, a brush, a T-shaped plate, a sliding block, a polish rod and an active carbon filter layer;

motor b is installed to one side of box, motor b's output runs through one side and the fixedly connected with lead screw of box, the inside wall welding of box has the polished rod, the lateral wall threaded connection of lead screw has the slider, the top welding of slider has the T-shaped board, the top of T-shaped board bonds there is the brush, the lateral wall of polished rod run through in the inside wall of slider, the inside wall difference threaded connection of box has graphite alkene filter layer and active carbon filter layer, the dust removal sack is installed to the inside wall of box, the upper surface symmetry scarf joint of box has two fans.

As further preferable in the present technical solution: a pipe body c is communicated with one side of the box body, and a valve is installed on the outer side wall of the pipe body c.

As further preferable in the present technical solution: the upper surface symmetrical welding of box has four body of rod, four the filter screen, two have all been welded at the top of the body of rod the filter screen all is located two the top of fan.

As further preferable in the present technical solution: and the upper surface of the bottom plate is provided with a ball press machine.

As further preferable in the present technical solution: the lower surface of the box body is penetrated with a pipe body b, one end of the bottom of the pipe body b is penetrated with a pipe body a, one end of the pipe body a is provided with a motor a, the output end of the motor a is fixedly connected with a screw rod, and one end of the pipe body a is penetrated on one side of the ball press machine.

As further preferable in the present technical solution: the upper surface symmetrical welding of bottom plate has two bracing pieces, two the arc has all been welded at the top of bracing piece, two the top of arc all laminate in the lateral wall of body a.

The utility model has the advantages that:

1. the utility model discloses the silicon manganese alloy filter residue that will separate through the separator during production and the dust after the flue gas is handled are leading-in inside the box, make dust cover mix on the filter residue surface, can produce a large amount of flue gases this moment, drive the inside flue gas of box and flow upwards through starting the fan, the silicon manganese composition of dust removal sack in with the flue gas filters and remains, rotate through starter motor b drive lead screw, slider in the lead screw slides in the polished rod, it filters the rear surface adhesion to drive the brush to intercept in the dust removal sack, and the dust that contains silicon manganese alloy cleans, and the dust and the filter residue that fall into the inside diapire of box and retrieve carry to the ball press machine in the briquetting can smelt once more, avoided directly falling and can occupy the soil, can cause the problem of pollution and leading to the fact certain harm to human health and environment simultaneously to soil.

2. The utility model discloses the filter residue cleans before retrieving, can start the air pump, and inside the air pump passed through body d and carried gas to the box, made the inside temperature of box reach cooling and balance, and after carrying, when the inside gas of box is palirrhea, the fly leaf can meet the automatic closure of atmospheric pressure, has avoided the gas reflux.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the middle box body of the present invention;

fig. 3 is the schematic view of the internal structure of the middle tube body a of the present invention.

In the figure: 10. a body assembly; 101. a base plate; 102. pressing a ball machine; 103. a pipe body a; 104. an arc-shaped plate; 105. a support bar; 106. a box body; 107. a pipe body b; 108. a motor a; 109. a support plate; 110. a pipe body c; 111. a valve; 112. a rod body; 113. a filter screen; 114. a guide plate; 115. a screw rod; 20. a cooling assembly; 201. an air pump; 202. a pipe body d; 203. a plate body; 204. a movable plate; 205. a stopper; 30. a filter assembly; 301. a motor b; 302. a fan; 303. a graphene filter layer; 304. a dust removal cloth bag; 305. a screw rod; 306. a brush; 307. a T-shaped plate; 308. a slider; 309. a polish rod; 310. an active carbon filter layer.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-3, the present invention provides a technical solution: a recycle device of filter residue in silicomanganese production includes: the main body component 10 comprises a bottom plate 101, a ball press 102, pipe bodies a-103, an arc-shaped plate 104, a support rod 105, a box body 106, pipe bodies b-107, motors a-108, a support plate 109, pipe bodies c-110, a valve 111, a rod body 112, a filter screen 113, a guide plate 114 and a spiral rod 115;

the top of the bottom plate 101 is welded with a box body 106, the front surface of the box body 106 is welded with a supporting plate 109, and the inner side wall of the box body 106 is symmetrically welded with two guide plates 114;

the cooling assembly 20, the cooling assembly 20 includes an air pump 201, tubes d-202, a plate 203, a movable plate 204 and a stopper 205;

the upper surface of the supporting plate 109 is provided with an air pump 201, an air outlet of the air pump 201 is symmetrically communicated with two pipe bodies d-202, repulsive ends of the two pipe bodies d-202 are communicated with two sides of the box body 106, four plate bodies 203 are symmetrically welded on the inner side wall of the box body 106, adjacent sides of the four plate bodies 203 are hinged with movable plates 204, and adjacent surfaces of the four plate bodies 203 are welded with stoppers 205;

the filter assembly 30, the filter assembly 30 comprises motors b-301, a fan 302, a graphene filtering layer 303, a dust removal cloth bag 304, a screw rod 305, a brush 306, a T-shaped plate 307, a sliding block 308, a polished rod 309 and an activated carbon filtering layer 310;

the motor b-301 is installed on one side of the box body 106, the output end of the motor b-301 penetrates through one side of the box body 106 and is fixedly connected with a screw rod 305, a polished rod 309 is welded on the inner side wall of the box body 106, a sliding block 308 is connected to the outer side wall of the screw rod 305 in a threaded mode, a T-shaped plate 307 is welded on the top of the sliding block 308, a brush 306 is bonded on the top of the T-shaped plate 307, the outer side wall of the polished rod 309 penetrates through the inner side wall of the sliding block 308, a graphene filtering layer 303 and an active carbon filtering layer 310 are respectively connected to the inner side wall of the box body 106 in a threaded mode, a dust removal cloth bag 304 is installed on the inner side wall of the box body 106, and two fans 302 are symmetrically embedded on the upper surface of the box body 106.

In this embodiment, specifically: a pipe body c-110 penetrates through one side of the box body 106, and a valve 111 is arranged on the outer side wall of the pipe body c-110; the pipe body c-110 is a feeding pipeline of the utility model, and the opening and closing of the pipe body c-110 are controlled by the valve 111.

In this embodiment, specifically: four rod bodies 112 are symmetrically welded on the upper surface of the box body 106, filter screens 113 are welded on the tops of the four rod bodies 112, and the two filter screens 113 are located on the tops of the two fans 302; the filter 113 on the top of the rod 112 can intercept and filter the air exhausted by the fan 302.

In this embodiment, specifically: the upper surface of the bottom plate 101 is provided with a ball press machine 102; the ball press 102 is mainly used for pressing powdery materials which are difficult to form, and is used for mixing and pressing filter residues and dust of the silicon-manganese alloy.

In this embodiment, specifically: the lower surface of the box body 106 is penetrated with pipe bodies b-107, one end of the bottom of each pipe body b-107 is penetrated with a pipe body a-103, one end of each pipe body a-103 is provided with a motor a-108, the output end of each motor a-108 is fixedly connected with a screw rod 115, and one end of each pipe body a-103 is penetrated at one side of the ball press 102; the tube bodies b-107 at the bottom of the box body 106 are responsible for discharging silicon-manganese alloy filter residues, when the motors a-108 are started, the screw rods 115 are driven to rotate, and after the filter residues enter the tube bodies a-103 through the tube bodies b-107, the filter residues can be conveyed through the rotating screw rods 115.

In this embodiment, specifically: the upper surface of the bottom plate 101 is symmetrically welded with two support rods 105, the tops of the two support rods 105 are welded with arc plates 104, and the tops of the two arc plates 104 are attached to the outer side walls of the pipe bodies a-103; the support rods 105 and the arc plates 104 can support and stabilize the tubes a-103.

In this embodiment: the motors a-108 are of the type W20-a-L112M-04.

In this embodiment: motors b-301 are model numbers 57 b-G76.

In this embodiment: the air pump 201 is of the type 2Rb-004 a-21.

Working principle or structural principle, when in use, after silicomanganese filter residue and dust enter the box body 106 through the pipe body c-110, the fan 302 is started to drive the smoke in the box body 106 to flow upwards, so that the smoke contacts the dust removal cloth bag 304, the dust removal cloth bag 304 filters the silicomanganese filter residue in the smoke, and the filtered harmful gas is subjected to double filtration through the graphene filter layer 303 and the activated carbon filter layer 310 to complete purification treatment, wherein the pipe body c-110 is the feed pipeline of the utility model, the switch of the pipe body c-110 is controlled through the valve 111, the screw rod 305 is driven to rotate through the starting motor b-301, the sliding block 308 in the screw rod 305 slides in the polished rod 309 to drive the brush 306 to intercept and filter the dust containing silicomanganese attached to the surface after being intercepted and filtered in the dust removal cloth bag 304, so that the dust and filter residue fall into the bottom, and the dust and filter residue falling into the bottom wall in the box body 106 circulate to the pipe body a-103 through the pipe body b-107 When the motors a-108 are started, the screw rod 115 is driven to rotate, filter residues are conveyed through the screw rod 115 in a rotating state and finally conveyed into the ball press machine 102, the ball press machine 102 is mainly used for pressing powdery materials which are difficult to form, in the utility model, the filter residue of the silicon-manganese alloy and the dust are mixed and pressed, before the dust in the dust removal cloth bag 304 is cleaned and collected, the air pump 201 can be started, the air pump 201 delivers air into the box 106 through the pipes d-202, so that the temperature inside the box 106 is balanced, after the gas is conveyed, when the gas in the box 106 flows back, the movable plate 204 will be automatically closed when meeting the air pressure, so as to avoid the gas from flowing back, the rod body 112 and the filter screen 113 in the utility model can intercept and roughly filter the gas discharged by the fan 302, meanwhile, the support rods 105 and the arc-shaped plates 104 can play a role in supporting and stabilizing the pipe bodies a-103.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a recycle device of filter residue in silicomanganese production which characterized in that includes:

the device comprises a main body component (10), wherein the main body component (10) comprises a bottom plate (101), a ball pressing machine (102), a pipe body a (103), an arc-shaped plate (104), a supporting rod (105), a box body (106), a pipe body b (107), a motor a (108), a supporting plate (109), a pipe body c (110), a valve (111), a rod body (112), a filter screen (113), a guide plate (114) and a spiral rod (115);

a box body (106) is welded at the top of the bottom plate (101), a supporting plate (109) is welded on the front surface of the box body (106), and two guide plates (114) are symmetrically welded on the inner side wall of the box body (106);

the cooling assembly (20), the cooling assembly (20) comprises an air pump (201), a pipe body d (202), a plate body (203), a movable plate (204) and a stop block (205);

an air pump (201) is mounted on the upper surface of the supporting plate (109), an air outlet of the air pump (201) is symmetrically communicated with two pipe bodies d (202), the repelling ends of the two pipe bodies d (202) are communicated with two sides of the box body (106), four plate bodies (203) are symmetrically welded on the inner side wall of the box body (106), movable plates (204) are hinged to adjacent sides of the four plate bodies (203), and stop blocks (205) are welded on adjacent surfaces of the four plate bodies (203);

the filter assembly (30) comprises a motor b (301), a fan (302), a graphene filter layer (303), a dust removal cloth bag (304), a screw rod (305), a brush (306), a T-shaped plate (307), a sliding block (308), a polish rod (309) and an activated carbon filter layer (310);

motor b (301) is installed to one side of box (106), the output of motor b (301) runs through one side and fixedly connected with lead screw (305) of box (106), the inside wall welding of box (106) has polished rod (309), the lateral wall threaded connection of lead screw (305) has slider (308), the top welding of slider (308) has T shaped plate (307), the top bonding of T shaped plate (307) has brush (306), the lateral wall of polished rod (309) run through in the inside wall of slider (308), the inside wall of box (106) threaded connection has graphite alkene filter layer (303) and active carbon filter layer (310) respectively, dust removal sack (304) is installed to the inside wall of box (106), the upper surface symmetry of box (106) has been inlayed and has been had two fans (302).

2. The device for recycling filter residues in the production of silicon-manganese alloy according to claim 1, is characterized in that: a pipe body c (110) penetrates through one side of the box body (106), and a valve (111) is installed on the outer side wall of the pipe body c (110).

3. The device for recycling filter residues in the production of silicon-manganese alloy according to claim 1, is characterized in that: the upper surface symmetry welding of box (106) has four body of rod (112), four filter screen (113) have all been welded at the top of the body of rod (112), two filter screen (113) all are located two the top of fan (302).

4. The device for recycling filter residues in the production of silicon-manganese alloy according to claim 1, is characterized in that: the upper surface of the bottom plate (101) is provided with a ball press machine (102).

5. The recycling device of the filter residue in the production of the silicon-manganese alloy according to claim 4, characterized in that: a tube body b (107) penetrates through the lower surface of the box body (106), a tube body a (103) penetrates through one end of the bottom of the tube body b (107), a motor a (108) is installed at one end of the tube body a (103), a screw rod (115) is fixedly connected to the output end of the motor a (108), and one end of the tube body a (103) penetrates through one side of the ball press machine (102).

6. The recycling device of the filter residue in the production of the silicon-manganese alloy according to claim 5, characterized in that: the upper surface symmetrical welding of bottom plate (101) has two bracing pieces (105), two arc (104) have all been welded at the top of bracing piece (105), two the top of arc (104) all laminate in the lateral wall of body a (103).

Images