KR101496968B1 - Corrugated fin-wall manufacturing apparatus and manufacturing method for transformers - Google Patents

Abstract

Provided are an apparatus and a method for manufacturing a heat dissipating fin for a transformer. A heat dissipating fin according to the present invention includes a moving die (21) which is a fin molder to have an inner side and an outer side with countergradient, a bending die (41), and a fixing die (31). The heat dissipating fin (10) corrects a variation by using the countergradient in molding stainless and can solve the problem of a stainless process.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fin-

The present invention relates to an apparatus and a method for manufacturing a heat-radiating fin for a transformer, and more particularly, to an apparatus and a method for manufacturing a heat-radiating fin for a transformer that can be used in seawater, salt, and moisture.

In a typical transformer, a lot of heat is generated in the process of converting high-voltage power into low-voltage power. A radiator having radiating fins for discharging generated heat to the outside is essentially used.

At this time, the radiating fin for the transformer is installed in the enclosure of the transformer and may be damaged due to corrosion and oil leakage and rust when it is used in areas where there is a lot of seawater, salt and water.

Korean Patent Laid-Open Publication No. 10-2007-00117037 entitled "Corrosion-resistant outer casing of pillar transformer" refers to a casing for transformers for pillar transformers, and more particularly, The present invention relates to a corrosion resistant outer casing of a pillar transformer which is installed in a salt-smelting area of a transformer and is improved in corrosion resistance and durability to prevent the outer casing of the transformer from corrosion and corrosion to prevent pollution such as leakage and leakage due to leakage and rust. To this end, the present invention is characterized in that a primary bushing terminal 2 is provided on a top face 1 of an enclosure and a secondary bushing terminal 4, a ground terminal 5 and a radiator 6 are provided on an outer peripheral face 3 The entire outer casing body 10 having the outer peripheral surface 3 and the upper end surface 1 and the lower end surface 7 is made of stainless steel.

Korean Utility Model Registration No. 20-0335264, "Corrosion-proof Ground Equipment Box", is provided with a pedestal having a ventilation hole between a ground equipment box and a foundation block to form a passage for introducing outside air into the ground equipment box, It is an object of the present invention to provide an anti-corrosion type ground device box which can reduce the moisture inside the ground device box by minimizing the ventilation of the lower portion of the compartment as in the upper portion. In addition, a cover for covering the upper part of the pedestal is formed in the ground device box, so that various contaminants flow on the surface of the ground device box and fall directly on the foundation, thereby minimizing corrosion caused by pollutants. Another object of the present invention is to propose a technique of providing a corrosion-resistant ground device capable of more effectively preventing self-corrosion by forming a pedestal with a corrosion-resistant material and treating the surface of the pedestal for corrosion prevention.

On the other hand, in a conventional method for manufacturing a corrugated fin-wall, Korean Patent Laid-Open Publication No. 10-2011-095826 entitled "corrugated fin manufacturing apparatus" And enters the concave portion of the die to form a rib. When entering the concave portion of the die, even if it does not come into contact with or contacts with the ribbed portion of the plate-shaped body, resistance to the entry of the rib- Not machining punch; A mounting portion provided on the die; And a flat punch disposed in the upstream portion of the machining punch. When the rib is formed, the flat punch is positioned so as not to cause resistance to the inflow of the raw raw material even if the flat punch does not come into contact with or contacts the raw raw metal portion And after the ribs are formed, the flat punch presses the unprocessed rib portions to flatten the rib unprocessed portions together with the mounting portions.

Korean Patent Laid-Open Publication No. 10-2008-0110211 entitled " Method of Manufacturing a Wrinkle Radiating Fins Having Uneven Pitch "includes a basic pin forming step (S20) of forming a plate material into basic pins having the same pitch over the entire length, The primary section of the basic pin formed in the molding step S20 is pressed and molded at a desired fin pitch between the first and second legs 32 and 32 ' (S30) in which the secondary section of the pin formed in the primary molding step (S30) is formed at a desired fin pitch between the second and lower legs 42, 42 ' And a secondary molding step (S40) of performing press molding to finish molding. Thus, a manufacturing method of a wrinkle radiating fin having various fin pitches according to the length region of the wrinkle radiating fin has been proposed.

The radiating fin portion protrudes from the casing in order to radiate heat, which causes problems of breakage and corrosiveness. In order to solve this problem, a technique of applying a stainless steel having high strength and corrosion resistance has been conventionally proposed. However, general corrugated pin-wall machining has a problem that it is difficult to process stainless steel. Even if stainless steel is used, there is a limit to be applied to a pedestal or an enclosure only.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a heat dissipating fin which is attached to an outer housing of a transformer and is formed of stainless steel. It is another object of the present invention to provide a manufacturing apparatus and a manufacturing method of a heat sink fin for a transformer in which a deformation amount is retained by using a reverse gradient when a stainless steel is formed.

According to an aspect of the present invention for achieving the above-described object, there is provided an uncoiler; And a pin molding machine provided with a movable die 21, a bending die 41 and a fixing die 31 for molding the stainless steel plate 11 supplied from the uncoiler into a radiating fin; And a cutter for cutting the end of the radiating fin formed through the fin forming machine; A bending die 41 and a fixing die 31 are fixed to the upper surface of the heat dissipation fin by the fin forming machine, The inner side and the outer side of the radiating fin may have a reverse gradient.

In the apparatus for manufacturing a heat-radiating fin for a transformer, the bending die 41 has a slope from the top surface to the bottom surface and a bottom surface is narrowed, and the movable die 21 and the fixed die 31 are opposed to the bending die 41 The inclination of the bending die 41 can be the same as the inclination of the bending die 41.

According to an aspect of the present invention for achieving the aforementioned object, there is provided a method of manufacturing a stainless steel plate, comprising: uncoiling a stainless steel plate 11; and uncoiling the stainless steel plate 11 with the movable die 21, the bending die 41, A forming step of forming a heat radiating fin by supplying the heat to a fin forming machine provided with a die 31 and cutting the end of the heat radiating fin after the forming step; And a welding step of welding both sides of the cut heat dissipation fin. In the heat dissipation fin forming step, the inner side and the outer side of the heat dissipation fin may have a reverse gradient.

In the method for manufacturing a heat radiating fin for a transformer, a reverse gradient between the inner side and the outer side of the radiating fin in the heat sink forming step may be performed during operation of the movable die 21, the bending die 41 and the fixing die 31 .

In such a method of manufacturing a radiating fin for a transformer, the welding step may further include spot welding.

According to the apparatus and method for manufacturing a heat radiating fin for a transformer according to the present invention, it is possible to solve the problem of stainless steel finishing of a corrugated fin-wall by holding a deformation amount by using a reverse gradient when forming a stainless steel.

1 is a view showing a problem of a conventional heat radiating fin;
FIG. 2 is a view showing an apparatus for manufacturing a heat-radiating fin for a transformer according to a technical idea of the present invention;
3 is a view showing angles of a movable die and a fixed die of a heat radiating fin manufacturing apparatus for a transformer according to a preferred embodiment of the present invention;
Figures 4 (a) and 4 (b) illustrate driving of a bending die according to a preferred embodiment of the present invention;
FIG. 5 illustrates a radiating fin according to a preferred embodiment of the present invention; FIG.
6 is a view illustrating a method of manufacturing a radiating fin for a transformer according to a preferred embodiment of the present invention;
7 is a view showing a method of manufacturing a heat radiating fin for a transformer according to another preferred embodiment of the present invention.

1 is a view showing a problem of a conventional heat radiating fin.

Referring to FIG. 1, in a method of manufacturing a corrugated fin-wall, a conventional technique has been proposed in which, when stainless steel is used, as shown in FIG. 1, .

The conventional manufacturing apparatus can be manufactured by applying pressure to the stainless steel plate 9 by placing the bending die 7 between the stationary die 5 and the movable die 3. The slope of the bending die 7 (in this specification, this inclination is defined as a tongue). The shape of the corrugated fin-wall can be temporarily produced by a structure in which the bending die 7 can be easily pulled out There is a problem in that the width d is widened due to the deformation amount of the stainless steel as described above.

2 is a view showing an apparatus for manufacturing a heat-radiating fin for a transformer according to the technical idea of the present invention.

The apparatus for manufacturing a heat-radiating fin for a transformer according to the present invention may include a fin forming machine equipped with an uncoiler and a movable die 21, a bending die 41 and a fixed die 31, a cutter, and a welding device. In this case, the apparatus for forming the corrugated fin-wall, the uncoiler, the cutter, and the welding apparatus are commonly known to those skilled in the art to which the present invention is applicable, and a detailed description thereof will be omitted.

2, the apparatus for manufacturing a heat-radiating fin for a transformer includes a movable die 31, a fixed die 31 and a bending die 41. The heat-dissipating fin 10 can be manufactured from a stainless steel plate 11 supplied from an uncoiler have.

The movable die 21 is compressed toward the fixed die 31 and a bending die 41 is provided between the movable die 21 and the fixed die 31. The bending die 41 is movable between the movable die 21 and the fixed die 31, (31) so that the stainless steel plate (11) can pass therethrough.

The bending die 41 has a width d as compared with FIG. 1 by using a bending die 41 having a reverse gradient from a top surface to a bottom surface at the same inclination ([theta] [deg.] B) Can be reduced.

In such a pin forming machine, when the heat radiating fin is formed, the bending die 41 is tightly compressed between the movable die 21 and the fixed die 31 so that the inner side and the outer side of the heat radiating fin have a reverse gradient, (11) has the same shape as the stainless steel plate (9) of FIG. 1, but may have a difference in width (d) due to compression of a backward gradient. Accordingly, the heat dissipation fin formed by the uniaxial contraction as compared with the heat dissipation fin formed by the conventional art can reduce the width d even if it is restored by the elasticity after molding, so that the heat dissipation fin having a desired distance can be manufactured.

At this time, the bending die 41 formed by the uncoiling is exaggerated in order to enhance the understanding, and the difference from the conventional bending die 7 can be a micro unit, and the bending die 41 ) Can be lowered and removed without difficulty.

Hereinafter, the preferred embodiments of the present invention will be described with reference to Figs. 3 to 7 attached hereto. On the other hand, with respect to the technology for manufacturing the heat dissipation fins such as the Uncoiler drive, the driving of the mold apparatus and the welding, and the like, it is common for the workers in the field to which the present invention is applied, A detailed description thereof will be omitted, and the related portions will be mainly shown and described.

3 is a view showing the angles of the movable die and the fixed die of the heat radiation fin manufacturing apparatus for a transformer.

3, each of the movable die 21 and the fixed die 31 has a cross section which faces the bending die 41 and has a slope (? B), and the movable die 21 and the fixed die 31 The inclination? B is equal to the backward gradient (? B) of the bending die 41 so that the bending die 41 rises and is tightly compressed between the movable die 21 and the fixed die 31.

In this embodiment, when the stainless steel plate 11 is compressed and formed into the heat radiating fin 10, the inner side and the outer side of the heat radiating fin 10 have a reverse gradient.

4 (a) and 5 (b) are views showing driving and cooling fins of the bending die according to a preferred embodiment of the present invention.

4 (a) shows a state in which the bending die 41 rises and the stainless steel plate 11 is pushed up and the bending die 41 is raised, the movable die 21 is fixed The stainless steel plate 11 is formed in the form of a heat radiating fin as shown in FIG. 4 (b) while being compressed toward the die 31. The stainless steel plate 11 whose length has been measured according to the user's needs is processed through the process of FIG. 4 to form a completed radiating fin 10 as shown in FIG.

6 is a view showing a method for manufacturing a heat radiating fin for a transformer according to a preferred embodiment of the present invention.

6, the uncoiling step of the stainless steel plate 11 and the stainless steel plate 11 are supplied to the pin forming machine provided with the movable die 21, the bending die 41 and the fixed die 31, A molding step for molding, a step for cutting the end of the radiating fin after the forming step, and a welding step.

The uncoiling step is a step of releasing the coiled stainless steel plate 11, and the fullerene stainless steel plate 11 measures the length according to the user's request.

The molding step is a step of molding in the form of a heat dissipating fin through a pin molding machine provided with a movable die 21, a bending die 41 and a fixing die 31. The molding step is performed in consideration of the tensile strength and ductility of the stainless steel plate 11 . The stainless steel of this embodiment is made of materials such as STS304, STS316, and STS316L because it is relatively better in welding and bending than various stainless steel systems.

In the cutting step, since the tensile strength of the stainless steel plate 11 is higher than that of iron, it is cut through a cutter having a strength higher than that of cutting the existing steel.

The welding step has a welding step in which the heat radiating fins 10 are formed and fixed with a hydraulic moving clamp on the side of each fin and subjected to seam welding with a welding gun.

7 is a view showing a method of manufacturing a heat radiating fin for a transformer according to another preferred embodiment of the present invention.

The steps up to the uncoiling step and the cutting step refer to FIG. 6, and the welding step, which is another embodiment, makes the heat radiating fin 10 more solid using spot welding after seam welding.

It is possible to weld the side surfaces of the heat dissipating fins 10 by seam welding and to perform spot welding. At this time, a recessed pressing portion may be further provided on each end surface of the heat dissipating fin 10, and the strength of the heat dissipating fin 10 is increased by performing spot welding on the pressed portion.

The heat dissipating fin 10 formed by the apparatus and method for manufacturing a transformer according to the present embodiment is welded to an enclosure. In this embodiment, the heat dissipating fin 10 has a reverse gradient, A movable die 21, a bending die 41, and a fixed die 31. [

Therefore, when the corrugated pin-wall processing is applied to the stainless steel plate 11 to form the stainless steel plate 11, the amount of deformation is obtained by using the backward gradient to form the heat dissipation fin 10 by the width d, Can be solved.

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, but, on the contrary, It will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

3: movable die 5: fixed die
7: Bending die 9: Stainless steel plate
11: Stainless plate 21: movable die
31: Fixing die 41: Bending die

Claims (5)

Uncoiler; Wow
A pin molding machine provided with a movable die 21, a bending die 41 and a fixing die 31 for molding the stainless steel plate 11 supplied from the uncoiler into a heat radiation fin; Wow
A cutter for cutting the end of the radiating fin formed through the fin forming machine; And
And a welding device for welding the finished radiating fin through the cutter,
Wherein the movable die (21), the bending die (41), and the fixed die (31) have a reverse gradient between the inner side and the outer side of the radiating fin when the radiating fin is formed through the pin molding machine Radiating fin manufacturing apparatus.
The method according to claim 1,
The bending die 41 has a slope from an upper surface to a lower surface and a lower surface of the bending die 41. The movable die 21 and the fixed die 31 have a slope in cross section facing the bending die 41, Is the same as the slope of the heat radiating fin (41).
An uncoiling step of the stainless steel plate 11;
A molding step of supplying the uncoiled stainless steel plate 11 to a pin molding machine provided with a movable die 21, a bending die 41 and a fixed die 31 to form a heat radiating fin;
A cutting step of cutting the end of the radiating fin after the forming step; And
And a welding step of welding both sides of the cut heat dissipation fin, wherein the heat dissipation fin forming step has a reverse gradient between the inner side and the outer side of the heat dissipation fin.
The method of claim 3,
Wherein a reverse gradient between the inner side and the outer side of the radiating fin in the radiating fin forming step is performed during operation of the movable die, the bending die, and the fixing die.
The method of claim 3,
Wherein said welding step further comprises spot welding. ≪ RTI ID = 0.0 > 11. < / RTI >

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