CN215113953U - Copper alloy vacuum continuous smelting casting device - Google Patents

Abstract

The utility model provides a casting device is smelted in succession in copper alloy vacuum, including the bottom plate and violently manage, fixedly connected with vacuum melting furnace and vacuum casting furnace in proper order from a left side to the right side in the top of bottom plate, the top of bottom plate and the first fixed case of back fixedly connected with that is located the vacuum casting furnace, and the both sides of first fixed incasement wall all are through connecting block fixedly connected with air-blower, the fixed case of bottom fixedly connected with second of first fixed incasement wall, and the top intercommunication of the fixed case of second has first connecting pipe, the air outlet intercommunication of air-blower has the nozzle stub, and the bottom intercommunication of violently managing the surface has the second connecting pipe, the piece is smelted to fixedly connected with between the both sides of vacuum melting furnace inner wall. The utility model discloses can carry out quick abundant heat dissipation in the casting process is smelted to the copper alloy, great improvement smelt the cooling efficiency and the effect in the casting process, better faster assurance the casting of smelting of copper alloy, excellent in use effect is fit for promoting.

Description

Copper alloy vacuum continuous smelting casting device

Technical Field

The utility model relates to a copper alloy production field especially relates to a casting device is smelted in succession in copper alloy vacuum.

Background

The copper alloy is an alloy formed by adding one or more other elements into pure copper serving as a matrix, the pure copper is mauve, is also called as red copper, has excellent electrical conductivity, thermal conductivity, ductility and corrosion resistance, is mainly used for manufacturing electrical equipment such as a generator, a bus, a cable, a switching device, a transformer and the like and heat-conducting equipment such as a heat exchanger, a pipeline, a flat plate heat collector of a solar heating device and the like, and the commonly used copper alloy is divided into 3 types of brass, bronze and white copper.

Copper alloy has the use in a plurality of fields, and copper alloy need be smelted in process of production and cast, is difficult to carry out quick abundant heat dissipation now in copper alloy smelting and casting process, great reduction smelt the cooling efficiency and the effect of casting in-process, be difficult to better more quick assurance copper alloy's smelting and casting.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides a casting device is smelted in succession in copper alloy vacuum can carry out quick abundant heat dissipation in the casting process is smelted to the copper alloy, great improvement smelt cooling efficiency and the effect in the casting process.

(II) technical scheme

The utility model provides a casting device is smelted in succession in copper alloy vacuum, including the bottom plate and violently managing, fixedly connected with vacuum melting furnace and vacuum casting furnace in proper order from a left side to the right side in the top of bottom plate, the top of bottom plate and the first fixed case of back fixedly connected with that is located the vacuum casting furnace, and the both sides of first fixed incasement wall are all through connecting block fixedly connected with air-blower, the fixed case of bottom fixedly connected with second of first fixed incasement wall, and the top intercommunication of the fixed case of second has first connecting pipe, the air outlet intercommunication of air-blower has the nozzle stub, and the bottom intercommunication of violently managing the surface has the second connecting pipe, the piece is smelted to fixedly connected with between the both sides of vacuum melting furnace inner wall, and fixedly connected with casting between the both sides of vacuum casting furnace inner wall.

Preferably, an end of the short pipe remote from the blower penetrates the second stationary box and extends to the inside of the second stationary box, and an end of the first connection pipe remote from the second stationary box penetrates the first stationary box and extends to the outside of the first stationary box.

Preferably, one end of the first connecting pipe extending to the outside of the first fixing box is communicated with the top of the outer surface of the transverse pipe, and one end of the second connecting pipe far away from the transverse pipe penetrates through the vacuum casting furnace and extends to the inside of the vacuum casting furnace.

Preferably, the top of the vacuum melting furnace, the top of the vacuum casting furnace, the top of the melting part and the top of the casting part are all arranged in an unclosed mode.

Preferably, the bottom of one side of the smelting part is communicated with a fixed pipe, and one end of the fixed pipe, which is far away from the smelting part, sequentially penetrates through the vacuum casting furnace and the casting part and extends to the interior of the casting part.

Preferably, the top of the vacuum melting furnace is movably connected with a first top cover, the bottom of the first top cover is fixedly connected with a first sealing gasket, and the outer surface of the first sealing gasket is in contact with the inner wall of the vacuum melting furnace.

Preferably, the top of the vacuum casting furnace is movably connected with a second top cover, the bottom of the second top cover is fixedly connected with a second sealing gasket, and the outer surface of the second sealing gasket is in contact with the inner wall of the vacuum casting furnace.

Compared with the prior art, the above technical scheme of the utility model following profitable technological effect has: the utility model discloses a bottom plate, violently the pipe, the vacuum melting furnace, the vacuum casting stove, first fixed case, the air-blower, the fixed case of second, first connecting pipe, the nozzle stub, the second connecting pipe, smelt the piece, the casting, fixed pipe, first top cap, first sealed pad, the sealed setting of second top cap and second, can carry out quick abundant heat dissipation in the copper alloy is smelted the casting process, great improvement smelt cooling efficiency and effect in the casting process, better faster assurance the smelting casting of copper alloy, excellent in use effect, and is suitable for promoting.

Drawings

Fig. 1 is a schematic structural diagram of a copper alloy vacuum continuous melting and casting device provided by the utility model.

Fig. 2 is a sectional view of a first fixing box structure of the copper alloy vacuum continuous melting and casting device provided by the utility model.

Fig. 3 is a sectional view of a melting part structure of the copper alloy vacuum continuous melting and casting device provided by the utility model.

Fig. 4 is a structural cross-sectional view of a casting part of the copper alloy vacuum continuous melting and casting device provided by the utility model.

Reference numerals: 1. a base plate; 2. a transverse tube; 3. a vacuum smelting furnace; 4. a vacuum casting furnace; 5. a first stationary box; 6. a blower; 7. a second stationary box; 8. a first connecting pipe; 9. a short pipe; 10. a second connecting pipe; 11. smelting a part; 12. casting; 13. a fixed tube; 14. a first top cover; 15. a first gasket; 16. a second top cover; 17. a second gasket.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in figures 1-4, the utility model provides a copper alloy vacuum continuous melting casting device, including bottom plate 1 and horizontal pipe 2, the top of bottom plate 1 is fixedly connected with vacuum melting furnace 3 and vacuum casting furnace 4 from left to right in proper order, the top of bottom plate 1 is fixedly connected with first fixed box 5 on the back of vacuum casting furnace 4, and both sides of the inner wall of first fixed box 5 are fixedly connected with air-blower 6 through connecting block, air-blower 6 is connected with external power supply through connecting wire, the start and close is controlled through the power switch arranged on the back of first fixed box 5, the bottom of the inner wall of first fixed box 5 is fixedly connected with second fixed box 7, and the top of second fixed box 7 is communicated with first connecting pipe 8, the air outlet of air-blower 6 is communicated with short pipe 9, and the bottom of the outer surface of horizontal pipe 2 is communicated with second connecting pipe 10, a melting part 11 is fixedly connected between two sides of the inner wall of the vacuum melting furnace 3, and a casting part 12 is fixedly connected between two sides of the inner wall of the vacuum casting furnace 4.

The utility model discloses in, the copper alloy is put into the inside 11 inside melts of smelting of vacuum melting furnace 3 with the raw materials when production, then open the valve on the fixed pipe 13, the raw materials after the melting flows into the casting 12 of the inside of vacuum casting furnace 4 through fixed pipe 13 and casts, when the raw materials after the melting gets into casting 12 and casts, start air-blower 6, air-blower 6 blows to the fixed 7 inside casees of second through nozzle stub 9, cool down wind through the inside water of the fixed 7 casees of second, wind after the cooling is through first connecting pipe 8, violently pipe 2 and the quick abundant blowing of second connecting pipe 10 are to casting 12, thereby carry out quick abundant heat dissipation in the copper alloy melting casting process.

In an alternative embodiment, the end of the short pipe 9 remote from the blower 6 extends through the second stationary box 7 and into the interior of the second stationary box 7, and the end of the first connecting pipe 8 remote from the second stationary box 7 extends through the first stationary box 5 and out of the first stationary box 5.

The blower 6 blows air into the second stationary box 7 through the short pipe 9, thereby dissipating heat during the copper alloy melting and casting process.

In an alternative embodiment, the end of the first connecting pipe 8 extending outside the first fixed box 5 communicates with the top of the outer surface of the cross pipe 2, and the end of the second connecting pipe 10 remote from the cross pipe 2 extends through the vacuum casting furnace 4 and into the interior of the vacuum casting furnace 4.

It should be noted that the horizontal pipe 2, the first connecting pipe 8, and the second connecting pipe 10 can more quickly and sufficiently blow the air from the blower 6 toward the casting 12.

In an alternative embodiment, the vacuum melting furnace 3, the vacuum casting furnace 4, the melting part 11 and the casting part 12 are all arranged in an unclosed manner on top.

It should be noted that the top of the vacuum melting furnace 3, the top of the vacuum casting furnace 4, the top of the melting part 11, and the top of the casting part 12 are all not closed, so that the objects can be conveniently taken and placed inside the vacuum melting furnace 3, the vacuum casting furnace 4, the melting part 11, and the casting part 12.

In an alternative embodiment, the bottom of one side of the smelting part 11 is communicated with a fixed pipe 13, and one end of the fixed pipe 13, which is far away from the smelting part 11, sequentially penetrates through the vacuum casting furnace 4 and the casting part 12 and extends to the interior of the casting part 12.

A valve is provided inside the fixed pipe 13 to control opening and closing of the fixed pipe 13.

In an alternative embodiment, a first roof 14 is movably connected to the top of the vacuum melting furnace 3, and a first gasket 15 is fixedly connected to the bottom of the first roof 14, and the outer surface of the first gasket 15 contacts the inner wall of the vacuum melting furnace 3.

It should be noted that, the arrangement of the first top cover 14 facilitates taking and placing of objects inside the vacuum melting furnace 3 and the melting part 11, and the arrangement of the first rubber gasket can play a role in sealing the vacuum melting furnace 3.

In an optional embodiment, the top of the vacuum casting furnace 4 is movably connected with a second top cover 16, and the bottom of the second top cover 16 is fixedly connected with a second sealing gasket 17, through the arrangement of the bottom plate 1, the horizontal pipe 2, the vacuum melting furnace 3, the vacuum casting furnace 4, the first fixing box 5, the blower 6, the second fixing box 7, the first connecting pipe 8, the short pipe 9, the second connecting pipe 10, the melting piece 11, the casting piece 12, the fixing pipe 13, the first top cover 14, the first sealing gasket 15, the second top cover 16 and the second sealing gasket 17, rapid and sufficient heat dissipation can be performed in the copper alloy melting and casting process, so that the cooling efficiency and the cooling effect in the melting and casting process are greatly improved, the melting and casting of the copper alloy are better and faster guaranteed, the use effect is good, and the popularization is suitable, and the outer surface of the second sealing gasket 17 is in contact with the inner wall of the vacuum casting furnace 4.

It should be noted that the second top cover 16 is arranged to facilitate the taking and placing of objects inside the vacuum casting furnace 4 and the casting 12, and the second rubber pad is arranged to seal the vacuum casting furnace 4.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (7)

1. A copper alloy vacuum continuous smelting and casting device is characterized by comprising a bottom plate (1) and a transverse pipe (2), wherein the top of the bottom plate (1) is sequentially and fixedly connected with a vacuum smelting furnace (3) and a vacuum casting furnace (4) from left to right, the top of the bottom plate (1) is fixedly connected with a first fixed box (5) at the back of the vacuum casting furnace (4), the two sides of the inner wall of the first fixed box (5) are fixedly connected with an air blower (6) through connecting blocks, the bottom of the inner wall of the first fixed box (5) is fixedly connected with a second fixed box (7), the top of the second fixed box (7) is communicated with a first connecting pipe (8), an air outlet of the air blower (6) is communicated with a short pipe (9), the bottom of the outer surface of the transverse pipe (2) is communicated with a second connecting pipe (10), a smelting part (11) is fixedly connected between the two sides of the inner wall of the vacuum smelting furnace (3), and a casting part (12) is fixedly connected between the two sides of the inner wall of the vacuum casting furnace (4).

2. A copper alloy vacuum continuous melting and casting apparatus according to claim 1, wherein the end of the short pipe (9) remote from the blower (6) extends through the second stationary box (7) and into the interior of the second stationary box (7), and the end of the first connecting pipe (8) remote from the second stationary box (7) extends through the first stationary box (5) and out of the first stationary box (5).

3. A copper alloy vacuum continuous melting casting apparatus according to claim 1, wherein one end of the first connecting pipe (8) extending to the outside of the first fixing box (5) is communicated with the top of the outer surface of the horizontal pipe (2), and one end of the second connecting pipe (10) far from the horizontal pipe (2) penetrates through the vacuum casting furnace (4) and extends to the inside of the vacuum casting furnace (4).

4. The vacuum continuous melting and casting device for copper alloy according to claim 1, characterized in that the top of the vacuum melting furnace (3), the vacuum casting furnace (4), the melting part (11) and the casting part (12) are all arranged in an unclosed manner.

5. The vacuum continuous melting and casting device for the copper alloy as claimed in claim 1, wherein a fixed pipe (13) is communicated with the bottom of one side of the melting part (11), and one end of the fixed pipe (13) far away from the melting part (11) penetrates through the vacuum casting furnace (4) and the casting part (12) in sequence and extends to the interior of the casting part (12).

6. A copper alloy vacuum continuous melting and casting apparatus according to claim 1, characterized in that a first top cover (14) is movably connected to the top of the vacuum melting furnace (3), and a first sealing gasket (15) is fixedly connected to the bottom of the first top cover (14), and the outer surface of the first sealing gasket (15) is in contact with the inner wall of the vacuum melting furnace (3).

7. The vacuum continuous melting and casting device for copper alloy according to claim 1, wherein a second top cover (16) is movably connected to the top of the vacuum casting furnace (4), a second sealing gasket (17) is fixedly connected to the bottom of the second top cover (16), and the outer surface of the second sealing gasket (17) is in contact with the inner wall of the vacuum casting furnace (4).

Images