KR200412407Y1 - Coupling boss - Google Patents

Abstract

The present invention relates to a fastening boss, and more particularly, after forming the collar part through a color drawing process using a metal plate of the fastening boss, deep drawing, tapping, and washing ( After cleansing and plating process, iron coining process can be performed step by step so that the body of the fastening boss can be fixed to the base plate. , Weight reduction and tensile strength, compressive strength and surface roughness can be maximized, and the formation of thread of fastening boss can be performed by color drawing or curling process to maintain stable material thickness. To provide a possible fastening boss.

That is, the present invention is a process of molding the collar portion 2 by a one-step color drawing method for forming the screw portion 8 for the fastening boss 1 using a metal plate, and the collar portion 2 ) To form the trunk portion (3) and the flange portion (4) by the deep drawing method on the metal plate formed, and to form the screw portion (8) in the inner edge of the collar portion (2) Forming the trunk portion 3 and the flange portion 4 by a deep drawing method using a tapping process or a metal plate, and forming the collar portion 2 by a curling method. Selectively performing a step of tapping the inner threaded portion of the collar part 2 for forming the screw part 8, and cleaning and plating the fastening boss 1 on which the molding is completed. And fastening and fastening the fastening boss 1 to the base plate 5 and the iron coining process. Is characterized in that it provides a method of manufacturing a fastening boss and a fastening boss manufactured by such a manufacturing method,

The present invention can be manufactured at low cost when manufacturing the fastening boss (1) to increase the price competitiveness, and the weight of the product and the tensile strength, compression strength, maximization of surface roughness, the screw portion of the fastening boss (8) ) When drawing, color drawing or curling method is selected and applied, it is possible to provide a number of effects such as forming a screw part that can maintain more stable material thickness.

Fastening Boss, Collar, Flange, Collar Drawing, Deep Drawing, Tapping, Washing, Iron Coining, Curling Method

Description

Fastening boss {Coupling boss}

1 is a perspective view showing a preferred embodiment of the fastening boss provided in the present invention

Figure 2 is a cross-sectional view showing a preferred embodiment of the fastening boss provided in the present invention

Figure 3a, 3b is a process diagram showing an embodiment of manufacturing the fastening boss of the present invention

Figure 4a, 4b is a process diagram showing another embodiment of manufacturing the fastening boss of the present invention

5 is an iron coining for fixing the fastening boss and the base plate of the present invention

Section to explain the method

Figure 6 uses a curling punch for forming the screw connection on the fastening boss of the present invention

Section showing the curling method

7 to 14 is a CAE analysis diagram during the color drawing process of the manufacturing process of the present invention

15 to 19 is a CAE analysis diagram during the deep drawing process of the manufacturing process of the present invention

20 to 22 are CAE analysis during the iron coining process of the manufacturing process of the present invention

Degree

23 to 25 are CAE during the press-fit process of the conventional fastening boss and the base plate

Analysis

26 to 28 are main parts CAE during the iron coining process of the manufacturing process of the present invention

Analysis

29 is a phosphorus of the fastening boss by the press-fit process of the conventional fastening boss and the base plate

Analysis of test CAE analysis result

30 is a phosphorus of the fastening boss by the press-fit process of the conventional fastening boss and the base plate

Long Load CAE Analysis Result Graph

31 is a tension test CAE of the fastening boss by the iron coining process of the present invention

Analysis result analysis chart

32 is a tensile load CAE of the fastening boss by the iron coining process of the present invention

Analysis result graph

33 is a comparison table for each item before and after improvement of the present invention and the prior art

■ Explanation of symbols used in main part of drawing ■

1: fastening boss 2: collar part

3: body portion 4: flange portion

5: base plate 6: die

7: Iron coining punch 8: Thread part

9: curling punch 10: guide punch

11: curling section

The present invention relates to a fastening boss, and more particularly, after forming the collar part through a color drawing process using a metal plate of the fastening boss, deep drawing, tapping, and washing ( After cleansing and plating process, iron coining process can be performed step by step so that the body of the fastening boss can be fixed to the base plate. , Lightweight and tensile strength, compressive strength, surface finish can be maximized, and the thread forming of the fastening boss can be performed by the color drawing method or curling process to maintain stable material thickness It is to provide a fastening boss that is possible.

In general, fastening bosses used for assembling chassis and parts constituting various display means are manufactured by cutting on a lathe or by cold forging on a header.

The existing manufacturing method of the fastening boss is very cumbersome, and the production time is inevitably increased due to a lot of work time and manpower consumption. It was a request.

In this invention, as described above, to provide a fastening boss having a new configuration that can eliminate the structural problems of the fastening boss and various problems that occurred in the manufacturing process, as described above,

In particular, the present invention is to form the collar portion through a one-step color drawing (collar drawing) process using a fastening boss using a metal plate material, then forming a screw part by two-step deep drawing, three-step tapping, or one-step After deep drawing, two-step curling, three-step tapping, thread forming, cleaning, plating, and iron coining By fixing the fastening boss to the base plate, it is possible to maximize the price competitiveness by making it cheaper when manufacturing the fastening boss, and provide the fastening boss to maximize the light weight, tensile strength, compression resistance and surface roughness. This invention has been completed with the technical problem of the design.

1 is a perspective view showing an embodiment of the fastening boss 1 provided in the present invention, Figure 2 is a cross-sectional view thereof, Figures 3a, 3b and 4a, 4b is each fastening boss (1) manufactured by the present invention As a manufacturing process diagram, the present invention will be described in detail with these drawings as follows.

That is, the present invention is a color drawing (deep) drawing (deep drawing), deep drawing (tapping) or deep drawing (deep drawing), curling (curling), tapping (tapping), It is completed by performing cleaning, plating, iron coining process step by step.

First, the one-step color drawing process for manufacturing the fastening boss (1) is a collar part to be completed than the thickness of the raw material by continuous molding of punches and dies of various steps in order to complete the precise shape and dimensions of the collar part (2). The thickness of the material of (2) is increased by 10% or more so that the shaping of the collar part 2 can be made more easily, and the collar part 2 after the molding is a method of finishing in a state thicker than the raw material thickness.

For this purpose, the process of punch and die should be designed in different forms according to the mechanical properties and chemical composition such as material, tensile strength, yield strength and elongation of raw materials. In particular, the forming limit and the anisotropy coefficient of the material are important basic data in determining the shape clearance of the punch and die in each process.

In order to complete the color drawing process, punch load and die cushion pressure in each process are calculated by CAE analysis.

The collar portion 2 completed in the color drawing process is used as the screw portion 8 of the fastening boss 1.

The deep drawing process performed next to the color drawing is a process of completing the trunk portion 3 and the flange portion 4 of the fastening boss 1. The multiple stage deep drawing process is completed by superdrawing and redrawing.

The main process variables that determine deep drawing are important process variables such as punch and die radius, clearance, punch load, and die cushion pressure.

After the deep drawing of the trunk portion 3 is completed, an ironing process, a list-writing and a trimming process are involved to determine the dimensions of the finished product.

The trimming process is a final process for shaping the anti-rotation shape of the flange portion 4 of the fastening boss 1.

And the tapping process for forming the female thread in the collar part 2 is completed by the following two methods.

That is, a cold rolling tapping process and a mechanical tapping process.

The machine for machine tapping consists of the main body and peripherals. The fastening boss fixing jig main body consists of spindle and tapping chuck, and peripheral devices include parts feeder, power transmission device, lubrication device, electric control and power supply, and automatic inspection device for precisely supplying intermediate material of fastening boss. do.

The part feeder transfers the fastening boss intermediate material to the fastening boss fixing jig of the main body by the vibration and alignment device of the vibration motor. The intermediate material fixed to the jig is a process system in which the tab fixed to the chuck processes the hole of the fastening boss by the spindle rotation and the lowering of the spindle.

Roll tapping is categorized according to the specifications of the taps that the machine tapping and tapping machine systems are identical.

The fastening boss 1 in which the tapping operation is performed performs a washing process to remove impurities, chips, foreign substances, etc. generated in the firing and cutting process to obtain better plating process conditions.

The cleaning process is performed after the pre-treatment wash with a washing solution and then ultrasonic cleaning. The washing time is 20 ± 5 minutes and the proper washing time, and degreasing after performing a drying process of 10 ± 1 minutes at 100 ± 10 ℃. Degreasing is carried out in two processes: immersion and electrolytic degreasing.

The main purpose of the degreasing process is to remove the oil attached. After the degreasing process, three water cleaning processes are performed, followed by 5% pickling (hydrochloric acid + sulfuric acid). After three washing steps, the washing is completed.

The washing the fastening boss (1) is completed to perform a plating process, the main purpose of the plating process is to prevent corrosion and increase the strength of the completed fastening boss (1), the base plate of the fastening boss (1) 5) Plating process is required to maintain the strength at the time of iron coining. Plating processes are divided into electroless plating and acid zinc plating.

Electroless plating is performed by visual inspection after immersion in the plating tank for 12-15 minutes and three washing operations. Subsequently, three washing operations are performed through a discoloration prevention process. Drying is carried out through a centrifugal drying process, the process conditions of 30 ± 5 minutes at 80 ± 10 ℃. It is then completed through the inspection process.

Acid zinc plating is immersed in a zinc plating bath for 30 minutes, washed three times and subjected to surface control process. In addition, the washing is repeated three times, and the drying is carried out through a centrifugal drying process, wherein the process conditions are 30 ± 5 minutes at 80 ± 10 ° C. and are then completed through the inspection process.

Meanwhile, the iron coining method is a manufacturing method in which the fastening boss 1 is inserted into the base plate 5 after molding, and then the base plate 5 is installed on the die 6 and the iron coining punch 7 is inserted into the base plate 5. It is a fastening method of lowering and joining the base plate 5 and the fastening boss 1 by complex molding of ironing and coining.

In order to complete the present method, as shown in FIG. 5, it is necessary to maintain a clearance t between the base plate 5 and the fastening boss 1, and the clearance t is the material and the base material of the fastening boss 1. It is determined by the material of the plate 5, the thickness of the base plate 5, the thickness of the flange portion 4 of the fastening boss 1, and the iron coining punch 7 load.

Fastening boss (1) The flange portion 4 thickness is determined by the material of the base plate (5), the fastening boss (1) material, the base plate (5) thickness.

The iron coining introduction angle α is a value determined differently according to the material of the fastening boss 1 and the diameter of the fastening boss 1, and in the case of the fastening boss 1 of a soft material, the value of α is small and hard. The material has a large value of α and has a value between 0 and 90 °.

The iron coining forming angle β is a value determined differently according to the material of the fastening boss 1 and the diameter of the fastening boss 1, and is an important variable for determining the shape of the iron coining after completion of molding. This value has a value between 0 and 45 °.

The amount of iron coining (i.e. thickness and height) is sized according to the requirements of tensile strength and compressive strength required after molding is completed. The larger the height and thickness, the higher the tensile strength and the compressive strength after finishing processing. However, if it is larger than necessary, it will affect the molding load increase and the life of the mold.

The main process parameters of the iron coining method can be summarized as follows.

1. Clearance between base plate and fastening boss

2. Iron coining introduction angle (α)

3. Iron coining forming angle (β)

4. Iron coining size (thickness, height)

5. Fastening Boss Flange Thickness

And the curling process (curling process) used in the present invention is to form the cylindrical body portion (3) of the fastening boss (1) by deep drawing, and then to form the threaded portion 8 curling using the curling punch (9) It is a construction method.

Curing molding is a property that continues to dry in the direction of (A) as shown in Figure 6 during the process, the curling by inserting the guide punch 10 at the moment when the curling molding is out of the parallel to the (P) axis The tip of the part 11 induces molding in a direction parallel to the (P) axis to complete the threaded portion 8 of the fastening boss 1.

The feature of this method is that the material thickness of the threaded portion 8 becomes thicker than the raw material thickness due to the inner curl molding, so that the more stable material thickness of the threaded portion 8 can be maintained.

On the other hand, Figures 7 to 14 show the CAE analysis data by the color drawing method in manufacturing the fastening boss 1 of the present invention,

At the time of color drawing, the thickness of the initial plate is 0.25 mm.

Primary preliminary collar drawing: As shown in FIG. 7, the plate material around the collar drawing portion is locally indented with a punch to move the volume to the collar drawing portion, thereby increasing the thickness of the collar drawing portion.

2nd to 5th preliminary collar drawing: As shown in FIGS. 9 to 12, the press-fitting portion is more closely coined to the color drawing portion so that the volume is concentrated on the color drawing portion.

Due to the volume of the color drawing portion thickened by the 1st and 2nd color drawing process, it is possible to generate a color drawing portion higher than the conventional method.

15 to 19 are CAE analysis data by deep drawing in the method of manufacturing a fastening boss according to the present invention, showing the middle and completion stages of the primary drawing, and the intermediate and completion stages of the secondary drawing, respectively. Deep drawing the molded material to complete the product with high thick collar. Deep drawing here is formed in several stages depending on the finished diameter.

In addition, FIGS. 20 to 22 are CAE analysis diagrams of the iron coining process during the manufacturing process of the present invention, and show initial, intermediate, and final steps, respectively, and compare the existing method and the iron coining method of the present invention. Although the process cuts the groove for fastening the fastening boss and the base plate and the press-cutting part is weak, the iron coining method of the present invention was formed using only plastic processing without cutting to remove the weaknesses of the existing method. Tensile test CAE analysis showed that the existing method is about 1500N, the iron coining method according to the present invention is about 2700N, about 1.8 times the strength is improved.

As described in detail above, the fastening boss provided in the present invention is formed of a collar part through a one-step color drawing process using a metal plate, followed by two-step deep drawing and three-step tapping ( Step through iron coining after tapping or one-step deep drawing, two-step curling, three-step tapping, cleansing, and plating. By making the fastening boss (1) fixed to the base plate (5), it is possible to maximize the price competitiveness by making low cost manufacturing of the fastening boss, and to reduce the weight and tensile strength, compressive strength and surface roughness. It is possible to apply the curling method when forming the threaded portion 8 of the fastening boss 1, and thus, the expected effect is enormous.

Claims (2)

A collar portion 2 formed by a one-step collar drawing method for forming the screw portion 8 for the fastening boss 1 using a metal plate, and A trunk portion 3 and a flange portion 4 formed by a deep drawing method on a metal plate on which the collar portion 2 is formed, A screw portion 8 formed by a tapping process on an inner edge of the collar portion 2, The fastening boss, characterized in that the tapping is completed, the fastening boss (1) cleansing, plating (plating) after the iron coining (iron coining) process to be bonded to the base plate (5). The method of claim 1; The fastening boss, characterized in that the collar portion (2) formed in the body portion (3) is formed by a curling (curling) method.

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