KR101480014B1 - Coil type antenna performance is enhanced - Google Patents

Abstract

According to the present invention, a performance-enhanced coil type antenna in which a coil type antenna is formed having various patterns on one side of an attachment film and transmits a signal in various frequency bands. A connecting member is formed, in which a connection portion is formed on the end portion of the coil type antenna. A sub sheet including at least one sheet of a shield sheet or a ferrite sheet, or a combination of the two sheets is attached on the other side of the attachment film. According to the present invention, a plurality of coil type antennas is formed in a variety of thickness and can transmit the signal in various frequency bands at once. When the plurality of coil type antennas is formed of the same thickness, a covering material which has an excellent heat resistance and different colors from each other, is covered in each of the coil type antennas, thereby it is possible for a user to visually distinguish the coil type antenna. A heat generated from the coil type antenna is blocked not to transfer the heat to an adjacent coil type antenna, thereby preventing a signal from being distorted by the heat.

Description

[0001] The present invention relates to a coil type antenna,

The present invention relates to a coil type antenna with improved performance, and more particularly, to a coil type antenna for transmitting a signal in various frequency bands by cutting an arbitrary position, or by producing the antenna in various thicknesses, It is possible to transmit signals of various frequency bands by using the coil type antenna of the coil type antenna and to widen the length and area of the coil type antenna so that the signal transmitted through the coil type antenna is not distorted and each coil type antenna has excellent heat resistance The present invention relates to a coil type antenna in which performance is improved by allowing a user to visually distinguish a coil type antenna while preventing heat from being transmitted to an adjacent coil type antenna by coating a cover material formed in a different color.

In general, coil type antennas used in short-distance non-contact communication are placed inside the card in the form of RFID that can transmit and receive information at a short distance so that it can be used in traffic cards.

In addition, the coil-type antenna is used to transmit a signal in one frequency band by fixing one coil-shaped antenna to a substrate or the like as in Korean Registered Utility Model No. 20-0291150.

However, when the antenna is formed by only one coil antenna, it transmits only signals of a predetermined frequency band, which makes it inconvenient to transmit signals of various frequency bands.

In addition, since the thickness of the coil-type antenna does not vary and is formed only in one thickness, it is inconvenient to transmit signals of various frequency bands.

In addition, since the coil-shaped antenna is formed on a substrate or the like and the barrier film, the sheet paper, the film or the like is formed in a plurality of layers, it is difficult to provide the coil-type antenna in any member requiring a thin thickness, There has been a problem that the process for increasing the temperature is increased.

The coil type antenna having improved performance of the present invention is formed with a coil type antenna for transmitting signals in various frequency bands while forming various patterns on one side of an adhesive film, and a contact member having a contact portion formed at an end portion of the coil type antenna is formed And an auxiliary sheet made of either a shielding sheet or a ferrite sheet or a combination of two sheets is attached to the other side of the adhesive film.

In the present invention, a plurality of coil-type antennas may be formed in various thicknesses to transmit signals in various frequency bands at a time. If a plurality of coil-type antennas are formed to have the same thickness, each coil-type antenna has excellent heat resistance, The user can easily distinguish the coil type antenna visually and by blocking the heat generated by the coil type antenna, the heat is not transmitted to the adjacent coil type antenna, thereby preventing the distortion of the signal due to heat There are advantages to be able to.

In addition, two or more coil type antennas may be formed by cutting an intermediate arbitrary point of one coil type antenna so that signals of various frequency bands can be transmitted from the coil type antenna. When the coil type antenna is formed by weaving a plurality of strands The length and area of the coil antenna are widened, so that the signal can be transmitted with excellent performance without distortion of the signal transmitted through the coil antenna.

Further, it is possible to firmly fix the coil-shaped antenna and the contact member which are attached to the adhesive film to each other without being distorted, by forming a display portion on the adhesive film. When the adhesive film is formed of an adhesive tape, Shaped antenna is firmly fixed without moving, it is possible to prevent the signal distortion due to the movement of the coil-shaped antenna.

Since the coil-shaped antenna and the other layers fixedly attached to the coil-shaped antenna are not formed, the thickness occupied by the coil-shaped antenna and the like can be minimized so that the thin- And there is an advantage that the process for manufacturing a coil antenna can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a coil type antenna with improved performance according to the present invention. FIG.
FIG. 2 is an exploded perspective view showing a coil type antenna with improved performance according to the present invention. FIG.
3 is a sectional view showing a first embodiment of a coil type antenna with improved performance according to the present invention.
Fig. 4 is a front view showing a second embodiment of a coil type antenna with improved performance according to the present invention. Fig.
5 is a plan view showing a third embodiment of a coil type antenna with improved performance according to the present invention.
Fig. 6 is a front view showing a fourth embodiment of a coil type antenna with improved performance according to the present invention; Fig.
7 is a use state diagram showing a coil type antenna with improved performance according to the present invention.
8 is a use state diagram showing a coil type antenna with improved performance according to the present invention.

In order to achieve the above object, the present invention is as follows.

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

As shown in FIGS. 1 to 8, the coil-shaped antenna 10 having improved performance of the present invention has various patterns (such as circular or rectangular shapes) on one side of an adhesive film 11 made of synthetic resin or the like And a coil-shaped antenna 12 for transmitting signals in various frequency bands is formed.

Here, the adhesive film 11 is made of synthetic resin such as polyethylene terephthalate (PET), polyethylene (PE), and polypropylene (PP).

The adhesive film 11 may be formed of a flat sheet in the form of a film in the above-described material, or may be formed of a double-sided adhesive tape.

Here, when the adhesive film 11 is formed of a double-faced adhesive tape, a peeling paper (not shown in the figure) is attached so that the adhesive film 11 itself does not adhere to an arbitrary member. In order to use the double- It is obvious that the double-sided adhesive tape is used after the user removes the release paper, and a detailed description thereof will be omitted.

In addition, a display portion 11a, which is formed in a groove shape at an arbitrary point of the adhesive film 11 or is printed in a silk printing dot or line shape, may be additionally formed.

The display unit 11a is formed such that the coil antenna 12 or the contact member 13 positioned in the display unit 11a to be described later is accurately positioned without moving at the precise point of the attached film 11.

When the adhesive film 11 is formed of a double-sided adhesive tape so that the coil antenna 12 is attached and fixed, a separate member for fixing the coil antenna 12 to the adhesive film 11 is not required, Type antenna 12 is firmly fixed to the attaching film 11 without shaking.

In addition, when the adhesive film 11 is formed of a flat sheet, the coil-shaped antenna 12 is fixed to the adhesive film 11 so as not to shake after applying the adhesive means such as an adhesive to the flat sheet.

The coil-shaped antenna 12 may be attached and fixed after applying the adhesive means such as an adhesive to the adhesive film 11 as described above. Ultrasonic waves may be generated in the adhesive film 11, The coil-shaped antenna 12 may be attached and fixed to the base 11.

Here, when the coil antenna 12 is formed on the membrane 11, it may be manufactured in one piece or in various quantities according to the purpose of the user.

Then, after the coil-shaped antenna 12 is formed into one, an arbitrary portion of the coil-shaped antenna 12 is cut and divided into two or more (denoted by a solid line and a silver line) Type antenna 12 to transmit signals of different frequency bands.

4, when the coil-type antennas 12 are divided into a plurality of groups, the thicknesses of the coil-type antennas 12 may be formed separately in accordance with the frequency band. It may be formed in a thickness.

When a plurality of the coil-shaped antennas 12 are formed, the cover 16 may be formed by covering the cover 16 with excellent heat resistance, as shown in FIG.

The reason why the covering material 16 is formed of a material having excellent heat resistance is that when a plurality of coil antennas 12 are formed adjacent to the mounting film 11, Heat is generated in the coil-shaped antenna 12, and the heat is transmitted to the adjacent coil-type antenna 12.

Then, since the heat affects the signal transmitted from the coil antenna 12, the signal is distorted and the signal is not transmitted properly. Therefore, heat is transmitted to the adjacent coil antenna 12 Shaped antenna 12 is covered with the covering material 16 in order to prevent the coiled antenna 12 from being damaged.

In addition, when the coil-shaped antennas 12 are formed in a plurality of the same thickness and are all formed to have the same thickness, various colors are individually and separately applied to the cover 16 so that the user can visually distinguish the coil- .

For example, one coiled antenna 12 is covered with a red covering material 16, and another coiled antenna 12 is covered with a black covering material 16.

Here, it is obvious that the color of the covering material 16 may be formed in various colors according to the user's purpose, and a detailed description thereof will be omitted.

The coil-shaped antenna 12 may be formed as one strand. However, as shown in FIG. 6, by attaching two or more strands using an adhesive such as an adhesive, ) May be constructed as a single strand.

This is because when the coiled antenna 12 is formed by laminating a plurality of strands into one strand rather than forming the coiled antenna 12 with one strand, the length and width of the coiled antenna 12 are wide So that the signal transmitted through the coil antenna 12 is transmitted smoothly, and the performance of the coil antenna 12 can be enhanced.

In addition, the plurality of stranded coil-shaped antennas 12 are attached and fixed via the adhesive member, so that the stranded coil-type antennas 12 are prevented from deteriorating while maintaining a fixed state without being easily separated or detached.

When attaching and fixing the coil antenna 12 to the attachment film 11, an external signal transmitted through the coil antenna 12 or a communication device such as a cellular phone to which the coil antenna 12 is connected (Not shown in the drawing), the movable member 13 is placed on the display portion 11a formed on the attached film 11 and then the contact portion 13a formed on the gradually moving member 13 and the coil 13 Type antenna 12 is connected by soldering or welding.

The contact portion 13a of the contact member 13 serves as a connection for connecting the coil antenna 12 and the communication device so that signals generated in the coil antenna 12 and the communication device can be easily transmitted will be.

In addition, the communication device is provided with a contact (not shown) having the same function as the contact portion 13a so as to facilitate the electrical connection between the communication device and the coil antenna 12, Is omitted.

The contact member 13 and the contact portion 13a may be formed in various shapes and in various quantities according to the purpose of the user.

The contact points of the communication device and the contact parts 13a of the contact member 13 may be connected to each other through a connection device (not shown) such as electric wires, or may be directly connected to each other.

As described above, the coil-shaped antenna 12 and the contact member 13 are formed on one side of the adhesive film 11, and the other side of the adhesive film 11 is covered with an auxiliary sheet 14 are formed.

Here, the auxiliary sheet 14 may be formed of either a shielding sheet or a ferrite sheet, or both the shielding sheet and the ferrite sheet may be formed.

In addition, when the adhesive sheet 11 is formed of a double-sided adhesive tape when the auxiliary sheet 14 is formed on the other side of the adhesive film 11, a separate adhesive means is required It is possible to attach and fix the auxiliary sheet 14 directly to the adhesive film 11 without attaching the adhesive film 11 to the other side of the adhesive film 11 as shown in FIG. The adhesive means 15 such as an adhesive or an adhesive tape is placed and the auxiliary sheet 14 is placed on the upper side of the adhesive means 15. [

In addition, the auxiliary sheet 14 is used for blocking an external electric field signal as described above, and is currently generally used, so that a detailed description thereof will be omitted.

Hereinafter, the operation according to the preferred embodiment of the present invention will be described.

First, an adhesive film 11 is formed of a synthetic resin material or the like, and the contact member 13 is joined to the display portion 11a formed on the adhesive film 11.

Here, the contact member 13 is located at the correct position without being moved or distorted by the display portion 11a formed on the adhesive film 11. [

Then, the coil-shaped antenna 12 for transmitting signals of various frequency bands to one side of the adhesive film 11 is wound and positioned in various patterns.

The end portion of the coil antenna 12 is connected to the contact portion 13a formed on the contact member 13 by a method such as soldering or welding.

In addition, when the coiled antenna 12 is attached and fixed to the mounting film 11, when the mounting film 11 is formed of the double-sided adhesive tape, the user directly attaches the coiled antenna 12 When the adhesive film 11 is formed of a general flat sheet, ultrasonic waves are radiated to the adhesive film 11 while the coil antenna 12 is positioned on the adhesive film 11, 11 and the coil-shaped antenna 12 may be ultrasonic welded.

In addition, when the adhesive film 11 is formed of a general flat sheet, an adhesive agent such as an adhesive or an adhesive tape is applied to one side to which the coil antenna 12 is attached and fixed, The film 11 and the coil-shaped antenna 12 may be attached and fixed.

Here, when the coil antenna 12 is attached and fixed to the mounting film 11 by the above-described method, the contact member 13 to which the coil antenna 12 is connected is fixed in the same manner.

Meanwhile, when the coil-shaped antenna 12 is formed on the adhesive film 11, it can be formed in various quantities according to the purpose of the user.

For example, one coiled antenna 12 may be formed on the adhesive film 11, and any point of the coiled antenna 12 may be cut to form two or more coiled antennas 12 And transmit signals of different frequency bands. Alternatively, a plurality of coil-shaped antennas 12 may be formed.

As described above, an arbitrary portion of one coil-shaped antenna 12 is cut into two or more coil-shaped antennas 12 to transmit signals in a plurality of frequency bands, It becomes possible to perform the role of the plurality of coil-shaped antennas 12, thereby reducing the manufacturing cost and manufacturing cost for fabricating the plurality of coil-type antennas 12 and increasing the efficiency of the coil- will be.

In addition, when the coil-shaped antennas 12 are formed in a plurality of individual units without cutting any points as described above, the thicknesses of the coil-shaped antennas 12 may be formed differently depending on the frequency band , All the coil type antennas 12 may have the same thickness.

When the plurality of coil-shaped antennas 12 are formed in a plurality of units, the cover member 16 having excellent heat resistance is attached to the outer side of the coil-shaped antenna 12 and is fixedly attached to the film 11.

The reason why the coil type antenna 12 is covered with the coating material 16 having excellent heat resistance is that when the coil type antenna 12 is formed adjacent to the mounting film 11, So that heat is generated in the coil antenna 12 and the heat is transmitted to the adjacent coil antenna 12.

As a result, the signal affects the signal transmitted from the coil-shaped antenna 12 due to the heat, resulting in distortion of the signal, and the signal is not transmitted properly. Therefore, heat is transmitted to the adjacent coil- Shaped antenna 12 is covered with the covering material 16 in order to prevent the coiled antenna 12 from being damaged.

Therefore, heat is not transmitted to the other coil-shaped antenna 12 through the covering material 16 coated on the coil-shaped antenna 12, so that a signal transmitted through the coil-shaped antenna 12 is smoothly transmitted without distortion So that the efficiency of the coil-shaped antenna 12 can be increased.

In the case where the coil type antennas 12 are formed in a plurality of the same thickness and are all formed to have the same thickness, it is difficult for the user to visually distinguish the coil type antennas 12, The color of the covering material 16 may be separately formed and fixed to the adhesive film 11.

For example, it refers to coating one coil-shaped antenna 12 with a red cover 16 and covering the other coil-like antenna 12 with a black cover 16.

Meanwhile, the coil-shaped antenna 12 may be formed as one strand, but two or more strands may be attached together with one strand through an adhesive such as an adhesive.

This is because when the coiled antenna 12 is formed by laminating a plurality of strands rather than forming the coiled antenna 12 by one strand, the length and width of the coiled antenna 12 are widened, The signal transmitted through the antenna 12 is smoothly transmitted, and the performance of the coil-shaped antenna 12 can be enhanced.

When the coil antenna 12 and the contact portion 13a of the contact member 13 are connected to the mounting film 11 as described above, the coil antenna 12 and the contact portion 13a are connected to the coil antenna 12, A signal can be transmitted to the outside or a signal generated from the outside can be smoothly received.

Then, an auxiliary sheet 14 formed of a shielding sheet, a ferrite sheet, or the like is attached to the other side of the adhesive film 11.

The auxiliary sheet 14 acts on the signal transmitted from the coil antenna 12 while the signal such as an electric field generated from the outside flows into the coil antenna 12.

Here, when the auxiliary sheet 14 is joined to the adhesive film 11, if the adhesive film 11 is formed of a double-sided adhesive tape, the auxiliary sheet 14 is directly attached and fixed to the adhesive film 11 And the adhesive film 15 is applied to the adhesive film 11 through the adhesive means 15 after the adhesive film 15 is applied to the adhesive film 11 when the adhesive film 11 is formed of a general flat sheet, Is adhered and fixed to the adhesive film 11.

Then, one side of the adhesive film 11 to which the coil-shaped antenna 12 is attached is attached to an arbitrary member such that the adhesive film 11 is directed to the direction of an arbitrary member to which the user wants to attach, It is fixed.

In addition, the adhesive film 11 and any member are securely attached and fixed by the adhesive component contained in the adhesive film 11.

Here, when the adhesive film 11 is bonded to an arbitrary member, the contact portion 13a of the gradually moving member 13 fixed to the adhesive film 11 is brought into direct contact with the contact formed on any member, The adhesive film 11 may be used in combination with any member while being connected using the same connecting device (not shown in the figure).

As described above, the coil type antenna 12 is manufactured in various forms to improve the performance, so that signals of various frequency bands transmitted through the coil type antenna 12 can be transmitted without distortion.

In addition, when the coil antenna 10 is manufactured by the above-described method, the coil antenna 10 having improved performance can be manufactured in a thinned form, and can be conveniently attached to any member requiring a thin thickness. Type antenna 10 can be simplified, which makes maintenance and management easier.

11: Adhesive film 12: coil type antenna
13: contact member 13a:
14: auxiliary sheet 15: adhesive means
16: Cover material
10: High performance coil antenna

Claims (8)

A coil-shaped antenna 12 for transmitting signals in various frequency bands and forming various patterns on one side of the adhesive film 11 is formed and a contact portion 13a is formed at an end portion of the coil- An auxiliary sheet 14 formed of a shielding sheet or a ferrite sheet or a combination of two sheets is attached to the other side surface of the adhesive film 11, Wherein the coil-shaped antenna (12) is covered with a covering material (16) having heat resistance to the outside of the coil-shaped antenna (12) when the coil-shaped antenna (12) is formed in various quantities and thicknesses according to various frequency bands.
The coil type antenna according to claim 1, characterized in that the adhesive film (11) is formed of a double-sided adhesive tape or a flat sheet of a synthetic resin material.
The method according to claim 2, wherein when the adhesive film (11) is formed of a flat sheet, the coil antenna (12) is fixedly attached to the adhesive film (11) by an adhesive method or an ultrasonic welding method, Characterized in that the adhesive means (15) are located between the sheets (14).
The display device according to claim 1, wherein the adhesive film (11) further comprises a display portion (11a) printed in a groove shape or a silk print, characterized in that the contact member (13) A coiled antenna with improved performance.
The antenna device according to claim 1, wherein an arbitrary portion of the coiled antenna (12) is cut to form two or more coiled antennas (12), and signals of various frequency bands are transmitted through the respective coiled antennas A coiled antenna with improved performance characterized by transmitting.
delete The antenna according to claim 1, wherein a plurality of the coil-shaped antennas (12) are formed, and when the coil-type antennas (12) are formed to have the same thickness, the coating material (16) A coiled antenna with improved performance.
The coil type antenna according to claim 1, characterized in that the coil-shaped antenna (12) is formed by weaving one strand or a plurality of strands.

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