CN217210095U

CN217210095U - A industry drying device for handling smelt antimony raw materials

Info

Publication number: CN217210095U
Application number: CN202221010919.5U
Authority: CN
Inventors: 万国志; 吴健挺; 邹维雄; 黄志读
Original assignee: Guangxi Wanshizhi Rare Precious Metal Technology Co ltd
Current assignee: Guangxi Wanshizhi Rare Precious Metal Technology Co ltd
Priority date: 2022-04-28
Filing date: 2022-04-28
Publication date: 2022-08-16
Anticipated expiration: 2032-04-28

Abstract

The utility model discloses an industrial drying device for processing antimony-smelting raw materials, which comprises a supporting slide rail and a vertical plate arranged at the upper left end of the supporting slide rail, wherein a horizontal plate is arranged above the vertical plate, a material carrying box for storing materials to be dried is arranged above the supporting slide rail, supporting legs are symmetrically arranged at the lower end of the material carrying box, a pulley which is in sliding contact with the upper end of the supporting slide rail is arranged at the lower end of each supporting leg, an unloading mechanism which is convenient for unloading is arranged between the material carrying box and the supporting slide rail, the left end of the material carrying box is connected with a push rod which is used for driving the material carrying box to slide along the upper end of the supporting slide rail, the application is designed aiming at the existing need, can carry out circulating drying operation on the raw materials, avoids heat waste, realizes the effect of energy conservation, can send hot gas into the materials, thereby ensuring the drying uniformity and is convenient for later-stage unloading, the practicability is strong.

Description

A industry drying device for handling smelt antimony raw materials

Technical Field

The utility model relates to a drying equipment technical field specifically is an industry drying device for handling antimony smelting raw materials.

Background

In the antimony smelting industry by a pyrometallurgical method, most of the used raw materials are flotation concentrates, the raw materials are in contact with water in the flotation process and contain a certain amount of moisture, the moisture is also added in the process of preparing pellets after the flotation concentrates are delivered to a factory, so the moisture of the prepared pellets is generally more than 15%, and if the pellets directly enter a blast furnace for treatment, the moisture can consume a large part of energy in the blast furnace treatment process, so that the cost and the treatment capacity of the blast furnace are influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an industry drying device for handling antimony smelting raw materials to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an industry drying device for handling antimony smelting raw materials, is including supporting the slide rail and setting up the vertical board in its upper left end, vertical board top is equipped with a horizontal plate, it is equipped with a year workbin that is used for saving the material of treating drying to support slide rail top, it is equipped with the landing leg to carry workbin lower extreme bilateral symmetry, every landing leg lower extreme be equipped with one with support slide rail upper end sliding contact's pulley, it is equipped with the shedding mechanism of being convenient for unload to carry workbin and support between the slide rail, it is used for driving its catch bar along supporting the slide rail upper end gliding to carry workbin left end connection, the catch bar sets up on vertical board, it is equipped with the air guide mechanism that is used for sending into the material with steam inside in order to realize the air guide to carry out on the horizontal plate arrangement has the steam generation mechanism that is used for blowing air guide mechanism.

As a further aspect of the present invention: the mechanism takes place including setting up the stoving case in year material case top, the stoving case is connected and is used for driving its up-and-down motion's lift catch bar, be equipped with the cyclic annular chamber of steam in the stoving incasement wall, the cyclic annular chamber lower extreme of steam is equipped with and is used for the butt joint pipe of blowing of input gas in to the air guide mechanism, the air inlet in the cyclic annular chamber of steam is connected with the exhaust end of hot-blast case, and hot-blast case is used for heating the air, the fan of blowing is connected to the inlet end of hot-blast case, the dehumidification case that is arranged in detaching moisture in the air is connected to the inlet end of the fan of blowing, the inlet end of dehumidification case and the inner chamber intercommunication of stoving case.

As a further aspect of the present invention: the air guide mechanism is including setting up the buffer memory chamber in the year workbin left and right sides, and every buffer memory chamber upper end all is equipped with an air inlet butt joint pipe that is used for admitting air, and two buffer memory chamber bottoms are violently managed the intercommunication through a plurality of stoving, and every stoving is violently managed the surface and all distributes and have the fumarole that is used for giving vent to anger.

As a further aspect of the present invention: the air inlet butt joint pipe corresponds to the port of the air blowing butt joint pipe, and the upper end of the air inlet butt joint pipe is provided with a conical cover for assisting butt joint.

As a further aspect of the present invention: discharge mechanism is including seting up the discharge gate at the year workbin lower extreme, the discharge gate left end is equipped with a rectangle opening, and rectangle open position slides and is equipped with a bottom plate of unloading that is used for bearing the weight of waiting to dry the material, the bottom plate right side of unloading is equipped with a push pedal, the push pedal right side is fixed through reset spring and year workbin right side inner wall connection, and under reset spring's effect, the bottom plate of unloading will carry the shutoff of workbin bottom discharge gate, it is equipped with the row's of material port that is used for the material to pass to support the slide rail right side, it is equipped with the row's of material dog that is used for blockking the push pedal to leave the discharge gate in order to promote the bottom plate of unloading to arrange the slide rail upper end on material port right side.

As a further aspect of the present invention: the lower port of the drying box corresponds to the upper port of the blowing butt joint pipe, and a sealing ring for improving the sealing effect is arranged at the contact position of the drying box and the blowing butt joint pipe.

Compared with the prior art, the beneficial effects of the utility model are that: this application designs to current needs, can circulate the stoving operation to the raw materials, avoids the waste of heat, realizes energy-conserving effect, can send into steam inside the material to guaranteed the homogeneity of drying, also made things convenient for unloading in later stage in addition, the practicality is strong.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the inside of the present invention.

Fig. 3 is a schematic structural view of the material loading box of the present invention.

Wherein: the device comprises a supporting slide rail 11, a push rod 12, a vertical plate 13, a horizontal plate 14, a lifting push rod 15, a drying box 16, an air blowing butt joint pipe 17, an air inlet butt joint pipe 18, a buffer cavity 19, a drying transverse pipe 20, a discharging stop block 21, a discharging port 22, a reset spring 23, a push plate 24, a discharging bottom plate 25, a pulley 26, a material carrying box 27, a hot air annular cavity 28, a hot air box 29, an air blowing fan 30 and a dehumidifying box 31.

Detailed Description

Example 1

Referring to fig. 1 to 3, in an embodiment of the present invention, an industrial drying apparatus for processing antimony-smelting raw materials includes a supporting slide rail 11 and a vertical plate 13 disposed at the upper left end thereof, a horizontal plate 14 is arranged above the vertical plate 13, a material loading box 27 for storing materials to be dried is arranged above the supporting slide rail 11, the two sides of the lower end of the material loading box 27 are symmetrically provided with supporting legs, the lower end of each supporting leg is provided with a pulley 26 which is in sliding contact with the upper end of the supporting slide rail 11, a discharging mechanism which is convenient for discharging is arranged between the material loading box 27 and the supporting slide rail 11, the left end of the material loading box 27 is connected with a push rod 12 which is used for driving the material loading box to slide along the upper end of the supporting slide rail 11, the push rod 12 is arranged on the vertical plate 13, the material loading box 27 is provided with an air guide mechanism for feeding hot air into the material to realize air guide, the horizontal plate 14 is provided with a hot air generating mechanism for blowing air to the air guide mechanism;

the hot air generating mechanism comprises a drying box 16 arranged above a material carrying box 27, the drying box 16 is connected with a lifting push rod 15 for driving the drying box to move up and down, a hot air annular cavity 28 is arranged in the inner wall of the drying box 16, an air blowing butt joint pipe 17 for inputting air into the air guide mechanism is arranged at the lower end of the hot air annular cavity 28, an air inlet of the hot air annular cavity 28 is connected with an air exhaust end of a hot air box 29, the hot air box 29 is used for heating air, an air inlet end of the hot air box 29 is connected with an air blowing fan 30, an air inlet end of the air blowing fan 30 is connected with a dehumidifying box 31 for removing moisture in air, an air inlet end of the dehumidifying box 31 is communicated with an inner cavity of the drying box 16, so that the drying box 16 is driven to descend by lifting the push rod 15 during actual work, the air blowing butt joint pipe 17 is in butt joint with an air inlet position of the air guide mechanism, and under the action of the air blowing fan 30, hot air in the hot air box 29 enters the material loading box 27 along the air guide mechanism, then the drying operation is carried out on the materials, moisture generated by drying enters the inner cavity of the drying box 16, then enters the dehumidifying box 31 to complete the dehumidifying operation, and then is circularly dried under the action of the air blowing fan 30, so that the waste of heat is avoided, and the energy-saving effect is realized;

the dehumidifying box 31 is internally provided with dehumidifying cotton or dehumidifying filler which can absorb moisture;

the air guide mechanism comprises buffer cavities 19 arranged on the left side and the right side of the material loading box 27, an air inlet butt joint pipe 18 used for air inlet is arranged at the upper end of each buffer cavity 19, the bottoms of the two buffer cavities 19 are communicated through a plurality of transverse drying pipes 20, air injection holes used for air outlet are distributed on the surface of each transverse drying pipe 20, the size of each air injection hole is smaller than the volume of a material, the material is prevented from entering the air injection holes, and therefore hot air can be sent into the material, and the drying is more sufficient;

the air inlet butt joint pipe 18 corresponds to the port of the air blowing butt joint pipe 17 so as to facilitate better butt joint;

the discharging mechanism comprises a discharging port arranged at the lower end of the material carrying box 27, a rectangular opening is arranged at the left end of the discharging port, a discharging bottom plate 25 used for bearing materials to be dried is arranged at the position of the rectangular opening in a sliding mode, a pushing plate 24 is arranged on the lower right side of the discharging bottom plate 25, the right side of the pushing plate 24 is fixedly connected with the inner wall of the right side of the material carrying box 27 through a return spring 23, the discharging bottom plate 25 blocks the discharging port at the bottom of the material carrying box 27 under the action of the return spring 23, a discharging port 22 used for allowing the materials to pass through is arranged on the right side of the supporting slide rail 11, the upper end of the supporting slide rail 11 on the right side of the discharging port 22 is provided with a discharging stop block 21 used for stopping the pushing plate 24 to push the discharging bottom plate 25 to leave the discharging port, the material carrying box 27 slides towards the discharging port 22 during actual discharging, and when the pushing plate 24 is in contact with the discharging stop block 21, the discharging stop block 21 can stop the pushing plate 24, as the bin 27 continues to slide, the discharge floor 25 will slide to the left, allowing material to be discharged.

Example 2

The difference from example 1 is: the lower port of the drying box 16 corresponds to the upper port of the blowing butt joint pipe 17, and a sealing ring for improving the sealing effect is arranged at the contact position of the drying box 16 and the blowing butt joint pipe 17.

The utility model discloses a theory of operation is: in actual use, the material carrying box 27 is slid to the left side of the drying box 16 through the push rod 12, materials to be dried are added into the material carrying box 27, then the material carrying box 27 is transferred to the lower side of the drying box 16 through the push rod 12, the drying box 16 is driven to descend through the lifting push rod 15, so that the air blowing butt joint pipe 17 is butted with the air inlet position of the air inlet butt joint pipe 18, hot air in the hot air box 29 enters the material carrying box 27 along the air inlet butt joint pipe 18 under the action of the air blowing fan 30, then enters the transverse drying pipe 20 and is sprayed out of the air injection holes on the surface of the transverse drying pipe 20, then the materials are dried, moisture generated by drying enters the inner cavity of the drying box 16, then enters the dehumidifying box 31 to complete dehumidifying operation, then is dried circularly under the action of the air blowing fan 30, the material carrying box 27 is slid towards the discharge port 22 during actual discharging, when the push plate 24 is in contact with the discharge stop 21, the discharging stop block 21 stops the push plate 24, and as the material carrying box 27 continues to slide, the discharging bottom plate 25 slides leftwards, so that the material is discharged, and when the material carrying box 27 slides leftwards, the discharging bottom plate 25 blocks the bottom discharging port of the material carrying box 27 again under the action of the return spring 23.

Claims

1. An industrial drying device for processing antimony smelting raw materials comprises a supporting slide rail (11) and a vertical plate (13) arranged at the left upper end of the supporting slide rail, wherein a horizontal plate (14) is arranged above the vertical plate (13), and a material loading box (27) for storing materials to be dried is arranged above the supporting slide rail (11);

the novel pneumatic material loading device is characterized in that supporting legs are symmetrically arranged on two sides of the lower end of the material loading box (27), a pulley (26) in sliding contact with the upper end of the supporting sliding rail (11) is arranged at the lower end of each supporting leg, a discharging mechanism convenient for discharging is arranged between the material loading box (27) and the supporting sliding rail (11), the left end of the material loading box (27) is connected with a push rod (12) used for driving the material loading box to slide along the upper end of the supporting sliding rail (11), the push rod (12) is arranged on the vertical plate (13), an air guide mechanism used for conveying hot air into the material is arranged on the material loading box (27) to achieve air guide, and a hot air generating mechanism used for blowing air to the air guide mechanism is arranged on the horizontal plate (14).

2. The industrial drying device for processing antimony-smelting raw materials according to claim 1, characterized in that, the hot air generating mechanism comprises a drying box (16) arranged above the material loading box (27), the drying box (16) is connected with a lifting pushing rod (15) for driving the drying box to move up and down, a hot air annular cavity (28) is arranged in the inner wall of the drying box (16), a blowing butt joint pipe (17) used for inputting air into the air guide mechanism is arranged at the lower end of the hot air annular cavity (28), the air inlet of the hot air annular cavity (28) is connected with the exhaust end of a hot air box (29), the hot air box (29) is used for heating air, the air inlet end of the hot air box (29) is connected with an air blowing fan (30), the air inlet end of the air blowing fan (30) is connected with a dehumidifying box (31) for removing moisture in the air, the air inlet end of the dehumidifying box (31) is communicated with the inner cavity of the drying box (16).

3. The industrial drying device for processing antimony smelting raw materials according to claim 2, wherein the air guide mechanism comprises buffer storage cavities (19) arranged at the left side and the right side of the loading box (27), the upper end of each buffer storage cavity (19) is provided with an air inlet butt joint pipe (18) for air inlet, the bottoms of the two buffer storage cavities (19) are communicated through a plurality of transverse drying pipes (20), and air injection holes for air outlet are distributed on the surface of each transverse drying pipe (20).

4. The industrial drying device for processing antimony smelting raw materials according to claim 3, characterized in that the air inlet butt joint pipe (18) corresponds to the port of the air blowing butt joint pipe (17), and the upper end of the air inlet butt joint pipe (18) is provided with a conical cover for assisting butt joint.

5. The industrial drying device for processing antimony-smelting raw materials according to claim 1, characterized in that, the discharging mechanism comprises a discharging port arranged at the lower end of the material carrying box (27), the left end of the discharging port is provided with a rectangular opening, a discharging bottom plate (25) used for bearing the materials to be dried is arranged at the position of the rectangular opening in a sliding manner, a push plate (24) is arranged at the lower right side of the discharging bottom plate (25), the right side of the push plate (24) is fixedly connected with the inner wall of the right side of the material loading box (27) through a return spring (23), under the action of the return spring (23), the discharge bottom plate (25) seals the discharge hole at the bottom of the material loading box (27), a discharge port (22) for materials to pass through is arranged on the right side of the supporting slide rail (11), and a discharge stop block (21) used for stopping a push plate (24) to push a discharge bottom plate (25) to leave the discharge hole is arranged at the upper end of the support slide rail (11) at the right side of the discharge port (22).

6. The industrial drying device for processing antimony smelting raw materials according to claim 4, wherein the lower port of the drying box (16) corresponds to the upper port of the air blowing butt joint pipe (17), and a sealing ring for improving the sealing effect is arranged at the contact position of the drying box (16) and the air blowing butt joint pipe (17).