JPS63278636A - Die in die casting apparatus - Google Patents

Abstract

PURPOSE:To facilitate orientated solidification and to obtain a light alloy casting having only a little interval defect by inserting cast-in of a cooling pipe in a die at the position to be necessary to cool. CONSTITUTION:On a mold loading table 4 of a furnace body containing molten Al alloy, the lower die in the die A, in which the cooling pipes 16, 17 are inserted under the cast-in condition at the position to be necessary to cool, is fitted. Further, a partition die 18 composing of a side die 12, in which the cooling pipe 22 is inserted under the cast-in condition at right and left and front and rear is fitted at upper part of the lower die as freely closing or opening and also, the upper die 13, in which the cooling pipe 26 is inserted under the cast-in condition to be necessary to cool, is fitted to a die fitting plate arranged as freely lifting on a base plate for supporting the furnace body. Next, by increasing the air pressure in the furnace, the molten Al alloy is cast into a cavity 35 in the die A. During casting, coolant, such as water, is flowed in the cooling pipes 16, 17, 22, 26, and the part, where blow hole is easily developed, is cooled and cast, and the casting is taken out by moving the side die 12 and upper die 13 after casting.

Description

DETAILED DESCRIPTION OF THE INVENTION A.Objective of the invention (industrial application field) The present invention is used for casting aluminum wheel castings for vehicles, etc., and produces light alloy castings that facilitate directional solidification and have fewer internal defects. The present invention relates to a mold in a mold casting device that can be obtained.

(Prior Art) As disclosed in Japanese Patent Application Laid-open No. 59-225853, a cooling device for a mold includes a cooling element embedded in a part of the mold and communicating with the cooling element for cooling the mold. nine stages of cooling medium supply means for supplying a cooling medium to the cooling element; a decompression means communicating with the cooling element and reducing the pressure inside the cooling element; There was a structure like this.

(Problems to be Solved by the Invention) However, although the conventional mold cooling device described above can greatly improve cooling efficiency without causing problems such as water leakage from the mold, it is low cost. It is not possible to obtain a mold with a cooling circuit, and there is also the problem that it is not possible to process a cooling path on a complicated curved surface at a low price. Since it is not possible to obtain an efficient circuit through the process, it is not possible to shorten the molding time (cycle time) of one process, so it is not possible to mold high-quality molded products efficiently in a short time. There were also some problems.

The present invention was made in order to solve the above-mentioned conventional problems, and utilizes directional solidification and solidification analysis means to shorten the casting process. The object of the present invention is to provide a mold for a mold casting method that can efficiently form high-quality molded products using a low-cost mold with a cooling circuit.

1. Structure of the invention (means for solving the problems) As shown in the embodiments, the mold in the mold casting apparatus according to the present invention for achieving the above object is made of a light alloy such as an aluminum alloy. In mold casting of castings, cooling pipes 16,17.
It has a structure in which 22, 23, 24, 25, and 26 are cast.

(Function) When molding a vehicle aluminum wheel 10 as shown in FIG. 4 of the embodiment using a mold in this mold casting apparatus, for example, a furnace body 3 containing molten aluminum alloy The lower mold 11 of the mold A, in which the cooling pipes 16 and 17 are cast into the parts that require cooling, is attached to the mold mounting table 4, and cooling pipes 22 are installed on the upper part of the lower mold 11 in the left and right directions. A split mold 18.19.2021 consisting of a horizontal mold 12 made by casting .23.24.25 was attached so that it could be collapsed or expanded, and it was also installed on the base plate 6 of the support 5.5 of the furnace body 3 so that it could be raised and lowered. To attach the mold, the upper mold 13 with the cooling pipe 26 cast into the part that requires cooling is attached to the plate 8 in the same way as described above, and then the air pressure inside the furnace body 3 is increased to pour the molten aluminum alloy into the mold. It is sent into the cavity 35 and cast into a predetermined shape, and during this casting, the cooling pipe 1 is
6. 17. 22. 23. 24. 25. 26, pass a cooling medium such as water to cool the parts where cavities are likely to occur, and then cast, and after forming, move the horizontal die 12 and upper die 13 to form the cast aluminum product. The wheel 10 is taken out.

(Example) Next, an example of a mold in a mold casting apparatus according to the present invention will be described based on FIGS. 1 to 4 of the drawings.

In the figure, A is a mold casting device for light alloy castings made of aluminum alloy, which includes a furnace body 3 equipped with a storage furnace part 1 and a pouring port 2 for storing molten aluminum alloy, and a mold mounting table 4 of this furnace body 3. A support 5.5 is installed vertically on the support 5.5, a base plate 6 is attached to the support 5.5, a mold is mounted on the base plate 6 by a shaft 7 that can be raised and lowered, and the mold is mounted on a plate 8. It consists of a hydraulic cylinder 9.

A is a mold that is attached to the mold casting apparatus A to form a cast aluminum wheel 10, and is composed of a lower mold 11, a horizontal mold 12, and an upper mold 13, and the lower mold 11 has an outer ring member 14 and an inner ring member. 15, which are fixed together when in use, and cooling pipes 16 and 17 are cast in the respective positions where cooling is required, and are fixed to the mold mount 4 of the furnace body 3.

Furthermore, the horizontal type 12 is divided into four divided types 18, 19, 20, 21
Cooling pipes 22, 23, 24, 25 are cast into each of the divided molds 18, 19, 20, 21 at positions where blowholes are likely to form to form cooling circuit openings. Structural steel pipes, stainless steel pipes, etc. are selected as the material of the pipe (the cooling pipe) to be cast to obtain the cooling circuit opening, and this pipe is set in a metal mold and cast iron, cast steel, etc. In cases where a mold is obtained by melting and casting raw materials and then machining this mold to obtain a mold, or when manufacturing a mold by machining from a block of special steel, the pipe is cast in advance. Since it is difficult to do so, the entire area that requires cooling is first carved out by machining, a cooling pipe is set in the carved space, and a different metal such as aluminum alloy is poured into the cooling pipe. There are cases where the circuit port is integrated.

Further, the upper mold 13 is an integral type with a circumferential groove formed in a portion that requires cooling, and a cooling pipe 26 is formed by casting in this circumferential groove.

In addition, the cooling pipe 16.17.22.23.24.2
5.26 is cast-in along the mold portions of the lower, side, and upper molds 11, 12, and 13, and is particularly provided at a position corresponding to the thick part of the product.

27.28.29.30 are horizontal type 12 each divided type 18.1
9.20.21 is slidably attached to the movable table part, and the horizontal mold 1 is installed on the mold mounting table 4 of the furnace body 3 in correspondence with the lower mold 11.
The two divided molds 18, 19, 20, and 21 are held so that they can be collapsed or expanded, and the horizontal mold 12 is expanded when taking out the product.

31 is each cooling pipe 16.17.22.23.2
Send cooling water through the water supply pipe connected to 4.25.26.

32 is a cooling pipe 16.17.22.23.24.2
5. The drain pipe connected to 26 allows circulation and discharge of cooling water.

33 is a receiving plate on which the formed aluminum wheel 10 is placed, and is slidably provided on the rail of the underframe 34 provided on one side of the furnace body 3, and the formed aluminum wheel 10 attached to the upper die 13 is pulled upward. It protrudes below the wheel 10 and receives the aluminum wheel 10 removed from the upper die 13.

In addition, when this receiving plate 33 is formed by automatic operations such as molding and mold release,
It also says that it can be opened automatically.

Reference numeral 34 denotes a rod for separating molded products provided below the base plate 6 of the support column 5.5.

35 is a cavity formed by the mold parts of the lower mold 11, the horizontal mold 12, and the upper mold 13.

36 is a hot water conduit (stalk) corresponding to the inside of the furnace body 3, which increases the air pressure inside the furnace and sends the molten urumium alloy to the cavity 35.

When molding an aluminum wheel 10 for a vehicle using the mold according to this embodiment, the lower mold 11 is placed on the mold mounting table 4 of the furnace body 3, and the movable table section 27, 28, 29, 30
18, 19, 20, and 21 of the horizontal mold 12 are attached to the plate 8, and the upper mold 13 is attached to the plate 8, and the mold A is set in the specified position.Then, the air pressure inside the furnace body 3 is increased and the molten aluminum is heated. While feeding the alloy into the cavity 35 and forming it,
Cooling water is sent to the cooling pipes 16, 17, 22, 23, 24, 25, and 26 cast into the upper mold 11, horizontal mold 12, and lower mold 13, and cools the parts of the molded product that are likely to produce blowholes. The aluminum wheel 10, which is the molded product, is obtained by molding and releasing from the mold after molding.

The mold in the mold casting apparatus according to the present invention is a mold in which cooling pipes are cast in the parts that require cooling, using directional solidification and solidification analysis means to shorten the casting process. and the cooling pipe 16.17.22.23.24.
25. Send cooling water, air, or a mixture of air and cooling water to 26, and detect the temperature of the mold A with a sensor, and cool the mold.

In some cases, the control means B adjusts the temperature distribution of the mold A by controlling the flow rate of moving water or the like, and a system diagram thereof is shown in FIG.

In this case, the mold temperature is detected by a sensor, and the temperature control means B sends a signal to the pulp while applying feedback or feed-for, and supplies or stops cooling water or cold air to obtain the optimal molding temperature condition. This enables ideal low-pressure casting.

・10 Effects of the Invention As mentioned above, the mold in the mold casting apparatus according to the present invention is capable of performing directional solidification and casting process in mold casting of light alloy castings such as aluminum alloy. Because the structure utilizes a method of solidification analysis to obtain shortening time, and a cooling pipe is cast in the parts that require cooling, casting molds are originally heated and cooled repeatedly, so there is always a risk of mold cracking. is accompanied by In that case, when using water cooling as a means of direct cooling, it not only causes defects in the product, but also, especially in the case of low-pressure casting, because the casting space is directly leaking liquid into the furnace body.
To solve the problem of using direct air cooling or indirect cooling instead of direct cooling due to the risk of explosion due to water leakage by casting the pipe, and also to obtain a low-cost mold with a cooling circuit. What you can do.

It is possible to inexpensively install a cooling circuit on a curved surface, which is difficult to do using conventional processing technology.

Even with the inexpensive mold, directional solidification can be easily obtained, light alloy castings with extremely few internal defects can be formed, and the yield is good.

When creating a cooling circuit, there is a higher degree of freedom than traditional processing, so
Efficient cooling becomes possible, the time required for one molding unit can be significantly shortened, and casting efficiency can be increased.

It has the following unique effects.

[Brief explanation of drawings]

Figure 1 is a longitudinal sectional front view showing the state of use of the mold in the mold casting apparatus according to the present invention, and Figure 2 is a cross-sectional view of the mold.
Figure 3 is a side view of the mold casting machine set in place, Figure 4
The figure is a sectional view of an aluminum wheel as a molded product, and FIG. 5 is a system diagram showing another embodiment. In the figure, A is the mold casting equipment, A is the mold, 16.17.22
．． 23, 24, 25, 26 are cooling pipes.

Claims (1)

[Claims] In mold casting of light alloy castings such as aluminum alloy,
A mold in a mold casting device characterized by using directional solidification and solidification analysis means to shorten the casting process, and a cooling pipe is cast into the mold in the part that requires cooling. .