KR100869267B1 - Stainless steel backboard manufacture mold and device for flange - Google Patents

Abstract

A stainless steel backboard manufacture mold for a flange and a device thereof are provided to minimize the generation of air bubbles and to improve safety, workability and durability. A stainless steel backboard manufacture mold for a flange is manufactured as follows, a mold is separated according to top and bottom mold; the depth of the forming space formed in backmold forms into the thickness considering the post processing of the stainless backboard; a front mold combined in backmold forms the stainless melt solution injection hole(63); and barrier grooves and jaw are formed on the outer circumference of top and bottom mold into equally-spaced and it interconnects.

Description

Stainless steel backboard manufacture mold and device for flange

1 is a perspective view of a stainless steel plate manufacturing mold according to the present invention

Figure 2 is an exploded perspective view of a stainless steel plate manufacturing mold according to the present invention

Figure 3 is a perspective view showing the main portion of the stainless steel plate manufacturing mold according to the present invention

Figure 4 is a cross-sectional view of the manufacturing apparatus is installed stainless steel plate manufacturing mold according to the present invention

Figure 5 is a cross-sectional view showing a coupling state of the upper and lower molds according to the present invention

Figure 6 is a cross-sectional view of the stainless steel plate and mold produced by the present invention

Figure 7 is a side view of the stainless steel plate produced by the present invention

8 is a side view of a stainless steel plate manufactured in a conventional mold

*** Explanation of symbols for main parts of drawing ***

 1: prize mold

 2: lower mold

 3: molding space

 4: stainless steel plate

 5:50: stepped border

 6: 7: pulley

The present invention relates to a stainless steel plate manufacturing mold and apparatus for flanges, and more particularly, in manufacturing a stainless steel plate from a mold to a casting, to minimize the formation of bubbles in the stainless steel plate and to provide a stainless steel plate with improved safety, processability and durability It is to be done.

As is well known, a pipe for continuously moving various liquids or gases has no choice but to be manufactured in a specific length for a variety of reasons, such as a method of manufacturing or transporting a pipe, or when piping the pipe so far, According to other conditions, the pipes are interconnected.

In order to interconnect the pipes as described above, a flange is integrally formed at both ends of the pipe by a method such as welding, and the pipes are connected by interconnecting the flanges.

Corrosion, durability, and pressure resistance are required among the pipes piped by these uses and configurations. In this case, stainless pipes are used, and stainless steel flanges must be used to interconnect these pipes.

Looking at one example for making a flange made of stainless steel formed on both ends of the stainless steel pipe as described above, after preparing a stainless rod having the same diameter as the outer diameter of the flange, cut to the required thickness to obtain a circular thick plate, Holes and bolt holes equal to the inner diameter of were drilled, respectively.

In the case described above, productivity is reduced due to the time required for the process of cutting the stainless rod to the required thickness and the process of processing the hole such as the inner diameter of the tube, thereby lowering the manufacturing cost of the flange.

On the other hand, another example for solving the productivity of the flange as described above is to cast the core having the same diameter as the inner diameter of the tube in the center of the casting die, and then demoulded and cut to a predetermined thickness used as a flange, but as a whole There are disadvantages such as the formation of a lot.

There is a recently developed centrifugal casting method and apparatus to solve these disadvantages.

However, since the upper and lower molds are designed such that the mold for flange casting is divided into upper and lower molds and the divided points are in the center of the cast stainless steel plate 400, the parting line 640 is located in the center of the cast stainless steel plate 400. There was a disadvantage that a lot of bubbles are formed around it, especially since the upper and lower molds are installed vertically and configured to fix the upper and lower molds with bolts, when the stainless melt is injected into the upper and lower molds, the drop pressure acts greatly, The supply was not smooth, such as protruding, and after the stainless melt filled the molding space of the upper and lower molds, at the end of the process, the stainless molten liquid became the bottom layer and closed the holes thickly. Troublesome and hot stainless melt When the bolt head was scattered and scattered frequently, it caused frequent safety accidents.The protruding stainless steel melt was stuck between the bolt and the upper mold, so when loosening or tightening the bolt to separate or join the upper and lower molds. There were problems such as giving a lot of difficulties.

In order to solve the above problems the present invention, the stainless steel plate manufacturing mold and apparatus for flanges of the present invention is very quick and easy to combine and disassemble the upper and lower molds for manufacturing the stainless steel plate to improve the workability to increase productivity In addition, by injecting the stainless melt into the upper and lower molds, the upper and lower molds are installed so that the drop pressure is small, which facilitates the injection of the stainless melt. There is a purpose to provide a stainless steel plate manufacturing mold and apparatus for flanges that can be manufactured.

Stainless steel plate manufacturing mold and apparatus for flanges to achieve the above object is configured by separating the mold into the upper and lower molds, the depth of the lower mold is formed to the thickness (t) in consideration of the post-processing of the stainless steel plate, the upper mold is the lower mold It is configured to block the top of the molding space of the, and as a means for combining the upper and lower molds to form the engaging grooves and the locking jaws at equal intervals on the outer periphery of the upper and lower molds to enable mutual coupling or separation,

The shape of a portion of the upper and lower molds are formed in a hexagon to be able to check the exact position when bonding, and the upper and lower molds are inclined so as to be convenient when injecting the stainless melt injected into the upper and lower molds and not to form the bottom layer in the final step. The lower portion of the lower die is characterized in that it is configured to rotate by a motor and a pulley by installing a shaft, and will be described in detail below with reference to the accompanying drawings.

1 is a perspective view of a stainless steel plate manufacturing mold according to the present invention, Figure 2 is an exploded perspective view of a stainless steel plate manufacturing mold according to the present invention, Figure 3 is a perspective view showing the main portion of the stainless steel plate manufacturing mold according to the present invention, Figure 4 5 is a cross-sectional view showing a coupling state of the upper and lower molds according to the present invention, FIG. 6 is a cross-sectional view of the stainless steel plate and the mold manufactured by the present invention, FIG. It is a side view of the stainless steel plate manufactured by this invention.

In forming the molds constituting the stainless steel plate manufacturing die and apparatus for flanges of the present invention, the mold is divided into upper and lower molds (1) and (2), and the molding space (3) formed in the lower mold (2). Depth is formed to a thickness (t) in consideration of the post-processing of the stainless steel plate 4, to form a stepped edge (5),

The upper mold (1) coupled to the lower mold (2) is such that the upper edge of the stepped edge 50 and the molding space (3) of the shape corresponding to the stepped edge (5) of the lower mold (2) Make up,

As the means for coupling the upper and lower molds (1) and (2) is formed so that the engaging grooves 10 and the locking step (20) at equal intervals on the outer periphery of the upper and lower molds can be coupled or separated from each other,

The shape of a part of the upper and lower molds (1) and (2) is formed in a hexagon so that the upper and lower molds can be identified at the time of coupling, and minimizes the dropping pressure when injecting the stainless melt into the upper and lower molds so that the stainless melt is not scattered. At the same time, it is convenient for injection, and in order to prevent the bottom layer from being formed in the middle of the lower mold, the upper and lower molds (1) and (2) are inclined,

A shaft 8 having a pulley 7 is formed below the lower mold 2 so as to be connected to the pulley 6 and the belt 11 connected to the shaft of the motor 9 so as to rotate the lower mold. It is made up.

 In the drawings, reference numeral 60 denotes a top and bottom mold cover, 61 a lid, 62 a main body, 63 a stainless melt injection hole, 64 a parting line, and 66 a bottom layer.

Referring to the operation of the stainless steel plate manufacturing die and apparatus for flanges of the present invention as described above in detail.

First, in the state in which the locking groove 10 formed in the upper mold 1 and the locking jaw 20 are coupled to the lower mold 2, the motor 9 is driven to pulley 7 at the lower portion of the lower mold 2. The upper and lower molds are rotated by the pulley 6 and the belt 11 connected to the shaft of the motor 9.

In this state, the stainless melt is injected into the stainless melt injection hole 63 formed in the center of the upper mold 1.

Then, the stainless molten liquid is filled in the molding space 3 formed between the upper mold 1 and the lower mold 2, and the stainless steel plate 4 is manufactured by cooling.

In this process, the mold consisting of the upper mold (1) and the lower mold (2) is rotated in an inclined state, so when the stainless melt is injected, a very convenient injection condition is provided in contrast to the mold installed in the conventional vertical state. The free fall pressure of S is also greatly reduced, which makes it stable and very convenient when injecting stainless melt.

And, the upper and lower molds in the inclined state is the bottom layer 66 is formed when manufacturing the stainless steel plate 400 because the stainless melt is not stacked by the inclined bottom surface of the lower mold in the final step when the stainless melt is injected Can be prevented.

When the stainless steel plate 4 produced in this process is blown by using a tool such as a hammer in the direction opposite to the rotation direction when manufacturing the upper mold when demolding the upper and lower molds, the locking groove 10 of the upper mold die Since it is separated from the locking jaw (20), it is possible to remove the mold and mold the stainless steel plate (4).

As described above, the locking grooves 10 formed in the upper mold 1 and the locking jaw 20 formed in the lower mold 2 can be easily combined or separated from each other, and even when the stainless melt is popped out. Since there is no obstacle such as a bolt for fastening the mold, it is stacked inside the cover 60 of the upper and lower molds.

In particular, the upper mold (1) is configured to have the same shape as the stepped edge (50) of the shape corresponding to the stepped edge (5) of the lower mold (2) is configured to block the upper portion of the molding space (3) of the lower mold Since the parting line 64 formed on the stainless steel plate 4 by demolding is formed at the upper surface corner of the stainless steel plate 4, the air bubbles formed on the parting line 64 can be easily and reliably removed by processing. It becomes possible.

And, because a part of the upper and lower molds (1) (2) is formed in a hexagon, it is possible to determine the exact position when combining the upper and lower molds.

According to the stainless steel plate manufacturing mold and apparatus for flanges of the present invention as described above, since the parting line formed on the manufactured stainless steel plate is formed in the upper corner of the stainless steel plate, bubbles formed around the parting line during processing are easily and completely removed. Can contribute to the improvement of quality, and since the upper and lower molds can be detached by the mutual locking groove and the locking jaw, it is very simple,

In addition, safety is ensured because stainless steel melt does not splash out, and in particular, since the upper and lower molds are installed in an inclined state, the bottom layer is formed in the middle of the lower mold while providing safety and convenience when injecting the melt. Since it does not become, the workability is also improved.

Claims (3)

In the stainless steel plate manufacturing die for flanges, the mold is divided into upper and lower molds (1) and (2), and the depth of the molding space (3) formed in the lower mold (2) allows for the post-processing of the stainless steel plate (4). To a thickness t, to form a stepped edge 5, The upper mold 1 coupled to the lower mold 2 forms a stainless melt injection hole, and has a stepped edge 50 and a molding space having a shape corresponding to the stepped edge 5 of the lower mold 2. The upper part of 3) is configured to be blocked, Stainless steel plate manufacturing mold for flanges, characterized in that configured to be coupled to each other by forming the engaging grooves 10 and the locking jaw 20 at equal intervals on the outer periphery of the upper and lower molds (1) (2). The mold according to claim 1, wherein the upper and lower molds (1) and (2) have a shape of a part of the upper and lower molds formed in a hexagon so as to confirm an accurate position when the upper and lower molds are coupled. When the stainless solution is injected into the upper and lower molds, the drop pressure can be conveniently injected, and the upper and lower molds (1) and (2) are inclined so that the stainless solution flows into the molding space (3) in the final injection step. In order to rotate the upper and lower molds, a shaft 8 having a pulley 7 is formed at a lower portion of the lower mold 2, and the pulley is connected to the pulley 6 and the belt 11 connected to the shaft of the motor 9. Stainless steel plate manufacturing apparatus for a flange, characterized in that configured by.

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