CN210569902U - Lead bismuth anode slime smelting converter - Google Patents

Abstract

The utility model discloses a lead bismuth anode slime smelting converter, which solves the problems that the rotating state of a furnace body is not easy to control, the furnace body is not easy to control and easy to skid, accidents are easy to cause, and lead bismuth anode slime is easy to generate a large amount of harmful gas during smelting, and serious environment pollution is directly eliminated, and comprises the furnace body, a rotating assembly is arranged outside the furnace body, bases are arranged on both sides of the bottom end of the rotating assembly, and teeth are uniformly fixed at positions of the furnace body, which are positioned on both sides of the rotating assembly, the rotating assembly is replaced outside the furnace body, so that both sides of the furnace body rotate through gears, the rotating operation is relatively stable, the control is easy, the use is safe, waste gas generated by combustion enters the dust removing assembly from an exhaust hole, the dust removing assembly carries out humidifying and dust removing on the waste gas, and harmful particles are deposited at the bottom of the dust removing assembly, and discharging the gas reaching the standard from the top end of the dust removal component.

Description

Lead bismuth anode slime smelting converter

Technical Field

The utility model relates to a smelt converter technical field, specifically be a converter is smelted to lead bismuth anode slime.

Background

The anode slime is residue accumulated by anode and cathode sediments and electrolyte flowing through ditches when an electrolysis plant plates and silver for a product for a long time, and the rotating structure of the existing lead bismuth anode slime smelting converter is not easy to control the rotating state of a converter body, is not easy to control and easy to slip, easily causes accidents, and easily generates a large amount of harmful gas during smelting of the lead bismuth anode slime, and directly solves the problem of serious environmental pollution.

Therefore, how to design a lead bismuth anode slime smelting converter becomes a problem to be solved currently.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a converter is smelted to lead bismuth anode slime, the effectual rotating-structure of having solved current converter is smelted to lead bismuth anode slime, is difficult to the rotation state of control furnace body, is difficult to control and skids easily, causes the problem of accident's emergence easily to and smelt lead bismuth anode slime and easily produce a large amount of harmful gas, directly get rid of out the problem of serious polluted environment.

In order to achieve the above object, the utility model provides a following technical scheme: the furnace body is characterized by comprising a furnace body, wherein a rotating assembly is installed on the outer side of the furnace body, a base is installed on two sides of the bottom end of the rotating assembly, teeth are uniformly fixed at positions of the furnace body, which are located on two sides of the rotating assembly, an air inlet is formed in one end of the furnace body, a furnace mouth is formed in the middle of the top end of the furnace body, an exhaust hole is formed in the other side of the furnace.

Preferably, the rotating assembly comprises a rotating shaft, a transmission gear, a rotating motor, a pinion and a gear ring, the transmission gear is arranged in the middle of the rotating shaft, the rotating motor is meshed with one side of the transmission gear, the pinions are arranged at two ends of the rotating shaft, and the gear ring is arranged on the outer side of each pinion.

Preferably, the dust removal assembly comprises a shell, supporting legs, a dust removal pipeline, a dust collection chamber, an air inlet pipe, a water inlet pipe and an air outlet, the supporting legs are uniformly installed at the bottom end of the shell, the dust removal pipeline is installed in the middle of the shell, the dust collection chamber is fixed to the lower portion of the shell, the air inlet pipe is installed on one side of the lower portion of the shell, the water inlet pipe is installed in the middle of the two sides of the shell.

Preferably, a rigid shell is fixed on the outer side of the furnace body, and a fire-resistant layer is fixed on the inner side of the rigid shell.

Preferably, the top end of the dust removal pipeline is provided with a support, and the bottom end of the support is uniformly provided with a high-pressure atomizing nozzle.

Preferably, the middle part of the air inlet is provided with a fuel nozzle.

The utility model discloses rotating assembly reloads in the furnace body outside for gear revolve is passed through to the furnace body both sides, and the rotation operation is more stable, easy control, and is safe in utilization, and the waste gas that the burning produced gets into dust removal component from the exhaust hole, and dust removal component carries out the humidifying dust removal to waste gas, deposits harmful particulate matter in dust removal component bottom, and gas up to standard is discharged from dust removal component top.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the rotating assembly of the present invention;

FIG. 3 is a schematic structural view of the dust removing assembly of the present invention;

reference numbers in the figures: 1. a furnace body; 2. a rotating assembly; 3. a base; 4. teeth; 5. an air inlet; 6. a furnace mouth; 7. an exhaust hole; 8. a dust removal assembly; 21. a rotating shaft; 22. a transmission gear; 23. rotating the motor; 24. a pinion gear; 25. a gear ring; 81. a housing; 82. a support leg; 83. a dust removal pipeline; 84. a dust collecting chamber; 85. an air inlet pipe; 86. a water inlet pipe; 87. and (7) an exhaust port.

Detailed Description

The following describes the present invention in further detail with reference to the accompanying fig. 1-3.

In the first embodiment, as shown in fig. 1, the utility model comprises a furnace body 1, a rotating assembly 2 is installed outside the furnace body 1, bases 3 are installed on both sides of the bottom end of the rotating assembly 2, teeth 4 are uniformly fixed on positions of both sides of the rotating assembly 2 of the furnace body 1, an air inlet 5 is opened at one end of the furnace body 1, a furnace mouth 6 is opened in the middle of the top end of the furnace body 1, an air outlet 7 is opened at the other side of the furnace body 1, a dust removal assembly 8 is installed on one side of the air outlet 7, the rotating structure of the existing lead bismuth anode slime smelting converter is not easy to control the rotating state of the furnace body 1, is not easy to control the slipping, is easy to cause accidents, and can easily generate a large amount of harmful gas during smelting of lead bismuth anode slime, and directly eliminates the problem of serious environmental pollution, so that the rotating assembly 2 is replaced outside the, easy control, it is safe in utilization, base 3 is used for supporting runner assembly 2, tooth 4 is used for operating with the runner assembly 2 meshing, send into rare oxygen from inlet port 5, rare oxygen makes the fuel fully burn, do benefit to the burning to lead bismuth anode mud, material and waste residue all can be put into or discharge from fire door 6, the waste gas that the burning produced gets into dust removal component 8 from exhaust hole 7, dust removal component 8 carries out the humidifying dust removal to waste gas, precipitate harmful particles in dust removal component 8 bottom, up to standard gas is discharged from dust removal component 8 top.

In the second embodiment, on the basis of the first embodiment, as shown in fig. 2, the rotating assembly 2 includes a rotating shaft 21, a transmission gear 22, a rotating motor 23, a pinion 24 and a gear ring 25, the transmission gear 22 is installed in the middle of the rotating shaft 21, the rotating motor 23 is engaged with one side of the transmission gear 22, the pinions 24 are installed at two ends of the rotating shaft 21, the gear ring 25 is installed outside the pinion 24, during feeding, the furnace body 1 is adjusted so that the furnace mouth 6 faces upward, the material is fed into the furnace body 1 from the furnace mouth 6, after the reaction is completed, the rotating motor 23 is started, the transmission gear 22 is driven by the rotating motor 23 to rotate, the transmission gear 22 rotates to drive the rotating shaft 21 and the pinion 24 to rotate, the pinion 24 is engaged with the teeth 4 outside the furnace body 1, the furnace body 1 rotates in the gear ring 25, and the.

Embodiment three, on the basis of embodiment one, as shown in fig. 3, the dust removing assembly 8 comprises a housing 81, legs 82, a dust removing duct 83, dust-collecting chamber 84, intake pipe 85, inlet tube 86 and gas vent 87, landing leg 82 is evenly installed to the shell 81 bottom, shell 81 mid-mounting has dust removal pipeline 83, the shell 81 lower part is fixed with dust-collecting chamber 84, intake pipe 85 is installed to shell 81 lower part one side, inlet tube 86 is all installed at shell 81 both sides middle part, gas vent 87 has been seted up on shell 81 top, landing leg 82 is used for supporting shell 81, waste gas gets into dust removal pipeline 83 in the shell 81 from intake pipe 85, inlet tube 86 gives high pressure atomizer to water, high pressure atomizer sprinkles, waste gas passes dust removal pipeline 83, gas up to standard is discharged from gas vent 87, the particulate matter falls into dust-collecting chamber 84 from dust removal pipeline 83 inside, regularly wash the dust arrester.

In the fourth embodiment, on the basis of the first embodiment, a rigid shell is fixed on the outer side of the furnace body 1, and a fire-resistant layer is fixed on the inner side of the rigid shell.

Fifth embodiment, on the basis of the first embodiment, a support is installed at the top end of the dust removal pipeline 83, a high-pressure atomizer is evenly installed at the bottom end of the support, the support is used for fixing the high-pressure atomizer, and the high-pressure atomizer is used for spraying water to the dust removal pipeline 83.

Sixth embodiment, on the basis of first embodiment, the gas inlet 5 mid-mounting has the fuel nozzle, and fuel gets into furnace body 1 from the fuel nozzle, and the entering of lean oxygen is followed gas inlet 5 for the fuel fully burns.

The working principle is as follows: when the utility model is used, the rotating structure of the existing lead bismuth anode slime smelting converter is not easy to control the rotating state of the furnace body 1, is not easy to control and easy to slip, easily causes the problem of accidents, and easily generates a large amount of harmful gas during smelting the lead bismuth anode slime, and directly eliminates the problem of serious environmental pollution, therefore, the rotating component 2 is replaced outside the furnace body 1, so that the two sides of the furnace body 1 are rotated through gears, the rotating operation is more stable, easy to control and safe to use, the base 3 is used for supporting the rotating component 2, the teeth 4 are used for being meshed with the rotating component 2 to operate, the dilute oxygen is sent from the air inlet 5, the dilute oxygen enables the fuel to be fully combusted, the combustion of the lead bismuth anode slime is facilitated, during feeding, the furnace body 1 is adjusted to enable the furnace mouth 6 to face up, the material is put into the furnace body 1 from the furnace mouth 6, after the reaction is finished, the rotating motor 23 is started, the transmission gear 22 rotates to drive the rotating shaft 21 and the pinion 24 to rotate, the pinion 24 is meshed with the teeth 4 on the outer side of the furnace body 1, the furnace body 1 rotates in the gear ring 25, the furnace mouth 6 of the furnace body 1 rotates downwards to pour residues conveniently, materials and waste residues can be placed in or discharged from the furnace mouth 6, waste gas generated by combustion enters the dust removal assembly 8 from the exhaust hole 7, the dust removal assembly 8 carries out humidification and dust removal on the waste gas, harmful particles are deposited at the bottom of the dust removal assembly 8, gas up to the standard is discharged from the top end of the dust removal assembly 8, the support legs 82 are used for supporting the shell 81, the waste gas enters the dust removal pipeline 83 in the shell 81 from the gas inlet pipe 85, the water inlet pipe 86 sends water to the high-pressure atomization nozzle for sprinkling, the waste gas passes through the dust removal pipeline 83, the gas up to the standard is discharged from the exhaust hole 87, the dust collector is periodically cleaned.

Compared with the prior art, the utility model has the following benefits: 1) the rotating assembly is replaced outside the furnace body, so that two sides of the furnace body rotate through the gears, the rotating operation is stable, the control is easy, and the use is safe; 2) waste gas that the burning produced gets into dust removal subassembly from the exhaust hole, and dust removal subassembly carries out the humidification dust removal to waste gas, deposits harmful particles thing in the dust removal subassembly bottom, and gas up to standard is discharged from dust removal subassembly top.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement 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 converter is smelted to lead bismuth anode slime, includes furnace body (1), its characterized in that: rotating assembly (2) are installed in the furnace body (1) outside, and base (3) are all installed to rotating assembly (2) bottom both sides, and furnace body (1) is located rotating assembly (2) both sides position department and evenly is fixed with tooth (4), and inlet port (5) have been seted up to furnace body (1) one end, and furnace mouth (6) have been seted up at furnace body (1) top middle part, and exhaust hole (7) have been seted up to furnace body (1) opposite side, and dust removal subassembly (8) are installed to exhaust hole (7) one side.

2. The lead bismuth anode slime smelting converter according to claim 1, characterized in that: the rotating assembly (2) comprises a rotating shaft (21), a transmission gear (22), a rotating motor (23), a pinion (24) and a gear ring (25), the transmission gear (22) is installed in the middle of the rotating shaft (21), the rotating motor (23) is meshed on one side of the transmission gear (22), the pinion (24) is installed at two ends of the rotating shaft (21), and the gear ring (25) is installed on the outer side of the pinion (24).

3. The lead bismuth anode slime smelting converter according to claim 1, characterized in that: dust removal subassembly (8) are including shell (81), landing leg (82), dust removal pipeline (83), dust collecting chamber (84), intake pipe (85), inlet tube (86) and gas vent (87), landing leg (82) are evenly installed to shell (81) bottom, shell (81) mid-mounting has dust removal pipeline (83), shell (81) lower part is fixed with dust collecting chamber (84), intake pipe (85) are installed to shell (81) lower part one side, inlet tube (86) are all installed at shell (81) both sides middle part, gas vent (87) have been seted up on shell (81) top.

4. The lead bismuth anode slime smelting converter according to claim 1, characterized in that: a rigid shell is fixed on the outer side of the furnace body (1), and a fire-resistant layer is fixed on the inner side of the rigid shell.

5. The lead bismuth anode slime smelting converter according to claim 3, characterized in that: the top end of the dust removal pipeline (83) is provided with a support, and the bottom end of the support is uniformly provided with a high-pressure atomizing nozzle.

6. The lead bismuth anode slime smelting converter according to claim 1, characterized in that: and a fuel nozzle is arranged in the middle of the air inlet (5).

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