CN210996443U - Copper alloy founding equipment - Google Patents

Abstract

The utility model relates to the technical field of copper alloy casting, in particular to copper alloy casting equipment, which comprises a smelting chamber, a combustion chamber, a holding furnace and a heating furnace, wherein the holding furnace is internally provided with a storage device, the storage device is a semi-closed cylinder body, the storage device is provided with an inlet at the lower half part of a cylinder body, the storage device is provided with a plurality of groups of flow guide blocks which are sequentially stacked at the upper half part of the cylinder body, the bottom of the storage device is led out of an output pipeline, the output pipeline penetrates through the side wall of the holding furnace and extends to the outside of the holding furnace, the end part of the output pipeline positioned at the outer side of the holding furnace is designed as a discharge port, the utility model solves the problems that the traditional copper alloy casting furnace and the heat preservation are separately carried out, the energy consumption is large, the process defect is obvious, when the copper alloy casting furnace and the holding furnace are reasonably connected, the energy utilization rate is improved, and, thereby enabling the furnace liquid to be more uniform.

Description

Copper alloy founding equipment

Technical Field

The utility model relates to a copper alloy founding technical field especially relates to a copper alloy founding equipment.

Background

In the existing metal copper pyrometallurgical process, the molten pool smelting has the advantages of strong raw material adaptability, high production efficiency, less smoke discharge, low copper residue in slag and the like, and is widely applied.

At present, the structure of a common smelting furnace is complex, and the traditional smelting furnace and heat preservation need to be carried out separately, so that the energy consumption is high, the economic benefit is low, and therefore, copper alloy casting equipment is provided to optimize the existing products.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems that the traditional copper alloy casting smelting furnace and the heat preservation existing in the prior art are separately carried out, the energy consumption is large, the process defect is obvious, and the copper alloy casting equipment is provided.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a copper alloy founding equipment, is linked together including smelting room, combustion chamber, heat preservation stove and heating furnace, smelting room and heat preservation stove, and the bottom of smelting room is provided with the combustion chamber, and the bottom of heat preservation stove is provided with the heating furnace, the inside of heat preservation stove is provided with strorage device, strorage device is semi-enclosed barrel, and strorage device is provided with the entry in the lower half of stack, and strorage device is provided with the water conservancy diversion piece that a plurality of groups stacked in proper order in the upper half of stack, and output pipeline is drawn forth to strorage device's bottom, output pipeline runs through the lateral wall of heat preservation stove and extends to the outside of heat preservation stove, and the tip that output pipeline is located the heat.

Preferably, a driving motor is arranged at the top of the smelting chamber, and a stirring device connected with the driving motor is arranged in the smelting chamber.

Preferably, a conveying groove is arranged on a communication pipeline between the smelting chamber and the holding furnace, and furnace liquid is conveyed from the smelting chamber to the holding furnace through the conveying groove.

Preferably, the port of the conveying groove in the heat preservation furnace is positioned right above the storage device.

Preferably, the structures of the flow guide blocks are the same, the cross sections of the flow guide blocks are round tables with through middle parts, and the flow guide blocks are fixedly sleeved on the outer side of the storage device.

Preferably, the upper surface of the flow guide block is raised and higher than the edge of the flow guide block.

Preferably, the top center of the storage device protrudes upwards, the storage device is a horn-shaped cylinder, and the upper end surface of the storage device is larger than the lower end surface of the storage device.

Preferably, a liquid outlet valve is arranged on a pipeline of the output pipeline.

The utility model has the advantages that: through the founding equipment that this scheme provided, solved traditional copper alloy founding smelting pot and kept warm separately going on, energy resource consumption is big, the obvious problem of process defect, when using this founding equipment, smelting pot and holding furnace rational connection, energy utilization promotes, and the stove liquid flows from top to bottom through the water conservancy diversion effect of water conservancy diversion piece in addition to make stove liquid can be more even.

Drawings

Fig. 1 is a schematic structural diagram of a copper alloy casting apparatus according to the present invention;

fig. 2 is a schematic structural diagram of a copper alloy casting apparatus provided by the present invention.

In the figure: 1 smelting chamber, 2 combustion chambers, 3 stirring devices, 4 driving motors, 5 heat preservation furnaces, 6 heating furnaces, 7 storage devices, 8 conveying grooves, 9 storage chambers, 10 cavities, 11 flow guide blocks, 12 output pipelines, 13 inlets and 14 liquid outlet valves.

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.

In the embodiment, referring to fig. 1-2, a copper alloy casting device includes a smelting chamber 1, a combustion chamber 2, a holding furnace 5 and a heating furnace 6, the smelting chamber 1 is communicated with the holding furnace 5, the combustion chamber 2 is arranged at the bottom of the smelting chamber 1, and the heating furnace 6 is arranged at the bottom of the holding furnace 5, so that the utilization rate of energy is greatly improved, a driving motor 4 is arranged at the top of the smelting chamber 1, a stirring device 3 connected with the driving motor 4 is arranged in the smelting chamber 1, and furnace liquid in the smelting chamber 1 can be stirred through the stirring device 3, so that the furnace liquid is ensured to be uniform. A conveying groove 8 is arranged on a communication pipeline between the smelting chamber 1 and the holding furnace 5, a port of the conveying groove 8, which is positioned in the holding furnace 5, is positioned right above the storage device 7, and furnace liquid is conveyed from the smelting chamber 1 to the storage device 7 in the holding furnace 5 through the conveying groove 8.

The storage device 7 is a semi-closed cylinder, the lower half part of the cylinder of the storage device 7 is provided with an inlet 13, the upper half part of the cylinder of the storage device 7 is provided with a plurality of groups of flow guide blocks 11 which are sequentially stacked, the structures of the flow guide blocks 11 are the same, the cross section of each flow guide block 11 is a circular truncated cone with a through middle part, the flow guide blocks 11 are fixedly sleeved outside the storage device 7, the center of the top part of the storage device 7 protrudes upwards, the storage device 7 is a horn-shaped cylinder, the upper end surface of the storage device 7 is larger than the lower end surface of the storage device 7, the upper surface of each flow guide block 11 protrudes and is higher than the edge of each flow guide block 11, and by the design, furnace liquid is conveyed to the upper surface of the storage device 7 from the conveying groove 8 and flows to the edge from the center and flows to each flow guide block 11.

An output pipeline 12 is led out of the bottom of the storage device 7, the output pipeline 12 penetrates through the side wall of the heat preservation furnace 5 and extends to the outside of the heat preservation furnace 5, the end part, located on the outer side of the heat preservation furnace 5, of the output pipeline 12 is designed to be a discharge hole, and a liquid outlet valve 14 is arranged on the pipeline of the output pipeline 12.

The specific working principle is as follows: the upper surface of storage device 1 is introduced with the stove liquid in smelting chamber 1 by conveyer trough 8, and the stove liquid flows to the edge from the center, finally drops on water conservancy diversion piece 11, and stove liquid passes through the drainage effect of each layer of water conservancy diversion piece 11, and the downward flow of successive layer further promotes the homogeneity of its stove liquid, and the stove liquid drops to the bottom and gets into storage device 7 from entry 13, when needs draw out the stove liquid, opens liquid outlet valve 14, and stove liquid dashes output pipeline 12 and flows.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. A copper alloy casting device comprises a smelting chamber (1), a combustion chamber (2), a heat preservation furnace (5) and a heating furnace (6), wherein the smelting chamber (1) is communicated with the heat preservation furnace (5), the combustion chamber (2) is arranged at the bottom of the smelting chamber (1), the heating furnace (6) is arranged at the bottom of the heat preservation furnace (5), it is characterized in that a storage device (7) is arranged in the heat preservation furnace (5), the storage device (7) is a semi-closed cylinder, the lower half part of the cylinder body of the storage device (7) is provided with an inlet (13), the upper half part of the cylinder body of the storage device (7) is provided with a plurality of groups of flow guide blocks (11) which are sequentially stacked, the bottom of the storage device (7) is led out of an output pipeline (12), the output pipeline (12) runs through the side wall of the holding furnace (5) and extends to the outside of the holding furnace (5), and the end part of the output pipeline (12) positioned on the outer side of the holding furnace (5) is designed as a discharge hole.

2. Copper alloy fusion casting plant according to claim 1, characterized in that the top of the smelting chamber (1) is provided with a drive motor (4) and that the inside of the smelting chamber (1) is provided with stirring means (3) connected to the drive motor (4).

3. A copper alloy casting plant as claimed in claim 1, characterized in that the communication between the smelting chamber (1) and the holding furnace (5) is provided with a transfer trough (8), through which transfer trough (8) the bath is transferred from the smelting chamber (1) to the holding furnace (5).

4. Copper alloy fusion casting plant according to claim 3, characterised in that the port of the transfer chute (8) inside the holding furnace (5) is located directly above the storage device (7).

5. The copper alloy casting equipment as claimed in claim 1, wherein the flow guide blocks (11) have the same structure, the cross section of each flow guide block (11) is in the shape of a truncated cone with a through middle part, and the flow guide blocks (11) are sleeved and fixed on the outer side of the storage device (7).

6. Copper alloy fusion casting equipment according to claim 5 characterized by that the upper surface of the deflector block (11) is raised above the edge of the deflector block (11).

7. A copper alloy casting apparatus according to any of claims 1-4, characterized in that the top center of the storage device (7) is convex upward, the storage device (7) is a trumpet-shaped cylinder, and the upper end face of the storage device (7) is larger than the lower end face of the storage device (7).

8. Copper alloy fusion casting plant according to claim 1, characterised in that the outlet pipe (12) is provided with an outlet valve (14).

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