KR100913283B1 - The spiral cooling channel core for the sand casting process - Google Patents

Abstract

The present invention relates to a core for forming a hollow portion in a casting during casting, and its object is to apply during casting of a casting having an axially symmetric hollow portion in a casting to increase the cooling efficiency of the core to form the hollow portion to solidify the casting. In order to prevent various casting defects caused by the impact of the time, and to provide the core to form the symmetrical hollow portion having an effective cooling structure to obtain the overall cost, process shortening and high quality castings.

The present invention in the core for forming an axisymmetric hollow,

The core has a shape corresponding to the casting to form an axisymmetric hollow in the casting, the inside of the core has a hollow space helical about the axis of the core, one side of the spiral space and The technical gist of the present invention includes a cooling water inlet connected to the other side of the core and a cooling water outlet connected to the other side of the spiral, and connected to the cooling water inlet and the cooling water outlet to form a circulation device for circulation and replenishment of the cooling water.

Sand Casting, Core, Hub, Rotary Wing, Sand Cast, Cast Core, Propeller Hub

Description

Spiral cooling channel core for the sand casting process             

1 is an exemplary illustration of the invention

2 is an exemplary diagram illustrating an existing method.

3 is an exemplary diagram illustrating the circulation of the invention.

<Description of the symbols for the main parts of the drawings>

(1): casting (2): casting sand

(3): hollow core (4): hollow part for cooling

(5): cooling water inlet (6): cooling water outlet

(7): spiral cooling channel (8): cooling water

(9): air injection pipe (10): cooling air

(11): circulator (12): power unit

(13): Temperature controller

The present invention relates to a core for forming an axially symmetric hollow part in a casting, and more specifically, water-cooled spiral cooling for suppressing the high-temperature heat effect that continues for a long time in the process of casting solidification after injecting the casting into the casting during casting. A casting method of castings having an axisymmetric hollow portion formed by a middle core with a channel.

Conventionally, the conventional method of cooling the casting has been to use a casting sand with high thermal conductivity or to insert a cold metal into the casting sand to accelerate the cooling rate, but in the case of the middle core hollow core from one side of the hollow core (3) to the other side as shown in FIG. The hollow part 4 for cooling which penetrated the inside of (3) in a straight line was formed, and the cold cooling air 10 flowed in from the outside, and was directly cooled. However, this method is difficult to cool effectively because the cooling efficiency of the hollow core 3 is lower than the temperature of the injection (1).

When the cooling efficiency decreases due to the above reason, the casting 1 and the hollow core 3 that come into contact with the hollow core 3 due to the high temperature casting 1 are solidified due to the sintering phenomenon or from the difference in thickness of the casting. Fatal defects such as hot cracks caused by the difference in time and the part contacting the foundry sand 2 are also sintered to the hot casting and bonded to the surface.

These defects increase the work load of post-processing work. In the case of post-processing work, much of the work depends on manpower, and it is difficult to secure homogeneous quality due to the nature of work that depends on manpower. In addition, if the amount of post-processing work increases, it will inevitably lead to an increase in workforce and deterioration of quality. For defects found through various inspections internally and externally, quality can be managed through repair or disposal, but defects not found are Management can be a big problem.

In particular, repair work is mainly repaired by welding, which has the potential to reduce the change of weld structure or the fatigue strength of the material by dissolving and solidifying again due to the high temperature applied in part due to the nature of welding work. This affects the durability of the produced castings, thereby producing high quality castings.

The present invention is applied to the casting of castings having an axisymmetric hollow to prevent casting defects caused by solidification, which is created in order to solve the conventional problems as described above, to suppress defects that must be repaired by welding such as hot cracking during post-processing. It minimizes maintenance work, prevents fatigue strength deterioration due to maintenance work, improves productivity by reducing manpower and time required for post-processing, and improves the durability of rotary blades. To provide a core with a water-cooled spiral cooling channel to form a hollow in the casting.

In the present invention to achieve the above object and to perform the problem for eliminating the conventional defects in the casting process for producing a casting having an axisymmetric hollow portion,                     

A hollow core (3) having a shape corresponding to the surface of the axially symmetric hollow part of the casting and a spiral cooling channel (7) which is a helical hollow space within a predetermined distance from the surface of the hollow core (3); One side of the spiral cooling channel is provided with a cooling water inlet (5) and the other side of the cooling water outlet (6) characterized in that the hollow core (3) through which the cooling water (8) flows.

In more detail, as shown in FIG. 1, in the spiral cooling channel 7, the cooling water 8 cools the hollow core 3 through the spiral cooling channel 7 from the cooling water inlet 5 and the cooling water outlet 6. As the temperature of the coolant 8 rises in the process of exiting from), a temperature difference occurs between the coolant inlet 5 and the coolant outlet 6. Due to the difference in temperature of the coolant 8 as described above, an unbalance between the cooling rate and the cooling temperature may be caused when the casting 1 is cooled, thus increasing the temperature of the coolant 8 and the cooling efficiency of the hollow core 3. According to the shape of the spiral cooling channel 7, the cooling water inlet 5 has a smaller diameter of the spiral and the spiral of the cooling water outlet 6 has a larger diameter so that the spiral cooling channel 7 and the hollow core 3 The distance to the surface is varied to offset the temperature rise of the cooling water 8 as the cooling water 8 progresses.

Hereinafter, an embodiment of the present invention will be described in connection with the accompanying drawings.

As shown in Fig. 2, the casting 1, which is a high temperature liquid state, is poured into the space inside the casting sand 2 to coagulate. At this time, as the cooling water injection port 5 provided on one side of the hollow core (3) inserted into the casting sand (2) to form a hollow space in the solidified casting (1) as shown in Figure 3 external circulation device (11) The coolant (8) supplied from is injected, and the injected coolant is circulated along the spirally formed spiral cooling channel (7) as shown in FIG. 1 to cool the hollow core (3) starting around the cooling channel and the other side. Through the cooling water outlet 6 provided in the circulated to the external circulation device 11 as shown in Figure 3 or discarded.

In addition, the cooling water circulated by the above process to adjust the running speed of the power unit 12 provided in the circulation device 11 as shown in Figure 3 to adjust the circulation speed or additionally provided to the temperature control device (13) It is possible to control the cooling rate through the temperature control through the circulation rate or the direct temperature control of the coolant.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The effect of the present invention can be expected by the configuration and action as described above is provided with a spiral cooling channel in which the cooling water is circulated in the middle to form the hollow when casting the casting having the axisymmetric hollow portion to effectively cool the core to the hot casting It prevents the internal casting defect of the finished casting that may be caused by the casting or externally from being sintered to the casting sand, the core and the casting, and produces high quality castings. It is expected to reduce the manpower, time and other costs of post-processing.

Claims (3)

In the core forming the hollow portion of the casting having an axial symmetric hollow portion, comprising a spiral cooling channel helical with respect to the axis of the core, a cooling water inlet provided on one side of the spiral cooling channel and the cooling water discharge port provided on the other side, Cooling water injected into the cooling water inlet is cooled through the spiral cooling channel and discharged to the cooling water outlet; The spiral cooling channel is a spiral cooling channel in the sand casting method, characterized in that the spiral diameter of the spiral cooling channel increases from the cooling water inlet portion to the cooling water outlet portion, so that the separation distance between the spiral cooling channel and the hollow core is narrowed. Chinese characters with. delete According to claim 1, Through the power unit and the cooling water temperature control unit of the circulation device provided in the cooling water circulation device for supplying the cooling water to the core, the cooling rate of the core can be adjusted by adjusting the circulation speed of the cooling water and the temperature of the cooling water In the sand casting method, characterized in that the core provided with a spiral cooling channel.

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