KR102139085B1 - mold, mold support plate and mold assembly for manufacturing heat exchange pins with oval heat exchange tubes - Google Patents

Abstract

The present invention relates to a heat exchange pin forming mold for manufacturing a heat exchange pin required to manufacture a heat exchanger, and a mold fixing support plate and a mold assembly for fixing and supporting such molds. The mold (1000) for manufacturing a heat exchange pin with an oval hole into which an oval heat exchange tube is inserted is used in one process among forming, piercing, and flaring the heat exchange pin. The mold (1000) has a mold head unit (1100), and a mold fixing support unit (1200) being arranged on a lower side of the mold head unit (1100), having a cross-sectional area larger than the cross-section area of the mold head unit (1100), and having a polygonal shape. The present invention relates to a mold (1000) for manufacturing a heat exchange pin with an oval hole into which an oval heat exchange tube is inserted, a mold fixing support plate (2000) for fixing and supporting the mold, and a mold assembly (4000) consisting of a mold head holding plate (3000) for supporting the mold head unit (1100).

Description

Mold, mold support plate and mold assembly for manufacturing heat exchange pins with oval heat exchange tubes for manufacturing heat exchange fins with elliptical holes into which oval heat exchange tubes are inserted

The present invention relates to a heat exchange fin forming mold for manufacturing heat exchange fins necessary for the manufacture of a heat exchanger, and a mold fixing base plate and a mold assembly for fixing and supporting such molds. In particular, it is for forming an elliptical hole formed in the heat exchange fin at various angles.

In general, the heat exchange fin of a heat exchanger refers to a product obtained by cutting a metal strip-shaped body obtained by pressing a metal thin plate by a mold press unit to a predetermined width.

At this time, the thin plate made of unprocessed metal such as aluminum, which is a material of the heat exchange fin molded body, is wound around a coil in an uncoiler. The thin metal sheet pulled out from the uncoiler is pulled out through a pinch roll, and after processing oil is applied by an oil application device, the mold device is transferred to a mold press unit disposed therein to perform drilling or the like.

The present invention relates to the above-mentioned mold apparatus, and relates to a mold for drilling or the like to allow an oval heat exchange tube to be inserted into a thin metal plate, and a mold support plate and a mold assembly for fixedly supporting the mold.

A device for manufacturing a fin for a heat exchanger of published patent publication No. 10-2019-005932 (published on January 16, 2019) discloses a technique of drilling a tube for heat exchange with a die set and an upper die set as a mold device. In addition, the method of manufacturing a fin for a heat exchanger and a mold for producing a heat exchanger in Japanese Patent Application Publication No. 2004-202549 (published on 22. 2004) and manufacturing a fin for a heat exchanger with a through-hole with a collar having an elliptical cross section are manufactured at low cost. For the purpose of manufacturing a heat exchanger fin having an elliptical tubular collar with a predetermined height collar surrounding a periphery of an elliptical perforation in which a tube for a heat exchanger having an elliptical cross section is inserted, the cross section is circular in a thin metal plate on a flat plate. Disclosed is a technique for forming a container portion, forming an elliptical container portion having a predetermined diameter and height through a plurality of drawing processes in a circular container portion, and forming an oval collar-attached through hole in the oval container portion. In addition, the method for manufacturing a fin for a heat exchanger and a mold for manufacturing a fin for a heat exchanger in Japanese Patent Application Laid-Open No. 2002-28740 (published on Jan. 29, 2002) form a dome portion having a larger diameter than the opening diameter of a through hole with a collar on a thin metal plate A bulging process in which a depression having a diameter larger than the bottom surface diameter of the dome portion and recessed in a direction opposite to the projecting direction of the dome portion is formed in a ring shape surrounding the dome portion, and the dome portion is recessed with the dome portion by forming a plurality of steps. A forming process of forming a portion in a conical shape of a predetermined height, a piercing process of forming a hole in a conical portion formed of a predetermined height, a burring process of forming a collar by standing around the hole, and a flare process of forming a collar tip flange It is done. In addition, the method of manufacturing a heat exchanger fin and a mold for a heat exchanger fin of Japanese Patent Laid-Open No. 2000-326032 (published on November 28, 2000), even when a thin thin metal sheet is used, penetrates a colored portion of a predetermined height. It is intended to provide a method for manufacturing a fin for a heat exchanger that can easily form a convex portion of a predetermined height formed by substantially maintaining the thickness of a thin metal plate by a drawing process that reduces the diameter of the convex portion formed in the thin metal plate. , Heat exchanger fins when forming a fin for a heat exchanger to form a hole with a predetermined height to insert a tube for heat exchange into a tube-shaped hole through a burring process to form a hole drilled through a piercing process As a manufacturing mold, a technique has been disclosed in which a pair of molds that can be opened and closed are sequentially processed such as piercing, burring, etc. in the same portion of the mold until the pair is formed from the open state to the closed state. In addition, in the method of manufacturing a fin for a heat exchanger to form a color attachment hole for fitting a tube for heat exchange on a metal thin plate of Japanese Patent Application Publication No. 2000-288668 (published on October 17, 2000), a heat exchange tube is fitted by ironing. A technique for manufacturing a heat exchanger fin for forming a collar attachment hole is disclosed.

: Published Patent Publication No. 10-2019-005932 (published Jan. 16, 2019) : Japanese Patent Application Publication No. 2004-202549 (published on July 22, 2004) : Japanese Patent Application Publication No. 2002-28740 (January 29, 2002) : Japanese Unexamined Patent Publication No. 2000-326032 (published on November 28, 2000) : Japanese Patent Application Publication No. 2000-288668 (October 17, 2000)

The above prior arts are intended to manufacture heat exchange fins through which heat exchange tubes are fitted, and it has been disclosed to manufacture heat exchange fins by a forming process, a piercing process, a burring process, a flare process, etc. using a mold.

The prior arts described above are based on the premise that the angle and arrangement of the elliptical holes formed in the heat exchange fins are constant when the heat exchange tubes are circular or elliptical, so that the elliptical holes formed in the heat exchange fins Various angles and arrangements could not be produced.

In the case of a fin-type heat exchanger, heat is exchanged by supplying air to the stacked fins fitted with a heat exchange tube by a fan, and supplying fluid to the heat exchange tube.

Such a fin heat exchanger is not necessarily installed vertically with the air supply fan, but is installed at various angles depending on the installation location. Therefore, it is necessary to assemble an optimal heat exchange tube according to the flow of air.

However, the manufacturing mold of the heat exchange fin is expensive, and in order to manufacture the heat exchange fin according to the position of variously formed heat exchange tubes, it is necessary to manufacture the expensive mold according to the arrangement shape of all heat exchange fins. It becomes impossible.

In the present invention, an elliptical hole into which an elliptical heat exchange tube is inserted is manufactured in a heat exchange fin capable of variously configuring angles and arrangements. By using the same mold, the shape of the fixed support portion of the mold is defined, and the elliptical heat exchange tube is inserted. It is an object of the present invention to provide a heat exchange fin having various elliptical holes.

In addition, an object of the present invention is to provide a mold fixing base plate and a mold assembly of the mold capable of manufacturing heat exchange fins capable of arranging oval heat exchange tubes of various types.

The present invention has the above object and specifically consists of the following configuration.

The present invention [1] In the mold 1000 for manufacturing a heat exchange fin having an elliptical hole into which an elliptical heat exchange tube is inserted, the mold 1000 is formed in any one of the processes of forming, piercing and flaring the heat exchange fin. Used, the mold 1000 has a mold head portion 1100 and a cross-sectional area larger than a cross-sectional area of the mold head portion 1100 under the mold head portion 1100, and a mold fixing support portion formed of a polygon ( 1200), it relates to a mold 1000 for manufacturing an heat exchange fin formed with an elliptical hole into which an oval heat exchange tube is inserted.

In addition, the present invention [2] in [1], characterized in that the polygon is made of any one of a 12-sided, 18-sided, and 36-sided shape, for manufacturing a heat exchange fin with an elliptical hole into which an elliptical heat exchange tube is inserted. It relates to a mold (1000).

In addition, the present invention [3] in the mold fixing support plate 2000 for supporting the mold 1000 for manufacturing a heat exchange fin having an elliptical hole into which an elliptical heat exchange tube is inserted, the mold 1000 are mold head parts ( 1100), having a cross-sectional area greater than the cross-sectional area of the mold head portion 1100 under the mold head portion 1100, a mold fixing support portion 1200 made of polygons, and the mold fixing support plate 2000 is the A mold for manufacturing a heat exchange fin having an elliptical hole into which an elliptical heat exchange tube is inserted, characterized in that it has a mold fixing support portion (2100) made of a plurality of polygonal fixed mold support portions (1200) made of polygons. It relates to a mold fixing support plate (3000) for fixing the (1000).

In addition, in the present invention [4] and [3], the polygon of the mold fixing support part 1200 and the mold fixing support part 2100 is characterized in that it consists of any one of a 12-sided, 18-sided, and 36-sided, It relates to a mold 1000 for manufacturing a heat exchange fin having an elliptical hole into which an oval heat exchange tube is inserted.

In addition, the present invention [5] a mold assembly (4000) consisting of a plurality of molds (1000), a mold holding plate (2000) and a mold head holding plate (3000) for manufacturing heat exchange fins formed with elliptical holes into which elliptical heat exchange tubes are inserted In the above, the plurality of molds 1000 are respectively formed of a mold head part 1100 and a mold fixing support part 1200, and each mold head part 1100 is for forming an elliptical hole of a heat exchange fin, Each of the mold fixing supports 1200 is formed of polygons having a cross-sectional area larger than the cross-sectional area of the mold head 1100 under the mold head portion 1100, and the mold fixing support plate 2000 is made of the polygon It has a plurality of mold fixing support portions 2100 made of polygons having the same shape as the polygons of the plurality of mold fixing supports 1200, and the mold head holding plate 3000 is assembled on the upper side of the mold fixing support plates 2000. The plurality of mold heads that are assembled and protrude upward from the mold fixing support plate 2000 while the multiple mold fixing supports 1200 of the multiple molds 1000 are assembled and fixed to the mold fixing support plate 2000. It relates to a mold assembly (4000) for manufacturing a heat exchange fin having an elliptical hole into which an oval heat exchange tube is inserted, characterized in that a plurality of mold head holding parts (3100) for inserting and fixing the part (1100) are formed.

The present invention, by having the configuration as described above, in the manufacture of a heat exchange fin having an elliptical hole into which an elliptical heat exchange tube is inserted, the angle and arrangement of the elliptical hole formed in the heat exchange fin can be varied while using the same mold. have.

In addition, the present invention can provide a mold, a mold fixing base plate, and a mold assembly capable of variously changing the angle and arrangement of the elliptical hole formed in the heat exchange fin as necessary.

1 is a side view showing the entire configuration of a heat exchange fin manufacturing apparatus.
2 is a schematic view of a mold processing apparatus during the entire process of manufacturing a heat exchange fin.
Figure 3 is a schematic diagram showing various embodiments of the heat exchange fin is formed elliptical hole is inserted oval heat exchange tube.
4 is a schematic view showing an embodiment of a heat exchanger installation.
5 is a perspective view of a mold used in each step of the forming process of the present invention.
Figure 6 is a cross-sectional view of the upper and lower molds used in the piercing process of the present invention.
7 is a cross-sectional view of a mold assembly used in the piercing process of the present invention.
8 is an exploded schematic view of a mold assembly used in the forming process of the present invention.

Below, with reference to the accompanying drawings, a mold 1000, a mold holding plate 2000, a mold head holding plate 3000, and a mold assembly 4000 for manufacturing an heat exchange fin having an elliptical hole into which an oval heat exchange tube of the present invention is inserted. ) Will be described in detail.

1 is a side view showing the overall configuration of a general heat exchange fin manufacturing apparatus, and is illustrated in Patent Document 1 above. The present invention relates to a mold 1000, a mold fixing base plate 2000, and a mold assembly 4000 used in a mold apparatus indicated by reference numeral 22 in FIG. 1.

FIG. 2 shows a prior art upper and lower mold assembly of the mold apparatus 22 part of FIG. 1 during the process of manufacturing the heat exchange fins, and forming in multiple steps, which is the previous step for making holes formed in the pins into elliptical holes. It shows a picture of a mold assembly of a mold, a piercing mold forming an elliptical hole in a pin, and a flaring mold.

FIG. 2(a) shows the lower mold assembly, and it can be seen that a plurality of rows of forming mold head parts 1101 are formed to protrude from a shape close to a circular shape to an elliptical shape. Next, it can be seen that a plurality of rows of lower piercing mold head parts 1102 for piercing protrude. In addition, a bottom row of multiple mold assemblies for flaring is shown, and in the case of flaring, it can be seen that only the mold die is formed on the lower side.

FIG. 2(b) shows the upper mold assembly, and it can be seen that a plurality of rows of mold dies having multiple steps for forming from a shape close to a circular shape to an elliptical shape are formed. Next, it can be seen that a plurality of rows of upper piercing mold head parts 1112 for piercing protrude. In addition, it can be seen that a plurality of rows of flaring mold head parts 1103 for flaring, which is the last step, protrude.

In addition, FIG. 2(c) shows a cross-section of the heat exchange fins formed by FIGS. 2(a) and 2(b), and shows a cross-section of the heat exchange fins after passing through the forming mold, piercing mold, and flaring mold. will be.

In FIG. 2, a space is formed between the piercing mold and the flaring mold, but this is because a row slit process may be performed.

The present invention relates to a mold 1000, a mold fixing base plate 2000 and a mold assembly 4000, each of the forming mold, the piercing mold and the flaring mold 1000, the mold fixing base plate 2000 and the mold It relates to the assembly (4000).

FIG. 3 shows various embodiments of an heat exchange fin in which an elliptical hole into which an oval heat exchange tube is inserted is formed, and the present invention is for manufacturing various heat exchange fins shown in FIG. 3. In addition, the heat exchange fins shown in FIG. 3 are part of an embodiment manufactured by the present invention, and when the present invention is used, heat exchange fins having various elliptical holes other than the above-described shapes can be manufactured.

3(a) shows that the elliptical hole is formed perpendicular to the horizontal direction of the heat exchange fin, and FIG. 3(b) shows that the elliptical hole is formed to be inclined 20° with respect to the horizontal direction of the heat exchange fin, and FIG. 3(c) ) Indicates that the elliptical hole is formed to be inclined 30° with respect to the horizontal direction of the heat exchange fin, and FIG. 3(d) shows that the elliptical hole is formed to be inclined to 20° to the left and right with respect to the horizontal direction of the heat exchange fin, respectively. 3(e) shows that the elliptical hole is formed to be inclined 30° to the left and right, respectively, with respect to the horizontal direction of the heat exchange fin.

The present invention not only is not only the elliptical holes arranged in one heat exchange fin are formed as above, but also makes the heat exchange fins in which each elliptical hole can be arranged at various angles, and thus provides the best heat exchange efficiency in accordance with various placement positions of the heat exchanger. It is intended to provide a heat exchange fin in which various elliptical holes are arranged to obtain.

In addition, the prior art had to manufacture individual molds suitable for each situation in order to change the elliptical hole angle and arrangement of the heat exchange fins, and therefore, an expensive manufacturing cost was required and additional manpower was required. Therefore, the present invention is to provide a mold capable of flexibly and actively coping with the needs of various customers, preventing productivity degradation of heat exchange fins according to the prior art as described above.

FIG. 4 shows some of various embodiments of the installation of the heat exchanger, and the fin-type heat exchanger may be installed perpendicular to the ground or at various angles to the ground, depending on the installation location. In addition, the air flow varies depending on the installation position of the fan F and the position of the air outlet AV. Therefore, it is necessary to increase the heat exchange efficiency by optimally designing the angle and arrangement of the elliptical hole according to the installation position of the fan F, the position of the air outlet AV, and the installation angle of the heat exchanger HE. When the installation angle of the fin-type heat exchanger (HE) is changed and the angle of the air flow is changed, vortices are formed in the flow due to air resistance between the heat exchanger tubes, and static pressure applied to the front and rear ends of the heat exchanger (HE) Will cause an increase. In this case, the demand for the conveying power of the fan F required for air transportation is increased, which increases energy consumption and noise vibration, and may result in uneconomical heat exchanger operation.

Most of the heat exchange fins so far have been formed in a certain direction in the shape of an elliptical hole into which an oval tube is inserted, and this is because the arrangement of the mold cannot be changed in various ways. The present invention is characterized in that it is intended to efficiently form an elliptical hole of the heat exchange fin according to the arrangement state of the heat exchanger.

5 shows each forming mold 1001 used in a forming process comprising multiple steps of the mold apparatus of the present invention. FIG. 5(a) shows a perspective view of a forming mold and a cross-sectional view of the forming mold head portion 1101, which gradually changes from a circular shape to an elliptical hole formed in a heat exchange fin, and FIG. 5(b) shows the forming It shows the cross section of the heat exchange fin manufactured by the molds 1001.

Figure 6 shows the upper and lower piercing mold 1002 of the mold apparatus of the present invention, the left drawing is the lower piercing mold 1102 located on the lower side, the right drawing is the upper piercing mold 1112 located on the upper side ).

In addition, FIG. 7 shows a cross-sectional view of the mold assembly 4000 of the piercing mold of the mold apparatus of the present invention, and FIG. 8 shows an exploded view of the forming mold assembly 4000 in the final forming step of the mold apparatus of the present invention. .

The present invention is to increase the heat exchange efficiency of the heat exchanger (HE) disposed at various installation positions, as can be seen in the installation embodiment of the heat exchanger of Figure 4, if necessary, the elliptical hole formed in the heat exchange fin It is intended to be changed to various angles.

In other words, the present invention is intended to form an elliptical hole into which a heat exchange tube is inserted, inclined at various angles to the horizontal direction of the heat exchange fin. That is, as shown in FIG. 3, while not only 20°, 30°, but also 40°, 50°, etc. are variously arranged, the direction is also changed to left and right as necessary to induce optimal air flow. In order to achieve the maximum heat exchange efficiency.

Since the conventional manufacturing mold of the heat exchange fin in which the elliptical hole is formed, as shown in FIG. 2, the heat exchange fin having the same elliptical hole arrangement in one mold was inevitably manufactured, thereby forming elliptical holes that are variously arranged. In order to manufacture the heat exchange fins, there is a great difficulty in reality in that it is necessary to manufacture various molds according to the number.

The present invention is intended to solve the above problems, and to provide an optimum air flow by arranging elliptical holes with various arrangement angles, and to manufacture heat exchange fins capable of optimal elliptical hole arrangement. And mold 1000. The mold fixing base plate 2000, the mold head holding plate 3000, and the mold assembly 4000 are used as components of the present invention, and the respective configurations are described below.

[Mold (1000)]

The mold 1000 of the present invention is divided into a mold head part 1100 and a mold fixing support part 1200. In the present invention, each mold 1000 may be divided into a forming mold 1001, a piercing mold 1002, a flaring mold 1003, and the like. Further, each mold head portion may be divided into a forming mold head portion 1101, a lower piercing mold head portion 1102, an upper piercing mold head portion 1112, and a flaring mold head portion 1103, and each mold fixing support portion The 1200 can be divided into a forming mold fixing support 1201, a lower piercing mold fixing support 1202, an upper piercing mold fixing support 1212, and a flaring mold fixing support 1203.

That is, the mold 1000 of the present invention has various mold head parts 1100 and various mold fixing support parts 1200 as described above.

However, although the mold head parts 1100 of the present invention have different shapes according to each process (forming, piercing, flaring), the mold fixing supports 1200, 1201, 1202, 1212, 1203 are all the same. It is preferably made of a polygon of shape.

Below, an embodiment of the mold 1000 will be described in each process.

[Forming process]

As can be seen in FIG. 2, the forming process is a step before forming an elliptical hole in the heat exchange fin, and is a process in which the elliptic ball portion to be formed in the heat exchange fin is made from a circle to an ellipse in multiple steps.

5 and 8, the mold 1000 in the forming process is represented by a forming mold 1001, wherein the mold head part 1100 is a forming mold head part 1101, and a mold fixing support part ( 1200) are respectively denoted by forming mold fixing supports 1201.

The forming mold head portion 1101, as can be seen in FIG. 5, is adapted to the shape of the elliptical hole of the heat exchange fin required while passing through the plurality of forming mold head portions 1101. Therefore, as shown in FIG. 5, each forming mold head portion 1101 is gradually changed from a circular shape to an elliptical shape formed on a heat exchange fin, and the shape of the forming mold head portion 1101 is changed for each step.

In addition, as can be seen in FIGS. 5 and 8, the forming mold fixing support part 1201 of the present invention is formed under the forming mold head part 1101, and a cross section of the forming mold head part 1101 ), and is made of polygons (36 angles). Such a polygon (36 angles) is for assembling and fixing to a mold fixing base 2100 made of polygons (36 angles) described below.

In addition, as described above, forming the forming mold fixing support portion 1201 and the mold fixing support portion 2100 as polygons (36 angles) means that the mold fixing support plate 2000 formed with the forming mold 1001 and the mold fixing support portion 2100 is formed. This is because the arrangement angle of the elliptical hole can be varied depending on the assembly angle.

For example, as shown in the figure, when the polygon has 36 angles, the assembly angles of the mold fixing support portions 1200 and 1201 and the mold fixing support portion 2100 formed on the mold fixing support plate 2000 are adjusted. This is because the arrangement angle of the elliptical hole formed in the heat exchange fin can be changed by 10° by changing one side of the polygon.

As such, by adjusting the assembly angle of the mold fixing support portions 1200 and 1201 and the mold fixing support portion 2100 formed on the mold fixing support plate 2000, the arrangement of elliptic holes formed in the heat exchange fins can be varied. have. That is, it is possible to arrange the optimal heat exchange fin according to the installation environment of the heat exchanger.

[Piercing process]

The piercing process is a process for forming an elliptical hole in the heat exchange fin, as can be seen in FIG. 2 as well.

6 and 7, the mold 1000 in the piercing process is a piercing mold 1002, wherein the mold head portion 1100 includes a lower piercing mold head portion 1102 and an upper piercing mold head portion ( 1112), and the mold fixing support 1200 is represented by a lower piercing mold fixing support 1202 and an upper piercing mold fixing support 1212.

The lower piercing mold head portion 1102 and the upper piercing mold head portion 1112 in the piercing process of the present invention are for forming elliptical holes in the heat exchange fin, as can be seen in FIGS. 6 and 7, the lower portion The mold piercing head portion 1102 is formed with a hole having the same shape as an elliptical hole of the heat exchange fin on the upper side, and the upper piercing mold head portion 1112 is inserted into the hole of the lower mold piercing head portion 1102 to oval the heat exchange pin. It is made in the form of an elliptical column to form a ball.

As such, the upper mold piercing head portion 1112 can be inserted into the lower mold piercing head portion to form an elliptical hole in the heat exchange fin, and the pierced scrap is removed to the inside of the lower piercing mold head portion 1102. do.

At this time, an air hole 1300 is formed in the center portion of the upper piercing mold head portion 1112 and the upper piercing mold fixing support portion 1212, and the scrap can easily fall into the lower piercing mold head portion 1102. It is desirable.

Also, as can be seen in FIGS. 6 and 7, the lower and upper piercing mold fixing supports 1202 and 1212 are formed on the lower and lower sides of the upper and lower piercing mold head portions 1102 and 1112, respectively. The lower and upper piercing mold head parts 1102 and 1112 are made larger, and are made of polygons (36 angles). Such a polygon (36 angles) is for assembling and fixing to the mold fixing base 2100 described below.

In addition, as described in the previous forming process, the lower and upper piercing mold fixing supports 1202 and 1212 and the mold fixing support portions 2100 as polygons (36 angles) hold the piercing mold 1002 as a mold fixing support. This is because the placement angle of the elliptical hole can be changed according to the assembly angle when the assembly is fixed to the mold fixing base plate 2000 on which the part 2100 is formed.

For example, when the polygon has a 36 angle, in adjusting the assembly angle of the mold fixing support portions 1200, 1202 and 1212 and the mold fixing support portion 2100 formed on the mold fixing support plate 2000, the polygonal shape This is because the arrangement angle of the elliptical hole formed in the heat exchange fin can be changed by 10° by changing one side.

Thus, by adjusting the assembly angle of the mold fixing support portions 1200, 1202, and 1212 and the mold fixing support portion 2100 formed on the mold fixing support plate 2000, the arrangement of elliptical holes formed in the heat exchange fins is variously adjusted. can do. That is, it is possible to arrange the elliptical hole of the optimal heat exchange fin according to the installation environment of the heat exchanger.

[Flaring process]

The flaring process is a process for forming a flange on the elliptical hole of the heat exchange fin, as can be seen in FIG. 2.

The flaring mold 1003, which is the mold 1000 used in the flaring process of the present invention, is not specifically shown in the drawings, but, similar to the forming mold 1001 and the piercing mold 1002, the mold head portion 1100 ) Has a flaring mold head portion 1103, and a mold fixing support portion 1200 has a flaring mold fixing support portion 1203.

The flaring mold fixing support portion 1203 of the present invention is formed below the flaring mold head portion 1103, and has a larger cross-section than the flaring mold head portion 1103, and has a polygonal shape (36 angles). Is made of Such a polygon (36 angles) is for assembling and fixing to the mold fixing base 2100 described below.

In addition, as described in the former forming process and the piercing process, making the flaring mold fixing support portion 1203 and the mold fixing support portion 2100 into a polygon (36 angles) means that the flaring mold 1003 is fixed to the mold. This is because the placement angle of the elliptical hole can be changed according to the assembly angle when the assembly is fixed to the mold fixing base plate 2000 on which the part 2100 is formed.

For example, when the polygon has a 36 angle, in adjusting the assembly angle of the mold fixing support portions 1200 and 1203 and the mold fixing support portion 2100 formed on the mold fixing support plate 2000, one of the polygons This is because the arrangement angle of the elliptical hole formed in the heat exchange fin can be changed by 10° by changing the sides.

Thus, by adjusting the assembly angle of the mold fixing support portions 1200 and 1203 and the mold fixing support portion 2100 formed on the mold fixing support plate 2000, it is possible to vary the arrangement of elliptical holes formed in the heat exchange fins. have. That is, it is possible to arrange the elliptical hole of the optimal heat exchange fin according to the installation environment of the heat exchanger.

In the previous forming process, piercing process, and flaring process, only polygons are each illustrated with 36 angles, but the present invention does not necessarily limit the polygons to only 36 angles, and may be assumed to be, for example, 18 angles. When the polygon is set to 18 degrees in this way, the arrangement angle can be changed by 20° by changing the assembly angle of one side of the polygon, and when it is set to 12 angles, to change the assembly angle of one side of the polygon This is because the arrangement angle can be changed by 30°.

However, the present invention is intended to diversify the arrangement of elliptical holes formed in the heat exchange fins, and is preferably at least 12 angles.

In other words, the mold 1000 of the present invention is a mold 1000 for manufacturing a heat exchange fin having an elliptical hole into which an elliptical heat exchange tube is inserted, and such a mold 1000 forms any one of foaming, piercing, and flaring heat exchange fins. Used in the process, the mold 1000 has a mold head portion 1100 and a cross-sectional area larger than the cross-sectional area of the mold head portion 1100 under the mold head portion 1100, and a mold fixing support portion 1200 made of polygons It is characterized by having a ).

In addition, the polygon is characterized in that it consists of any one of a 12-sided, 18-sided, and 36-sided.

[Mold Fixed Base Plate (2000)]

The mold fixing support plate 2000 of the present invention includes a mold fixing support portion 2100 made of polygons such as polygons of the mold fixing support portions 1200, 1201, 1202, 1212, and 1203 in the forming process, piercing process, and flaring process. ).

7 and 8 show a mold fixing support plate 2000 having mold fixing supports 1200, 1201, 1202, and 1212 in a piercing process and a forming process.

Since the mold fixing base plate 2000 in the flaring process has the same shape as the mold fixing supports 1101, 1101 and 1112 of the molds 1001 and 1002 in other processes, illustration in the drawings is omitted.

In addition, it is preferable that all of the mold fixing base plates 2000 in each step in the present invention be the same. Because, in the forming process, the mold fixing support parts 1200 and 1201 of the molds 1000 and 1001 are assembled and fixed to the mold fixing support part 2100, and a multi-step forming process is performed. The piercing process is performed in the state where the mold fixing supports 1200, 1202, 1212 of 1002) are assembled and fixed to the mold fixing support 2100, and the mold fixing supports 1200, 1203 of the flaring molds 1000, 1003 This is because the flaring process is performed in a state where the mold is fixed and fixed to the mold holding base 2100.

Therefore, the mold head portion 1100 of the mold 1000 in each of the above processes must have a different shape depending on the process, but the mold having a mold fixing support portion 1200 and a mold fixing support portion 2100 is fixed. It is preferable that the base plate 2000 has the same shape in different processes.

In other words, the mold fixing base plate 2000 of the present invention is for fixing and supporting the molds 1000 for manufacturing heat exchange fins formed with elliptical holes into which elliptical heat exchange tubes are inserted, and the molds 1000 are mold head parts 1100 ), has a cross-sectional area greater than the cross-sectional area of the mold head portion 1100 under the mold head portion 1100, has a mold fixing support portion 1200 made of polygons, and a mold fixing support portion 1200 made of the polygons It is characterized in that it has a mold fixing support portion 2100 made of a plurality of polygons that are fixedly supported.

In addition, the polygon is characterized in that it consists of any one of a 12-sided, 18-sided, and 36-sided.

[Mold Head Holding Plate (3000)]

The mold fixing base plate 3000 of the present invention, as shown in FIGS. 7 and 8, the mold head portion 1100, 1101 above the mold fixing base plate 2000 in the forming process, piercing process, and flaring process. , 1102, 1112, 1103).

In addition, the mold head holding plate 3000 is installed on the upper side of the mold fixing base plate 2000, and the multiple mold fixing supports 1200 of the multiple molds 1000 are assembled to the mold fixing base plate 2000. In a fixed state, a plurality of mold head holding parts 3100 for inserting and fixing the plurality of mold head parts 1100 protruding upwards of the mold holding base plate 2000 are formed.

[Mold Assembly 4000]

In the mold assembly 4000 of the present invention, a mold 1000, a mold fixing base plate 2000, and a mold head holding plate 3000 are assembled.

That is, the mold fixing support plate 2000 having a mold fixing support portion 2100 in which the mold fixing support portions 1200, 1201, 1202, 1212, and 1203 of the molds 1000, 1001, 1002, and 1003 are assembled and fixed, and the The mold assembly 4000 is completed by the mold head holding plate 300 to which the mold head portions 1100, 1101, 1102, 1112, and 1103 are fitted and coupled on the upper surface of the mold holding plate 2000.

In the mold assembly 4000 of the present invention, since the mold fixing support part 1200 and the mold fixing support part 2100 are each assembled in a polygon having the same shape, by changing the angle of the assembly direction, the heat exchange fin It is possible to variously change the direction of the elliptical hole formed.

In other words, the mold assembly 4000 of the present invention includes a plurality of molds 1000 for manufacturing heat exchange fins having an elliptical hole into which an elliptical heat exchange tube is inserted, and a mold fixing support plate 2000 for holding and supporting the plurality of molds 1000 ) And a mold head holding plate 3000.

In addition, each of the molds 1000 is composed of a mold head portion 1100 and a mold fixing support portion 1200, and each mold head portion 1100 is for forming elliptical holes of a heat exchange fin, and the respective The mold fixing support part 1200 is formed of a polygon having a cross-sectional area larger than the cross-sectional area of the mold head part 1100 below the mold head part 1100.

In addition, the mold fixing support plate 2000 has a plurality of mold fixing support portions 2100 made of polygons having the same shape as the polygons of the plurality of mold fixing support portions 1200 made of the polygon.

In addition, the mold head holding plate 3000 is assembled and coupled to the upper side of the mold holding plate 2000, and a plurality of mold fixing supports 1200 of the plurality of molds 1000 are connected to the mold holding plate 2000. It is characterized in that a plurality of mold head holding portions 3100 for inserting and fixing the plurality of mold head portions 1100 protruding upward from the mold fixing base plate 2000 in an assembled fixed state is formed.

1000: mold
1001: forming mold
1002: piercing mold
1003: flaring mold
1100: mold head
1101: forming mold head
1102: lower piercing mold head
1112: upper piercing mold head
1103: Flaring mold head
1200: mold fixing support
1201: forming mold fixing support
1202: Lower piercing mold fixing support
1212: upper piercing mold fixing support
1300: Air ball
2000: Mold fixed support plate
2100: mold fixing base
3000: mold head holding plate
3100: Mold head holding part
4000: mold assembly

Claims (5)

delete delete delete delete A plurality of molds (1000), a mold holding plate (2000) and a mold head holding plate (3000) for manufacturing heat exchange fins capable of inducing the flow of air by arranging elliptical holes into which elliptical heat exchange tubes are inserted at various arrangement angles In the mold assembly (4000) consisting of,
The plurality of molds 1000 are each made of a mold head portion 1100 and a mold fixing support portion 1200,
Each mold head portion 1100 is for forming an elliptical hole of the heat exchange fin,
Each of the mold fixing supports 1200 is made of a polygon formed of any one of a 12-sided, 18-sided, and 36-sided shape having a cross-sectional area larger than the cross-sectional area of the mold head 1100 under the mold head portion 1100,
The mold fixing support plate 2000 has a plurality of mold fixing support portions 2100 made of polygons having the same shape as the polygons of the plurality of mold fixing support portions 1200 made of the polygon,
The mold head holding plate 3000 is assembled and assembled on the upper side of the mold fixing base plate 2000, and a plurality of mold fixing supports 1200 of the multiple molds 1000 are assembled and fixed to the mold fixing base plate 2000. In the state, characterized in that to form a plurality of mold head holding portion (3100) for inserting and fixing the plurality of mold head portion 1100 protruding upward of the mold holding plate (2000),
A mold assembly 4000 for manufacturing an heat exchange fin having an elliptical hole into which an oval heat exchange tube is inserted.

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