JPH0390269A - Simple casting method and mold thereof - Google Patents

Abstract

PURPOSE:To easily obtain molten metal with a molten metal bath, etc., and to enable casting work in a hobby in general home by pouring molten low m.p. alloy in a mold. CONSTITUTION:The molten low m.p. alloy is poured into cavity 11 in the mold 1 through a runner 12. The m.p. of this alloy is desirable to <=100 deg.C. The mold material uses clay. A molding pattern is wrapped with molten rubber material, and after solidifying, a part of the rubber material is divided till reaching to the surface of mold pattern and the molding pattern is taken out. The low m.p. alloy is held in water at the temp. equal to the m.p. thereof or higher. The molten low m.p. alloy is charged in a closed vessel and the inner part in the vessel is pressurized to pour the molten metal into a mold. By this method, the casting work can be executed without needing the large-scale equipment.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a simple casting method, a simple casting mold, a method for manufacturing a simple casting mold, a simple casting mold device, a casting material melting method for simple casting, and a simple casting mold. The present invention relates to a pouring method for casting and a simple casting material storage device for casting, and is particularly used when performing casting work as a hobby at home or the like.

[Conventional technology]

Casting involves melting a casting material, pouring it into a mold, and solidifying it to form a cast product.

[Problem to be solved by the invention]

For this reason, the casting work required expensive equipment, and as a result, it was difficult for sailors to carry out the casting work at home as a hobby.

An object of the present invention is to eliminate the above-mentioned disadvantages.

[Means to solve the problem]

In order to achieve the above object, in the simple casting method of the present invention, a molten metal of a low melting point alloy is poured into a mold.

In this case, the mold material can be clay.

Furthermore, when manufacturing a mold, the mold model is wrapped in a molten rubber material and solidified, and then a portion of the rubber material is divided until it reaches the surface of the mold model, and the mold model can be taken out.

Further, when melting a casting material, a low melting point alloy may be kept in water having a temperature higher than the melting point of the alloy.

Alternatively, a low melting point alloy may be placed in a container, and the container may be kept in water having a temperature higher than the melting point of the alloy.

Further, when pouring molten metal, the molten metal of the low melting point alloy can be placed in a closed container, the inside of the container can be pressurized, and the molten metal can be poured into the mold.

Also, the low melting point alloy can be contained within a pressurizable container.

It is also possible to melt a low melting point alloy housed in a pressurizable container by heating it from outside the container.

Furthermore, it is also possible to combine the low melting point alloy and the mold material into a set.

Further, as this type of set, a combination of a low melting point alloy and a mold, a combination of a low melting point alloy, a mold material, and a mold model can be considered.

[Effect]

Since the simple casting method of the present invention is configured as described above, that is, since a low melting point alloy is used as the casting material, molten metal can be easily obtained by using a hot water bath or the like.

Incidentally, if the mold is made of clay such as oil clay, the mold can be manufactured easily.

In addition, when the mold is manufactured from a rubber material, the mold model is wrapped in molten rubber material and solidified, and then a part of this rubber material is divided until it reaches the surface of the mold model, and the mold model is taken out. Mold manufacturing is easy.

Further, when melting a low melting point alloy as a casting material, a molten metal can be easily obtained by holding the low melting point alloy in water having a temperature higher than the melting point of the alloy.

Note that if a low melting point alloy is housed in a container and the container is kept in water having a temperature higher than the melting point of the alloy, the molten metal can be easily separated from the water.

Further, by storing the molten metal of the low melting point alloy in a closed container, pressurizing the inside of the container, and pouring the molten metal into the mold, good flow of the molten metal can be easily ensured.

Moreover, if the low melting point alloy is housed in a pressurizable container, the low melting point alloy can be melted while being housed in the container, and can also be pressurized and poured in that state.

Furthermore, if a low melting point alloy and mold material are combined and sold as a set, casting work can be easily carried out at home.

A low melting point alloy and a mold can be combined to form a set, or a low melting point alloy, a mold material, and a mold pattern can be combined to form a set.

〔Example〕

The present invention will be described in detail below based on two drawings.

In FIG. 1, numeral 1 denotes a mold, which is made of clay (oil clay, etc.). In this mold 1, 11 is a cavity, 12
is a hot water path. A molten tJ of low melting point alloy (generally an alloy with a melting point of about 200°C or less) M is poured into this mold 1 through a runner 12.
6 F is poured, and in this case, it is desirable that the low melting point alloy M has a melting point of about 100° C. or lower, considering the material of the mold 1 and safety.

Note that the mold 1 can also be made of an elastic material such as rubber. In this case, as shown in FIGS. 2 and 3, the casting model 2 is wrapped in the molten rubber material 3. After the rubber material 3 is solidified, a crack 31 is made in a part of the rubber material 3 until it reaches the surface of the model 2. Then, as shown by the imaginary lines in FIG. 3, both sides of the crack 31 in the rubber material 3 are pulled outward, and the casting model 2 is taken out from the part where the crack 310 is opened. When the mold 1 thus formed is to be removed after pouring the metal, the cracks 31 in the mold 2 may be opened in the same manner as when the casting model 2 is taken out.

4 to 7 show an apparatus for melting low melting point alloy M to obtain molten metal F.

In FIG. 4, reference numeral 41 denotes a heat-insulating container, which contains water (water temperature equal to or higher than the melting point of the low-melting point alloy) W.

42 is a melting container, which is integrally formed with the heat-insulating container 41. This melting container 42 contains a low melting point alloy M. This low melting point alloy M melts depending on the water temperature.

The melted low melting point alloy (molten metal F) M is poured into the mold 1 through the spout 421 by tilting the heat insulating container 41.

FIG. 5 shows a second embodiment of the melting device, in which a melting container 42 is swingably supported by a support member 431 on the lower surface of a spout 421. For this reason, the melting container 42
can be swung in the direction of the arrow with respect to the heat insulating container 41, and the molten low melting point alloy (molten metal F) M can be poured into the mold 1. Note that this melting container 42 is removable from the heat-insulating container 41.

6 and 7 show a third embodiment of the melting device, in which a melting container 42 is supported by a support shaft 43, and this support shaft 43 is hooked onto the edge 411, 411 of the heat-insulating container 41. . In addition, in order to prevent the melting container 42 from rotating with respect to the support shaft 43, a prismatic portion 431 is provided on a part of the support shaft 43, and in order to stabilize the support shaft 43 with respect to the edge 411 of the heat-insulating container 41. , a locking piece 432 is provided.

In FIG. 8, 5 is a syringe, and a molten metal F is accommodated in a cylinder portion 51. In FIG. In this state, the piston part 5
2, the molten metal F can be poured into the mold 1 under pressure. Note that the same effect can be obtained by housing imF in a pressurizable tube or the like instead of the syringe 5.

FIG. 9 shows a tube 6 (corresponding to the "container" of the present invention) containing a low melting point alloy M. If the low melting point alloy M is accommodated in the tube 6 in this manner, the low melting point alloy M can be melted while being accommodated in the tube 6, and can be pressurized and poured in that state.

In the W and lo diagrams, low melting point alloy M and mold material 15 are placed in box 7.
, a casting model 2 and a melting container 42 are assembled as a set. Note that the mold 1 may be packed instead of the mold material 15.

〔effect〕

Since the simple casting method of the present invention injects a molten metal of a low melting point alloy into the mold, that is, a low melting point alloy is used as the casting material,
Molten metal can be easily obtained in a hot water bath or the like.

Therefore, if this casting method is used, the casting work does not require extensive equipment, and as a result, the casting work can be carried out at home as a hobby.

Incidentally, if the mold is made of clay such as oil clay, the mold can be manufactured easily.

In addition, when the mold is manufactured from a rubber material, the mold model is wrapped in molten rubber material and solidified, and then a part of this rubber material is divided until it reaches the surface of the mold model, and the mold model is taken out. This makes mold manufacturing easy.

Further, when melting a low melting point alloy as a casting material, a molten metal can be easily obtained by holding the low melting point alloy in water having a temperature higher than the melting point of the alloy.

Note that if a low melting point alloy is housed in a container and the container is kept in water having a temperature higher than the melting point of the alloy, the molten metal can be easily separated from the water.

Further, by storing the molten metal of the low melting point alloy in a closed container, pressurizing the inside of the container, and pouring the molten metal into the mold, good flow of the molten metal can be easily ensured.

Moreover, if the low melting point alloy is housed in a pressurizable container, the low melting point alloy can be melted while being housed in the container, and can also be pressurized and poured in that state.

Furthermore, if a low melting point alloy and mold material are combined and sold as a set, casting work can be easily carried out at home.

In addition, a low melting point alloy and a mold can be combined to form a set, or a low melting point alloy, a mold material, and a mold model can be combined to form a set.

[Brief explanation of drawings]

Fig. 1 is a mold according to an embodiment of the present invention, Fig. 2 is a sectional view of the mold manufacturing process, Fig. 3 is a perspective view thereof, Fig. 4 is a sectional view of the first embodiment of the melting device, and Fig. 5 is a sectional view of the mold manufacturing process. A sectional view of the second embodiment of the melting device, FIG. 6 is a perspective view of the third embodiment of the melting device, FIG. 7 is a perspective view of the support shaft in FIG. 6,
FIG. 8 is a sectional view of a pressurized container containing molten metal, FIG. 9 is a sectional view of a pressurized container containing a low melting point alloy, and FIG. 10 is a perspective view of a set of casting equipment. 1 ... M ... ゝF ... 15 ... 2 ... 42 ... 5 ... 6 ... Mold Low melting point alloy Molten metal Mold material Mold model melting container (container) Syringe (sealed) Container) Tube (pressurizable container) Junjin Asahi Malleable Iron Co., Ltd. Fig. 3 Fig. 4 Fig. 5 Fig. 8

Claims (11)

[Claims] (1) A simple casting method characterized by injecting molten metal of a low melting point alloy into a mold. (2) A simple casting mold characterized in that the mold material is clay. (3) A simple casting mold characterized in that the mold model is wrapped in a molten rubber material and solidified, and then a part of the rubber material is divided until it reaches the surface of the mold model, and the mold model is taken out. Production method. (4) A method for melting a casting material for simple casting, characterized by holding a low melting point alloy in water at a temperature higher than the melting point of the alloy. (5) A method for melting a casting material for simple casting, characterized by placing a low melting point alloy in a container and maintaining the container in water having a temperature higher than the melting point of the alloy. (6) A simple pouring method for casting, which comprises storing a molten metal of a low melting point alloy in a closed container, pressurizing the inside of the container, and pouring the molten metal into a mold. (7) A casting material storage device for simple casting, characterized in that a low melting point alloy is stored in a pressurizable container. (8) A method for melting a casting material for simple casting, characterized in that a low melting point alloy housed in a pressurizable container is heated from the outside of the container to melt the alloy. (9) A simple casting device that combines a low melting point alloy and mold material into a set. (10) A simple casting device that combines a low melting point alloy and a mold into a set. (11) A simple casting device that combines a low melting point alloy, a mold material, and a mold model into a set.