KR101736150B1 - Casting method of unified two different casting producrs using full mold casting method - Google Patents

Abstract

The present invention relates to a method of casting an integral type two different casting product using a full mold casting method, and is able to easily manufacture a casting requiring high strength in part; and reducing material costs due to a process reduction. A method of integrally casting a functional member (10) and the body member (20), which are different types of castings, comprises: (S1) a first step of casting the functional member (10); (S2) a second step of maintaining a state in which the molding material (92) is applied to a remaining portion of the surface of the main body model (21) except for a fixing surface portion (22) to which the functional member (10) is to be fixated; (S3) a third step of filling the molding sand (95) in the second forging mold (32); (S4) a fourth step of forming a molten metal transfer path (97) extending to an external molten metal inlet (98); and (S5) a fifth step of integrating the different-shaped casting product (A) in an integrated manner.

Description

Technical Field [0001] The present invention relates to a method of casting an integrated casting product using a full mold casting method,

More particularly, the present invention relates to a casting method of an integral type casting product using a full mold casting method, and more particularly, to a casting method in which a functional member having different materials and a body member are integrally cast using a full mold casting method, The present invention relates to a casting method of an integral type casting product using a full mold casting method, in which a required casting can be easily manufactured and a material cost can be reduced due to a process reduction.

In general, the casting method is to put scrap, pig iron, ferroalloy or nonferrous metal raw material in a furnace, heat it, dissolve it, pour it into a mold of sand or metal, cool it and solidify it. In other words, when a molten metal is injected into a die made of a desired model, and the molten metal solidifies, the molten metal becomes the same metal object as the model.

The above-mentioned casting method can be classified into various types such as sand casting, shell-mold casting, eaporative pattern casting, plaster-mold casting, ceramic- mold casting), etc., and also include press casting to produce gas pressure, centrifugal casting to manufacture pipes and cylinders by centrifugal force, vacuum casting to which molten metal is sucked by applying vacuum to the mold, molten metal is injected into the machined mold And die casting to obtain the same casting mold.

In addition, there is a full mold casting to be proposed in the present invention. This method is used when a large single piece casting is to be manufactured. In the conventional method, usually, a wooden mold is first made, A molten metal was cast thereon to obtain a casting. However, this method not only takes a long time to produce the wooden mold, but also has a problem that the cost of production and storage of the wooden mold after casting is directly related to the manufacturing cost of the casting product.

For this reason, in the case of single-product production, a model is made by using expanded polystyrene which is easy to process, and this is embedded in a CO2 mold with a furan resin added or a water glass, cured, The foamed polystyrene model disappears by the heat of the molten metal, and the space where the model was located is displaced by the molten metal to obtain the casting. In this way, not only can the mold production cost be reduced, but also the casting time can be shortened, and even the casting of the backward gradient that can not be obtained by the conventional casting method can be easily cast.

Particularly, in the production of molds for automobile panel production, in consideration of the material suitability of the functional parts, the main body portion uses a casting of a low grade material FC, and the functional portion uses an FCD material or a cast steel having a high material grade. (1) two products of the body part 520 and the functional part 510 are cast separately, (2) the surface of mutual contact between the body part 520 and the functional part 510 is surface-processed, (3) the body part 520 and the functional part 510 are assembled with bolts and then the necessary parts of the body part 520 and the functional part 510 are surface-processed to complete the prefabricated cast product.

However, according to this process, the two materials of the main part and the functional part are respectively cast and further processed through the various steps of the processing step, the attaching and the assembling step, and then the final final shape processing is performed. Therefore, In addition, a lot of working time and work costs are incurred, which leads to problems such as an increase in mold manufacturing cost and a delay in production.

Patent No. 10-1245872 Published Patent No. 10-2008-0030642

Accordingly, it is an object of the present invention to provide a casting method for casting a casting requiring a high strength in part by integrally casting a functional member having different materials and a body member using a full mold casting method, In addition, the technical problem has been accomplished by focusing on the integrated casting method of single casting by using the full mold casting method which can reduce the material cost due to the process reduction.

According to an aspect of the present invention, there is provided a method of integrally casting a functional member (10) and a body member (20), which are different kinds of castings, A first step (S1) of casting a functional member (10) having an inner space (14) formed with an inner space (13); The foamed polystyrene body model 21 is prepared so as to cast the body member 20 in a full mold manner and then the foamed polystyrene body model 21 is formed on the surface of the body mold 21 except for the fixing face portion 22, A second step (S2) of maintaining a state in which the shading agent (92) is applied to the portion; The mold body 21 is inserted into the first forging mold 31 and the molding sand 95 is filled in the first forging mold 31 and then the opening portion 13 of the functional member 10 The second forging mold 32 is provided so as to cover the upper end of the functional member 10 and the main body model 21 with the side of the third forging mold 32 attached thereto, Step S3; The first forged mold 31 and the second forged mold 32 are turned upside down so that the bottom 24 of the body mold 21 in the first forged mold 31 is exposed to the outside of the first forged mold A molten metal transfer path 96 is formed inside the molding sand 95 of the body mold 21 so as to be connected to the side surface of the body mold 21 and then the bottom mold 24 of the body mold 21 is covered, The third forging mold 33 is provided on the upper side of the mold 31 so as to fill the molding sand 95 in the third forging mold 33 while communicating with the molten metal conveying path 96, A fourth step (S4) of forming a molten metal transfer path (97) connected to the external molten metal inlet (98) and connected to the second molten metal supply port (24). And a fifth step S5 (S5) of injecting the molten metal 99 into the inner space 14 of the body mold 21 and the functional member 10 through the above-mentioned molten metal injection port 98 to complete the heterogeneous cast product A The present invention also provides a method of casting an integrated type casting product using the full mold casting method.

At this time, in the second step S2, the spacing member 91 is first attached to the fixing surface portion 22 on the body model 21 at which the functional member 10 is to be fixed, And then the separating member 91 is detached from the fixing surface portion 22 to remove the fixing surface portion 22 on the surface of the main body model 21 And the remaining area of the remaining part of the shape-retaining material 92 is coated.

The functional member 10 includes a horizontal support portion 15 such that the inner space portion 14 is formed, a side wall portion 16 that is bent at both end portions of the support portion 15, And an inwardly bent portion 17 which is formed by bending each of the inner side portions of the inner space portion 16 to form an opening portion 13 and to form a locking protrusion 78 with the inner space portion 14 .

The inner space 14 is formed in a semicircular or semi-elliptical shape, and a part of the opening side is formed so as to form an opening 13 and an engagement protrusion 78 with the inner space 14, And is formed in a reduced form.

The inner space 14 is formed to have an inclined surface 79 having an opening side formed in an inwardly expanding shape so as to form an opening portion 13 and a coupling step 78 with the inner space portion 14 .

An engaging reinforcing pin 19 protruding from the inner side surface of the functional member 10 toward the inner side space 14 protrudes from the inner side surface of the functional member 10 to form the engaging reinforcing pin 19 are welded and fixed to the inside of the body member 20 so that the coupling force between the functional member 10 and the body member 20 is increased.

The functional member 10 may be integrally formed using a full-mold casting method in a state in which the functional member 10 is fixedly attached to the fixing surface portion 22 of the body mold 21 in a face-to-face manner.

The concavo-convex portion 82 is formed on the contact surface 19 of the functional member 10 fixedly attached to the fixed surface portion 22 of the main body model 21 so that the molten metal 99 contacts the concavo- So that the coupling force between the functional member (10) and the body member (20) is increased.

According to the present invention, by casting the functional member and the body member having different kinds of different materials into one body by using the full mold casting method, it is easy to manufacture the casting requiring a high strength in part, and the material cost is reduced There is an effect that can be done.

In addition, in the full-mold casting method, an expensive functional member is integrally cast on an inexpensive body member to reduce the defective rate in the assembly and processing steps, thereby shortening the mold manufacturing process and the mold making time.

FIG. 1 is a schematic view showing an example of a procedure of a conventional method for producing a heterogeneous casting product
FIG. 2 is a view showing an example of a process sequence of a method of casting an integrated heterogeneous casting product using the full-mold casting method according to the present invention
FIGS. 3 to 5 are diagrams illustrating an example of connecting processes of an embodiment of the present invention
Figures 6-8 illustrate another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a method of casting a functional member having different kinds of different materials and a body member integrally using a full mold casting method so that it is easy to manufacture a casting requiring a partial high strength and a material cost can be reduced due to a process reduction Referring to FIGS. 2 to 8, a method of casting a monolithic casting product using a full-mold casting method is described. Referring to FIGS. 2 to 8, (S5) of integrating the different kind of cast product (A) through the step (S3) and the fourth step (S4).

The details of the first step (S1) to the fifth step (S5) according to the present invention are as follows. FIGS. 3 to 5 are diagrams illustrating an example of connection of processes of an embodiment of the present invention.

The present invention relates to a method of integrally casting a functional member (10) and a body member (20), which are different types of castings, to be used in the production of castings requiring high strength. And the functional member 10 is cast as shown in (1) of FIG. 3. (S1 - Step 1)

The cast member requiring the partially high strength uses a relatively high grade FCD (spheroidal graphite cast iron) or the like in consideration of the material suitability and the body member 20 uses a relatively low grade FC ). At this time, the FCD type (spheroidal graphite cast iron) and the FC type (gray cast iron) are different in the microstructures such as the graphite shape and the pearlite amount, so that the mechanical properties are greatly different and the FCD type (spheroidal graphite cast iron) has excellent hardness, strength and elongation In the present invention, the FCD (spheroidal graphite cast iron) is used as the functional member 10 and the FC (gray cast iron) is used as the body member 20. The FC (gray cast iron) is relatively inexpensive, and the FCD (spheroidal graphite cast iron) is relatively expensive.

When the casting of the functional member 10 is completed, the foamed polystyrene body model 21 is prepared for casting the body member 20 in a full mold manner as shown in (1) of FIG. 3, The shape memory 92 is applied to the remaining portion of the surface of the body model 21 except for the fixing surface portion 22 to which the functional member 10 is to be fixed and the applied state is maintained. Step 2)

In this case, in the second step S2, the molding material 92 may be partially coated on the remaining portion of the body mold 21 except for the fixing face portion 22, but in the embodiment of the present invention, The spacer member 91 is first attached to the fixing surface portion 22 on the main body model 21 at the position where the functional member 10 is to be fixed as shown in FIG. 3, the detachment member 91 is detached from the fixing surface portion 22 to remove the fixing surface portion 22 on the surface of the main body model 21, And to maintain the state in which the mold release agent 92 is applied to the remaining portion.

The separating member 91 applied in the second step S2 is preferably a tape member such as a paper tape which is easily detachable on the fixing surface portion 22 of the main body model 21. [

The casting mold prevents the penetration of the molten metal into the casting mold at the time of injecting the molten metal in the later-described step, makes the casting product better in deflection, and reduces the surface post-treatment time and cost by adjusting the clean casting surface The moldings include solvents, binders, refractories, suspending agents, additives, and the like. At this time, a dispersant, a surfactant, a defoaming agent, an antiseptic, etc. are used as additives.

4, the main body model 21 is inserted into the first forging mold 31, the molding die 95 is filled in the first forging mold 31, The upper end of the functional member 10 and the main body model 21 are covered with the opening 13 of the functional member 10 attached to the fixed surface portion 22 as shown in Fig. The second forging mold 32 is installed to fill the molding sand 95 in the second forging mold 32. (S3 - Third Step)

In this case, the functional member 10 is formed with an inner space 14 formed with an opening 13. The opening 13 allows the molten metal 99 to be injected into the inner space 14 And the engagement protrusions 78 are formed in the openings 13 to increase the bonding force between the functional member 10 and the body member 20. [ The detailed construction of this will be described in detail below.

4, the first forging mold 31 and the second forging mold 32 are turned upside down so that the body molds 21 in the first forging mold 31 A molten metal feed path 96 is formed inside the molding sand 95 of the first forged mold 31 and connected to the side surface of the main body mold 21 in the state in which the bottom portion 24 of the mold 50 is exposed to the outside, The third forging mold 33 is installed on the upper side of the first forging mold 31 so that the bottom portion 24 of the body mold 21 is covered as shown in ⑦ of the third forging mold 33, The molten metal transfer path 97 communicating with the molten metal transfer path 96 while being connected to the bottom portion 24 of the body mold 21 and extending to the external molten metal injection port 98 is formed. S4 - fourth step)

5, the inner space 14 of the body mold 21 and the functional member 10 is filled with the molten metal 99 (FIG. 5) through the molten metal injection port 98, ) Is injected to complete the heterogeneous casting product (A) in an integrated manner (S5-Step 5)

After the fifth step S5 is completed, the interior of the molds 31 to 33 is cooled and then the molds 31 to 33 are disassembled, so that the functional member 10 and the body member 20 are integrally formed (A) is formed.

At this time, when the molten metal 99 is injected into the body mold 12, the molten metal 99 is filled in the inner space 14 of the functional member 10 and the engaging jaw 78 The body member 20 is fixed firmly between the functional member 10 and the body member 20. As shown in Fig. In addition, since the surface of the functional member 10 which is in close contact with the body member 20 due to the high-temperature molten metal 99 of about 1400 DEG C or more is melted and fused, the fixing force is strengthened mutually. After the completion of the injection of the molten metal 99, the molten cast product A having the expensive functional member 10 and the inexpensive body member 20 integrated is completed, The final shape can be processed immediately without assembly.

If the work is performed in the same manner as the above embodiment of the present invention, the working time and work cost can be reduced since the number of machining operations is reduced compared to the conventional method.

The integrated casting product A as described above is as shown in (9) of FIG.

”로 구성될 수 있다.In embodiments of the present invention, the functional member 10 may be configured in various forms to have an inner space 14 formed with an opening 13, The functional member 10 includes a horizontal support portion 15 such that the inner space portion 14 is formed and a side wall portion 16 formed on both sides of both ends of the support portion 15, And an inward bent portion 17 which is formed by bending each inside of the side wall portion 16 to form an opening portion 13 and to form a locking protrusion 78 with the inner side space portion 14. [

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In this case, the support portions 15, the side wall portions 16, and the inward bent portions 17 are vertically bent. However, the shape of the functional member 10 is not necessarily vertical, The support portions 15, the side wall portions 16, and the inwardly bent portions 17 may be inclined with respect to each other, or may be formed in a wired form instead of a straight line. In addition, various shape changes are possible.

By forming the functional member 10 in the above-described manner and joining it with the body member 20, the bonding force is increased mutually and there is no fear of mutual separation, so that the integrated casting of the different casting product A is facilitated.

6 (b), the functional member 10 may be formed as a semicircular or semi-elliptical inner space 14, but the opening 13 may be formed as shown in FIG. 6 (b) A part of the opening side may be formed in an outwardly reduced form so that the engaging protrusion 78 with the inner space 14 is formed.

6 (c), the inner space portion 14 of the functional member 10 is formed so that the opening portion 13 is formed and the coupling protrusion 78 is formed with the inner space portion 14 And the inclined surface 79 having an open side formed in an inwardly widened form.

The engaging protrusion 78 is formed on the opening side of the opening 13 so that the engaging protrusion 78 is brought into close contact with the molten metal 99, So that the force of engagement between the functional member 10 and the body member 20 is increased by causing the member 20 to be cast.

7, an engaging reinforcing pin 19 is protruded from the inner side surface of the functional member 10 toward the inner space 14 to form the body member 20 by the full mold casting method The coupling reinforcing pin 19 is welded and fixed to the inside of the body member 20 so that the coupling force between the functional member 10 and the body member 20 can be increased.

At this time, the coupling reinforcing pin 19 is shown to be formed on the support portion 15 of the functional member 10, but it may be formed on the side wall portion 16 or the inward bent portion 17. 6 (b) and 6 (c).

8 (a), the functional member 10 is fixedly attached to the fixing surface portion 22 of the body mold 21 in a face-to-face manner, and is integrally formed using a full mold casting method Can be configured to be completed. At this time, the functional member 10 can be fixed to the upper surface, the lower surface, and the side surface of the body member 20 formed by the body model 21.

8 (b), the concave and convex portions 82 are formed on the contact surface 19 of the functional member 10 fixedly attached to the fixed surface portion 22 of the main body model 21 in the above embodiment The molten metal 99 is brought into contact with the concave and convex portions 82 so that the bonding force between the functional member 10 and the body member 20 can be increased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

A: heterogeneous casting product 10: functional member
13: opening part 14: inner space part
20: body member 21: body model
22: fixed surface portion 24: bottom portion
31: first forging mold 32: second forging mold
33: third forging mold 91: spacing member
92: Shapes 95: Foundry sand
96, 97: molten metal transfer path 98: molten metal inlet
99: melt

Claims (8)

In a method of integrally molding a functional member (10) and a body member (20), which are different types of castings,
A first step (S1) of casting a functional member (10) having an inner space (14) in which an opening (13) is formed by selecting and preparing a material for the functional member (10);
The foamed polystyrene body model 21 is prepared so as to cast the body member 20 in a full mold manner and then the foamed polystyrene body model 21 is formed on the surface of the body mold 21 except for the fixing face portion 22, A second step (S2) of maintaining a state in which the shading agent (92) is applied to the portion;
The mold body 21 is inserted into the first forging mold 31 and the molding sand 95 is filled in the first forging mold 31 and then the opening portion 13 of the functional member 10 The second forging mold 32 is provided so as to cover the upper end of the functional member 10 and the main body model 21 with the side of the third forging mold 32 attached thereto, Step S3;
The first forged mold 31 and the second forged mold 32 are turned upside down so that the bottom 24 of the body mold 21 in the first forged mold 31 is exposed to the outside of the first forged mold A molten metal transfer path 96 is formed inside the molding sand 95 of the body mold 21 so as to be connected to the side surface of the body mold 21 and then the bottom mold 24 of the body mold 21 is covered, The third forging mold 33 is provided on the upper side of the mold 31 so as to fill the molding sand 95 in the third forging mold 33 while communicating with the molten metal conveying path 96, A fourth step (S4) of forming a molten metal transfer path (97) connected to the external molten metal inlet (98) and connected to the second molten metal supply port (24).
And a fifth step S5 (S5) of injecting the molten metal 99 into the inner space 14 of the body mold 21 and the functional member 10 through the above-mentioned molten metal injection port 98 to complete the heterogeneous cast product A Wherein the casting method comprises the steps of: (a)
The method according to claim 1,
In the second step S2, the spacing member 91 is first attached to the fixing surface portion 22 on the main body model 21 at the position where the functional member 10 is to be fixed, After removing the fixing surface portion 22 on the surface of the main body model 21 by removing the spacing member 91 from the fixing surface portion 22 after coating the mold surface 92 on the entire surface of the main body model 21, Wherein the casting mold (92) is maintained in a state where the casting mold (92) is applied.
The method according to claim 1,
The functional member 10 includes a horizontal support portion 15 for forming an inner space portion 14, a side wall portion 16 bent at both end portions of the support portion 15, And an inwardly bent portion (17) which is formed by bending the inner side of the inner space (14) and the inner space (14) so as to form the opening portion (13) Casting method of monolithic mixed casting products by casting method.
The method according to claim 1,
The inner space 14 is formed in a semicircular or semi-elliptical shape, and a part of the opening side is formed to be inwardly contracted so as to form the opening 13 and to form a locking protrusion 78 with the inner space 14 . The method according to claim 1, wherein the casting is performed by a full mold casting method.
The method according to claim 1,
The inner space portion 14 is configured to have an inclined surface 79 having an open side formed in an inwardly expanding form so as to form an opening portion 13 and a coupling step 78 with the inner space portion 14 Wherein the casting method comprises the steps of:
6. The method according to any one of claims 1 to 5,
An engaging reinforcing pin 19 protruding from the inner side surface of the functional member 10 toward the inner space portion 14 is formed on the engaging reinforcing pin 19 when the body member 20 is formed by a full mold casting method. And the body member (20) is fused and fixed to the interior of the body member (20), thereby increasing the coupling force between the functional member (10) and the body member (20).
3. The method according to claim 1 or 2,
Characterized in that the functional member (10) is integrally formed using a full mold casting system in a state that the functional member (10) is fixed to the fixing surface portion (22) of the body mold (21) Method of casting integral all kinds of casting products.
8. The method of claim 7,
The concave and convex portions 82 are formed on the contact surface 19 of the functional member 10 fixedly attached to the fixed surface portion 22 of the main body model 21 so that the molten metal 99 is brought into contact with the concave and convex portions 82 Wherein the joining force between the functional member (10) and the body member (20) is increased.

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