KR101294042B1 - Oil jacket core of cylinder head mold for lower casting - Google Patents

Abstract

The present invention constitutes a mounting end formed with mounting projections on both sides of the oil jacket core to install directly on the mold in the core insertion process, low pressure to reduce the manufacturing cost by eliminating the core print and core neck processing and assembly process An oil jacket core of a cylinder head mold for casting is provided.

Low pressure casting, cylinder head mold, oil jacket core, mounting end, mounting protrusion

Description

Oil jacket core of cylinder head mold for low pressure casting {OIL JACKET CORE OF CYLINDER HEAD MOLD FOR LOWER CASTING}

The present invention relates to an oil jacket core of a cylinder head mold for low pressure casting, and more particularly, a core print and a core print and to be installed directly on a mold to be installed on the water jacket core in the core insertion process. The present invention relates to an oil jacket core of a cylinder head mold for low pressure casting, which reduces manufacturing costs by eliminating core neck processing and assembly processes.

In general, the low pressure casting method is a casting method in which a molten metal is pressed in a mold installed on the upper part by applying pressure using compressed air or an inert gas to a molten metal surface in a closed furnace, as shown in FIG. The production process of the used aluminum cylinder head, first melt the aluminum ingot (Al ingot) in the melting furnace to make a molten metal 1, this molten metal (1) as shown in Figure 2, the casting machine (7) equipped with a heater (3) To feed.

Then, in the core insertion process, the water jacket core 8 and the oil jacket core 9 of the cylinder head are set on the lower mold 11, which is a lower mold, and the intake and An intake port and an exhaust port are set in the lower mold 11 in the exhaust combustion chamber.

Next, the upper mold 15 is combined with the lower mold 11 to inject the molten metal 1 through the spout 5 and cooled.

In this manner, after molding, the upper mold 15 and the lower mold 11 are separated, and after the product is taken out, the cylinder head 10 product is cooled and transferred to the machining process.

In the core insertion process, the water jacket core 8 and the oil jacket core 9, as shown in Figure 2, first, the oil jacket core (9) on top of the water jacket core (8) This setting is made on each core print 17, 19 of the water jacket core 8 and the oil jacket core 9.

The core print 17 of the water jacket core 8 and the core print 19 of the oil jacket core 9 are connected through core necks 21 and 23, respectively, and the core of the water jacket core 8 is connected. A mounting groove 25 is formed in the print 17, and a mounting protrusion 27 is formed on the core print 19 of the oil jacket core 9 corresponding to the mounting groove 25.

That is, the setting is completed as the mounting protrusion 27 of the oil jacket core 9 is inserted in the mounting groove 25 of the water jacket core 8.

However, after the conventional oil jacket core is set on the water jacket core, the core neck for connecting the core print and the core print is essentially formed on the oil jacket core as installed on the lower mold. Processing and assembly process is added, there is a problem that the manufacturing cost rises.

In addition, due to the thickness variation of the water jacket core and the oil jacket core, the core thermal expansion amount and the deformation degree are different when the molten metal is injected, so that it is difficult to correct the dimensions, and the core print of the oil jacket core depends on the core print formability of the water jacket core. Since the thickness and position are determined, there is a problem that the degree of freedom of the mold for manufacturing the oil jacket core is reduced.

Therefore, the present invention has been invented to solve the problems as described above, the object of the present invention is to configure the mounting end formed with mounting projections on both sides of the oil jacket core by installing directly on the mold in the middle insertion process In order to reduce the manufacturing cost by eliminating the core print and core neck processing and assembly process, an oil jacket core of a cylinder head mold for low pressure casting is provided.

The oil jacket core of the low pressure casting cylinder head mold according to an embodiment of the present invention for achieving this purpose is installed in the cylinder head mold consisting of the front and rear left and right side molds to form an oil jacket inside the cylinder head during the casting operation In the oil jacket core of the cylinder head mold for low pressure casting,

A core block forming an oil jacket; Mounting ends respectively formed on both sides of the core block to correspond to the mounting grooves formed on the upper surfaces of the respective side molds; It is characterized in that it comprises a; mounting protrusion which is formed on the lower end of each mounting end is fitted into the mounting groove to install the core block between the front, rear side mold.

The mounting end is formed in the shape of the "b" shape, characterized in that formed on both sides of the upper surface of the core block upward.

The mounting protrusion is formed in a trapezoidal shape, characterized in that protruding downward on the lower surface of the mounting end.

As described above, according to the oil jacket core of the low-pressure casting cylinder head mold according to the present invention, the core print and core neck processing and assembling processes are removed by directly installing on the mold what was conventionally set in the water jacket core. It is effective to reduce manufacturing cost.

In addition, the oil jacket core can be set regardless of the core print formability of the water jacket core, thereby securing the freedom of the mold for manufacturing the oil jacket core, thereby enabling a stable quality of the oil jacket core. There is.

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

3 is a mounting state diagram of the oil jacket core of the low pressure casting cylinder head mold according to an embodiment of the present invention, Figure 4 is a perspective view of the oil jacket core of the low pressure casting cylinder head mold according to an embodiment of the present invention.

The oil jacket core of the low pressure casting cylinder head mold according to the embodiment of the present invention is installed in the cylinder head mold composed of front, rear, left and right side molds, thereby forming an oil jacket inside the cylinder head.

First, as shown in FIG. 3, mounting grooves 105 are formed on the upper surfaces of the front and rear side mold 101 and 103, respectively.

And the oil jacket core 120, as shown in Figure 4, first, the core block 121 to form an oil jacket is configured.

Mounting ends 123 are formed at both sides of the core block 121 to correspond to the mounting grooves 105, respectively.

Here, the mounting end 123 is formed in the shape of the "b" shape, it is formed upward on both ends of the upper surface of the core block 121.

In addition, mounting protrusions 125 are formed at the bottom of the distal end of each mounting end 123.

The mounting protrusion 125 is fitted into each of the mounting grooves 105 to install the core block 121 between the front and rear side molds 101 and 103.

The mounting protrusion 125 is formed in a trapezoidal shape, it is preferable that the mounting protrusion 125 is formed to protrude downward on the lower surface of the mounting end (123).

Therefore, the mounting procedure of the oil jacket core 120 of the cylinder head mold for low pressure casting which concerns on implementation of this invention comprised as mentioned above is demonstrated.

5 is a step-by-step mounting state diagram of the oil jacket core of the low-pressure casting cylinder head mold according to an embodiment of the present invention.

First, in the core insertion process, as shown in (S2) of FIG. 5, the water jacket core 110 is set on the lower mold 111 through the core print, as shown in (S1) of FIG. The left and right side molds 101 and 103 (107, one side not shown) are molded on the lower mold.

After the respective side molds 101 and 103 (107, one side not shown) are assembled, the oil jacket core is separated between the front and rear side molds 101 and 103 as shown in FIG. 5 (S3). 120 will be set.

Here, the setting of the oil jacket core 120 is to insert the mounting projections 123 of the core block 121 to each of the mounting grooves 105 of the front and rear side mold 101 (103) to the core block. The 121 is fixed between the front and rear side molds 101 and 103 to complete the setting.

When the setting of the oil jacket core 120 is completed, as shown in FIG. 5 (S4), the upper mold 113 is molded on the lower mold 111, and the lower mold 111 and the upper mold 113 are combined. When complete, low pressure casting begins.

Therefore, when applying the oil jacket core 120 of the low-pressure casting cylinder head mold of the present invention as described above, the core print and core neck processing and assembly by installing directly set on the mold what was previously set in the water jacket core Eliminating the process saves manufacturing costs.

In addition, the oil jacket core 120 may be set regardless of the core print formability of the water jacket core 110, thereby securing a degree of freedom of a mold for manufacturing the oil jacket core 120. It is possible to ensure a stable quality of the jacket core (120).

1 is a schematic flowchart illustrating a production process of a material in a general low pressure casting process.

Figure 2 is a view showing the assembled state of the oil jacket core and the water jacket core in the core inserting process according to the prior art.

Figure 3 is a mounting state diagram of the oil jacket core of the cylinder head mold for low pressure casting according to an embodiment of the present invention.

4 is a perspective view of an oil jacket core of a low pressure casting cylinder head mold according to an embodiment of the present invention.

5 is a step-by-step mounting state diagram of the oil jacket core of the low-pressure casting cylinder head mold according to an embodiment of the present invention.

Claims (3)

In the oil jacket core of the cylinder head mold for low pressure casting, which is installed inside the cylinder head mold composed of the front, rear, left and right side molds and forms an oil jacket in the cylinder head during casting, A core block forming an oil jacket; Mounting ends respectively formed on both sides of the core block to correspond to the mounting grooves formed on the upper surfaces of the respective side molds; Oil jacket core of the cylinder head mold for low pressure casting, characterized in that it comprises a; mounting protrusions which are formed on the lower surface of the front end of each mounting end and fitted into the mounting groove to install the core block between the front and rear side molds. The method of claim 1, The mounting end is An oil jacket core of a cylinder head mold for low pressure casting, characterized in that the shape is formed in a "b" shape, and formed upwards on both sides of the upper surface of the core block. The method of claim 1, The mounting projection The oil jacket core of the cylinder head mold for low pressure casting, characterized in that the shape is formed in a trapezoidal shape, protruding downward on the lower surface of the mounting end.

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