CN208853670U - Cooling device for copper alloy casting - Google Patents

Abstract

Cooling device provided by the utility model for copper alloy casting, including cover graphite jig periphery cooling copper sheathing and cover metal body in copper sheathing periphery, wall forms the annular housing that can accommodate cooling water in copper sheathing outer wall and metallic sheath body, through the intake tunnel and exhalant canal for having connection annular housing on metal body, it is characterized in that, there is the protrusion of shape of threads in the outer surface that copper sheathing outer wall is located at annular housing, the protrusion of the shape of threads forms screw thread water channel in annular housing, which is connected to intake tunnel and exhalant canal.The utility model has the advantage of increase the heat exchange area of copper sheathing, and water flow rotary can take away the scale of generation, prevent the aggregation of scale due to being provided with screw thread water channel.

Description

Cooling device for copper alloy casting

Technical field

The utility model relates to copper alloy casting fields.

Background technique

The casting of copper alloy is divided into two processes: primary crystallization and secondary cooling, and primary crystallization is mainly high-temperature liquid state copper Liquid realizes the process of surface layer scull by primary cooling water under a certain pressure, and secondary cooling is mainly the copper ingot after a scull Realize that liquid point depth is constantly reduced until the process to disappear, copper liquid become after cooling down twice under the pole cool condition of secondary water Copper ingot realizes casting traction.In current copper alloy casting, since the limitation in primary cooling water road is (unilateral to only have 1mm logical Road), under water quality certain condition, whole flow is restricted, and then affects the cooling under high-speed casting state, with casting The raising of speed, one time crystallisation by cooling position can be gradually mobile to secondary water, once encountering secondary bright water, can generate explosion, cause Security risk, therefore, casting speed are cooled the limitation of ability.

Utility model content

The purpose of the utility model is to provide it is a kind of be conducive to promoted casting cooling speed for copper alloy casting it is cold But device.

Cooling device provided by the utility model for copper alloy casting is covered when including using in graphite jig periphery It cools down copper sheathing and covers the metal body in copper sheathing periphery, wall, which forms one, in copper sheathing outer wall and metallic sheath body can accommodate cooling water Annular housing, through the intake tunnel and exhalant canal for having connection annular housing on metal body, which is characterized in that outside copper sheathing There is the protrusion of shape of threads in the outer surface that wall is located at annular housing, and the protrusion of the shape of threads forms screw thread water channel in annular housing, The screw thread water channel is connected to intake tunnel and exhalant canal.

Above-mentioned intake tunnel and exhalant canal is respectively communicated with the axial ends of annular housing.

The utility model has the advantage of increase the heat exchange area of copper sheathing, and water flow due to being provided with screw thread water channel Rotation can take away the scale of generation, prevent the aggregation of scale.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the utility model for the cooling device of copper alloy casting.

Fig. 2 is diagrammatic cross-section of the utility model for the cooling device copper sheathing of copper alloy casting.

Fig. 3 is the local A schematic diagram of Fig. 1.

Specific embodiment

In the following, the utility model is described further in conjunction with attached drawing and specific embodiment,

In conjunction with FIG. 1 to FIG. 3, the cooling device provided by the utility model for copper alloy casting, including while using, cover The cooling copper sheathing 2 of graphite jig (not shown) periphery and metal body 3 in copper sheathing periphery is covered, copper sheathing outer wall and metal Body inner wall forms the annular housing 4 that can accommodate cooling water, and running through on metal body has the water inlet of connection annular housing logical Road 5 and exhalant canal 6, intake tunnel and exhalant canal are respectively communicated with the axial ends of annular housing, and copper sheathing outer wall is located at annular There is the protrusion 21 of shape of threads in the outer surface of cavity, and the protrusion of the shape of threads forms screw thread water channel, the screw thread water in annular housing Road is connected to intake tunnel and exhalant canal, and intake tunnel and exhalant canal are respectively communicated with the both ends of screw thread water channel.Copper sheathing outer wall position There is the protrusion 21 of shape of threads to form screw thread water channel in the outer surface of annular housing, increases the heat exchange area of copper sheathing, and water flow Rotation can take away the scale of generation, prevent the aggregation of scale.

It will be apparent to those skilled in the art that can make various other according to the above description of the technical scheme and ideas Corresponding change and deformation, and all these changes and deformation all should belong to the protection of the utility model claims Within the scope of.

Claims (3)

1. for copper alloy casting cooling device, covered when including using graphite jig periphery cooling copper sheathing and cover in copper The metal body of periphery is covered, wall forms the annular housing that can accommodate cooling water, metallic sheath in copper sheathing outer wall and metallic sheath body Through the intake tunnel and exhalant canal for having connection annular housing on body, which is characterized in that copper sheathing outer wall is located at annular housing There is a protrusion of shape of threads in outer surface, and the protrusion of the shape of threads forms screw thread water channel in annular housing, the screw thread water channel be connected into Aquaporin and exhalant canal.

2. the cooling device according to claim 1 for copper alloy casting, it is characterised in that intake tunnel and water outlet are logical Road is respectively communicated with the axial ends of annular housing.

3. it is according to claim 1 or 2 for copper alloy casting cooling device, which is characterized in that intake tunnel and go out Aquaporin is respectively communicated with the both ends of screw thread water channel.