CN216852416U - Electrode pressing structure for manganese-silicon ore heating furnace equipment - Google Patents

Abstract

The utility model discloses an electrode pressure-releasing structure for a manganese-silicon ore heating furnace device, which comprises an electrode cylinder, an upper band-type brake, a lower band-type brake, a supporting structure and an oil cylinder, by arranging the supporting structure, the upper side and the lower side of the limiting pipe are respectively provided with the upper supporting plate and the lower supporting plate, the supporting rod is connected between the upper supporting plate and the lower supporting plate, the top of the supporting rod is vertically aligned with the polish rod, the oil cylinder and the lower band-type brake respectively, the supporting effect on the polish rod, the oil cylinder and the lower band-type brake is enhanced, and the upper support plate, the lower support plate and the limiting pipe are reinforced by the reinforcing inclined plate, so that the supporting effect of the upper support plate and the lower support plate is improved, the supporting materials are reduced, the supporting effect is improved, and the outer side of the polished rod is provided with height scales, the movable tube connected with the outer side of the top frame slides along the polished rod along with the movement of the electrode cylinder, through observing the height scale that the movable tube instructed, can observe the transfer height of electrode cylinder.

Description

Electrode pressing structure for manganese-silicon ore heating furnace equipment

Technical Field

The utility model particularly relates to an electrode pressure discharge structure for hot stove equipment in manganese-silicon ore deposit relates to the hot stove relevant field in ore deposit.

Background

The ore-smelting furnace is also called electric arc furnace or resistance electric furnace, it is mainly used for reducing and smelting raw materials of ore, carbonaceous reducing agent and solvent, etc., when the manganese-silicon alloy is produced, it is necessary to smelt by using ore-smelting furnace, and the electrode is the important component of ore-smelting furnace, and is the main artery for transmitting electric energy in the electric furnace.

Be provided with the electrode in the hot stove in ore deposit, every looks electrode configuration hydraulic system, the rising and the transferring of electrode are controlled through the oil pressure of each part of control, and the firm effect of support to the electrode is general, and need measure the rising amount and the transferring amount of electrode through displacement sensor, and manufacturing cost is high.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned insufficiency, the utility model provides an electrode pressure discharge structure for hot stove equipment in manganese-silicon ore deposit here.

The utility model discloses a realize like this, construct an electrode pressure discharge structure that is used for hot stove equipment in manganese-silicon ore deposit, the device include electrode barrel and bearing structure, electrode barrel outside middle part cover is equipped with band-type brake and band-type brake down, and goes up the band-type brake and install in band-type brake top down, electrode barrel top and bearing structure fixed connection, and the bearing structure inner wall is fixed with the hydro-cylinder, bearing structure is including supporting chassis, polished rod, height scale and connection roof-rack, it is fixed with the polished rod to support chassis top border department, the polished rod outside is provided with high scale, the polished rod top with be connected roof-rack fixed connection, inside and electrode barrel fixed connection of roof-rack, band-type brake bottom and support chassis fixed connection down, both ends respectively with support chassis and be connected roof-rack fixed connection about the hydro-cylinder.

Preferably, the supporting chassis comprises a limiting pipe, an upper supporting plate, a lower supporting plate, a reinforcing inclined plate and supporting rods, the upper supporting plate and the lower supporting plate are welded at the upper end and the lower end of the limiting pipe respectively, the reinforcing inclined plate is welded between the upper supporting plate and the lower supporting plate and the limiting pipe respectively, the supporting rods are vertically welded between the upper supporting plate and the lower supporting plate, an electrode cylinder penetrates through the limiting pipe, and the top end of the upper supporting plate is fixedly connected with the polish rod, the oil cylinder and the lower band-type brake respectively.

Preferably, the connection roof-rack includes frame, lug, connecting plate and movable tube, the frame outside is provided with lug and connecting plate, and the welding of connecting plate outside has the movable tube, the movable tube suit is in the polished rod outside, the frame inside and electrode barrel fixed connection, connecting plate bottom and hydro-cylinder fixed connection.

Preferably, the polished rod is vertical setting, and the activity intraductal wall and polished rod laminating.

Preferably, the limiting pipe is arranged in parallel with the polish rod, and the inner wall of the limiting pipe is attached to the electrode barrel.

Preferably, the reinforcing inclined plates are triangular, and eight reinforcing inclined plates are arranged and are respectively connected between the limiting pipe and the upper support plate and between the limiting pipe and the lower support plate.

Preferably, the support rod is vertically arranged, and the support rod is vertically aligned with the polish rod, the oil cylinder and the lower internal contracting brake respectively.

Preferably, the inner wall of the bottom end of the outer frame is attached to the electrode cylinder, and the outer frame and the electrode cylinder are arranged concentrically.

The utility model has the advantages of as follows: the utility model discloses an improve and provide an electrode pressure discharge structure for hot stove equipment in manganese-silicon ore deposit here, compare with equipment of the same type, have following improvement:

a structure is put to electrode pressure for hot stove equipment in manganese-silicon ore deposit, through having set up bearing structure, both sides are provided with extension board and lower extension board respectively about through spacing pipe, go up the extension board and be connected with the bracing piece down between the extension board, the bracing piece top is respectively in the polished rod, hydro-cylinder and the vertical alignment of band-type brake down, increase the effect of support to the polished rod, hydro-cylinder and band-type brake down, and go up the extension board and consolidate through consolidating the swash plate between extension board and the lower extension board and the spacing pipe down, increase the effect of support of extension board and lower extension board, reduce supporting material, increase the effect of support, and set up the height scale outside the polished rod, the movable tube in the connection roof-rack outside follows the electrode barrel and removes and slides along the polished rod, through observing the height scale that the movable tube instructed, can highly observe transferring of electrode barrel.

Drawings

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

fig. 2 is a front view of the structure of the present invention;

fig. 3 is a schematic view of the supporting structure of the present invention;

fig. 4 is a schematic structural view of the support chassis of the present invention;

fig. 5 is a schematic view of the structure of the connection top frame of the present invention.

Wherein: the electrode comprises an electrode cylinder-1, an upper band-type brake-2, a lower band-type brake-3, a supporting structure-4, an oil cylinder-5, a supporting bottom frame-41, a polish rod-42, a height scale-43, a connecting top frame-44, a limiting pipe-411, an upper supporting plate-412, a lower supporting plate-413, a reinforcing inclined plate-414, a supporting rod-415, an outer frame-441, a bump-442, a connecting plate-443 and a movable pipe-444.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1-5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, 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 and 2, the present invention provides an electrode pressure releasing structure for a mn-si ore furnace apparatus through improvement, which includes an electrode barrel 1 and a supporting structure 4, wherein an upper band-type brake 2 and a lower band-type brake 3 are sleeved on the middle portion of the outer side of the electrode barrel 1, the upper band-type brake 2 is installed on the top of the lower band-type brake 3, the top of the electrode barrel 1 is fixedly connected with the supporting structure 4, and an oil cylinder 5 is fixed on the inner wall of the supporting structure 4.

Please refer to fig. 3, the utility model provides an electrode pressure discharge structure for hot stove equipment in manganese-silicon ore deposit through the improvement here, bearing structure 4 is including supporting chassis 41, polished rod 42, height scale 43 and connecting roof-rack 44, supporting chassis 41 top border department is fixed with polished rod 42, the polished rod 42 outside is provided with height scale 43, polished rod 42 top and connecting roof-rack 44 fixed connection, inside and electrode barrel 1 fixed connection of roof-rack 44, lower band-type brake 3 bottom and supporting chassis 41 fixed connection, both ends respectively with supporting chassis 41 and connecting roof-rack 44 fixed connection about the hydro-cylinder 5, polished rod 42 is vertical setting, and the laminating of movable tube 444 inner wall and polished rod 42, make movable tube 444 along the vertical slip in polished rod 42 surface.

Referring to fig. 4, the present invention provides an electrode pressing structure for a mn-si ore furnace apparatus by improvement, a supporting bottom frame 41 includes a limiting tube 411, an upper supporting plate 412, a lower supporting plate 413, a reinforcing sloping plate 414 and supporting rods 415, the upper and lower ends of the limiting tube 411 are welded with the upper supporting plate 412 and the lower supporting plate 413 respectively, the reinforcing sloping plate 414 is welded between the upper supporting plate 412, the lower supporting plate 413 and the limiting tube 411, the supporting rods 415 are vertically welded between the upper supporting plate 412 and the lower supporting plate 413, an electrode cylinder 1 penetrates through the limiting tube 411, the top end of the upper supporting plate 412 is fixedly connected with a polish rod 42, an oil cylinder 5 and a lower band-type brake 3 respectively, the limiting tube 411 is parallel to the polish rod 42, the inner wall of the limiting tube 411 is attached to the electrode cylinder 1, so that the electrode cylinder 1 vertically moves along the inner wall of the limiting tube 411, the movement stabilizing effect of the electrode cylinder 1 is increased, the reinforcing sloping plate 414 is triangular, and the reinforcing sloping plate 414 is provided with eight, connect respectively between spacing pipe 411 and upper supporting plate 412 and lower supporting plate 413, bracing piece 415 is vertical setting, and bracing piece 415 is vertical the alignment with polished rod 42, hydro-cylinder 5 and band-type brake 3 position respectively, increases the support effect to polished rod 42, hydro-cylinder 5 and band-type brake 3 down through bracing piece 415.

Please refer to fig. 5, the utility model provides an electrode is pressed and is put structure for hot stove equipment in manganese-silicon ore deposit through the improvement here, connect roof-rack 44 including frame 441, lug 442, connecting plate 443 and movable tube 444, the frame 441 outside is provided with lug 442 and connecting plate 443, and the welding of the connecting plate 443 outside has movable tube 444, movable tube 444 suit is in the polished rod 42 outside, frame 441 is inside and electrode barrel 1 fixed connection, connecting plate 443 bottom and hydro-cylinder 5 fixed connection, frame 441 bottom inner wall and electrode barrel 1 laminating, and frame 441 and electrode barrel 1 are concentric setting, increase the fixed effect of the surplus electrode barrel 1 of frame 441.

The utility model provides an electrode pressure discharge structure for a manganese-silicon ore heating furnace device through improvement, and the working principle is as follows;

firstly, before use, the lower support plate 413 of the support chassis 41 is firstly fixed on a required submerged arc furnace, and then the oil cylinder 5 is connected with external control equipment;

secondly, the polish rod 42, the oil cylinder 5 and the lower band-type brake 3 are supported by the support chassis 41, the support rod 415 is connected between the upper support plate 412 and the lower support plate 413, the tops of the support rods 415 are vertically aligned with the polish rod 42, the oil cylinder 5 and the lower band-type brake 3 respectively, and the support effect on the polish rod 42, the oil cylinder 5 and the lower band-type brake 3 is increased;

third, when transferring electrode barrel 1, the band-type brake 3 tightly holds electrode barrel 1 under the disconnection, then control hydro-cylinder 5 shrink, it connects roof-rack 44 downstream to drive through the shrink of hydro-cylinder 5, it drives electrode barrel 1 along the vertical downstream of spacing pipe 411 to connect roof-rack 44, and the movable tube 444 of connecting the roof-rack 44 outside moves downwards in step, because polished rod 42 is vertical setting, and movable tube 444 inner wall and polished rod 42 laminate, make movable tube 444 along the vertical slip of polished rod 42 surface, make movable tube 444 follow electrode barrel 1 and remove along polished rod 42, through observing the height scale 43 that movable tube 444 instructed, can observe electrode barrel 1's transfer height.

The utility model provides an electrode pressure-discharge structure for a manganese-silicon ore heating furnace device through improvement, and through arranging the supporting structure 4, an upper support plate 412 and a lower support plate 413 are respectively arranged on the upper side and the lower side of the limiting pipe 411, a support rod 415 is connected between the upper support plate 412 and the lower support plate 413, the top of the support rod 415 is vertically aligned with the polish rod 42, the oil cylinder 5 and the lower band-type brake 3 respectively, the support effect on the polish rod 42, the oil cylinder 5 and the lower band-type brake 3 is increased, and the upper support plate 412, the lower support plate 413 and the limiting pipe 411 are reinforced by a reinforcing inclined plate 414, so that the supporting effect of the upper support plate 412 and the lower support plate 413 is increased, the supporting material is reduced, the supporting effect is increased, and the height scales 43 are arranged on the outer side of the polish rod 42, the movable tube 444 connected with the outer side of the top frame 44 slides along the polish rod 42 along with the movement of the electrode cylinder 1, the lowering height of the electrode barrel 1 can be observed by observing the height scale 43 indicated by the movable tube 444.

Claims (8)

1. An electrode pressure releasing structure for a manganese-silicon ore heating furnace device comprises an electrode cylinder (1), wherein an upper band-type brake (2) and a lower band-type brake (3) are sleeved in the middle of the outer side of the electrode cylinder (1), and the upper band-type brake (2) is installed at the top of the lower band-type brake (3);

the method is characterized in that: still include bearing structure (4), electrode barrel (1) top and bearing structure (4) fixed connection, and bearing structure (4) inner wall is fixed with hydro-cylinder (5), bearing structure (4) are including supporting chassis (41), polished rod (42), height scale (43) and connecting roof-rack (44), support chassis (41) top border department is fixed with polished rod (42), polished rod (42) outside is provided with height scale (43), polished rod (42) top and connecting roof-rack (44) fixed connection, inside and electrode barrel (1) fixed connection of roof-rack (44), band-type brake (3) bottom and support chassis (41) fixed connection down, both ends respectively with support chassis (41) and connecting roof-rack (44) fixed connection about hydro-cylinder (5).

2. The electrode pressure discharge structure for a mn-si ore furnace apparatus as set forth in claim 1, wherein: the support chassis (41) comprises a limiting pipe (411), an upper support plate (412), a lower support plate (413), a reinforcing inclined plate (414) and a support rod (415), wherein the upper end and the lower end of the limiting pipe (411) are respectively welded with the upper support plate (412) and the lower support plate (413), the reinforcing inclined plate (414) is welded between the upper support plate (412), the lower support plate (413) and the limiting pipe (411), the support rod (415) is vertically welded between the upper support plate (412) and the lower support plate (413), an electrode cylinder (1) penetrates through the inside of the limiting pipe (411), and the top end of the upper support plate (412) is respectively fixedly connected with a polish rod (42), an oil cylinder (5) and a lower band-type brake (3).

3. The electrode pressure discharge structure for a mn-si ore furnace apparatus as set forth in claim 1, wherein: the connecting top frame (44) comprises an outer frame (441), a convex block (442), a connecting plate (443) and a movable pipe (444), wherein the convex block (442) and the connecting plate (443) are arranged on the outer side of the outer frame (441), the movable pipe (444) is welded on the outer side of the connecting plate (443), the movable pipe (444) is sleeved on the outer side of the polish rod (42), the inner part of the outer frame (441) is fixedly connected with the electrode barrel (1), and the bottom end of the connecting plate (443) is fixedly connected with the oil cylinder (5).

4. The electrode pressure discharge structure for a mn-si ore furnace apparatus as set forth in claim 1, wherein: the polish rod (42) is vertically arranged, and the inner wall of the movable tube (444) is attached to the polish rod (42).

5. The electrode pressure discharge structure for a mn-si ore furnace apparatus as set forth in claim 2, wherein: the limiting pipe (411) and the polish rod (42) are arranged in parallel, and the inner wall of the limiting pipe (411) is attached to the electrode cylinder (1).

6. The electrode pressure discharge structure for a mn-si ore furnace apparatus as set forth in claim 2, wherein: the reinforcing inclined plate (414) is triangular, and eight reinforcing inclined plates (414) are respectively connected between the limiting pipe (411) and the upper support plate (412) and the lower support plate (413).

7. The electrode pressure discharge structure for a mn-si ore furnace apparatus as set forth in claim 2, wherein: the support rod (415) is vertically arranged, and the support rod (415) is vertically aligned with the polish rod (42), the oil cylinder (5) and the lower band-type brake (3) respectively.

8. The electrode pressure discharge structure for a mn-si ore furnace apparatus as set forth in claim 3, wherein: the inner wall of the bottom end of the outer frame (441) is attached to the electrode cylinder (1), and the outer frame (441) and the electrode cylinder (1) are arranged concentrically.

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