CN211727445U

CN211727445U - Energy-saving ferrosilicon drying device

Info

Publication number: CN211727445U
Application number: CN201922325109.3U
Authority: CN
Inventors: 马国趁; 程绍军; 李欣怡; 潘庆文; 潘培馀
Original assignee: Sanhe Tianjin Technology Co ltd
Current assignee: Sanhe Tianjin Technology Co ltd
Priority date: 2019-12-23
Filing date: 2019-12-23
Publication date: 2020-10-23
Anticipated expiration: 2029-12-23

Abstract

The utility model discloses an energy-saving ferrosilicon drying device, be the stoving case that the opening set up including front side and bottom, the stoving incasement is equipped with the shaping box that the top set up for the opening, one side thread tightening of stoving case has the air-cooler, the air intake of air-cooler extends to the stoving incasement, the top thread tightening of stoving case has the air compressor machine, the air intake of air compressor machine extends to the stoving incasement, the top thread tightening of stoving case has turbo generator, communicate between turbo generator and the air compressor machine and be fixed with same connecting pipe, the stoving incasement is equipped with the feed liquor pipe, the top of feed liquor pipe extends to the top of stoving case, the bottom fixed mounting of stoving case has fixed box, the bottom of shaping box and the top fixed connection of fixed box, first rectangular hole has been seted up on the bottom inner wall of shaping box. The utility model discloses simple structure, convenient operation is convenient for ejecting fashioned ferrosilicon material from the shaping box is quick, and labour saving and time saving satisfies the use needs, is favorable to the use.

Description

Energy-saving ferrosilicon drying device

Technical Field

The utility model relates to a drying equipment technical field especially relates to an energy-saving ferrosilicon drying device.

Background

Ferrosilicon is exactly the ferroalloy that iron and silicon are constituteed, ferrosilicon needs drying device at the in-process of production and processing, current energy-saving ferrosilicon drying device is by the stoving case, the forming box, the feed liquor pipe, the air-cooler, air compressor machine and turbo generator constitute, melt silicon and iron for the molten iron through the feed liquor pipe pour into in the forming box, the air-cooler work blows in cold air to the stoving incasement, the interior cold wind of stoving incasement cools off the molten iron, make the molten iron rapid prototyping be the ferrosilicon material, the heat absorption in the refrigerated in-process cold air with the molten iron turns into hot steam, the air compressor machine absorbs hot steam and transmits turbo generator, turbo generator turns into the electric energy with hot steam, reach energy saving's purpose.

But the shaping box among the current energy-saving ferrosilicon drying device is not convenient for quick takes out the ferrosilicon material after the shaping, need prize out with the help of some instruments at the in-process of getting the ferrosilicon material, causes the sled trace to the ferrosilicon material easily, has reduced the efficiency of production simultaneously, can not satisfy the user demand, therefore we have provided an energy-saving ferrosilicon drying device and have been used for solving above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing an energy-saving silicon iron drying device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an energy-saving ferrosilicon drying device comprises a drying box with an opening at the front side and the bottom, wherein a forming box with an opening at the top is arranged in the drying box, an air cooler is fixed on one side of the drying box through threads, an air inlet of the air cooler extends into the drying box, an air compressor is fixed on the top of the drying box through threads, an air inlet of the air compressor extends into the drying box, a turbogenerator is fixed on the top of the drying box through threads, a connecting pipe is communicated and fixed between the turbogenerator and the air compressor, a liquid inlet pipe is arranged in the drying box, the top end of the liquid inlet pipe extends to the upper side of the drying box, a fixed box is fixedly arranged at the bottom of the drying box, the bottom of the forming box is fixedly connected with the top of the fixed box, a first rectangular hole is formed in the inner wall of the bottom of the forming box, a movable plate is movably sleeved in the first, the inner walls of two sides of the fixed box are respectively and rotatably provided with a screw rod, one end of the two screw rods, which are close to each other, is welded, the two screw rods are symmetrically arranged, one side of the fixed box is in threaded fixation with a driving motor, the end part of an output shaft of the driving motor extends into the fixed box and is fixedly connected with one end of one screw rod of the two screw rods, the inner wall of the bottom of the fixed box is provided with two moving blocks in a sliding way, the moving blocks are sleeved on the corresponding screw rods in a threaded way, the inner walls of two sides of the fixed box are respectively welded with an L-shaped plate, a first toothed plate is sleeved on the L-shaped plate in a sliding way, the top of the first toothed plate extends into a first rectangular hole and is fixedly connected with the bottom of the moving plate, the side wall of the fixed box is rotatably provided with two fixed pulleys, one side, which is close to each other, the top of the steel rope passes through the bottom of the corresponding, first rectangular channel has all been seted up to one side that two second pinion rack are close to each other, the welding has same montant on the top inner wall of first rectangular channel and the bottom inner wall, the slip cover is equipped with L shape pole on the montant, one side that two L shape poles are close to each other extends to outside the first rectangular channel that corresponds respectively, the one end of L shape pole and the lateral wall fixed connection of fixed box, the top of spring has been welded on the top inner wall of first rectangular channel, the bottom of spring welds with the top of the L shape pole that corresponds mutually, the spring movable sleeve is established on the montant that corresponds, rotate on the lateral wall of fixed box and install two gears, the gear is located between the first pinion rack and the second pinion rack that correspond, first pinion rack and the second pinion rack that corresponds all mesh with the gear.

Preferably, two sliding grooves are formed in the inner wall of the bottom of the fixed box, sliding blocks are fixedly mounted at the bottoms of the moving blocks, and the sliding blocks are connected with the corresponding sliding grooves in a sliding mode.

Preferably, one side of the moving block is provided with a threaded hole, and the threaded hole is in threaded connection with the corresponding screw.

Preferably, the bottom of the first toothed plate is provided with a second rectangular groove, and the side wall of the second rectangular groove is in sliding connection with the outer side of the corresponding L-shaped plate.

Preferably, a second rectangular hole is formed in the top of the L-shaped rod, and the side wall of the second rectangular hole is in sliding connection with the outer side of the corresponding vertical rod.

Preferably, bearings are welded on the inner walls of the two sides of the fixed box, and inner rings of the bearings are fixedly sleeved with the outer sides of the corresponding screws.

Compared with the prior art, the beneficial effects of the utility model are that:

through the drying box, the forming box, the fixed box, the first rectangular hole, the movable plate, the screw rods, the driving motor, the movable block, the L-shaped plate, the first toothed plate, the steel rope, the second toothed plate, the first rectangular groove, the vertical rod, the L-shaped rod and the spring are matched, when the formed ferrosilicon material needs to be taken out, the forward starting driving motor drives the other screw rod to rotate through one screw rod, the screw rod rotates to drive the corresponding movable block to move, the movable block pulls the second toothed plate to move downwards through the corresponding steel rope and compresses the spring, the second toothed plate moves downwards to drive the corresponding gear to rotate, the gear rotates to drive the corresponding first toothed plate to move upwards, the two first toothed plates drive the same upwards to move together, the ferrosilicon material extruded by the movable plate is extruded upwards, the movable plate extrudes the formed ferrosilicon material out of the forming box, and the ferrosilicon material is taken out, in the same way, the moving plate can be moved and reset by starting the driving motor reversely to wait for the next use.

The utility model discloses simple structure, convenient operation is convenient for ejecting fashioned ferrosilicon material from the shaping box is quick, and labour saving and time saving satisfies the use needs, is favorable to the use.

Drawings

FIG. 1 is a schematic structural view of an energy-saving ferrosilicon drying device provided by the present invention;

FIG. 2 is a schematic cross-sectional view of FIG. 1;

FIG. 3 is a schematic structural view of portion A of FIG. 2;

fig. 4 is a perspective view of the L-shaped rod of fig. 3.

In the figure: the steel wire rope forming machine comprises a drying box 1, a forming box 2, a fixing box 3, a first rectangular hole 4, a moving plate 5, a screw 6, a driving motor 7, a moving block 8, a 9L-shaped plate, a first toothed plate 10, a steel rope 11, a second toothed plate 12, a first rectangular groove 13, a vertical rod 14, a L-shaped rod 15 and a spring 16.

Detailed Description

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.

Referring to fig. 1-4, an energy-saving ferrosilicon drying device comprises a drying box 1 with an opening at the front side and the bottom, a forming box 2 with an opening at the top is arranged in the drying box 1, an air cooler is fixed at one side of the drying box 1 by screw threads, an air inlet of the air cooler extends into the drying box 1, an air compressor is fixed at the top of the drying box 1 by screw threads, an air inlet of the air compressor extends into the drying box 1, a turbo generator is fixed at the top of the drying box 1 by screw threads, the turbo generator is communicated with the air compressor and is fixed with a connecting pipe, a liquid inlet pipe is arranged in the drying box 1, the top end of the liquid inlet pipe extends to the upper side of the drying box 1, a fixed box 3 is fixedly arranged at the bottom of the drying box 1, the bottom of the forming box 2 is fixedly connected with the top of the fixed box 3, a first rectangular hole 4 is arranged on the inner wall of the, the bottom of the movable plate 5 is movably contacted with the top of the fixed box 3, the inner walls of two sides of the fixed box 3 are respectively and rotatably provided with a screw 6, one ends of the two screw 6 which are close to each other are welded, the two screw 6 are symmetrically arranged, one side of the fixed box 3 is fixedly provided with a driving motor 7 through threads, the end part of an output shaft of the driving motor 7 extends into the fixed box 3 and is fixedly connected with one end of one screw 6 of the two screw 6, the inner wall of the bottom of the fixed box 3 is provided with two movable blocks 8 through sliding, the movable blocks 8 are sleeved on the corresponding screw 6 through threads, the inner walls of two sides of the fixed box 3 are respectively welded with an L-shaped plate 9, the L-shaped plate 9 is sleeved with a first toothed plate 10 through sliding, the top of the first toothed plate 10 extends into the first rectangular hole 4 and is fixedly connected with the bottom of the movable plate 5, the side wall of the fixed box 3 is rotatably, the top end of the steel rope 11 bypasses the bottom of the corresponding fixed pulley and is fixedly provided with a second toothed plate 12, the top of the second toothed plate 12 extends into the first rectangular hole 4 and is movably contacted with the bottom of the moving plate 5, one side of the two second toothed plates 12 close to each other is provided with a first rectangular groove 13, the inner wall of the top and the inner wall of the bottom of the first rectangular groove 13 are welded with the same vertical rod 14, the vertical rod 14 is sleeved with an L-shaped rod 15 in a sliding manner, one side of the two L-shaped rods 15 close to each other respectively extends out of the corresponding first rectangular grooves 13, one end of the L-shaped rod 15 is fixedly connected with the side wall of the fixed box 2, the inner wall of the top of the first rectangular groove 13 is welded with the top end of a spring 16, the bottom end of the spring 16 is welded with the top of the corresponding L-shaped rod 15, the spring 16 is movably sleeved on the corresponding vertical rod 14, two gears are rotatably arranged on the side wall of the fixed box 3, the gears, first pinion rack 10 and the second pinion rack 12 that corresponds all mesh with the gear mutually, the utility model discloses simple structure, convenient operation is convenient for ejecting fashioned silicon iron material from shaping box 2 is quick, and labour saving and time saving satisfies the use needs, is favorable to the use.

The utility model discloses in, two spouts have been seted up on the bottom inner wall of fixed case 3, the bottom fixed mounting of movable block 8 has the slider, slider and the spout sliding connection who corresponds, threaded hole has been seted up to one side of movable block 8, threaded hole and the 6 threaded connection of the screw rod that corresponds, the second rectangular channel has been seted up to the bottom of first pinion rack 10, the lateral wall of second rectangular channel and the outside sliding connection of the L shaped plate 9 that corresponds, the second rectangular hole has been seted up at the top of L shape pole 15, the lateral wall of second rectangular hole and the outside sliding connection of the montant 14 that corresponds, it has the bearing all to weld on the both sides inner wall of fixed case 3, the inner circle of bearing and the fixed suit in the outside of the screw rod 6 that corresponds, the utility model discloses simple structure, convenient operation, be convenient for ejecting fast in the fashioned ferrosilicon material from shaping box 2, labour saving and time saving satisfies.

The working principle is as follows: when the silicon and iron are melted into molten iron and injected into the forming box 2 through the liquid inlet pipe, cold air is blown into the drying box 1 by the cold air of the air cooler, the molten iron is cooled by the cold air in the drying box 1, so that the molten iron is rapidly formed into a silicon iron material, heat in the molten iron is absorbed and converted into hot steam by the cold air in the cooling process, the hot steam is absorbed by the air compressor and is transmitted to the turbo generator, the hot steam is converted into electric energy by the turbo generator, the purpose of saving energy is achieved, when the formed silicon iron material needs to be taken out, the driving motor 7 is started in the forward direction, the driving motor 7 works to drive one screw 6 of the two screws 6 to rotate, one screw 6 of the two screws 6 rotates to drive the other screw 6 to rotate, under the opposite rotating directions of the threaded holes formed in the moving block 8 and the threads of the two screws 6, the screws 6 rotate to drive the corresponding moving, the two moving blocks 8 move towards the direction away from each other, the moving blocks 8 drive the corresponding sliding blocks to slide in the sliding grooves, the moving blocks 8 pull the corresponding steel ropes 11 to move, the steel ropes 11 slide at the bottoms of the corresponding fixed pulleys and pull the second toothed plates 12 to move downwards, the second toothed plates 12 drive the corresponding vertical rods 14 to move, the vertical rods 14 slide in the corresponding second rectangular holes, the second toothed plates 12 compress the corresponding springs 16 in the moving process, under the action of the same gear meshed between the second toothed plates 12 and the corresponding first toothed plates 10, the second toothed plates 12 move downwards to drive the corresponding gears to rotate, the gears rotate to drive the corresponding first toothed plates 10 to move upwards, the first toothed plates 10 slide upwards on the corresponding L-shaped plates 9, the two first toothed plates 10 drive the same moving plate 5 to move upwards together, and the moving plates 5 move upwards to form an extruded silicon iron material, reach the ferrosilicon material extrusion moulding box 2 after the shaping, take out the ferrosilicon material, the reverse start driving motor just 7 of the same reason can make movable plate 5 remove and reset, waits for the use next time for be convenient for with fashioned ferrosilicon material from the shaping box 2 in ejecting fast, labour saving and time saving.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. An energy-saving ferrosilicon drying device comprises a drying box (1) with an opening arranged at the front side and the bottom, a forming box (2) with an opening arranged at the top is arranged in the drying box (1), an air cooler is fixed at one side of the drying box (1) by screw threads, an air inlet of the air cooler extends into the drying box (1), an air compressor is fixed at the top of the drying box (1) by screw threads, an air inlet of the air compressor extends into the drying box (1), a turbonator is fixed at the top of the drying box (1), a same connecting pipe is communicated and fixed between the turbonator and the air compressor, a liquid inlet pipe is arranged in the drying box (1), the top end of the liquid inlet pipe extends to the upper part of the drying box (1), the energy-saving ferrosilicon drying device is characterized in that a fixing box (3) is fixedly arranged at the bottom of the drying box (1), the bottom of the forming box (2) is, a first rectangular hole (4) is formed in the inner wall of the bottom of the forming box (2), a movable plate (5) is movably sleeved in the first rectangular hole (4), the bottom of the movable plate (5) is movably contacted with the top of the fixed box (3), screw rods (6) are rotatably mounted on the inner walls of two sides of the fixed box (3), one ends of the two screw rods (6) close to each other are welded, the two screw rods (6) are symmetrically arranged, a driving motor (7) is fixed to one side of the fixed box (3) through threads, the end portion of an output shaft of the driving motor (7) extends into the fixed box (3) and is fixedly connected with one end of one screw rod (6) of the two screw rods (6), two movable blocks (8) are slidably mounted on the inner wall of the bottom of the fixed box (3), the movable blocks (8) are sleeved on the corresponding screw rods (6) through threads, L-shaped plates (9) are welded on the inner walls, the sliding sleeve is provided with a first toothed plate (10) on the L-shaped plate (9), the top of the first toothed plate (10) extends into the first rectangular hole (4) and is fixedly connected with the bottom of the moving plate (5), two fixed pulleys are rotatably installed on the side wall of the fixed box (3), one side, close to each other, of each two moving blocks (8) is fixedly provided with a steel rope (11), the top end of each steel rope (11) bypasses the bottom of the corresponding fixed pulley and is fixedly provided with a second toothed plate (12), the top of each second toothed plate (12) extends into the first rectangular hole (4) and is movably contacted with the bottom of the moving plate (5), one side, close to each other, of each two second toothed plates (12) is provided with a first rectangular groove (13), the top inner wall and the bottom inner wall of each first rectangular groove (13) are welded with a same vertical rod (14), the sliding sleeve is provided with an L-shaped rod (15) on each vertical rod (14), one side, close to each other, each two L-shaped rods (15) extend out of the corresponding, the one end of L shape pole (15) and the lateral wall fixed connection of fixed case (3), the welding has the top of spring (16) on the top inner wall of first rectangular channel (13), the bottom of spring (16) welds mutually with the top of the L shape pole (15) that corresponds, spring (16) activity cover is established on corresponding montant (14), rotate on the lateral wall of fixed case (3) and install two gears, the gear is located between corresponding first pinion rack (10) and second pinion rack (12), first pinion rack (10) and corresponding second pinion rack (12) all mesh with the gear mutually.

2. The energy-saving ferrosilicon drying device of claim 1, wherein the inner wall of the bottom of the fixed box (3) is provided with two sliding grooves, the bottom of the moving block (8) is fixedly provided with a sliding block, and the sliding block is connected with the corresponding sliding grooves in a sliding manner.

3. The energy-saving ferrosilicon drying device of claim 1, wherein one side of the moving block (8) is provided with a threaded hole, and the threaded hole is in threaded connection with the corresponding screw (6).

4. The energy-saving ferrosilicon drying device of claim 1, wherein a second rectangular groove is formed in the bottom of the first toothed plate (10), and the side wall of the second rectangular groove is in sliding connection with the outer side of the corresponding L-shaped plate (9).

5. The energy-saving ferrosilicon drying device of claim 1, wherein a second rectangular hole is opened at the top of the L-shaped rod (15), and the side wall of the second rectangular hole is connected with the outer side of the corresponding vertical rod (14) in a sliding manner.

6. The energy-saving ferrosilicon drying device of claim 1, wherein the bearings are welded on the inner walls of the two sides of the fixed box (3), and the inner rings of the bearings are fixedly sleeved with the outer sides of the corresponding screw rods (6).