KR200397492Y1 - Plane type antenna - Google Patents

Abstract

The present invention relates to a planar antenna connected to the cable terminal (CT) of the cable (C) connected to the transmitter or receiver. The present invention, the insulating base plate 50; A conductive element strap 52 patterned on the base plate 50 and connected to the cable terminal CT; And conductive extrastraps 54 spaced apart from and paralleled in parallel with the element straps 52 on the base plate 50. And a connector 60 connecting the element strap 52 and the cable terminal CT of the base plate 50 to each other. In this case, the connector 60 includes: a body 62 having a fixing protrusion 62a for penetrating and fixing the base plate 50 and the cable terminal CT in a stacked state; A cover 64 having a matching groove 64a that is fitted to the fixing protrusion 62a of the body 62 and integrally coupled to the body 62; And a pressing member configured to pressurize and energize the element strap 52 and the cable terminal CT of the base plate 50 stacked on the fixing protrusion 62a of the body 62. The present invention improves reception and reception sensitivity by matching the extrastrap with impedance. And, since the circuit terminal and the cable terminal of the base plate is fixed and connected while being pressed by the pressing member inside the connector, it prevents the stable connection of the terminals and the outgoing of the cable terminal.

Description

Planar Antenna {PLANE TYPE ANTENNA}

The present invention relates to a flat antenna formed in a flat shape, and more particularly, to a flat antenna that is connected to a cable terminal of a cable connected to a transmitter or a receiver through a connector, and transmits or receives radio waves.

In general, planar antennas are applied to a vehicle. Such a planar antenna is applied to a glass window of a vehicle, and there is a glass antenna and a film antenna attached to the glass window, which are manufactured together with the glass window.

1 is an exploded perspective view illustrating a film antenna of a general planar antenna, in which a general film antenna includes a thin film base plate 20 patterned with an element strap 24 for receiving radio waves, as shown in an enlarged view. It is arrange | positioned at the glass window G, and attaches the connector 10 to the upper part of the element strap 24. Accordingly, the terminal T of the element strap 24 is energized with the cable C through the cable terminal CT protruding from the lower portion of the connector 10. At this time, the cable (C) is connected to the cable terminal (CT) by soldering (S), as shown, is fixed to the connector 10 by an adhesive such as hot melt (H).

Here, reference numerals 12 and 14 in the drawings are a body and a cover constituting the connector 10.

However, such a general film antenna is designed in consideration of the impedance and the wavelength of the element strap 24, but there is a problem that the reception gain is very low because the impedance matching is very poor. Therefore, since the reception sensitivity is very low, the user cannot see clearer broadcasts.

In addition, in the general film type antenna, as the cable C is fixed with an adhesive, there is a problem that the cable terminal CT is disconnected while the cable C flows when the connector 10 is installed.

In addition, in the general film type antenna, as the cable terminal CT is exposed to the outside of the connector 10 as shown in enlargement, there is a problem that the cable terminal CT is rusted (rusting occurs).

The present invention was created in order to solve the above-described conventional problems, and as the conductor is separated from the element strap considering the wavelength of the radio wave, the receiving area operates separately from the receiving area considering the radio wave wavelength. It is an object of the present invention to provide a planar antenna having a connector which can be secured so as to not only match the impedance of the antenna but also support the cable to prevent the flow of the cable.

The present invention for achieving the above object is a planar antenna which is connected to a cable terminal of a cable connected to a transmitter or a receiver via a connector, comprising: an insulating base plate; A conductive element strap patterned on the base plate to transmit or receive radio waves and to be connected to the cable terminal; And a conductive extrastrap on the base plate spaced apart in parallel with the element straps in parallel, and having a coupling action while receiving radio waves together with the element straps to match impedance of the element straps. .

In addition, the present invention is a planar antenna connected to a cable terminal of a cable connected to a transmitter or a receiver, the planar antenna for transmitting or receiving radio waves, the insulating base plate of the thin film patterned conductive element strap for transmitting or receiving radio waves; And a connector connecting the element strap of the base plate and the cable terminal, wherein the connector includes: a body having a fixing protrusion for penetrating and fixing the base plate and the cable terminal in a laminated state; A cover having a matching groove that is fitted to the fixing protrusion of the body and integrally coupled to the body; And a pressing member configured to pressurize and energize the element strap and the cable terminal of the base plate stacked on the fixing protrusion of the body.

Hereinafter, a planar antenna according to the present invention will be described with reference to the accompanying drawings. FIG. 2 is an exploded perspective view showing a planar antenna according to an embodiment of the present invention, and FIG. 3 is shown in FIG. Section view of a mounted antenna. In this case, the illustrated planar antenna illustrates a film antenna.

As shown in FIG. 2, the planar antenna according to the embodiment of the present invention includes an insulating base plate 50 connected to a cable terminal CT of a cable C connected to a transmitter or a receiver through a connector 60. )and; A conductive element strap 52 patterned on the base plate 50; And conductive extra straps 54 spaced apart from the element straps 52 and patterned on the base plate 50.

The base plate 50 may be a surface of a case of a glass window, a terminal, or a receiver of a vehicle, not shown. However, the base plate 50 is preferably composed of a thin film as shown.

The element strap 52 is an electrically conductive metal material such as gold, silver, copper, or an alloy, and has a circuit terminal 52a as shown. As described above, the element strap 52 has the same receiving area considering the wavelengths of the transmission and reception radio waves. The element strap 52 is determined in width, length, or shape depending on the reception area. The element strap 52 is connected to the cable terminal CT of the above-mentioned cable C connected to the transmitter or the receiver, and transmits the received radio wave to the transmitter or the receiver.

As illustrated, the extra straps 54 are spaced apart from each other in parallel with the element straps 52 on the base plate 50. At this time, one end of the extra strap 54 is preferably designed to have a separation distance L1 of 0.3 mm to 18 mm with respect to the element strap 52, and the separation distance L1 of 2 mm to 5 mm, as shown in an enlarged view. It is more preferable to design to have a, it is most preferable to design to have a separation distance (L1) of 2mm. And, the other portion of the extra strap 54 is preferably designed to have a separation distance L2 of 0.3 mm to 15 mm from the element strap 54, as shown in an enlarged view, and the separation distance L2 of 3 mm to 10 mm. Is more preferable. Of course, this spacing (L) is to be designed specifically in consideration of the impedance of the element strap (52).

At this time, the accompanying Figure 4 is the data obtained by experimenting the reception gain according to the various separation distance (L1) of the end of the extra strap 54 with respect to the element strap 52, the data by applying a terrestrial DMB radio wave of 180MHz to 210MHz to be. Here, the distance L1 of one end of the extra strap 54 with respect to the element strap 52 is 1 mm to 5 mm as disclosed. As shown in the graph and table of FIG. 4, the separation distance L1 of one end of the extra strap 54 with respect to the element strap 52 is most preferably 1 mm to 5 mm. This is because, as disclosed in the graphs and tables, when the extra straps 54 are spaced 1 mm to 5 mm apart, the coupling action to the element straps 52 is most efficient. Therefore, when the extra straps 54 are spaced apart from 1 mm to 5 mm, the reception gain of the overall frequency is greatest.

At this time, the numerical value described as the Film Antenna Patten at the top of the table is the average reception gain experimented with the separation distance L1 as 2 mm. In addition, the numerical value described as 1 mm Patten at the bottom is the reception gain which was tested by applying the width of the extra strap 54 to 1 mm.

The extra strap 54 is preferably designed to have a ratio of 1: 0.2 to 3.5 with respect to the total area of the element strap 52, and an area ratio of 0.5: 1 times is most preferable. That is, as for the area ratio of the extra strap 54: element strap 52, 1: 0.2-3.5 are preferable, and 1: 0.5 is the most preferable. At this time, the area ratio of the extra straps 54 is specially designed in consideration of the impedance of the element straps 52. Therefore, the width, length, and shape of the extra straps 54 are determined by the area of the extra straps 54.

The extra straps 54 may be configured as one as shown in the figure, but alternatively, a plurality of extra straps 54 may be provided. In the case of forming a plurality of extra straps, the extra straps 54 may be arranged in parallel on both sides of the element straps 52. Alternatively, the plurality of extra straps 54 may be configured to be continuously connected to one side of the element strap 52 in an intermittent state.

Here, reference numeral 56 in the drawing enlarged in FIG. 2 is an insulating coating member laminated on the base plate 50 to coat the surfaces of the above-described elements and the extra straps 52 and 54. The coating member 56 is preferably applied to the same thin film as the base plate 50. This coating member 56 shields and protects the elements and extrastraps 52 and 54.

On the other hand, the above-described connector 60, as shown in Figure 2, the body 62; A cover 64 coupled to the body 62; It includes a pressing member.

As shown in FIG. 2, the body 62 has a base plate 50 having elements and extra straps 52 and 54 and a cable terminal CT of a cable C connected with solder S. It has a fixing projection (62a) to penetrate through. And, as shown in Figure 3, the cover 64 has a matching groove (64a) that is matched to the fixing projections (62a) of the body 62 described above. At this time, the matching groove 64a is provided by the pressing protrusion 64b to be described later, as shown.

The body 62 and the cover 64 are coupled or separated by the fixing protrusion 62a and the matching groove 64a. However, it is preferable to further provide the coupling protrusion 62d and the coupling hole 64d as shown in both sides of the body 62 and the cover 64. As such, the coupling protrusion 62d and the coupling hole 64d strengthen the coupling force of the body 62 and the cover 64.

The pressing member presses the base plate 50 and the cable terminal CT stacked on the fixing protrusion 62a. Such a pressing member may be, for example, a pressing protrusion 64b protruding from the body 62 as shown in FIG. 3. At this time, unlike the pressing projection 64b, it should be designed to have a length that can press the base plate 50 and the cable terminal (CT).

Alternatively, the pressing member, for example, as shown in FIG. 3, may be a pressing ring 66 interposed between the body 62 and the cover 64 while surrounding the fixing protrusion 62a of the body 62. At this time, the pressing ring 66 is preferably configured to press the base plate 50 and the cable terminal CT as it is pressed by the cover 64.

On the other hand, the pressing member is composed of, for example, the above-described pressing protrusion 64b and the pressing ring 66, so that the pressing protrusion 64b is configured to press the pressing ring 66 as shown in FIG. Most preferred. At this time, the pressing ring 66, as shown, can be configured to be fitted to be fixed to the end of the pressing projection (64b).

The circuit terminal 52a and the cable terminal CT of the element strap 52 patterned on the base plate 50 are connected by crimping | bonding, as shown in FIG. Therefore, the element strap 52 and the cable C are energized by the circuit terminal 52a and the cable terminal CT.

The connector 60 configured as described above further includes a fixing member for fixing the cable C of the cable terminal CT on the connector 60. Such a fixing member may be formed of, for example, a support protrusion 62c protruding from both sides of the body 62 to support and restrain both sides of the cable C, as shown in FIG. 3. At this time, the support protrusion 62c is preferably configured of a boss type (Boss Type) having a groove therein. In this way, when the support protrusion 62c is configured in the form of a boss, it is preferable that the cover 64 be provided with a fitting protrusion 64c fitted into the groove of the support protrusion 62c. Thus, when providing the fitting projection 64c, it is possible to further strengthen the binding force of the body 62 and the cover 64.

Here, the base plate 50 in which the above-described extra strap 54 is omitted may be fixed to the connector 60 configured as described above. That is, only the element strap 52 may fix the patterned base plate 50.

On the other hand, the base plate 50 enlarged in FIG. 3 is a base plate 50 according to another embodiment of the present invention, in which the elements and the extra straps 52 and 54 are configured differently from FIG. 2.

The operation of the planar antenna according to the embodiment of the present invention configured as described above is as follows, and the planar antenna to be described will be described as an example of the film antenna shown in the drawings. Only the case of reception will be described as an example.

As shown in FIG. 3, the base plate 50 having the element strap 52 and the extra strap 54, and the cable terminal CT connected to the cable C, are fixed to the body 62. Inserted in, and combines the cover 64 using the engaging projection (62d) and the coupling hole (64d). Thus, the base plate 50 and the cable C are connected to the connector 60.

At this time, the circuit terminal 52a and the cable terminal CT are stably connected while being pressed by the pressing protrusion 64b and the pressing ring 66, and the cable C is fixed by the supporting protrusion 64c. Therefore, as the cable C does not flow in the cable terminal CT, disconnection is prevented.

Subsequently, the connector 60 is attached to the window glass G of the vehicle using a double-sided tape or an adhesive. Accordingly, the element strap 52 receives a radio wave on the glass window G, and the received radio wave is transmitted to the receiver through the cable C. At this time, the extra strap 54 receives the radio wave together with the element strap 52 due to the material properties. Accordingly, the extrastrap 54 serves to expand the receiving area of the element strap 52, and also acts as a coupling action to the element strap 52, thereby improving impedance while improving the reception rate of the element strap 52. Match the set value.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and the scope of application of the present invention is not limited thereto, and may be appropriately changed within the scope of the same idea. Therefore, the shape and structure of each component shown in the embodiment of the present invention can be modified and carried out, and such modifications are naturally belong to the appended claims of the present invention.

The planar antenna according to the present invention as described above, because the extra strap to increase the receiving area of the element strap and at the same time the coupling action to match the impedance, not only can improve the reception rate of the element strap, but also improve the reception sensitivity. It can be effective.

In addition, since the circuit terminal and the cable terminal of the base plate are fixed to the fixing protrusions inside the connector and connected while being pressed by the pressing member, not only can secure the stable connection of the terminals, but also the cable terminal is concealed in the connector, the cable It also has the effect of preventing the terminals from rusting.

In addition, since the cable is prevented from flowing by the support protrusion of the fixing member, there is an effect that can prevent the cable terminal is disconnected.

1 is an exploded perspective view showing a general planar antenna,

2 is an exploded perspective view showing a planar antenna according to an embodiment of the present invention,

3 is a longitudinal cross-sectional view of the antenna shown in FIG.

4 is a graph and a table showing experimental data of the antenna shown in FIG.

<Explanation of symbols for the main parts of the drawings>

50: base plate 52: element strap

54: extra strap 56: coating member

60: connector 62: body

62a: fixing projection 64: cover

64b: pressing projection 66: pressing ring

62c: support protrusion

Claims (11)

In the planar antenna which is connected to the cable terminal (CT) of the cable (C) connected to the transmitter or receiver through a connector, and transmits or receives radio waves, Insulating base plate 50; A conductive element strap (52) patterned on the base plate (50) to transmit or receive radio waves and to be connected to the cable terminal (CT); And The base plate 50 is patterned to be closely spaced in parallel with the element strap 52, and performs a coupling action while receiving radio waves together with the element strap 52 to match the impedance of the element strap 52. And a conductive extrastrap (54). The method of claim 1, wherein one end of the extra strap 54, Planar antenna, characterized in that having a separation distance (L1) of 0.3mm to 18mm with respect to the element strap (52). The method of claim 1, Planar antenna, characterized in that the total area of the extra strap (54) to the total area of the element strap (52) has a ratio of 1: 0.2 to 3.5 times. The method according to any one of claims 1 to 3, And an insulating coating member (56) for coating the surface of the element and the extrastrap (52, 54) patterned on the base plate (50). In a planar antenna connected to a cable terminal (CT) of a cable (C) connected to a transmitter or a receiver, and transmits or receives a radio wave, An insulating base plate 50 of a thin film in which the conductive element strap 52 for transmitting or receiving radio waves is patterned; And And a connector 60 connecting the element strap 52 of the base plate 50 and the cable terminal CT. The connector 60 may include: a body 62 having a fixing protrusion 62a configured to penetrate and fix the base plate 50 and the cable terminal CT in a stacked state; A cover 64 having a matching groove 64a that is fitted to the fixing protrusion 62a of the body 62 and integrally coupled to the body 62; And And a pressing member configured to pressurize and energize the element strap 52 and the cable terminal CT of the base plate 50 stacked on the fixing protrusion 62a of the body 62. The method of claim 5, wherein the pressing member, And a pressurizing protrusion (64b) protruding from the cover (64) of the connector (60). The method of claim 5, wherein the pressing member, Pressing ring 66 interposed between the body 62 and the cover 64 while being wrapped around the fixing protrusion 62a formed on the body 62 of the connector 60, and pressed by the cover 64. Planar antenna, characterized in that; The method of claim 5, wherein the pressing member, A pressing protrusion 64b protruding from the cover 64 of the connector 60; And Pressing ring which is interposed between the body 62 and the cover 64, and is pressed by the pressing protrusion 64b while wrapping the fixing protrusion 62a formed on the body 62 of the connector 60 ( 66); planar antenna, characterized in that. The method of claim 5, The conductive extrastrap 54 is spaced apart in parallel with the element straps 52 on the base plate 50 and is patterned to match the impedance of the element straps 52 while receiving radio waves together with the element straps 52. Planar antenna, characterized in that it further comprises. The method of claim 5, And a fixing member for fixing the cable C of the cable terminal CT fixed to the connector 60 on the connector 60. The fixing member is a planar antenna, characterized in that consisting of support protrusions (62c) protruding on both sides of the body (62) of the connector (60) to support and restrain both sides of the cable (C). The method according to any one of claims 5 to 10, And an insulating coating member (56) for coating the surface of the element strap (52) or the extra strap (54) patterned on the base plate (50).