KR101216956B1 - Manufacturing method of press product minimized the radius of curvature of edges - Google Patents

Abstract

PURPOSE: A method for manufacturing a pressed product with the minimized radius of curvature at corners is provided to simplify initial setting and improve workability by cutting one side of a pressed product with surface friction of a grinding member. CONSTITUTION: A method for manufacturing a pressed product with the minimized radius of curvature at corners comprises the steps of: pressing a metal plate(P) in a pres mold(10) and plasticizing to bend a corner of the pressed product into an arc shape, cutting one side of the plasticized pressed product with a grinding member, and plating, painting, coating, or depositing the surface of the pressed product. In the grinding step, the height of a lower fixing jig or abrasive cloth jig is adjusted so that the pressed product comes into contact with the grinding member and the lower fixing jig and the abrasive cloth jig are rotated in opposite directions with the grinding member in contact with one side of the pressed product so that the arc of the pressed product is reduced or removed by friction against the grinding member.

Description

Manufacturing method of press product minimized the radius of curvature of edges}

The present invention relates to a method for manufacturing a press product with a minimum curvature radius, and particularly, by cutting a surface by grinding, which may be referred to as a physical method, not a mechanical or chemical method, to a press product of a metal material processed into a press die. This is to minimize the radius of curvature of the press product.

In general, the metal substrate used for the exterior case for home appliances and communication devices is made of stainless steel, aluminum, or magnesium, such a metal substrate is durable and beautiful in appearance, the interior and exterior materials for building materials, exterior panels, It is widely used as interior case, front panel of sound equipment, camera exterior panel, mobile phone exterior panel, electronic parts and automobile structure.

Metal substrates used for such a wide range of applications require various shapes and precisions according to the characteristics, shapes, and design elements of the product, and the shape manufacturing method for the above metal substrates is press, CNC machining, die casting, etc. There are many methods, but in general, in the exterior material of the product is made mainly of the press working of the metal plate due to the low cost of manufacturing and excellent surface processing.

However, due to the nature of the press working, the edge portion of the press product has an arc shape, that is, a product having a certain curvature, and the curvature value is increased or decreased by the thickness of the material.

More specifically, the press product manufacturing method described in Korean Patent Laid-Open Publication No. 10-2011-0024366 will be described.

1 to 4 is a schematic cross-sectional view showing the configuration of a conventional press product manufacturing method described in Republic of Korea Patent Publication No. 10-2011-0024366.

As shown in FIGS. 1 to 3, a conventional press product die apparatus includes an upper mold 2 having a punch 2a protruding from a center bottom portion thereof, and the punch 2a together with the workpiece 3. It consists of a lower mold (1) having a forming groove (1a) formed correspondingly to the punch (2a).

Looking at the molding process of the workpiece by the conventional mold apparatus, after placing the plate-like workpiece (3) on the upper surface of the lower mold (1), the upper mold (2) is lowered. In this process, the tip of the punch 2a of the upper mold 2 is brought into close contact with the workpiece 3 first, and the punch 2a is lowered together with the workpiece 3 by the lowering of the upper mold 2. It is inserted into the forming groove (1a) of the.

In this case, as shown in FIG. 4, which shows an enlarged portion 'A' of FIG. 3, the punch 2a of the upper mold 2 is inserted into the forming groove 1a of the lower mold 1 with the workpiece 3 interposed therebetween. At the same time as the entry is completed, the forming work of the workpiece 3 is completed, and the punch (the reason why the thickness 3 of the corner 3c of the workpiece 3 is reduced during the entry of the punch 2a toward the forming groove 1a) The outer curvature radius R of the corner 3c of the work piece 3 becomes the actual curvature by the die shape by not being completely filled in the die shape (molding space), which is an area between 2a) and the forming groove 1a. It is larger than the radius r.

The arc shape of the corner portion is inevitably to be formed in normal press processing. If the radius of curvature of the corner is large, the completeness of the product decreases and the appearance quality of electronic products that emphasize aesthetics is deteriorated.

In order to solve this problem, conventionally, CNC machining is applied to cut the surface of press products by CNC to reduce the radius of curvature of corners.

However, CNC machining has a problem in that it is difficult to set the processing conditions such as initial position setting for each process and it is difficult to apply to mass production due to long working time.

In addition, CNC machining takes a lot of time for the additional polishing process because the surface is rough after work, which causes a problem that the overall manufacturing time and product price rises.

There is a chemical method, but in the subsequent finishing process after the chemical processing, the chemically processed surface is changed so that it is not different from the general processing, so the final result is difficult to distinguish.

The present invention is to solve the above problems, after fixing the press product that implements the complete shape through the press mold operation to the jig, the surface of the press product by abrasive cutting by physical surface friction method to reduce the corners, thereby The purpose is to realize a product having a finer curvature value than the curvature value of the corner portion that can be minimized in the press mold operation.

In order to achieve the above object, a method of manufacturing a press product in which the corner radius of curvature of the present invention is minimized is provided.
Press-processing step of seating the metal plate between the press mold, and then crimping and plastic working to bend the edge of one side of the press product into an arc shape; And
A mirror polishing step of cutting one surface of the press product plastically processed in the press working step with an abrasive member; , ≪ / RTI >
The mirror polishing step,
Fixing the press product to a lower fixing jig rotatably installed on an upper portion of a work bench;
Fixing the polishing member to a polishing cloth jig disposed above the lower fixing jig and rotatably installed;
Adjusting a height of the lower fixing jig or the polishing cloth jig such that the surface of the press product is in surface contact with the polishing member; And
The lower fixing jig and the polishing cloth jig are rotated in opposite directions in a state in which the lower fixing jig and the polishing cloth jig are arranged in parallel with each other in a state in which the polishing member is in horizontal contact with one surface of the press product. One surface of the press product is uniformly cut in the direction of decreasing thickness so that the arc shape of one side edge portion of the press product is reduced or eliminated by friction with the polishing member, thereby simultaneously performing the cutting operation and the photo-polishing operation for gloss implementation. Making;
And a control unit.
The polishing member is made of abrasive cloth, sandpaper or artificial leather.

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As described above, the method of manufacturing a press product in which the corner radius of curvature of the present invention is minimized has the following effects.

In the mirror polishing step, the polishing member is rubbed while contacting one surface of the press product to cut one surface of the press product, unlike the conventional CNC machining, the initial setting is simple and the workability is improved, and the polishing is simultaneously realized. There is an effect that can shorten the time of the post-process by performing light polishing for.

In addition, the overall manufacturing time is reduced to reduce the manufacturing cost, there is an effect that can maximize the productivity in mass production.

By cutting so that the arc shape of one edge of the press product is reduced or eliminated in the mirror polishing step, the radius of curvature of the edge of the press product can be minimized, and the aesthetics of the press product is improved to improve the quality when assembling the product. It can be effected.

In the mirror polishing step, the press product and the polishing member are rotated in opposite directions in a state where they are in surface contact with each other, thereby cutting the surface of the press product, thereby quickly cutting the work, thereby reducing work time. The through-hole formed in the press product is prevented from being deformed to improve the quality of the press product.

1 to 3 is a cross-sectional structural view showing a processing state of the press product according to the prior art,
4 is an enlarged cross-sectional structural view of a portion 'A' of FIG. 3,
5 is a flow chart of a method for manufacturing a press product in which the curvature radius of the corner portion is minimized according to an embodiment of the present invention.
6 is a cross-sectional structural view showing a processing state of the press product in the press working step according to an embodiment of the present invention,
7 is a cross-sectional structural view showing a processing state of the press product in the mirror polishing step according to an embodiment of the present invention,
8 is a cross-sectional structural view showing the state of the corner portion before and after the mirror polishing step according to an embodiment of the present invention,
9 is a cross-sectional structural view showing a state of unidirectional abrasive cutting according to the prior art and a press product after abrasive cutting according to the prior art;
10 is a cross-sectional structural view showing the state of the press product before and after the mirror polishing step according to an embodiment of the present invention.

5 is a flow chart of a method for manufacturing a press product to minimize the radius of curvature of the corner portion according to an embodiment of the present invention, Figure 6 is a cross-sectional structural view showing a processing state of the press product in the press processing step according to an embodiment of the present invention. 7 is a cross-sectional structural view showing the processing state of the press product in the mirror polishing step according to an embodiment of the present invention, Figure 8 is a cross-sectional structural view showing the state of the edge portion before and after the mirror polishing step according to an embodiment of the present invention. 9 is a cross-sectional structural view showing a unidirectional abrasive cutting state according to the prior art, and a press product state after the abrasive cutting according to the prior art, Figure 10 is a press product before and after the mirror polishing step according to an embodiment of the present invention; It is a cross-sectional structural diagram which shows the state.

As shown in Figure 5 to Figure 7 the manufacturing method of the press product 30 to minimize the radius of curvature of the corner portion (30a) according to an embodiment of the present invention press processing step (S1), mirror polishing step (S2) , Including a post-process step (S3).

The press working step (S1) is a general press working method, the metal plate (P) is seated between the press mold 10 and then pressed to plastic processing.

That is, the step of performing the shape processing for the metal material used for various purposes, which refers to the production of the metal material of various materials by cutting and bending to have a desired shape by using a press equipment.

Specifically, as shown in FIG. 6, the press mold 10 includes an upper mold 11 and a lower mold 12.

A protrusion 11a protrudes downward from the upper mold 11 in a convex direction, and a recess 12a is formed in the upper portion of the lower mold 12 in a downward direction, and the protrusion 11a is formed. It is arrange | positioned so that it may be matched with the said groove | channel 12a.

After mounting the metal plate (P) to be processed on the upper portion of the lower mold 12, as shown in Figure 6 (b) is lowered the upper mold 11 downward bending the metal plate (P). The deformed material is pressed into the press product 30.

The above process describes the general press processing method and can be press processed into various shapes such as circle, square, triangle, and polygon according to the shape of the product.

In addition, the metal plate P is formed with a plurality of through holes H and 30b through punching before the press working step S1.

The press product 30 produced through the press working step S1 can be confirmed in more detail in FIGS. 8 and 10.

Specifically, as shown in FIGS. 8A and 10A, one side of the press product 30, that is, the corner portion 30a of the upper surface, is bent into an arc shape having a round shape, that is, a predetermined curvature.

According to the present invention, the size of the processed product is defined as ± 0.1mm if it is in general technical control as much as possible to minimize the corner curvature of the press product 30 in which the press working is performed in the press working step (S1).

The mirror polishing step (S2) is a step of cutting one surface, that is, the upper surface of the press product 30 plastically processed in the press working step (S1) with the polishing member 21.

In order to perform the mirror polishing step (S2), the polishing member 21, the lower fixing jig 22, and the polishing forging jig 23 should be provided.

The polishing member 21 is made of a general polishing cloth, sandpaper and artificial leather, it can be worked using the polishing member 21 of various roughness to implement a variety of smoothness according to the use of the press product (30). .

In the embodiment of the present invention, the artificial member is used as the polishing member 21. The artificial leather not only smoothes the surface of the press product 30, which is made of a hard metal material, but also wears, as compared to a generally used wool polishing cloth. In addition to the role it can be processed while reducing the curvature value of the corner portion (30a).

The press product 30 is fixed to the upper portion of the lower fixing jig 22 as shown in FIG.

Although not shown in detail in the drawing, the lower fixing jig 22 is configured like a conventional horizontal vise. That is, when the handle of the vise is rotated, the distance between both ends of the vise is adjusted, and the press product 30 is sandwiched and fixed between the ends of the vise.

Of course, the lower fixing jig 22 may be applied not only to the vise but also to various fixing jigs used in conventional grinding machines.

In addition, the lower fixing jig 22 is rotatably installed on a work table or the like.

That is, the lower fixing jig 22 is configured to rotate about a central portion of the press product 30 as an axis, and is connected to a motor (not shown) and automatically rotates by a power source.

The polishing cloth jig 23 is disposed above the lower fixing jig 22, and the polishing member 21 is fixed to the lower portion. In general, the polishing member 21 is attached to the lower portion of the polishing cloth jig 23 using an adhesive.

Like the lower fixing jig 22, the polishing cloth jig 23 is rotatably installed by a motor (not shown). However, the rotation directions of the polishing cloth jig 23 and the lower fixing jig 22 are opposite to each other.

The process of performing the mirror polishing step (S2) will be described in detail. First, fixing the press product 30 to the lower fixing jig 22, and fixing the polishing member 21 to the abrasive forging jig 23 disposed above the lower fixing jig 22 Perform At this time, each of the press product 30 and the polishing member 21 is arranged to be horizontal to each other.

Thereafter, the height of the polishing cloth jig 23 is adjusted such that the surface of the press product 30 is in surface contact with the polishing member 21.

That is, as shown in FIG. 7, the polishing cloth jig 23 is lowered to make surface contact between the polishing member 21 and the upper surface of the press product 30.

In some cases, the polishing cloth jig 23 may be fixed, and the lower fixing jig 22 may be raised upward.

The lower fixing jig 22 and the polishing cloth jig 23 are rotated in opposite directions to cut the surface of the press product 30 by friction with the polishing member 21.

That is, the polishing cloth jig 23 is rotated in the clockwise direction, the lower fixing jig 22 is rotated counterclockwise, and the polishing member 21 is in surface contact with the upper surface of the press product 30. Rotational friction in the upper surface of the press product 30 to be worn.

After pressing the mirror polishing step S2, the press product 30 is cut as shown in FIGS. 8 (b) and 10 (b).

As described above, in the mirror polishing step S2, the press product 30 and the polishing member 21 are rotated in opposite directions in a state where they are in surface contact with each other so that the surface of the press product 30 is cut, thereby rubbing. The incidence is increased and wear is easily achieved, which causes the cutting process to be processed quickly, thereby reducing the working time.

In addition, conventionally, as shown in FIG. 9 (a), the abrasive member was cut by friction in a state in which the abrasive member was orthogonally contacted with one surface of the press product 30. That is, the rotating shaft of the polishing member and the rotating shaft of the jig for fixing the press product 30 are rotated in a staggered state.

However, the conventional polishing method has a problem that the inner peripheral surface of the through-hole 30b formed of the press product 30 is deformed because the polishing member rotates in only one direction.

In order to solve such a conventional problem, in the mirror polishing step (S2) of the present invention, the press product 30 and the polishing member 21 are rotated in a state where the surface contact with each other horizontally. That is, as shown in FIG. 7, the rotary shaft of the lower fixing jig 22 for fixing the press product 30 and the rotary shaft of the abrasive cloth jig 23 for fixing the polishing member 21 are disposed in a line. Allow it to rotate in state.

As described above, in the mirror polishing step (S2) of the present invention, friction is cut in a state in which the abrasive member 21 is in horizontal contact with the press product 30 in a horizontal contact with each other, thereby minimizing the deformation of the through hole 30b. This produces an effect of improving the quality of the press product 30.

In addition, in the mirror polishing step (S2), the polishing member 21 is a direction in which the thickness of the upper surface of the press product 30 is reduced so that the arc shape of one surface of the press product 30, that is, the upper edge portion 30a, is removed. That is, it cuts uniformly downward.

That is, the polishing member 21 cuts only a predetermined thickness of the upper surface of the press product 30 so that the arc shape of the upper edge portion 30a of the press product 30 is removed.

In some cases, a slight curvature may be maintained by slightly removing the arc shape of the edge portion 30a of the press product 30.

After performing the mirror polishing step (S2), the press product 30 has a thin upper surface as shown in FIGS. 8 (b) and 10 (b), and has an arc shape of left and right edges 30a. This is removed so that the curvature of the corner portion 30a is almost eliminated.

As such, by cutting to reduce or eliminate the arc shape of one side edge portion 30a of the press product 30 in the mirror polishing step S2, the radius of curvature of the edge portion 30a of the press product 30 is minimized. It can be, the edge of the press product 30 is implemented to be angled to improve the aesthetics, and to produce the effect of improving the appearance quality of the product.

On the other hand, in the mirror polishing step (S2) is performed on the surface of the press product 30 for the polishing of light for polishing.

In other words, the mirror polishing step (S2) is a polishing process performed by strengthening the friction cutting function in the conventional polishing operation.

As described above, the mirror polishing step (S2) of the present invention proceeds with a photo-polishing operation for implementing gloss at the same time as the cutting operation, thereby simplifying the work because it can perform a cutting operation and a polishing operation at a time without going through a separate photo-polishing step. This reduces the work time.

The press product 30 completed by performing the mirror polishing step (S2) is finally subjected to the post-process step (S3).

The post process step (S3) is a step of coating, coating, or depositing various colors and finishes on the surface of the press product 30 according to the use of the press product 30.

Products processed into the press mold 10, such as the press product 30 is mainly carried out chromium plating because most of the exterior material.

Thus, in the mirror polishing step (S2) by cutting the one surface of the press product 30 by rubbing the polishing member 21 in a surface contact state on one surface of the press product 30, unlike conventional CNC machining The initial setting is simple and the workability is improved, and the surface can be smoothly polished at the same time as cutting, thereby reducing the time required for post-processing.

In addition, the overall manufacturing time is reduced to reduce the manufacturing cost, there is an effect that can maximize the productivity in mass production.

In addition, by minimizing the radius of curvature of the corners, it is possible to minimize the gap by reducing the assembly tolerance when molding with other plastic products.

In addition, the method of manufacturing a press product having a minimized corner curvature radius according to the present invention may be applied to all metal materials used in the prior art and may be characterized by supplementing the disadvantages of plastic working (press).

The method of manufacturing a press product in which the curvature radius of the corner portion of the present invention is minimized is not limited to the above-described embodiment, and may be variously modified within the allowable technical spirit of the present invention.

S1: press processing step, S2: mirror polishing step,
S3: post-process step, P: metal plate,
H: through hole, 10: press mold,
11: upper mold, 12: lower mold,
21: abrasive member, 22: lower fixing jig,
23: abrasive cloth jig, 30: press product,
30a: corner portion, 30b: through hole,

Claims (4)

delete delete Press-processing step of seating the metal plate between the press mold, and then crimping and plastic working to bend the edge of one side of the press product into an arc shape;
A mirror polishing step of cutting one surface of the press product plastically processed in the press working step with an abrasive member; And
It comprises a post-process step of performing plating, painting, coating or deposition on the surface of the press product,
The mirror polishing step,
Fixing the press product to a lower fixing jig rotatably installed on an upper portion of a work bench;
Fixing the polishing member to a polishing cloth jig disposed above the lower fixing jig and rotatably installed;
Adjusting a height of the lower fixing jig or the polishing cloth jig such that the surface of the press product is in surface contact with the polishing member; And
The lower fixing jig and the polishing cloth jig are rotated in opposite directions in a state in which the lower fixing jig and the polishing cloth jig are arranged in parallel with each other in a state in which the polishing member is in horizontal contact with one surface of the press product. One surface of the press product is uniformly cut in the direction of decreasing thickness so that the arc shape of one side edge portion of the press product is reduced or eliminated by friction with the polishing member, thereby simultaneously performing the cutting operation and the photo-polishing operation for gloss implementation. Making;
, ≪ / RTI >
The polishing member is a method of manufacturing a press product with a minimum radius of curvature of the corner, characterized in that consisting of abrasive cloth, sandpaper or artificial leather. delete

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