KR101991236B1 - Method For Manufacturing Antenna - Google Patents

Abstract

The present invention relates to a method for manufacturing a high frequency band antenna using a diffusion junction, which comprises the steps of: planning two or more unit components in accordance with the design of a product; separately processing two or more unit components so as to intensively join regions requiring the diffusion junction; precisely washing the processed unit components; assembling the washed unit components; applying suitable heat and pressure to the assembled unit component assembly to cause the diffusion junction between the unit components; and washing the finished product which completed junction.

Description

{Method For Manufacturing Antenna}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing an antenna, and more particularly, to a method of manufacturing an antenna in a high frequency band using diffusion bonding.

Conventionally, antennas having a low frequency band have been manufactured by using a deep brazing method or a vacuum brazing method.

Dipping brazing is one of the bonding methods between objects, in which molten lead (20-50 ° C higher than the melting point) is placed in a graphite crucible, and a welding object is dipped into the graphite crucible and brazed. In recent years, a method of immersing a welded object preliminarily fused with a welding material by using a chemical reaction heat of a bath solution and welding it at once has been widely used (salt bad dip brazing). This method is widely used for the production of detailed and complex objects such as bicycle frames, radio chassis, heat exchangers, and radiators.

According to the deep brazing method, since a third material other than the object to be bonded is required, foreign matter is generated. Since the conventional low frequency band antenna has a wide and deep flow path, even if the antenna is manufactured by the deep brazing method, the antenna performance is not greatly affected.

However, such a bonding method can not be used for an antenna having a high frequency band in which an inner channel is finely designed. This is because the foreign matter generated during welding has a serious effect on the performance of the antenna.

Korean Patent Application No. 10-2009-0031866 Korean Patent Application No. 10-2010-7021847

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a method of manufacturing an antenna of a high frequency band having a minute inner channel. More specifically, it is an object of the present invention to provide a method of manufacturing an antenna using a joining method in which foreign matter does not occur in the channel and the channel is not blocked by foreign matter.

The above object is achieved by a method of manufacturing a product, comprising: planning two or more unit parts according to a design of a product;

Separately processing two or more unit parts so as to intensively join regions requiring diffusion bonding; Precisely cleaning the processed unit parts;

Assembling the cleaned unit parts; Applying suitable heat and pressure to the assembled unit parts assembly in vacuum to cause diffusion bonding between the unit parts; And a step of washing the finished product after the bonding is completed.

According to an aspect of the present invention, the precise cleaning of the unit parts may include alcohol cleaning and ultrasonic cleaning using a water-soluble alkaline cleaning agent for aluminum only.

According to another aspect of the present invention, when the unit parts are individually processed , the thickness of the unit parts can be adjusted in order to intensively join the parts directly related to the products .

According to another aspect of the present invention, it is possible to further include steps of individually machining the unit parts and then checking dimensions of the product.

According to another aspect of the present invention, there is provided a method of manufacturing a semiconductor device, comprising: maintaining a predetermined time with heat and pressure suitable for a product, thereby causing diffusion bonding to occur in all regions requiring bonding.

According to another aspect of the present invention, the unit parts are stacked and temporarily fixed by a plurality of position fixing pins fixed vertically.

According to another aspect of the present invention, the diffusion bonding may be performed in a vacuum state.

According to the present invention, unit parts are joined by diffusion bonding in an antenna that constitutes one finished product by assembling a plurality of unit parts, so that the minute flow path inside the antenna is not damaged by foreign substances or the like. Therefore, it is possible to manufacture an antenna of a high frequency band in which the flow path is finer, and its quality can be enhanced.

FIG. 1 is a block diagram showing the steps of fabricating an antenna according to an embodiment of the present invention.
2 is a cross-sectional view of a diffusion bonding apparatus for assembling an antenna according to an embodiment of the present invention.
3 is a perspective view of a unit part and a finished product for assembling an antenna according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Once the design of the product is obtained, a step of planning two or more unit parts according to the design of the product is preceded (S10). Inside the product, fine flow paths are provided in three dimensions. With the present manufacturing technology, it is impossible to make such a shape by using a single block. Therefore, they are divided into several unit parts, processed separately, and then joined together.

Since the antenna of the high frequency band has a minute flow path, when the flow path is partially closed during the bonding process, a serious quality problem may occur. The present invention is intended to solve such a problem.

The operator determines the shape of the easy-to-machine unit using the CNC according to the overall design of the product, and then creates an individual blueprint of the unit. Then, two or more unit parts are individually processed according to this individual design scheme (S20). Machining is usually done by cutting with CNC.

The non-contact three-dimensional measuring device measures whether the standard of the processed unit parts is in conformity with the design, and performs visual inspection (S30). Then, the unit parts are cleaned (S40). Precise cleaning of unit parts uses ultrasonic washing method using alcohol washing and water - soluble alkaline cleaning agent for aluminum.

Then, the cleaned unit parts are assembled to prepare a unit part assembly, and heat and pressure suitable for the product are applied to the unit part assembly so that diffusion bonding occurs between the unit parts (S50).

The diffusion bonding process is performed by the diffusion bonding apparatus 1. The diffusion bonding apparatus 1 includes a vacuum chamber 3 which can be hermetically sealed and has a gate, a heating device 5 provided inside the vacuum chamber 3, and a member to be bonded A pressing device 7 for applying pressure to the unit component assembly 100 and a vacuum generating device 9 for evacuating the inside of the vacuum chamber 3. The higher the vacuum degree of the vacuum chamber 3, the better. The time required for this diffusion bonding process can be from 12 to 48 hours.

Diffused bonding refers to a method in which a metal material is brought into close contact with a material, and the material is heated to a temperature below the melting point so as not to cause plastic deformation, and bonding is performed using diffusion of atoms generated between the bonding surfaces. There is little thermal stress or deformation after bonding, little amount of deformation, and less deterioration of the material due to tissue change. It is a bonding method characterized in that different metals can be bonded to each other.

Thereafter, the completed product is taken out from the diffusion bonding apparatus 1 and followed by post-processing (S60). Finishing refers to the original design of the finished product (100 ', see Figure 3 (c)). This is because it is difficult to apply a uniform pressure when machining the unit parts in this complicated shape when the outer shape is complicated. It is preferable that at least the bottom surface of the unit component 100e positioned at the lowermost portion of the unit component and the top surface of the unit component 100a positioned at the top portion coincide with the pressing surfaces of the pressing tools 7a and 7b of the pressing apparatus.

According to another embodiment of the present invention, when designing the plan view of the unit component 100, it may further include a step of dividing the part for assuring the bonding and the part for the accuracy of bonding. In the case of the reliability of the bonding, it can be said that a portion where the interval between the walls is narrowed, a portion constituted by a tube with a small diameter, and the like must be produced. This is to prevent a gap or a hole from being formed in the wall due to the small bonding force. (P = F / A (N / ㎡)) in the direction of decreasing the bonding area so that the pressure applied to the relevant part increases during diffusion bonding.

In case of accuracy, the case where the precision of the product should be high is referred to as a case in which the deformation due to the pressure applied in the diffusion bonding process should be minimized. In this case, it is designed so that the pressure applied to the corresponding portion in the diffusion bonding is relatively small. That is, the lower part of the pressure range in which the diffusion bonding can be performed is selected to determine the shape of the unit part 100.

The diffusion bonding process is a core process of the present invention. In this process, a jig means can be used. When the pressure is applied, the jig means can apply pressure evenly to the joint surface of the member to be bonded, i.e., the unit parts 100a to 100e, and maintains the position of the member to be fixed accurately.

The jig means may include a plurality of setting pins 11 and a pinhole provided in the unit component so that the setting pin 13 can be fixed in place. The unit parts 100a to 100e are provided with corner portions where the flow path 15 is not formed. The tolerance between the setting pin 13 and the pinhole 15 should not affect the shape of the unit part assembly 100 and the finished product 100 '.

The configuration shown and described above is merely a preferred embodiment based on the technical idea of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: diffusion bonding apparatus 3: vacuum chamber
5: Heating device 7: Press device
9: Vacuum generator 11: Setting pin
13: pinhole 15:
100: Unit part 100 ': Finished product (antenna)

Claims (5)

Planning two or more unit parts according to the design of the product;
Separately processing two or more unit parts;
Confirming the dimensions of the unit parts using a non-contact three-dimensional measuring device;
Precisely cleaning the processed unit parts;
Assembling the cleaned unit parts;
Applying heat and pressure to the assembled unit component assembly to cause diffusion bonding between the unit components; And
And washing the completed finished product with the bonding,
The cleaning of the unit parts includes alcohol cleaning and ultrasonic cleaning using a water-soluble alkaline cleaning agent for aluminum only,
Wherein the unit parts are temporarily fixed by a plurality of position fixing setting pins which are vertically fixed,
Wherein the diffusion bonding is performed in a vacuum state in consideration of characteristics of a material.
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