CN207770778U - Horizontal continuous casting of copper alloy converter device - Google Patents

Horizontal continuous casting of copper alloy converter device Download PDF

Info

Publication number
CN207770778U
CN207770778U CN201721730249.3U CN201721730249U CN207770778U CN 207770778 U CN207770778 U CN 207770778U CN 201721730249 U CN201721730249 U CN 201721730249U CN 207770778 U CN207770778 U CN 207770778U
Authority
CN
China
Prior art keywords
copper alloy
shaped chute
shaped
groove body
continuous casting
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201721730249.3U
Other languages
Chinese (zh)
Inventor
唐晓鹏
常国平
秦于生
杨艳锋
王天强
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
HENAN SANFENG COPPER CO Ltd
Original Assignee
HENAN SANFENG COPPER CO Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by HENAN SANFENG COPPER CO Ltd filed Critical HENAN SANFENG COPPER CO Ltd
Priority to CN201721730249.3U priority Critical patent/CN207770778U/en
Application granted granted Critical
Publication of CN207770778U publication Critical patent/CN207770778U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

Horizontal continuous casting of copper alloy converter device, including L-shaped groove body and the L-shaped chute being opened on L-shaped groove body, L-shaped bottom is in downward inclined-plane from front to back, L-shaped chute it is suitable for reading on be provided with arc insulation cover, in the flowing direction not through groove body, groove body end is located in foundry furnace L-shaped chute, and downward flow liquid through-hole is provided in the end bottom of L-shaped chute, flow liquid through-hole is located above casting furnace wall, and the molten bath of ellipse is connected in the feed end of L-shaped chute.Solution caused by foundry furnace directly impacts the copper liquid in foundry furnace is flowed into present arrangement avoids high-temperature copper alloy solution level direction to fluctuate, and is reduced the probability that ripple occurs in product, is substantially increased yields.

Description

Horizontal continuous casting of copper alloy converter device
Technical field
The utility model is related to copper alloy casting devices, more particularly to horizontal continuous casting of copper alloy converter device, belong to metal Smelting equipment technical field.
Background technology
The production history of copper alloy band is long, and producing equipment and technology are being continuously improved and improved, copper alloy band Quality requirement is also higher and higher, and copper alloy horizontal continuous-casting unit is to be cast as high temperature copper water by horizontal graphite crystallizer The equipment of band-like embryo material, copper alloy plate strip embryo material surface requirements flat smooth, flawless raw edges, pore-free pockmark, Forming Quality Directly affect subsequent product quality and yield rate.In copper alloy plate strip embryo material casting process, the high temperature copper that will have been melted is needed Alloy solution is transferred to foundry furnace from smelting furnace by special chute, and previous experiences technology is that chute is processed l-shaped, L-shaped stream The substantially horizontal direction in outlet of slot, high-temperature copper alloy solution flow directly on L-type chute from smelting furnace fire door and flow automatically to casting Stove, high-temperature copper alloy solution is in transfer process, large contact area with air, and the pollutant discharged into air is more, temperature Decline fast, copper alloy solution flows rapidly to foundry furnace, and foundry furnace furnace temperature is caused drastically to decline, and copper solution is from the direction that chute flows out For horizontal direction, the copper liquid that flow forward impacts in foundry furnace causes liquid fluctuating very big, this can be on the product of casting Ripple is formed, is that one of more formidable problem common in the process is made in casting in bronze;Under the also this discharge method from chute Low temperature copper alloy solution impacts on the thermal insulation furnace body pouring material of foundry furnace furnace side, and the blocking foundry furnace stove wall that is bonded in of slag is caused to pour It builds on material;Slag is easily accessible crystallizer after being mixed with foundry furnace high temperature copper alloy solution, after the molding of copper alloy band embryo material Will slag inclusion, seriously affect embryo material quality, cause embryo material unqualified.At present one is needed in copper alloy band embryo material casting process Kind can overcome the device of drawbacks described above.
Invention content
The purpose of the utility model is to overcome the above problems present in current horizontal continuous casting of copper alloy, provide one kind Horizontal continuous casting of copper alloy converter device.
To realize the purpose of this utility model, following technical solutions is used:Horizontal continuous casting of copper alloy converter device, packet The L-shaped chute for including L-shaped groove body and being opened on L-shaped groove body, L-shaped bottom is in from front to back downward inclined-plane, in L-shaped chute It is suitable for reading on be provided with arc insulation cover, in the flowing direction not through groove body, groove body end is located in foundry furnace L-shaped chute, Downward flow liquid through-hole is provided in the end bottom of L-shaped chute, flow liquid through-hole is located above casting furnace wall, in L-shaped chute Feed end is connected with the molten bath of ellipse;Further;Line between L-shaped chute front bottom end and end bottom and horizontal plane Between angle be 20 degree;Further;A diameter of 70-90mm of the flow liquid through-hole.
The positive advantageous effects of the utility model are:Present apparatus insulation cover on L-type chute, effectively prevents The discharge of pollutant reduces the temperature fluctuation of high-temperature copper alloy solution;One is machined in the end of L-type chute directly down Copper alloy solution flow liquid through-hole, copper alloy solution is downwardly directly into after L-type chute from smelting furnace fire door on casting furnace wall Then it then flows into copper liquid, changes high-temperature copper alloy solution flow direction and speed, avoid high-temperature copper alloy solution level Direction flows into solution caused by foundry furnace directly impact the copper liquid in foundry furnace and fluctuates, and reduces the general of the generation of ripple in product Rate substantially increases yields, it is thus also avoided that directly on impact casting furnace body pouring material, prevents contact of the slag with pouring material And the mixing for reducing slag and high-temperature copper alloy solution is combined, the yield rate of the band-like embryo material of copper alloy is improved, is suitble in copper It is promoted and applied in level of alloy continuous casting.
Description of the drawings
Fig. 1 is the schematic top plan view of the utility model.
Fig. 2 is the schematic front view of the utility model.
Specific implementation mode
In order to more fully explain the implementation of the utility model, the embodiment of the utility model is provided.These implement real Example is only the elaboration to the utility model, does not limit the scope of the utility model.
In conjunction with attached drawing to the further details of explanation of the utility model, in attached drawing respectively label for:1:L-shaped groove body;2:L-shaped stream Slot;3:Molten bath;4:Flow liquid through-hole;5:Insulation cover.
As shown in the picture, horizontal continuous casting of copper alloy converter device, including L-shaped groove body 1 and the L-shaped that is opened on L-shaped groove body Chute 2,2 bottom of L-shaped chute are in downward inclined-plane from front to back, line between L-shaped chute front bottom end and end bottom with Angle between horizontal plane is 20 degree;20 degree of not current bottoms are steep, can reduce moving when copper liquid enters foundry furnace Can, keep foundry furnace liquid level stabilizing, L-shaped chute it is suitable for reading on be provided with arc insulation cover 5, L-shaped chute is in the flowing direction Not through groove body, i.e. the end of groove body is cecum, and groove body end is located in foundry furnace, is provided in the end bottom of L-shaped chute Downward flow liquid through-hole 4, a diameter of 70-90mm of the flow liquid through-hole, rotating flow fluid through-hole is a diameter of in the present embodiment 80mm;Flow liquid through-hole 4 is located above casting furnace wall, and the molten bath 3 of ellipse is connected in the feed end of L-shaped chute.
After the embodiment that the utility model is described in detail, one of ordinary skilled in the art is clearly understood that, It does not depart from above-mentioned claim and various change and modification can be carried out under spirit, it is all according to the technical essence of the utility model To any simple modification, equivalent change and modification made by above example, the range of technical solutions of the utility model is belonged to, And the utility model is also not only restricted to the embodiment of example in specification.

Claims (3)

1. horizontal continuous casting of copper alloy converter device, including L-shaped groove body and the L-shaped chute being opened on L-shaped groove body, L-shaped chute bottom Portion is in downward inclined-plane from front to back, it is characterised in that:L-shaped chute it is suitable for reading on be provided with arc insulation cover, L-shaped chute exists It is located in foundry furnace not through groove body, groove body end on flow direction, the end bottom of L-shaped chute is provided with downward flow liquid Through-hole, flow liquid through-hole are located above casting furnace wall, and the molten bath of ellipse is connected in the feed end of L-shaped chute.
2. horizontal continuous casting of copper alloy converter device according to claim 1, it is characterised in that:L-shaped chute front bottom end with The angle between line and horizontal plane between the bottom of end is 20 degree.
3. horizontal continuous casting of copper alloy converter device according to claim 1, it is characterised in that:The diameter of the flow liquid through-hole For 70-90mm.
CN201721730249.3U 2017-12-13 2017-12-13 Horizontal continuous casting of copper alloy converter device Active CN207770778U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201721730249.3U CN207770778U (en) 2017-12-13 2017-12-13 Horizontal continuous casting of copper alloy converter device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201721730249.3U CN207770778U (en) 2017-12-13 2017-12-13 Horizontal continuous casting of copper alloy converter device

Publications (1)

Publication Number Publication Date
CN207770778U true CN207770778U (en) 2018-08-28

Family

ID=63231036

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201721730249.3U Active CN207770778U (en) 2017-12-13 2017-12-13 Horizontal continuous casting of copper alloy converter device

Country Status (1)

Country Link
CN (1) CN207770778U (en)

Similar Documents

Publication Publication Date Title
CN104148599B (en) A kind of clad material solid-liquid compound horizontal casting former and method
KR101641812B1 (en) Continuous casting equipment
CN207026463U (en) A kind of automatic anti-slag of modified, aluminium alloy ingots pouring device of guaranteeing the quality
CN104174823A (en) Clad material solid/liquid composite continuous-casting forming device and method
CN107321944B (en) A kind of sulfur-bearing Aluminum steel increasing sulphur method
CN101791681B (en) Water-cooling die casting production process of plate blank used for medium plate
CN108500238A (en) A kind of production method based on electroslag remelting bimetallic composite roll
CN207770778U (en) Horizontal continuous casting of copper alloy converter device
CN203695891U (en) Continuous production system for amorphous ribbons
CN201979055U (en) Horizontal continuous ingot casting crystallizer
CN201136054Y (en) Submerged type pouring head for continuous casting jobbing sheet blank
CN104249149B (en) A kind of channel-type sensing heating tundish and its casting method
CN202945301U (en) Cooling device of electroslag remelting crystallizer
CN107245592A (en) A kind of founding of aluminium ingot
CN204194767U (en) Cold-chamber die casting machine injection chamber cooling system temperature real-time monitoring device
CN210059784U (en) Zinc alloy casting chute
CN203782214U (en) Charging device for aluminum alloy additive
CN207365710U (en) A kind of metallurgical equipment, metallurgical slag exhaust system and its chute
CN201026526Y (en) High molten steel flux submerged type pouring head for continuous casting thin sheet blank
CN206936339U (en) A kind of Rotating caster mold cooling system
JP2766529B2 (en) Tundish equipment
CN203155963U (en) Novel crystallizer for pouring square billet
CN102974794A (en) Device and method for reducing superheat degree of molten steel of continuous casting ladle or intermediate ladle
CN102274955A (en) Nitrogen protective oxygen-insulated whole-course quick cooling casting process and system for anode plates
CN214060602U (en) Spiral rising type water-cooling crystallizer

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant