KR20140126684A - A mold having a flow channel - Google Patents

Abstract

The present invention relates to a mold with a flow path, which comprises: a mold frame wherein multiple flow path grooves are formed at intervals; flow path forming insertion bodies which are inserted into the flow groove respectively, whose edge parts are aligned at interval with the inner surface of the flow path groove in order to form a mold flow path; and a cover which is mounted in the upper part of the mold frame and where a connecting channel connected with the mold flow path is formed. According to an embodiment of the present invention, the mold with a flow path is installed inside a mold for manufacturing a casting with a complex and fine shape in order to consistently cool the mold and to improve the quality of the casting.

Description

A MOLD HAVING A FLOW CHANNEL "

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mold having a flow path, and more particularly, to a mold having a flow path for cooling the mold by forming a mold flow path capable of supplying cooling water into the mold.

Generally, a metal mold is a metal mold, a plastic mold, or a metal mold.

That is, the metal mold is a mold made of iron or other metal used for making castings, a plastic mold, a metal mold used by putting a thin plate or a plastic plate of metal between the upper and lower molds and compressing them into a predetermined shape.

Here, in the case of a casting mold, a heat resistant steel or a tool steel is used because a strong metal mold is required as the melting point of the supplied metal or the pressure applied to the metal is high.

In the case of a mold for plastic molding, a hardened steel is used when the molding pressure is high, and a copper alloy is used when the molding pressure is low.

On the other hand, cooling of the mold in casting is not only important but also requires proper cooling.

That is, when the casting is made by pouring the molten metal into the mold, uniform cooling is required throughout the mold so that the molten metal can be uniformly crystallized during solidification, and thus a good quality casting can be made.

In particular, in the case of die casting, which is a precise casting method, such cooling is more difficult, and the installation of the cooling device requires fineness.

However, in order to produce a fine-shaped casting, not only is the shape of the concave shape of the mold finely formed, but also the cooling apparatus for uniformly cooling the mold is difficult to install.

In the case of a press mold, when the mold frame is cooled by inserting the cooling unit into the mold frame without forming a direct flow path in the mold frame, the surface where the mold frame and the cooling unit come in contact with each other must be completely in close contact with each other. It is very difficult to process the unit so that the unit is in complete contact with the unit. If the unit is not completely adhered to the unit, there is a problem that a shock or a force applied to the mold is not transmitted or dispersed.

Further, when the mold is drilled through the drill to make the flow path of the cooling water, it is difficult to connect the flow path in three dimensions, and maintenance is difficult when the flow path is clogged due to corrosion.

Korean Patent Publication No. 2009-0126437

It is an object of the present invention to provide a technique for uniformly cooling a mold while being installed inside a mold for manufacturing a minute casting having complicated shapes.

It is also an object of the present invention to provide a technique capable of easily installing a cooling device in a mold in a short time and improving cooling efficiency.

It is also an object of the present invention to provide a mold technology having a flow path in which a cooling channel of a cooling device installed inside a mold is connected smoothly while being partially damaged, and which is easy to maintain.

It is also an object of the present invention to provide a technique for preventing cracks from being generated in a mold due to repetitive pressing force of a press work through coincidence of mold assemblies so that a cooling apparatus and a mold are partially formed integrally with each other in a press mold.

A mold having a flow path according to an embodiment of the present invention includes a mold frame having a plurality of flow path grooves formed at an interval therebetween; A flow path forming insertion body inserted and fixed to the flow path groove, the edge portion being spaced apart from the inner surface of the flow path groove to form a mold flow path; And a cover mounted on the mold frame and having a connection passage connected to the mold flow path.

And the mold frame and the flow path forming insert may be fixed through a welding or fitting structure.

Also, the connecting passage of the cover may be composed of a connecting portion connecting the inlet portion and the outlet portion, and the connecting passage may be connected to one side of the mold passage and the opposite side of the connecting passage.

Also, the connection passages of the cover may be formed in a zigzag shape so as to have a curved shape, and one side may be connected to the flow path groove, and the opposite side may be connected to another flow path groove formed on the same line.

Here, the connecting passage of the lid may have an end portion protruded and a connecting groove may be formed in the mold frame corresponding to the connecting passage.

A flange may be mounted on the edge of the mold frame and the cover so as to be fixed or separated by bolts and nuts, respectively.

According to the embodiment of the present invention, there is a technical effect that not only the mold can be uniformly cooled, but also the quality of the casting product can be improved, while being installed inside the mold for producing a complicated and minute casting.

In addition, the cooling device can be easily installed in a short time and the cooling efficiency can be improved.

In addition, when the cooling channels of the cooling device installed inside the mold are smoothly connected to each other and are partially damaged, maintenance and repair of the cooling channels can be simplified and the cost can be reduced.

In addition, it is possible to prevent the mold from being cracked due to the repetitive pressing force of the press work, and to prolong the service life of the mold by forming the cooling device and the mold partly integrally in the press mold There is an effect that can be made.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an assembled perspective view of a mold having a flow path according to the present invention; FIG.
2 is an exploded perspective view showing a mold having a flow path according to the present invention.
FIGS. 3 and 4 are cross-sectional views showing a combined state of a mold frame and a flow path forming insert constituting a mold having a flow path according to the present invention; FIG.
5 and 6 are views showing an embodiment of a lid constituting a metal mold having a flow path according to the present invention.
7 and 8 are views showing another embodiment of a lid constituting a mold having a flow path according to the present invention.
9 is a sectional view showing still another embodiment of a lid constituting a mold having a flow path according to the present invention.
10 is a view showing a use state of a mold having a flow path according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a mold having a flow path according to an embodiment of the present invention; FIG. And FIGS. 3 and 4 are cross-sectional views showing a combined state of the mold frame and the flow path forming insert constituting the mold having the flow path according to the present invention, and FIGS. 5 and 6 are views Figs. 7 and 8 are views showing another embodiment of a lid constituting a mold having a flow path according to the present invention, and Fig. 9 is a view showing an embodiment of a mold having the flow path according to the present invention And Fig.

The mold 10 having the flow path according to the present invention is configured to cool or heat the mold frame 20 by using the mold flow path 40 formed in the mold frame 20. In the present invention, .

At this time, it is disclosed that not only the cooling water but also the known gas or liquid can be selectively supplied to the cooling mold, which is supplied to the mold channel 40 and cools the mold frame 20, according to the needs of the user.

The mold 10 having the flow path has a mold die 20 in which a plurality of flow path grooves 21 are formed and a flow path forming insert 20 which is inserted and fixed in the flow path groove 21 to form the mold flow path 40 And a cover 50 mounted on the mold frame 20 and having a connection passage 51 connected to the mold flow path 40.

The mold 20 and the flow path forming insert 30 can be integrally formed and the flow path forming insert 30 can be selectively inserted into the flow path groove 21 of the mold frame 20 And can be fixed.

The mold frame 20 has a predetermined size and height and a flow channel groove 21 is formed therein so that the mold frame 20 can be cooled through the cooling water 60 with the insertion of the flow channel forming insert 30 do.

In the present invention, the mold frame 20 is formed in a rectangular shape and a plurality of flow channel grooves 21 are formed at intervals in the mold cavity.

That is, the flow channel grooves 21 are spaced apart from each other in the front and rear directions of the mold frame 20 so as to be horizontally spaced in a predetermined direction so that the mold frame 20 can be uniformly cooled.

At this time, it is noted that the flow path groove 21 may be formed in various directions.

The passage forming insert 30 inserted into and fixed to the flow path groove 21 of the mold frame 20 is formed to have a predetermined width and height.

That is, the flow path forming insert 30 is inserted and fixed in the flow path groove 21 of the mold frame 20 to form the mold flow path 40 as a passage through which the cooling water 60 moves.

The flow path forming insert 30 is inserted and fixed in the flow path groove 21 of the mold frame 20 so that the edge portion 32 is spaced apart from the inner surface of the flow path groove 21 So that the mold flow path 40 is formed.

At this time, it is a matter of course that the upper surface of the flow path forming insert 30 is arranged on the same horizontal line as the upper surface of the mold frame 20.

As shown in FIG. 3, the metal mold 20 and the flow path forming insert 30 are fixed to each other through welding W, or a fitting protrusion 82 is formed on one side as shown in FIG. 4 It can be fixed through a known coupling structure as well as a fitting structure in which the fitting groove 84 is formed on the opposite side.

The mold flow path 40 formed through the flow path forming insert 30 inserted into and fixed to the flow path groove 21 of the mold frame 20 is inserted into the mold frame 20 using the cooling water 60 supplied therein. .

The mold flow path 40 is formed in various shapes such as vertical, horizontal, curved, and oblique shapes so as to cool the mold frame 20 smoothly using the cooling water 60 passing through the inside thereof.

The lid 50 mounted on the upper portion of the mold frame 20 has a connection passage 51 connected to the mold flow channel 40 therein.

That is, the lid 50 is capable of supplying and discharging the cooling water to the mold flow path 40 by using the connection passage 51 formed therein while blocking the open part of the mold frame 20.

The shape of the connection passage 51 may be various shapes such as vertical, horizontal, curved, and oblique.

In the present invention, the connecting passage 51 formed in the lid 50 and connected to the mold flow path 40 is constructed as shown in FIGS. 5 to 9.

5 and 6 show an example in which the injection part connecting passage 52 and the discharging part connecting passage 53 are symmetrically arranged and the connecting passages 52 and 53 are provided on one side And the opposite side is connected to one place.

That is, the connection passages 52 and 53 are formed with the passage connecting portions 52a and 53a connected to the mold flow path 40 on one side and the external passage portions 52b and 53b connected to the outside on the opposite side, respectively will be.

The connection passages 52 and 53 are provided with the cooling water 60 flowing through the outer passage portion 52b and the cooling water 60 to the mold passage 40 using the passage connecting portion 52a And the cooling water 60 delivered through the mold passage 40 is collected in the outer passage portion 53b through the passage connecting portion 53a and discharged to the outside.

7 and 8 are arranged in a zigzag shape in a curved shape and one side is connected to the flow path groove 21 and the opposite side is connected to another flow path groove 21 formed on the same side in the forward direction .

That is, the connection passages 51 are arranged in a staggered manner on both sides corresponding to the mold flow paths 40, so that the connection paths 51 can be staggeredly connected to the mold flow paths 40.

More specifically, the connection passage 51 is provided with a connection passage 51 disposed at one side thereof and a mold passage 40 'having one side connected to the mold flow path 40 and the opposite side connected to the same side And the connection passage 51 disposed on the opposite side is connected to the mold flow path 40 'with one side connected to the mold flow path 40' and the opposite side connected to the mold flow path 40 ' will be.

The connection passage 51 shown in FIG. 9 is formed by protruding an end portion 54 and a connection groove 22 is formed in the mold frame 20 corresponding to the end portion 54 of the connection passage 51 .

That is, the connection passage 51 protrudes from the end portion 54, and the connection groove 22 is formed in the mold frame 20 so that the connection passage 51 and the mold passage 40 are positioned at a predetermined position So that they can be easily combined.

The mold frame 20 and the lid 50 constituting the mold 10 having the flow path can be coupled not only through welding but also as shown in Fig. 10

That is, the mold 10 having the flow path has an example in which the flange 70 is mounted so that the mold frame 20 and the lid 50 can be fixed or separated through the bolts B and N .

A flange 70 provided with an engaging hole 72 is provided at an edge of the mold frame 20 and the lid 50. The engaging hole 72 of the flange 70 The bolts B are inserted into the bolts B and then the nuts N can be fastened and fixed to the bolts B. [

Hereinafter, an embodiment of a mold having the above-described flow path will be described with reference to FIGS.

First, a mold frame 20, which is formed in a rectangular shape and in which a plurality of flow channel grooves 21 are formed at intervals, is formed.

At this time, it is a matter of course that the lower portion of the mold frame 20 varies depending on the shape of the product to be formed.

The flow path forming insert 30 having a predetermined width and height and having the edge portion 32 spaced from the inner surface of the flow path groove 21 to form the mold flow path 40 And then the flow path forming insertion body 30 is fixed to the mold frame 20 through welding after the flow path forming insertion body 30 is aligned with the upper part of the mold frame 20.

A connecting passage 51 is formed in the upper portion of the mold frame 20 and has a predetermined thickness and is internally formed with a connecting passage 51 in which the injecting portion connecting passage 52 and the discharging portion connecting passage 53 are symmetrically formed. (50).

The mold frame 20 and the lid 50 are fitted with the flanges 70 provided with the engaging holes 72 at intervals and then the bolts B and nuts are fastened to the engaging holes 72 of the flange 70, (N) is tightened, the assembling of the mold (10) having the flow path is completed.

Herein, it is noted that the assembling procedure of the mold having the flow path may be configured differently from the above.

Next, the use state of the mold having the above-described flow path will be described.

First, a metal mold 10 having two flow paths is prepared, and then the metal mold 10 having the flow path is mounted symmetrically up, down, left, and right.

A mold is injected into the inside of the abutment of the mold 10 having the flow path and the mold 10 having the flow path to form a casting.

The cooling water 60 is supplied to the connecting passage 51 of the lid 50 to cool the mold 20 and the flow path forming unit 50. In this case, The insert 30, the lid 50, and the like.

That is, when the cooling water 60 is supplied to the outer passage portion 52b constituting the injection portion connecting passage 52, the cooling water 60 flows into the connection portion of the mold flow passage 40 through the passage connecting portion 52a, (60).

The cooling water 60 supplied to the connecting portion of the mold flow path 40 moves along the mold flow path 60 and is discharged to the outside through the path connecting portion 53a connected to the end portion of the mold flow path 40. [ do.

The cooling water 60 discharged through the passage connecting portion 53a is collected in the outer passage portion 52b and discharged to the outside so that the mold 20 can be uniformly cooled.

As described above, the mold having the flow path of the present invention is advantageous in that it is possible to obtain a product capable of producing a uniform product while preventing the mold from being heated by forming a mold flow path capable of supplying cooling water to the inside of the mold frame.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It should be construed as being included in the scope of the right.

10: a mold having a flow path, 20: a mold frame,
21: channel groove, 22: connecting groove,
30: flow path forming insert, 32: edge portion,
40: mold flow path, 50: cover,
51: connection passage, 52: injection section connection passage,
53: outlet connecting passage, 54: end portion,
60: cooling water, 70: flange,
72: engaging hole, 82: engaging projection,
84: fitting groove, B: bolt,
N: Nut, W: Welding.

Claims (6)

A mold frame in which a plurality of flow path grooves are formed with an interval therebetween;
A flow path forming insertion body inserted and fixed to the flow path groove, the edge portion being spaced apart from the inner surface of the flow path groove to form a mold flow path; And
And a lid mounted on an upper portion of the mold frame and having a connection passage formed therein for connection to the mold flow path. The method according to claim 1,
Wherein the mold frame and the flow path forming insert have a flow path fixed through a welding or fitting structure. The method according to claim 1,
Wherein the connection passage of the cover is composed of an injection part connection passage and a discharge part connection passage, wherein the connection passage is connected to the mold flow path on one side and to the one side on the opposite side. The method according to claim 1,
Wherein the connecting passages of the lid are formed in a zigzag shape so as to have a curved shape and have one side connected to the flow path groove and the other side connected to another flow path groove formed on the same line in front. 4. The method according to claim 3 or 4,
Wherein the connecting passage of the lid has an end portion protruding and a connecting groove is formed in the mold frame corresponding to the connecting passage. The method according to claim 1,
And a flange is mounted on the edge of the mold frame and the cover so as to be fixed or separated through bolts and nuts with a gap therebetween.

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