KR101089852B1 - Antenna assembly and shoe comprising wireless communication device having the same - Google Patents

Abstract

Disclosed are an antenna assembly having a pattern and a connection line of a form suitable for application to a wireless communication device provided in a shoe and the like, and a shoe having a wireless communication device including the same. The antenna assembly includes: an antenna unit having a dielectric substrate, a ground conductive pattern formed on an upper surface of the dielectric substrate, and a radiation conductive pattern formed on an upper surface of the dielectric substrate; And a coplanar waveguide-shaped connection line having a flexible substrate, a signal line conductive pattern formed on an upper surface of the flexible substrate, and a ground line conductive pattern spaced apart from both sides of the signal line pattern. The signal line conductive pattern may be electrically connected to the radiation conductive pattern of the antenna unit, and the ground line conductive pattern of the connection line may be electrically connected to the ground conductive pattern of the antenna unit.

Antennas, shoes, wireless communications, conductive patterns, flexible, coplanar waveguides

Description

ANTENNA ASSEMBLY AND SHOE COMPRISING WIRELESS COMMUNICATION DEVICE HAVING THE SAME

The present invention relates to the field of antennas, and more particularly, to an antenna assembly having a pattern and a connection line of a form suitable for application to a wireless communication device provided in a shoe and the like, and a shoe having a wireless communication device including the same.

With the advent of the ubiquitous era due to the rapid development of communication technology in recent years, convenience of life has been improved in various aspects by easily connecting a lot of objects around the network. As one of the methods for implementing such ubiquitous, concepts and techniques of the body area network using a specific part of the body as a network are in the introduction stage and are expected to be put to practical use soon.

As a technique for implementing the body area network, a research is being conducted to apply a communication system to a shoe to manage an exercise amount of a user who wears the shoe or to determine a location of the user who wears the shoe. have.

A wireless communication system applied to such shoes is generally composed of an antenna, a communication module and a connection line for electrically connecting the two components. Since the antenna of the currently known shoe application wireless communication system is applied to the antenna applied to the conventional communication system as it is, there is a problem that damages the appearance of the shoe when mounted on the outside of the shoe. In addition, although a coaxial cable is conventionally used as a connection line for connecting an antenna and a communication module embedded in a shoe, there is a problem in that a coaxial cable increases the manufacturing cost of a communication device because the price is high. In addition, since the coaxial cable has a volume, even if it is embedded in a shoe-making material, it may cause problems such as protruding appearance.

The present invention, even if exposed to the outside of the shoe does not damage the appearance of the shoe, it is to be a technical problem to solve to provide an antenna assembly having a suitable structure to be incorporated into the shoe.

In addition, another object of the present invention is to provide a shoe provided with a wireless communication device including the antenna assembly.

According to an aspect of the present invention,

An antenna unit having a dielectric substrate, a ground conductive pattern formed on an upper surface of the dielectric substrate, and a radiation conductive pattern formed on an upper surface of the dielectric substrate; And

And a coplanar waveguide-shaped connecting line having a flexible substrate, a signal line conductive pattern formed on an upper surface of the flexible substrate, and a ground line conductive pattern spaced apart from both sides of the signal line pattern.

The signal line conductive pattern of the connection line is electrically connected to the radiation conductive pattern of the antenna unit, and the ground line conductive pattern of the connection line is electrically connected to the ground conductive pattern of the antenna unit. .

In one embodiment of the present invention, the ground conductive pattern of the antenna unit may include first and second regions formed on the top surface of the dielectric substrate and spaced apart from each other, and the first and second regions may be formed in the connection line, respectively. It may be electrically connected to different ground line conductive patterns.

In this embodiment, the first region and the second region may be formed in a symmetrical shape with respect to the center of the substrate width direction of the antenna unit.

In one embodiment of the present invention, the connection line may include a first ground line conductive pattern, a first signal line conductive pattern, a second ground line conductive pattern, a second signal line conductive pattern, and a third ground line conductive pattern sequentially formed. It may include.

In this embodiment, the ground conductive pattern of the antenna unit may include first and second regions formed on the top surface of the dielectric substrate to be spaced apart from each other, and the first and second regions may each be the first ground line conductive pattern. And a third ground line conductive pattern, and the radiation conductive pattern may be electrically connected to the first and second signal line conductive patterns.

In this embodiment, the radiation conductive pattern may be formed in a continuous single pattern in which one side is electrically connected to the first signal line conductive pattern and the other side is connected to the second signal line conductive pattern.

In this embodiment, the first region, the second region and the radiation conductive pattern may be formed in a symmetrical shape with respect to the center of the substrate width direction of the antenna unit.

In one embodiment of the present invention, a decorative color may be applied to the dielectric substrate, the ground conductive pattern and the radiation conductive pattern of the antenna unit.

The present invention as a means for achieving the other technical problem,

An antenna unit having a dielectric substrate, a ground conductive pattern formed on an upper surface of the dielectric substrate, and a radiation conductive pattern formed on an upper surface of the dielectric substrate;

A coplanar waveguide-shaped connection line having a flexible substrate, a signal line conductive pattern formed on an upper surface of the flexible substrate, and a ground line conductive pattern spaced apart from both sides of the signal line pattern; And

A wireless communication device electrically connected to the antenna unit through the connection line and having a wireless communication module for receiving a wireless signal from the antenna and transmitting a wireless signal through the antenna,

The signal line conductive pattern of the connection line is electrically connected to the radiation conductive pattern of the antenna unit, and the ground line conductive pattern of the connection line is electrically connected to the ground conductive pattern of the antenna unit.

The antenna unit is provided on the outside of the instep and the wireless communication module provides a shoe with a wireless communication device disposed in the heel.

According to the present invention, by implementing the conductive pattern of the antenna applied to the communication device provided in the shoe in an appropriate shape and applying the color to the antenna substrate and the conductive pattern, the antenna itself can function as an accessory of the shoe further improves the appearance of the shoe There is an effect that can be beautiful.

In addition, the present invention can reduce the manufacturing cost of the communication device by implementing the connection line connecting the antenna and the communication module in the form of coplanar lines formed on the flexible substrate, and minimizes the adverse effect on the appearance of the shoe when applied to shoes can do.

Hereinafter, various embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiment of this invention is provided in order to demonstrate this invention more completely to the person skilled in the art to which this invention belongs. Therefore, it should be noted that the shape and size of the components shown in the drawings may be exaggerated for more clear explanation.

1 is a view showing an antenna assembly according to an embodiment of the present invention.

As shown in FIG. 1, the antenna assembly according to the exemplary embodiment of the present invention includes a antenna unit 11 and a connection line 12.

The antenna unit 11 includes a dielectric substrate 111, ground conductive patterns 113a and 113b formed on an upper surface of the dielectric substrate 111, and a radiation conductive pattern 112 formed on an upper surface of the dielectric substrate 111. ) May be included.

The connection line 12 may be formed to be spaced apart from both sides of the flexible substrate 112 and the signal line conductive pattern 122 formed on the upper surface of the flexible substrate 112 and the signal line pattern 122. Coplanar waveguides including line conductive patterns 123a and 123b may be implemented.

The signal line conductive pattern 122 of the connection line 12 is electrically connected to the radiation conductive pattern 112 of the antenna unit 11, and the ground line conductive patterns 123a and 123b of the connection line are the antenna. The ground conductive patterns 113a and 113b of the unit 11 may be electrically connected to each other.

As shown in FIG. 2, the connection line 12 may be implemented in the form of a coplanar waveguide using a material of a flexible PCB. That is, the signal line conductive pattern 122 and the ground line conductive patterns 123a and 123b may be formed on one surface of the flexible substrate 121 in the form of a coplanar waveguide. The present invention can be implemented in a thin shape by using a flexible substrate material, it is possible to prevent the coaxial cable from protruding damage to the appearance of the shoe, there is an advantage that the manufacturing cost is lower than the coaxial cable. In addition, by implementing a coplanar waveguide in which both a signal line conductive pattern and a ground line conductive pattern are formed on one surface of the flexible substrate, external influences are reduced compared to the micro stripline type in which the signal line pattern and the ground line pattern are formed on different surfaces. Signal transmission is possible without receiving much. In other words, the microstripline should maintain a constant distance between the signal line conduction pattern and the ground line conduction pattern, but in a structure such as a shoe that requires severe bending, the distance between the signal line conduction pattern and the ground line conduction pattern is maintained. It is more difficult to implement in the form of a coplanar waveguide because it is difficult.

According to one embodiment of the present invention, since the coplanar waveguide-shaped connection line 12 having two ground line conductive patterns 123a and 123b spaced apart from each other is applied, the ground conductive patterns 113a and 113b of the antenna unit are described above. The first and second regions may be formed on the top surface of the dielectric substrate 111 to be spaced apart from each other, and the ground conductive patterns 113a and 113b of the antenna portions corresponding to the respective regions may be formed one by one of the connection lines 12. It may be electrically connected to different ground line conductive patterns 123a and 123b. Particularly, in the embodiment of the present invention, the first region 123a of the ground conductive pattern and the first conductive layer of the ground conductive pattern may be embodied in a beautiful manner so that the antenna unit, which may be exposed to the outside, may be used as an ornament when applied to shoes. The two regions 123b may be formed in a symmetrical shape with respect to the center of the substrate width direction of the antenna unit 11. In addition, to realize the appearance of the antenna unit 11 more beautifully, the dielectric substrate 111 of the antenna unit 11, the ground conductive patterns 113a and 113b, and the radiation conductive pattern 112 are provided. Silver decorative colors may be applied. The decorative color is such that the dielectric substrate 111 and the ground conductive patterns 113a and 113b and the radiation conductive pattern 112 are well harmonized with each other, and are well harmonized with the color of the shoes to be applied. Can be selected.

3A and 3B illustrate antenna assemblies according to various embodiments of the present disclosure. 1 illustrates a single feed antenna, while FIGS. 3A and 3B illustrate an antenna assembly of a differential feed scheme requiring two signal transmissions. Referring to FIGS. 3A and 3B, in the connection line 32, two signal line conductive patterns 322a and 322b formed on the flexible substrate 321 are formed, and the two signal lines are formed. The first to third ground line conductive patterns 323a, 323b, and 323c may be spaced apart from each other between the conductive patterns 322a and 322b and opposite sides of the signal line conductive patterns.

In addition, the ground conductive patterns 313a and 313b of the antenna unit 31 may be implemented as first and second regions spaced apart from each other on the top surface of the dielectric substrate 311. The second regions 313a and 313b are electrically connected to the first ground line conductive pattern and the third ground line conductive pattern 323a and 323c, respectively, and the radiation conductive pattern 312 is connected to the first and second signal lines. It may be implemented to be electrically connected to the conductive patterns (322a, 322b).

In particular, as shown in FIG. 3B, the radiation conductive pattern 312 has one side electrically connected to the first signal line conductive pattern 322a and the other side connected to the second signal line conductive pattern 322b. It is formed in a continuous single pattern to implement a radiation pattern in a specific figure form can be more suitable to apply the appearance of the antenna unit 31 as ornaments. As shown in (b) of FIG. 3, the radiation conductive pattern 312 may be implemented in a quadrangular shape, but the shape of the radiation conductive pattern 312 may be a function of an ornament such as a star, a circle, and a triangle. Various variations are possible to suit more suitably.

As described above, the antenna unit 31 serves as an ornament, and as described above, the first and second regions 313a and 313b of the ground conductive pattern and the radiation conductive pattern 312 are formed of the antenna unit 31. It may be formed in a symmetrical shape with respect to the center of the width direction of the substrate, and various colors may be applied to the dielectric substrate 311, the ground conductive patterns 313a and 313b, and the radiation conductive pattern 312.

4 is a diagram illustrating a shoe to which a wireless communication module having an antenna assembly according to an embodiment of the present invention is applied.

As shown in FIG. 4, the shoe 40 to which the wireless communication module having the antenna assembly according to the embodiment of the present invention is applied is connected to the antenna unit 41 disposed on the instep of the shoe and the shoe. Line 42 and communication module 43 disposed within the heel of the shoe. The antenna unit 41 and the connection line 42 may be adopted as it is, the antenna assembly according to the embodiment of the present invention.

According to one embodiment of the present invention, since the shape and color of the various conductive patterns formed on the antenna unit 41 is manufactured in consideration of the appearance to enable the role of ornaments, even if the antenna unit 41 is exposed to the outside of the shoe Does not damage the appearance of itself In addition, by implementing the connection line 42 in the form of coplanar lines formed on the flexible substrate, it is possible to reduce the manufacturing cost of the communication device, and when applied to the shoe, it does not affect the appearance of the shoe and also provides excellent signal transmission. It is possible.

In the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the following claims and their equivalents.

1 is a view showing an antenna assembly according to an embodiment of the present invention.

2 is a view showing a connection line included in the antenna assembly according to an embodiment of the present invention.

3A and 3B illustrate antenna assemblies according to various embodiments of the present disclosure.

4 is a diagram illustrating a shoe to which a wireless communication module having an antenna assembly according to an embodiment of the present invention is applied.

* Description of the symbols for the main parts of the drawings *

11, 31, 41: antenna section 111, 311: dielectric substrate

112, 312: radiation conductive pattern

113a, 113b, 313a, and 313b: ground conductive pattern

12, 32, 42: connection line 121, 321: flexible board

122, 322a, 322b: signal line conductive pattern

123a, 123b, 323a, 323b, and 323c: ground line conductive pattern

40: shoe 43: wireless communication module

Claims (8)

An antenna unit having a dielectric substrate, a ground conductive pattern formed on an upper surface of the dielectric substrate, and a radiation conductive pattern formed on an upper surface of the dielectric substrate; And And a coplanar waveguide-shaped connecting line having a flexible substrate, a signal line conductive pattern formed on an upper surface of the flexible substrate, and a ground line conductive pattern spaced apart from both sides of the signal line pattern. The signal line conductive pattern of the connection line is electrically connected to the radiation conductive pattern of the antenna unit, and the ground line conductive pattern of the connection line is electrically connected to the ground conductive pattern of the antenna unit. The ground conductive pattern of the antenna unit may include a first region and a second region formed on the top surface of the dielectric substrate and spaced apart from each other, wherein the first region and the second region are different ground line conductive patterns of the connection line. And an antenna assembly electrically connected to the antenna assembly. delete The method of claim 1, And the first region and the second region are formed to be symmetrical with respect to the center of the substrate in the width direction of the substrate. The method of claim 1, The connection line may include a first ground line conductive pattern, a first signal line conductive pattern, a second ground line conductive pattern, a second signal line conductive pattern, and a third ground line conductive pattern sequentially formed. The ground conductive pattern of the antenna unit may include first and second regions spaced apart from each other on an upper surface of the dielectric substrate, and the first and second regions may be the first ground line conductive pattern and the third ground line, respectively. And electrically connected to a conductive pattern, wherein the radiation conductive pattern is electrically connected to the first and second signal line conductive patterns. 5. The method of claim 4, The radiation conductive pattern is an antenna assembly, characterized in that the one side is electrically connected to the first signal line conductive pattern and the other side is formed in a continuous single pattern connected to the second signal line conductive pattern. 5. The method of claim 4, The first region, the second region and the radiation conductive pattern is formed in a symmetrical shape with respect to the center of the width direction of the substrate of the antenna unit. The method of claim 1, And a decorative color is applied to the dielectric substrate, the ground conductive pattern, and the radiation conductive pattern of the antenna unit. An antenna unit having a dielectric substrate, a ground conductive pattern formed on an upper surface of the dielectric substrate, and a radiation conductive pattern formed on an upper surface of the dielectric substrate; A coplanar waveguide-shaped connection line having a flexible substrate, a signal line conductive pattern formed on an upper surface of the flexible substrate, and a ground line conductive pattern spaced apart from both sides of the signal line pattern; And A wireless communication device electrically connected to the antenna unit through the connection line and having a wireless communication module for receiving a wireless signal from the antenna and transmitting a wireless signal through the antenna, The signal line conductive pattern of the connection line is electrically connected to the radiation conductive pattern of the antenna unit, and each of the first region and the second region of the ground conductive pattern formed to be spaced apart from each other on the dielectric substrate is different from each other of the connection line. Connected to the ground line conductive pattern, And the antenna unit is disposed outside the instep and the wireless communication module is disposed in the heel.

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