CN205403484U - Melt copper intermediate frequency electric stove - Google Patents

Abstract

The utility model discloses a melt copper intermediate frequency electric stove aims at providing a melt copper intermediate frequency electric stove who is equipped with automatic unloader, and its technical scheme main points are: including the stove outer covering, be equipped with the feed inlet on the stove outer covering, still include the storage case and be used for conveying the hoisting device of copper ingot to melt copper intermediate frequency electric stove, storage case, upper end direction feed inlet are connected to the hoisting device lower extreme, hoisting device includes the support, be used for with the copper ingot convey to the conveyer belt of feed inlet, be located on the conveyer belt hold the copper ingot the conveying fill, provide the drive arrangement of power. So setting up, when melting the copper ingot, sending into melt copper intermediate frequency electric stove with the copper ingot by hoisting device, the last conveying fill of hoisting device can hold the copper ingot and the copper ingot is difficult for rolling. Hoisting device is connected the setting with the feed inlet, and the feed inlet can directly be delivered to by hoisting device to the copper ingot in the storage case, realizes automatic unloading, reduces workman intensity of labour, improves work efficiency.

Description

Molten copper middle frequency furnace

Technical field

This utility model relates to metal and manufactures equipment technical field, more specifically, it relates to a kind of molten copper middle frequency furnace.

Background technology

Molten copper middle frequency furnace. being a kind of melting being mainly used in copper metal and the special equipment of copper liquid insulation, this device efficiency is high, has electromagnetic stirring force and makes the uniform melting of metal, it is not necessary to adds other agitating procedures.Copper melting furnace required on market is typically based on its technological requirement (to raw material and product quality), and common is raw material for red copper and pyrite or copper alloy etc, and after copper fusing, product common are copper bar, copper ingot, copper bar, electronic product appliance etc..

At present, the molten copper middle frequency furnace on market includes the parts such as furnace shell, furnace lining, burner, flue, electrical control, and copper ingot is melted stand-by by electrical control temperature after entering molten copper middle frequency furnace by copper ingot.Furnace high-temperature is hedged off from the outer world by furnace lining and furnace shell.

Although copper ingot can be melted stand-by by this molten copper middle frequency furnace, but owing to copper ingot is from great, the charging aperture of molten copper middle frequency furnace is located at furnace shell top more, copper ingot is delivered to charging aperture and need to expend a large amount of manpower.

Utility model content

The purpose of this utility model is to provide a kind of molten copper middle frequency furnace being provided with automatic blanking device.

Above-mentioned technical purpose of the present utility model has the technical scheme that

A kind of molten copper middle frequency furnace, including furnace shell, described furnace shell is provided with charging aperture, also includes material storing box and for transmitting the copper ingot lifting device to molten copper middle frequency furnace；Described lifting device lower end connects material storing box, upper end guiding charging aperture；Described lifting device include support, for copper ingot is sent to charging aperture conveyer belt, be positioned on conveyer belt hold copper ingot transmit bucket, provide power driving device.

So arranging, during fusing copper ingot, by lifting device, copper ingot is sent into molten copper middle frequency furnace, the transmission bucket on lifting device can hold copper ingot and copper ingot not easily tumbles.Lifting device is connected setting with charging aperture, and the copper ingot in material storing box can be fed directly to charging aperture by lifting device, it is achieved automatic blanking, reduces labor strength, improves work efficiency.

Arrange further: the junction of described lifting device and charging aperture is provided with for guiding copper ingot to roll into the stock guide of charging aperture.

So arrange, gap is left between lifting device and molten copper middle frequency furnace, thus ensureing that conveyer belt does not contact the frictional force producing to hinder operating with molten copper middle frequency furnace, when copper ingot falls from lifting device, owing to there is gap, impacting big when copper ingot drops, direction is inaccurate, and copper ingot can be caused charging aperture by stock guide accurately and efficiently.

Arrange further: described charging aperture is provided with to be easy to copper ingot and slip into the chamfering of molten copper middle frequency furnace.

So arrange, when copper ingot enters charging aperture, chamfering type arrange self with gradient be easy to guide copper ingot to slip into molten copper middle frequency furnace, the copper liquid in molten copper middle frequency furnace not easily spills simultaneously.

Arrange further: described furnace shell top is provided with top cover, and described top cover area is more than the furnace shell cross-sectional area of molten copper middle frequency furnace, and top cover is provided with anti-skidding lines.

So arranging, the large area of top cover is arranged can accept the copper ingot dropped from lifting device effectively, and anti-skidding lines increases the friction between copper ingot and top cover, it is possible to prevent the copper ingot dropped from tumbling loss due to inertia.

Arrange further: described molten copper middle frequency furnace is shaft furnace, adopt circular base stove to arrange.

So arranging, circular base stove adopts rational burner configuration that furnace atmosphere circulation can be made strong, and furnace temperature is uniform, it is to avoid hot-spot burn-off phenomenon, improves product quality, extends molten copper middle frequency furnace service life.Shaft furnace arranges and furnace charge can be made to fully absorb fume afterheat in shaft furnace, reduces furnace roof exhaust gas temperature, improves the thermal efficiency, and is preheated to close to molten state when furnace charge enters end stove, it is ensured that significantly high melting rate and very low energy consumption.

Arrange further: the described bucket linear array that transmits, in whole conveyer belt, transmits bucket bottom and is set to circular arc.

So arranging, transmit bucket when with conveyer belt gyration, the transmission bucket capacity of rising receives copper ingot, the transmitting bucket and can obtain copper ingot from material storing box owing to the shape of self is arranged of decline, raising work efficiency.

Arrange further: described pedestal upper end is provided with the first leg contacted with molten copper middle frequency furnace, and lower end is provided with the second leg with earth surface, and described first leg and the second leg are all hinged with support.

So arranging, the first leg is for spacing with molten copper middle frequency furnace, and the second leg makes lifting device firmly fall within to reduce on ground and rock.First leg and the second leg can relatively rotate around support, change the height of lifting device, adapt to various sizes of molten copper middle frequency furnace.

By adopt technique scheme, this utility model hinge structure is compared to be had: fusing copper ingot time equipment can automatic blanking, save manpower, improve work efficiency.

Accompanying drawing explanation

Fig. 1 is the baiting structure schematic diagram of molten copper middle frequency furnace；

Fig. 2 is the lifting device schematic diagram of molten copper middle frequency furnace.

In figure: 1, furnace shell；2, charging aperture；3, material storing box；4, driving device；5, support；6, conveyer belt；7, bucket is transmitted；8, top cover；9, copper ingot；10, stock guide；11, the first leg；12, the second leg；13, chamfering；14, anti-skidding lines.

Detailed description of the invention

Referring to figs. 1 through Fig. 2, molten copper middle frequency furnace is described further.

Embodiment one, with reference to Fig. 1, a kind of molten copper middle frequency furnace, including furnace shell 1, described furnace shell 1 is provided with charging aperture 2, and charging aperture 2 is provided with to be easy to copper ingot 9 and slip into the chamfering 13 of molten copper middle frequency furnace.Furnace shell 1 top is additionally provided with top cover 8.

Copper ingot 9 mostly is the blank with corner angle, big with external world's friction, not easily slides.In this utility model, the chamfering 13 of charging aperture 2 is set in molten copper middle frequency furnace to restrain, namely there is downslide gradient on top cover 8, and copper ingot 9 is due to deadweight, it is possible to slip into molten copper middle frequency furnace not by external force when.

Top cover 8 area that furnace shell 1 top is arranged is more than furnace shell 1 cross-sectional area of molten copper middle frequency furnace, when lifting device is with reference to Fig. 1, on accidentally drop copper ingot 9 time, large-area top cover 8 can accept the copper ingot 9 dropped, it is prevented that injures staff or damage equipment by a crashing object from great copper ingot 9.Top cover 8 is additionally provided with anti-skidding lines 14, it is possible to effectively strengthening the roughness on top cover 8 surface, thus increasing friction, playing anti-skidding effect.Anti-skidding lines 14 can either prevent the copper ingot 9 dropping on top cover 8 from tumbling loss, when copper ingot 9 falls in molten copper middle frequency furnace, if there being the copper liquid accidentally spilt, top cover 8 can stop that high-temperature copper liquid splashes down to operator or other equipment, improves the safety of operation.

In this utility model, molten copper middle frequency furnace is shaft furnace, adopts circular base stove to arrange.

Circular base stove adopts rational burner configuration that furnace atmosphere circulation can be made strong, and furnace temperature is uniform, it is to avoid hot-spot burn-off phenomenon, improves product quality, extends molten copper middle frequency furnace service life.Shaft furnace arranges and furnace charge can be made to fully absorb fume afterheat in shaft furnace, reduces furnace roof exhaust gas temperature, improves the thermal efficiency, and is preheated to close to molten state when furnace charge enters end stove, it is ensured that significantly high melting rate and very low energy consumption.

With reference to Fig. 1, molten copper middle frequency furnace also includes material storing box 3 and for transmitting the copper ingot 9 lifting device to molten copper middle frequency furnace；Lifting device lower end connects material storing box 3, upper end guiding charging aperture 2；Lifting device includes support 5, and support 5 upper end is provided with the first leg 11 contacted with molten copper middle frequency furnace, and lower end is provided with the second leg 12 with earth surface, and described first leg 11 and the second leg 12 are all hinged with support 5.First leg 11 is for spacing with molten copper middle frequency furnace, and the second leg 12 makes lifting device firmly fall within to reduce on ground and rock.First leg 11 and the second leg 12 can relatively rotate around support 5, change the height of lifting device, adapt to various sizes of molten copper middle frequency furnace.

With reference to Fig. 2, the driving device 4 that bucket 7, offer power are provided holding copper ingot 9 that lifting device also includes the conveyer belt 6 for copper ingot 9 is sent to charging aperture 2, is positioned on conveyer belt 6.During lifting device work, driving device 4 provides power to drive conveyer belt 6, and copper ingot 9 is positioned at transmission bucket 7.Transmitting bucket 7 linear arraies in whole conveyer belt 6, bottom is set to circular arc.Transmit bucket 7 when with conveyer belt 6 gyration, the transmission bucket 7 risen holds copper ingot 9, and the transmission bucket 7 of decline can obtain copper ingot 9 owing to the shape of self is arranged from material storing box 3, and uniform interval can make to feed intake uniformly, holding furnace inner capacities is reasonable, improves work efficiency.

Junction with reference to Fig. 1, lifting device and charging aperture 2 is provided with for guiding copper ingot 9 to roll into the stock guide 10 of charging aperture 2.Gap is left between lifting device and molten copper middle frequency furnace, thus ensureing that conveyer belt 6 does not contact the frictional force producing to hinder operating with molten copper middle frequency furnace, when copper ingot 9 falls from lifting device, owing to there is gap, impact big when copper ingot 9 drops, direction is inaccurate, and copper ingot 9 can be caused charging aperture 2 by stock guide 10 accurately and efficiently.

With reference to Fig. 2, during fusing copper ingot 9, copper ingot 9 is sent into molten copper middle frequency furnace by lifting device, and the transmission bucket 7 on lifting device can hold copper ingot 9 and copper ingot 9 not easily tumbles, thus saving manpower transport's copper ingot 9.In this utility model, lifting device upper end is connected with the charging aperture 2 of molten copper middle frequency furnace, and the copper ingot 9 on ground, near the material storing box 3 on ground, lifting device and the angled setting in ground, is promoted the charging aperture 2 being sent to molten copper middle frequency furnace top by lower end.Leg is used for fixing lifting device and propping up overhead by lifting device, makes lifting device and material storing box 3, charging aperture 2 form complete operation.During utility model works, copper ingot 9 can be directly entered charging aperture 2 from lifting device, middle without pausing, it is achieved automatic blanking.Work process is completely smooth, reduces labor strength, improves work efficiency.

Above-mentioned specific embodiment is only to explanation of the present utility model; it is not to restriction of the present utility model; the present embodiment can be made the amendment not having creative contribution as required by those skilled in the art after reading this specification, but as long as being affected by the protection of Patent Law in right of the present utility model.

Claims (7)

1. a molten copper middle frequency furnace, including furnace shell (1), described furnace shell (1) is provided with charging aperture (2), it is characterised in that: also include material storing box (3) and be used for the lifting device transmitting copper ingot (9) to molten copper middle frequency furnace；Described lifting device lower end connects material storing box (3), upper end guiding charging aperture (2)；Described lifting device includes support (5), is used for the driving device (4) of the conveyer belt (6) that copper ingot (9) is sent to charging aperture (2), the transmission bucket (7) of accommodation copper ingot (9) being positioned on conveyer belt (6), offer power.

2. molten copper middle frequency furnace according to claim 1, it is characterised in that: the junction of described lifting device and charging aperture (2) is provided with for guiding copper ingot (9) to roll into the stock guide (10) of charging aperture (2).

3. molten copper middle frequency furnace according to claim 1, it is characterised in that: described charging aperture (2) is provided with to be easy to copper ingot (9) and slips into the chamfering (13) of molten copper middle frequency furnace.

4. molten copper middle frequency furnace according to claim 1, it is characterised in that: described furnace shell (1) top is provided with top cover (8), and described top cover (8) area is more than furnace shell (1) cross-sectional area of molten copper middle frequency furnace, and top cover (8) is provided with anti-skidding lines (14).

5. molten copper middle frequency furnace according to claim 1, it is characterised in that: described molten copper middle frequency furnace is shaft furnace, adopts circular base stove to arrange.

6. molten copper middle frequency furnace according to claim 1, it is characterised in that: described bucket (7) linear array that transmits, in whole conveyer belt (6), transmits bucket (7) bottom and is set to circular arc.

7. molten copper middle frequency furnace according to claim 1, it is characterized in that: described support (5) upper end is provided with the first leg (11) contacted with molten copper middle frequency furnace, lower end is provided with the second leg (12) with earth surface, and described first leg (11) is all hinged with support (5) with the second leg (12).