CN212457972U - Dry purification ash discharge device for silicon-manganese electric furnace gas - Google Patents

Abstract

The utility model discloses a silicomanganese electric stove coal gas dry purification ash discharging device, including main shell, power supply mechanism, the hickey, the rabbet board, dust adsorption mechanism and interface bolt, install the hickey of the device in silicomanganese electric stove, connect in power supply interface through the external circuit, connect the contact electrode through the electrode pole, through power supply connecting rod and connecting seat, to the static shell power supply, make the static shell produce static, after silicomanganese electric stove coal gas burns out, the coal ash smoke and dust passes through dry purification, through the attraction of static shell, and adsorb in the outside of static shell, the bottom of dust adsorption mechanism sets up dust screen and sealing plug simultaneously, prevent that the dust from getting into the problem that power supply mechanism leads to the circuit short circuit to burn out, can take off the washing after static shell adsorbs a period of time so that use next time, effectively collect the coal ash in one place, convenient to be recovered and cleaned, and effectively protects the surrounding environment.

Description

Dry purification ash discharge device for silicon-manganese electric furnace gas

Technical Field

The utility model relates to a silicomanganese electric furnace coal gas technical field specifically is a silicomanganese electric furnace coal gas dry process purifies ash discharging device.

Background

The Si-Mn alloy is an alloy consisting of Mn, Si, Fe, a small amount of C and other elements, is an Fe alloy with wide application and high yield, is a composite deoxidizer commonly used for steelmaking, is a reducing agent for producing medium-low carbon ferromanganese and producing metal Mn by an electro-silicothermic process, can be smelted in large, medium and small ore-fired furnaces by adopting continuous operation, can generate a large amount of furnace gas in the production process of the Si-Mn furnace, can be used as clean energy for a user end after being purified by a purification system, mainly comprises CO2, CO, H2, O2, CH4, CnHm, N2 and the like, wherein O2 plays the role of a combustion improver in the whole furnace gas system, the content of O2 is the largest sensitive factor for the safe and stable existence of the circuit gas system, and in the firing process of the Si-Mn furnace gas in the prior art, a large amount of coal ash smoke dust is generated, and after the smoke dust is purified by a dry method, the generated coal ash smoke dust is collected everywhere, and the environment pollution is caused by directly discharging the smoke dust.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a silicomanganese electric stove coal gas dry purification ash discharging device, install the device's hickey in the silicomanganese electric stove, connect in power supply interface through external circuit, connect contact electrode through the electrode pole, through power supply connecting rod and connecting seat, to the static shell power supply, make the static shell produce static, silicon manganese electric stove coal gas burning finishes the back again, the coal ash smoke and dust purifies the back through the dry process, attract through the static shell, and adsorb in the outside of static shell, dust adsorption apparatus's bottom sets up dust screen and sealing plug simultaneously, prevent that the dust from getting into power supply apparatus and leading to the problem that the circuit short circuit burns out, the detachable washs after static shell adsorbs a period, can solve the problem among the prior art.

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

the utility model provides a silicomanganese electric stove coal gas dry purification ash discharging device, includes main shell, power supply mechanism, hickey, rabbet plate, dust adsorption device and interface bolt, the bottom of main shell is equipped with power supply mechanism, the upside installation hickey of main shell, interface bolt is installed respectively to hickey's bottom both sides, dust adsorption device is installed to power supply mechanism's inside upper end.

The main casing includes shell frame, inlay card mouth, content board, outer fishplate bar, interior fishplate bar, under shed, fixed screw group, dust screen and interior installing port, shell frame's outside center is equipped with inlay card mouth, shell frame's inside bottom is equipped with content board, the center department of content board is equipped with the under shed, the inboard of content board is equipped with interior fishplate bar, the outside of interior fishplate bar is equipped with outer fishplate bar, the inboard installation dust screen of interior fishplate bar and outer fishplate bar, the top of dust screen is equipped with interior installing port, the fixed screw group of installation between interior fishplate bar, outer fishplate bar and the dust screen.

Preferably, power supply mechanism includes welding bottom plate, power supply interface, interface sleeve, seal groove, sealing plug, electrode pole and supporting spring, welding bottom plate's bottom is equipped with power supply interface, welding bottom plate's the upper end outside is equipped with interface sleeve, be equipped with the electrode pole on the welding bottom plate of interface sleeve inboard, the outside of electrode pole is equipped with supporting spring, interface sleeve's inboard upper end is equipped with the seal groove, install the sealing plug in the seal groove.

Preferably, dust adsorption apparatus constructs including insulating inner shell, static shell, connecting seat, power supply connecting rod, contact electrode, internal thread mouth and nested mouthful, the outside of insulating inner shell is equipped with the static shell, be equipped with the connecting seat on the inner wall of static shell, installation power supply connecting rod in the connecting seat, the bottom of power supply connecting rod is equipped with contact electrode, be equipped with the internal thread mouth in the insulating inner shell in the contact electrode outside, the electrode rod inlay card is installed in the internal thread mouth, be equipped with nested mouthful in the insulating inner shell of internal thread mouth downside.

Preferably, the dust adsorption mechanism is nested in the inner mounting opening.

Preferably, the power supply mechanism is welded to the bottom of the main housing.

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

the utility model discloses silicomanganese electric stove coal gas dry purification ash discharging device, install the device's hickey in the silicomanganese electric stove, connect in power supply interface through external circuit, connect contact electrode through the electrode pole, through power supply connecting rod and connecting seat, to the static shell power supply, make the static shell produce static, finish in silicomanganese electric stove coal gas burning, the coal ash smoke and dust purifies the back through the dry process, attract through the static shell, and adsorb in the outside of static shell, dust adsorption apparatus's bottom sets up dust screen and sealing plug simultaneously, prevent that the dust from getting into the problem that power supply apparatus leads to the short circuit to burn out, the detachable washs so that use next time after static shell adsorbs a period, the utility model discloses it is complete reasonable in structure, effectively collect coal ash in one department, conveniently retrieve and clear up, and effectively protect all ring edge borders.

Drawings

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

FIG. 2 is a schematic sectional view of the present invention;

fig. 3 is a schematic sectional structural view of the main housing of the present invention;

fig. 4 is a schematic cross-sectional structural view of the power supply mechanism of the present invention;

fig. 5 is a schematic sectional structure view of the dust adsorbing mechanism of the present invention.

In the figure: 1. a main housing; 101. a housing frame; 102. a clamping and embedding opening; 103. a content board; 104. an outer connecting plate; 105. an inner connecting plate; 106. a lower opening; 107. a set of fixed screws; 108. a dust screen; 109. an inner mounting port; 2. a power supply mechanism; 21. welding a bottom plate; 22. a power supply interface; 23. an interface sleeve; 24. a sealing groove; 25. a sealing plug; 26. an electrode rod; 27. a support spring; 3. a threaded interface; 4. a rabbet plate; 5. a dust adsorption mechanism; 51. an insulating inner case; 52. an electrostatic housing; 53. a connecting seat; 54. a power supply connecting rod; 55. a contact electrode; 56. an internal threaded port; 57. embedding a sleeve opening; 6. an interface bolt.

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. 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.

Referring to fig. 1-2, a dry purification ash discharging device for silicon-manganese electric furnace gas comprises a main shell 1, a power supply mechanism 2, a threaded connector 3, a rabbet plate 4, a dust adsorption mechanism 5 and a connector bolt 6, wherein the power supply mechanism 2 is arranged at the bottom of the main shell 1, the power supply mechanism 2 is welded at the bottom of the main shell 1, the threaded connector 3 is installed at the upper side of the main shell 1, the connector bolt 6 is respectively installed at two sides of the bottom end of the threaded connector 3, and the dust adsorption mechanism 5 is installed at the upper end inside the power supply mechanism 2.

Referring to fig. 3, the main housing 1 includes a housing frame 101, a snap-fit opening 102, a content plate 103, an external connection plate 104, an internal connection plate 105, a lower opening 106, a fixing screw group 107, a dust screen 108, and an internal mounting opening 109, the snap-fit opening 102 is disposed at the center of the outer side of the housing frame 101, the content plate 103 is disposed at the bottom end of the inner portion of the housing frame 101, the lower opening 106 is disposed at the center of the content plate 103, the internal connection plate 105 is disposed at the inner side of the content plate 103, the external connection plate 104 is disposed at the outer side of the internal connection plate 105, the dust screen 108 is mounted at the inner sides of the internal connection plate 105 and the external connection plate 104, the internal mounting opening 109 is disposed at the top of the dust screen 108, the dust adsorbing mechanism 5 is nested in the internal mounting opening 109, and the fixing.

Referring to fig. 4, the power supply mechanism 2 includes a welding bottom plate 21, a power supply interface 22, an interface sleeve 23, a sealing groove 24, a sealing plug 25, an electrode rod 26 and a support spring 27, the power supply interface 22 is disposed at the bottom of the welding bottom plate 21, the interface sleeve 23 is disposed at the outer side of the upper end of the welding bottom plate 21, the electrode rod 26 is disposed on the welding bottom plate 21 at the inner side of the interface sleeve 23, the support spring 27 is disposed at the outer side of the electrode rod 26, the sealing groove 24 is disposed at the upper end of the inner side of the interface sleeve 23, and the.

Referring to fig. 5, the dust adsorbing mechanism 5 includes an insulating inner shell 51, an electrostatic outer shell 52, a connection seat 53, a power supply connection rod 54, a contact electrode 55, an internal threaded opening 56, and an insertion opening 57, the electrostatic outer shell 52 is disposed on an outer side of the insulating inner shell 51, the connection seat 53 is disposed on an inner wall of the electrostatic outer shell 52, the power supply connection rod 54 is mounted in the connection seat 53, the contact electrode 55 is disposed at a bottom of the power supply connection rod 54, the internal threaded opening 56 is disposed in the insulating inner shell 51 on an outer side of the contact electrode 55, the electrode rod 26 is inserted into the internal threaded opening 56, and the insertion opening 57 is disposed in the insulating inner.

The utility model discloses difference with prior art: in the process of burning the silicon-manganese electric furnace gas in the prior art, a large amount of coal ash smoke dust can be generated, after the smoke dust is purified by using a dry method, the generated coal ash smoke dust can be collected everywhere, and the direct discharge can cause the pollution of the environment, the silicon-manganese electric furnace gas dry method purification ash discharging device of the utility model installs a threaded interface 3 of the device in the silicon-manganese electric furnace, is connected in a power supply interface 22 through an external circuit, is connected with a contact electrode 55 through an electrode rod 26, supplies power to an electrostatic shell 52 through a power supply connecting rod 54 and a connecting seat 53, so that the electrostatic shell 52 generates static electricity, after the combustion of the silicon-manganese electric furnace gas is finished, the coal ash smoke dust is absorbed through the electrostatic shell 52 and adsorbed on the outer side of the electrostatic shell 52 after being purified by the dry method, meanwhile, the bottom of a dust adsorption mechanism 5 is provided with a dust screen 108 and a sealing, after a period of time of electrostatic housing 52 adsorption, it may be removed for cleaning for the next use.

In summary, the following steps: the utility model relates to a dry purification ash discharge device for gas of a silicomanganese electric furnace, a threaded interface 3 of the device is arranged in the silicomanganese electric furnace, is connected in the power supply interface 22 through an external circuit, is connected with the contact electrode 55 through the electrode rod 26, is connected with the connecting seat 53 through the power supply connecting rod 54, the electrostatic shell 52 is powered to generate static electricity on the electrostatic shell 52, after the coal gas of the silicomanganese electric furnace is burnt, the coal ash and the smoke dust are absorbed by the electrostatic shell 52 and adsorbed on the outer side of the electrostatic shell 52 after being purified by a dry method, meanwhile, the bottom of the dust adsorption mechanism 5 is provided with a dust screen 108 and a sealing plug 25, so that the problem that the dust enters the power supply mechanism 2 to cause short circuit and burning is solved, the detachable washs so that use next time after static shell 52 adsorbs a period, the utility model discloses it is complete reasonable in structure, effectively collect the coal ash smoke and dust in one, conveniently retrieve and clear up, and effectively protect all ring edge borders.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a silicomanganese electric stove coal gas dry purification ash discharging device, includes main shell (1), power supply mechanism (2), hickey (3), rabbet board (4), dust adsorption device (5) and interface bolt (6), its characterized in that: a power supply mechanism (2) is arranged at the bottom of the main shell (1), a threaded interface (3) is installed on the upper side of the main shell (1), interface bolts (6) are respectively installed on two sides of the bottom end of the threaded interface (3), and a dust adsorption mechanism (5) is installed at the upper end of the interior of the power supply mechanism (2);

the main shell (1) comprises a shell frame (101), a clamping and embedding opening (102), a content board (103), an external connecting board (104), an internal connecting board (105), a lower opening (106), a fixed screw group (107), a dust screen (108) and an internal mounting opening (109), the outer side center of the shell frame (101) is provided with a clamping and embedding opening (102), the inner bottom end of the shell frame (101) is provided with a content plate (103), a lower opening (106) is arranged at the center of the content plate (103), an inner connecting plate (105) is arranged at the inner side of the content plate (103), the outer side of the inner connecting plate (105) is provided with an outer connecting plate (104), the inner sides of the inner connecting plate (105) and the outer connecting plate (104) are provided with dust screens (108), the top of dust screen (108) is equipped with interior installing port (109), install fixed screw group (107) between interior fishplate bar (105), external board (104) and dust screen (108).

2. The dry purification ash discharge device for the silicon-manganese electric furnace gas as claimed in claim 1, characterized in that: power supply mechanism (2) are including welded bottom plate (21), power supply interface (22), interface sleeve pipe (23), seal groove (24), sealing plug (25), electrode rod (26) and supporting spring (27), the bottom of welded bottom plate (21) is equipped with power supply interface (22), the upper end outside of welded bottom plate (21) is equipped with interface sleeve pipe (23), be equipped with electrode rod (26) on the welded bottom plate (21) of interface sleeve pipe (23) inboard, the outside of electrode rod (26) is equipped with supporting spring (27), the inboard upper end of interface sleeve pipe (23) is equipped with seal groove (24), install sealing plug (25) in seal groove (24).

3. The dry purification ash discharge device for the silicon-manganese electric furnace gas as claimed in claim 1, characterized in that: dust adsorption apparatus constructs (5) including insulating inner shell (51), static outer shell (52), connecting seat (53), power supply connecting rod (54), contact electrode (55), internal thread mouth (56) and nested mouthful (57), the outside of insulating inner shell (51) is equipped with static outer shell (52), be equipped with connecting seat (53) on the inner wall of static outer shell (52), installation power supply connecting rod (54) in connecting seat (53), the bottom of power supply connecting rod (54) is equipped with contact electrode (55), be equipped with internal thread mouth (56) in insulating inner shell (51) in the contact electrode (55) outside, electrode pole (26) inlay card is installed in internal thread mouth (56), be equipped with nested mouthful (57) in insulating inner shell (51) of internal thread mouth (56) downside.

4. The dry purification ash discharge device for the silicon-manganese electric furnace gas as claimed in claim 1, characterized in that: the dust adsorption mechanism (5) is nested in the inner mounting opening (109).

5. The dry purification ash discharge device for the silicon-manganese electric furnace gas as claimed in claim 1, characterized in that: the power supply mechanism (2) is welded at the bottom of the main shell (1).

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