MOLDING METHOD OF SAND MOLD USING FOAMED SAND, MOLDING DIE, AND SAND MOLD

Abstract

A molding method of a sand mold including a hardened layer in a predetermined thickness range from an outer layer part, includes: forming a cavity and a filling opening of a die so that a dimension, which is a largest dimension between two intersections of straight lines passing through a section of a boundary portion between the cavity and the filling opening of the die, with respect to an outside line of the section, is less than a predetermined ratio with respect to a thickness dimension of that part of a product portion of the sand mold from which a blowing opening molded in the filling opening projects, the product portion being formed by the cavity of the die; and filling foamed sand into the cavity from the filling opening of the die.

Claims

1. A molding die for molding a sand mold including a hardened layer in a predetermined thickness range from an outer layer part, the molding die comprising: a cavity; and a filling opening communicating with the cavity and configured to fill the foamed sand into the cavity, wherein: the cavity and the filling opening are configured such that a dimension b, which is a largest dimension between two intersections of straight lines passing through a section of a boundary portion between the cavity and the filling opening, with respect to an outside line of the section, is less than a predetermined ratio with respect to a thickness dimension d of a part of a product portion of the sand mold from which a blowing opening molded in the filling opening projects, the product portion being formed by the cavity of the die, and a thickness of a vulnerable portion or hollow portion is generally b with respect to the whole thickness b of the blowing opening, a thickness of the hardened layer covering the vulnerable portion or hollow portion is generally b, a thickness of the hardened layer of the product portion is generally d, and a sum b of the thickness b of the vulnerable portion or hollow portion of the blowing opening and the thickness b of the hardened layer is less than a thickness d of the hardened layer of a part of the product portion in which the blowing opening is formed.

2. The molding die according to claim 1, wherein: values of b and d are set so as to satisfy b<d/2.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] Features, advantages, and technical and industrial significance of exemplary embodiments of the invention will be described below with reference to the accompanying drawings, in which like numerals denote like elements, and wherein:

[0020] FIG. 1A is a schematic sectional view of a sand mold molded by a molding method of a sand mold using foamed sand according to an embodiment of the present invention, and illustrates a dimensional relationship between a blowing opening and a product portion of the sand mold, according to the embodiment of the present invention;

[0021] FIG. 1B illustrates a dimensional relationship between a blowing opening and a product portion of a sand mold, according to a comparative example;

[0022] FIG. 2A is a schematic sectional view of a die and a sand-mold molding device to which the embodiment of the present invention is applicable, and illustrates an example in which the embodiment is applied to a horizontally split type;

[0023] FIG. 2B is a schematic sectional view of a die and a sand-mold molding device to which the embodiment of the present invention is applicable, and illustrates an example in which the embodiment is applied to a vertically split type; and

[0024] FIG. 3 is a sectional view diagrammatically illustrating an overall configuration of a sand-mold molding device of a related art that is applicable to the embodiment of the present invention.

DETAILED DESCRIPTION OF EMBODIMENTS

[0025] The following describes a mode for carrying out the present invention with reference to the accompanying drawings. Note that, in this description, the same part as a constituent in a related art or an equivalent part to the constituent in the related art is indicated by the same sign as the constituent in the related art, and detailed explanations thereof are omitted. A molding method of a sand mold using foamed sand according to the embodiment of the present invention is such that a die 2 is set in a sand tank 12, and foamed sand S in the sand tank 12 is pressurized by a pressurization mechanism 13, as illustrated in FIG. 3. Hereby, the foamed sand S is filled into a cavity C of the die 2 via a filling opening 5. The die 2 is heated to around 150 C. to 300 C., so as to vaporize water in the foamed sand S filled in the cavity C, thereby solidifying the foamed sand S. After that, the die 2 is opened and a sand core thus molded is taken out therefrom, and thus, a sand mold 20 illustrated in FIG. 1A is molded.

[0026] The sand mold 20 includes a product portion 22 molded inside the cavity C of the die 2, and a blowing opening 24 formed inside the filling opening 5. Here, the sand mold 20 is illustrated in FIG. 1A such that only an area where the blowing opening 24 projects is extracted out of the product portion 22 having a more complicated shape as a whole, so as to show its sectional view. In predetermined thickness ranges from respective outer layer parts of the product portion 22 and the blowing opening 24, hardened layers 22H, 24H are formed. Further, vulnerable portions or hollow portions 22S, 24S are formed inside the hardened layers 22H, 24H. In a process of heating and hardening of the foamed sand S, water glass and an aggregate are accumulated in an outer layer part of a molded product, so that a minute hardened layer having a necessary strength is formed in a predetermined thickness range from the outer layer part of the molded product. Due to this mechanism, the product portion 22 and the blowing opening 24 are each configured such that a thickness of the vulnerable portion or hollow portion 22S, 24S is generally one-third of a whole thickness of the product portion 22 or the blowing opening 24. Further, each of the hardened layers 22H, 24H covering the vulnerable portion or hollow portion 22S, 24S has a thickness of generally one-third of the whole thickness of the product portion 22 or the blowing opening 24.

[0027] In the embodiment of the present invention, b indicates a dimension for a largest distance between intersections of straight lines passing through a section of a boundary portion between the product portion 22 and the blowing opening 24, with respect to an outside line of the section, as illustrated in FIG. 1. The molding is performed so that the dimension b is less than a predetermined ratio with respect to a thickness dimension d of that part of the product portion 22 from which the blowing opening 24 projects. More specifically, values of b and d are set so that b<d/2 is satisfied.

[0028] A specific method of setting ranges of the values of b and d is as follows. As described above, in the sand mold 20 molded by the present method, the thickness of the vulnerable portion or hollow portion 24S is generally b with respect to the whole thickness b of the blowing opening 24, and the thickness of the hardened layer 24H covering the vulnerable portion or hollow portion 24S is generally b. Further, the thickness of the vulnerable portion or hollow portion 22S is generally d with respect to the thickness dimension d of that part of the product portion 22 from which the blowing opening 24 projects, and the thickness of the hardened layer 22H covering the vulnerable portion or hollow portion 22S is generally d. In the product portion 22, in order to secure a sufficient thickness for the vulnerable portion or hollow portion 22S of the product portion 22 not to be exposed in that part of the hardened layer 22H from which the blowing opening 24 is removed, the following relationship should be satisfied. That is, as illustrated in FIG. 1A, a sum b of the thickness b of the vulnerable portion or hollow portion 24S of the blowing opening 24 and the thickness b of the hardened layer 24H should be less than the thickness d of the hardened layer 22H of that part of the product portion 22 in which the blowing opening 24 is formed. When the above dimensional relationship is described briefly, it can be expressed as b<d, namely, b<d/2.

[0029] Further, the die 2 used to obtain the sand mold 20 in the present embodiment also has the same relationship as the dimensional relationship of the sand mold 20 illustrated in FIG. 1A. That is, the cavity C and the filling opening 5 of the die 2 are configured such that a dimension b, which is a largest dimension between two intersections of straight lines passing through a section of a boundary portion between the cavity C and the filling opening 5 (see FIG. 3), with respect to an outside line of the section, is not more than a predetermined ratio with respect to a dimension of a thickness d of that part of the sand mold 20 formed by the cavity C of the die 2 from which the blowing opening 24 projects. That is, the cavity C and the filling opening 5 of the die 2 are configured such that values of b and d satisfy b<d/2. Thus, the sand mold 20 illustrated in FIG. 1A can be obtained by molding a sand mold by use of the die 2 configured as such.

[0030] Note that the embodiment of the present invention is applicable regardless of the placement of a parting line of the die 2 to be used for molding of the sand mold 20. For example, the embodiment is applicable to a horizontally split type 2V in which a parting line PL extends laterally as illustrated in FIG. 2A, and to a vertically split type 2H in which a parting line PL extends in an up-down direction as illustrated in FIG. 2B. In FIGS. 2A, 2B, a reference sign 15 indicates a press fitting plate, and a reference sign 15a indicates a press fitting opening. Here, in a case where the embodiment is applied to the horizontally split type 2V, the filling opening 5 generally has a circular-cone shape, and a sectional shape of a boundary portion of the filling opening 5 with respect to the cavity C is circular. In view of this, the dimension b between two intersections of straight lines passing through the section of the boundary portion of the filling opening 5 with respect to the cavity C, and an outside line of the section is uniform and largest in any direction, in general.

[0031] On the other hand, in a case where the embodiment is applied to the vertically split type 2H, the filling opening 5 may be provided only on one die, and a sectional shape of a boundary portion of the filling opening 5 with respect to the cavity C may be asymmetric (for example, semicircular). In such a case, the sectional shape of the boundary portion of the filling opening 5 with respect to the cavity C may be asymmetric. Accordingly, the dimension b between two intersections of straight lines passing through the section of the boundary portion of the filling opening 5 with respect to the cavity C, and an outside line of the section varies depending on a direction where the straight lines passing through the section extend. In this case, the dimension b is set to a largest dimension between the two intersections of the straight lines passing through the section and the outside line of the section.

[0032] According to the embodiment of the present invention, the cavity C and the filling opening 5 of the die 2 are configured such that the dimension b, which is the largest dimension between two intersections of the straight lines passing through the section of the boundary portion between the cavity C and the filling opening 5 of the die 2, with respect to the outside line of the section, and the thickness dimension d of that part of the product portion 22 formed by the cavity C of the die 2 from which the blowing opening 24 projects satisfy b<d/2. Then, the foamed sand S is filled into the cavity C from the filling opening 5 of the die 2 configured as described in FIG. 3, so as to mold the sand mold 20. Hereby, the hardened layer 22H having a sufficient thickness is secured in that part of the product portion 22 from which the blowing opening 24 is removed. Accordingly, it is possible to inhibit molten metal from flowing into the vulnerable portion or hollow portion 22S of the product portion 22 at the time of casting.

[0033] Note that FIG. 1B illustrates a dimensional relationship between a blowing opening 24 and a product portion 22 of a sand mold 20, according to a comparative example relative to the embodiment of the present invention. In the comparative example, a sum b of a thickness b of a vulnerable portion or hollow portion 24S of the blowing opening 24 and a thickness b of a hardened layer 24H is set to not less than a thickness d of a hardened layer 22H of the product portion 22. When the above dimensional relationship is described briefly, it can be expressed as bd, namely, bd/2. In a case of the comparative example of FIG. 1B, the hardened layer 22H is not secured in that part of the product portion 22 from which the blowing opening 24 is removed, thereby resulting in that the vulnerable portion or hollow portion 22S is exposed. It can be understood that, according to the comparative example, it is difficult to inhibit molten metal from flowing into the vulnerable portion or hollow portion 22S of the product portion 22 at the time of casting.