JPH0639520A - Mold base board - Google Patents

Abstract

PURPOSE:To enable discharge of combustion gas, etc., generated in a mold through a passage from a gap of the abutting surface between the mold and a surface plate and to simply enable cleaning of the passage. CONSTITUTION:The surface plate 10 is the one used to a suction casting apparatus and a through-hole 10k for inserting a sprue pipe introducing a molten metal into the mold is formed at the center of the surface plate. Further, on this surface, a round recessed part 10r is concentrically formed at the position of the through-hole 10k, and the crosswised groove 10m is formed from this recessed part 10r to the outside of the mold laying surface. Therefore, at the time of laying the mold on the base board 10, the recessed part 10r and the groove 10m are covered by the lower surface of the mold to form the passage from the periphery of the through-hole 10k toward the outside of the mold. By this method, the combustion gas, etc., generated in the mold is discharged outside through this passage together with gas in a chamber. Further, as the passage is simply decomposed by taking off the mold from the surface plate 10, the cleaning is executed in every corners.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used as a base for mounting a mold and a chamber covering the mold in a suction casting apparatus, and a through hole for passing a spout pipe for guiding molten metal to the mold. The present invention relates to a mold surface plate having a mouth.

[0002]

2. Description of the Related Art A mold surface plate (hereinafter referred to as a surface plate) generally used in a conventional suction casting apparatus has a flat surface, on which a mold and a chamber for covering the mold are placed. Is placed. A sealing material is provided between the lower end surface of the chamber and the surface of the surface plate, and between the through-hole of the surface plate and the sprue tube to maintain airtightness in the chamber. However, according to the above structure, the gate pipe is exposed to high heat, so that the sealing property between the through-hole of the surface plate and the gate pipe is deteriorated. For this reason, outside air may enter through the sealing portion between the through-hole and the sprue pipe, and this outside air may be sucked into the cavity of the mold to cause gas defects in the cast product. Further, since the surface of the surface plate and the lower surface of the mold are in close contact with each other, the flow of gas on the lower surface of the mold is obstructed, and in particular, the escape of combustion gas generated from the mold during casting is poor, and gas defects in the cast product. May occur.

A suction casting apparatus equipped with means for solving these problems is described in Japanese Utility Model Laid-Open No. 63-71959. In this suction casting apparatus, a surface plate is manufactured in a box shape, a plurality of gas vent holes are formed on the upper surface thereof, and the pressure in the chamber is reduced through the gas vent holes. As a result, when decompressing the inside of the chamber, the outside air that has entered through the sealing portion between the through-hole of the surface plate and the sprue tube and the combustion gas generated in the mold are discharged from the gas vent hole together with the gas in the chamber. As a result, the outside air and combustion gas are less likely to be sucked into the cavity, and gas defects in the cast product are reduced.

[0004]

However, according to the above-described conventional surface plate structure, the oil, soot, etc. contained in the combustion gas adhere to the gas vent holes, and the efficiency of exhausting the gas from the chamber decreases over time. However, the time required to reduce the pressure inside the chamber becomes longer. For this reason, it is necessary to regularly clean the gas vent hole, but there is a problem in that this cleaning is very troublesome. In particular, when the molten metal leaks into the gas vent hole and solidifies, it becomes difficult to clean. A technical problem of the present invention is that a groove is formed on the surface of a surface plate with a through hole as a center, and a passage composed of this groove and the lower surface of the mold penetrates from a sealing portion between the through hole and the sprue pipe. The external air and the combustion gas generated in the mold are guided to the space in the chamber so that they can be discharged together with the gas in the chamber, thereby making it difficult for the external air and the combustion gas to be sucked into the cavity. Furthermore, the structure is such that the passage can be easily cleaned.

[0005]

The above-mentioned problems can be solved by a mold surface plate having the following respective structures. That is,
The mold surface plate according to the present invention is used as a base for mounting a mold and a chamber covering the mold in a suction casting apparatus, and a through hole for passing a spout pipe for guiding molten metal to the mold is formed. In the existing mold surface plate, a groove is formed on the surface thereof from the through hole to the outside of the surface on which the mold is placed.

[0006]

According to the present invention, a groove is formed on the surface of the mold surface plate from the through hole to the outside of the surface on which the mold is placed. Therefore, when the mold is placed on the mold surface plate, the lower surface of the mold covers the part of the groove except the tip. Then, a passage is formed from the through hole to the outside of the mold. Therefore, even if the inside of the chamber is decompressed by the decompression device and outside air enters through the seal portion between the through-hole and the sprue pipe, the outside air is guided to the chamber inner space through the passage. Combustion gas generated in the mold during casting is also introduced into the chamber internal space through the passage.
And the outside air and combustion gas led to the space in the chamber,
The gas in the chamber is sucked into the decompression device and discharged. As a result, it becomes difficult for the outside air and combustion gas to be sucked into the cavity of the mold, and gas defects in the cast product are reduced.
Further, since the passage is formed by the groove on the surface of the mold surface plate and the lower surface of the mold surface, if the mold is removed from above the mold surface plate, it can be easily disassembled and the cleaning can be performed every corner.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A mold surface plate (hereinafter referred to as a surface plate) according to a first embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is a plan view of a surface plate 10 according to this embodiment (A).
2 is a plan view (B) of FIG.
Shows a vertical sectional view of a suction casting apparatus using the surface plate 10 according to the present embodiment. The platen 10 is, as shown in FIG.
It is a base on which the mold 12 and the chamber 14 covering the mold 12 are placed, which is formed in a rectangular shape in plan view and has a through hole 10k formed in the center thereof. A sprue pipe 16 for guiding the molten metal from the melting furnace 18 to the cavity 12k of the mold 12 is inserted into the through hole 10k.
It should be noted that the gap between the sprue pipe 16 and the through hole 10k is sealed by a sealing material (not shown).

Further, as shown in FIG. 1, on the surface of the surface plate 10, there are concentrically formed a circular recess 10r having a plane circular shape at a position including the through hole 10k. The groove 10m is formed. The tips of these grooves 10m are located outside the surface on which the mold 12 is placed and inside the surface on which the chamber 14 is placed. Here, the wall surface of the groove 10m is as shown in FIG.
As shown in (B), the slope is provided so that it is vertical or wide upward. As a result, when the mold 12 and the chamber 14 are placed on the surface plate 10 according to the rules, the surface of the surface plate 10 is covered with the lower surface 12s of the mold 12 except the recesses 10r and the tips of the grooves 10m. . As a result, the mold 12 is removed from around the through hole 10k.
A planar cross-shaped passage T is formed toward the outside. Then, the passage T allows the sprue pipe 16 and the through hole 10k.
The seal portion S of and communicates with the internal space of the chamber 14.

Next, the operation of the suction casting apparatus using the surface plate 10 according to this embodiment will be described. First, the sprue pipe 16 is set in the through hole 10k of the surface plate 10, and then the surface plate 10
The mold 12 is placed on top. Here, the mold 12 is positioned so that the sprue 12y is connected to the sprue pipe 16. Further, the box-shaped chamber 14 is placed on the surface plate 10 while being covered with the mold 12. A sealing material (not shown) is provided between the lower end surface of the chamber 14 and the surface of the surface plate 10 and between the sprue pipe 16 and the through hole 10k formed in the surface plate 10. The airtightness inside the chamber 14 is maintained. Furthermore, in a state where the mold 12 is placed on the surface plate 10 according to the regulation,
As described above, the sealing portion S between the sprue pipe 16 and the through hole 10k communicates with the internal space of the chamber 14 by the flat cross-shaped passage T. When the preparation for casting is completed, the surface plate 10 is lowered and the tip of the sprue pipe 16 is immersed in the molten metal stored in the melting furnace 18.

Next, the gas inside the chamber 14 is discharged from the pressure reducing port 14p by a pressure reducing device (not shown), and the pressure inside the chamber 14 is reduced. This indirectly reduces the pressure in the cavity 12k of the mold 12,
The molten metal stored in the melting furnace 18 is sucked into the cavity 12k through the sprue pipe 16. At this time, the gate 16
Expands because it receives high heat from the molten metal, and the sealing property between the through hole 10k of the surface plate 10 and this sprue pipe 16 deteriorates. Therefore, outside air may enter through the seal portion S between the through hole 10k and the sprue pipe 16. However, since this outside air is guided to the internal space of the chamber 14 by the passage T (see arrow G), it is discharged outside together with the gas inside the chamber 14 from the pressure reducing port 14p. Further, due to the high heat of the molten metal, the resin component of the mold 12 burns, and the combustion gas generated thereby is also guided to the internal space of the chamber 14 by the passage T (see arrow N). Therefore, this combustion gas is also discharged to the outside through the pressure reducing port 14p together with the gas inside the chamber 14. Therefore, the outside air and the combustion gas are less likely to be sucked into the cavity 12k of the mold 12, and the gas defects of the cast product are reduced. Further, since the passage T is formed by the concave portion 10r and the groove 10m on the surface of the surface plate 10 and the lower surface 12s of the mold 12, the mold 12 can be easily disassembled by removing it from the surface plate 10, Can be cleaned up to. Further, even if the molten metal leaks, the solidified metal can be easily removed.

FIG. 3 shows a surface plate 2 according to a second embodiment of the present invention.
It is a top view of 0. The surface plate 20 according to the present embodiment has basically the same structure as the surface plate 10 according to the first embodiment, but the number and arrangement of the grooves formed on the surface thereof are different. As shown in FIG. 3, the surface of the surface plate 20 has a through hole 20.
A planar circular recess 20r is formed concentrically at a position including k, and straight grooves 20m are formed from the recess 20r in all directions. Two grooves 20p and 20q are formed in parallel with the groove 20m extending in the length direction of the surface plate 20, and two grooves 20v and 20w are formed in parallel with the groove 20m extending in the width direction. . The grooves 20m, 20p, 20q, 20v, 20w are connected to each other. The grooves 20m, 20p, 20q, 20
The ends of v and 20w are located outside the surface on which the mold is placed and inside the surface on which the chamber is placed.
As described above, according to the surface plate 20 according to the present embodiment, the number of grooves is larger than that of the surface plate 10 according to the first embodiment, and since these grooves are connected to each other, they are generated in the mold. The efficiency of exhausting combustion gas is improved.

FIG. 4 shows a surface plate 3 according to a third embodiment of the present invention.
It is a top view (A) of 0, and a BB arrow view (B) of a top view (A). The surface plate 30 includes a surface plate main body 32 and a sprue pipe support plate 34 that supports the sprue pipe. A square opening 32k is formed in the center of the platen body 32, and a flat square concave portion 32e is concentrically formed on the surface thereof at the position of the opening 32k. Further, linear grooves 32m are formed from this rectangular recess 32e in all directions. The tips of these grooves 32m are located outside the surface on which the mold is placed and inside the surface on which the chamber is placed.

On the other hand, the sprue pipe support plate 34 is a square plate which is fitted into the flat rectangular recess 32e of the platen body 32, and has a through hole 34k formed at a predetermined position through which the sprue pipe is inserted. As shown in FIG. 4, on the surface of the sprue pipe support plate 34, a concave portion 3 having a plane circular shape is concentric with the position of the through hole 34k.
4r is formed, and a groove 34m is further formed from the recess 20r toward the four sides of the sprue pipe support plate 34. The groove 34m of the sprue tube support plate 34 is connected to the groove 32m of the surface plate body 32 in a state where the sprue tube support plate 34 is fitted in the recess 32e of the surface plate body 32. The sprue pipe support plate 34 has a through hole 34 depending on the type of the mold.
Multiple types of k with different positions and sizes are produced. Therefore, it is possible to use it for various types of molds by leaving the platen body 32 as it is and replacing only the sprue pipe support plate 34.

Further, when the mold and the chamber are placed on the surface plate 30 in a prescribed manner, passages are formed in four directions from the periphery of the through hole 34k toward the outside of the mold, as in the case of the first embodiment. By this passage T, the sealing portion between the sprue pipe and the through hole 34k communicates with the internal space of the chamber. For this reason, the combustion gas generated from the outside air or the mold that has entered through the sealing portion between the through hole 34k and the sprue pipe is not generated in the passage T
Is guided to the inner space of the chamber by the chamber and is discharged to the outside together with the gas in the chamber. As a result, it becomes difficult for the outside air and combustion gas to be sucked into the cavity of the mold, and gas defects in the cast product are reduced. Also, the passage is
Since the mold is formed from the concave portions 34r and the grooves 34m and 32m on the surface of the surface plate 30 and the lower surface of the mold, the mold can be easily disassembled by removing it from the surface plate 30 and every corner can be cleaned. Further, even if the molten metal leaks, the solidified metal can be easily removed.

FIG. 5 shows a surface plate 4 according to a fourth embodiment of the present invention.
It is a top view of 0. This embodiment basically has the same structure as the surface plate 30 according to the third embodiment, and two sets of sprue tube support plates 44 are installed in the mold body 42. This makes it possible to deal with a mold having a plurality of gates.

[0016]

According to the present invention, the combustion gas generated in the mold during casting is discharged to the outside together with the gas in the chamber through the passage formed by the groove on the surface of the mold surface and the lower surface of the mold. To be done. Therefore, the combustion gas and the like are less likely to be sucked into the cavity of the mold, and the gas defects of the cast product are reduced. Further, if the mold is removed from the mold surface plate, every corner of the passage can be cleaned, so that the flow passage area of the passage can be always kept constant and stable operation can be performed.

[Brief description of drawings]

FIG. 1 is a plan view (A) and a BB arrow view (B) of a mold surface plate according to a first embodiment of the present invention.

FIG. 2 is a vertical cross-sectional view of a suction casting device for a mold surface plate according to the first embodiment.

FIG. 3 is a plan view of a mold surface plate according to a second embodiment of the present invention.

FIG. 4 is a plan view (A) and a BB arrow view (B) of a mold surface plate according to a third embodiment of the present invention.

FIG. 5 is a plan view of a mold surface plate according to a fourth embodiment of the present invention.

[Explanation of symbols]

 10 Surface Plate 10k Through Hole (Through Port) 10r Recess 10m Groove 12 Mold 12k Cavity 14 Chamber 16 Gate Gate

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Masao Nakayama 1 Toyota-cho, Toyota-shi, Aichi Toyota Motor Co., Ltd.

Claims (1)

[Claims] 1. A mold surface plate which is used as a base for mounting a mold and a chamber covering the mold in a suction casting apparatus, and in which a through hole for passing a sprue pipe for introducing molten metal into the mold is formed. 2. In the mold surface plate, a groove is formed on the surface thereof from the through hole to the outside of the surface on which the mold is placed.