JP6199803B2 - Antenna device - Google Patents

Description

  The present invention relates to an antenna device that electromagnetically couples a primary antenna to a secondary antenna and performs communication with a communication terminal through the secondary antenna.

  2. Description of the Related Art Conventionally, an antenna device is known in which a secondary antenna capable of relaying radio waves communicated between a primary antenna and a communication terminal is attached to a window glass of a vehicle door, and the primary antenna communicates with a communication terminal through the secondary antenna. Yes (see Patent Document 1). If this technique is used, the secondary antenna can be arranged in a wide space such as a window glass, which is advantageous for increasing the antenna area.

JP 2012-58844 A

  In this type of primary antenna, there is a current situation in which the strength of magnetic flux varies depending on each location in a coil loop. Specifically, the magnetic flux is strong at the center of the loop of the coil, and the magnetic flux is weak at the end of the loop. For this reason, depending on the opening / closing position of the window glass, that is, the facing position of the primary antenna and the secondary antenna, the secondary antenna may face a portion where the magnetic flux of the primary antenna is weak. In this case, the output of the secondary antenna becomes weak, and there is a problem in terms of the establishment of communication.

  An object of the present invention is to provide an antenna device that can maintain favorable communication establishment even when the position of a secondary antenna is switched in conjunction with the movement of a movable member.

  In the antenna device that solves the above problem, a secondary antenna that can relay radio waves communicated between a primary antenna and a communication terminal is attached to a movable member that is closed and opened, and the primary antenna passes through the secondary antenna. In the configuration in which the antenna and the communication terminal communicate with each other, the primary antenna includes a coil-shaped electromagnetic coupling portion that is a portion that is electromagnetically coupled to the secondary antenna, and the electromagnetic coupling portion has a different loop cross-sectional area of the coil. A plurality of eccentric winding portions that are eccentric are provided.

  According to this configuration, when a plurality of eccentric winding portions having different loop cross-sectional areas and loop centers of the coil are integrally provided in the primary antenna, and the position of the secondary antenna changes when the movable member is opened and closed, The secondary antenna is aligned with any loop center of the eccentric winding portion. For this reason, even if the movable member is displaced and the position of the secondary antenna changes, the secondary antenna faces the loop center of the eccentric winding portion, and the primary antenna and the secondary antenna are coupled by a high electromagnetic coupling force. Is done. Therefore, it is possible to maintain favorable communication establishment with the primary antenna in the secondary antenna that is interlocked with the movable member.

  In the antenna device, the plurality of eccentric winding portions are formed such that when the movable member is in the closed position, the coil having the smallest loop cross-sectional area is located in the electromagnetic coupling portion of the secondary antenna. It is preferable. According to this configuration, when the movable member is in the closed state and is used most frequently, the secondary antenna is aligned with the eccentric winding portion having the smallest loop cross-sectional area. For this reason, when the frequency of use that the movable member is in the closed state is the highest, it is possible to always satisfy favorable communication establishment.

  In the antenna device, it is preferable that the plurality of eccentric winding portions are arranged so that the degree of electromagnetic coupling with the secondary antenna is maximized when the movable member is in the closed position. According to this configuration, the electromagnetic coupling between the primary antenna and the secondary antenna can be maximized when the frequency of use in which the movable member is in the closed state is the highest. For this reason, when the frequency of use that the movable member is in the closed state is the highest, it is possible to always satisfy favorable communication establishment.

  In the antenna device, it is preferable that positions of the plurality of eccentric winding portions are aligned such that a line connecting the centers of the loops is along a moving direction of the movable member. According to this configuration, even if the movable member moves and the secondary antenna comes to face the other eccentric winding part, it is always aligned with the center of the loop, so the communication feasibility of the secondary antenna is maintained. This is even more advantageous.

  In the antenna device, it is preferable that the plurality of eccentric winding portions are formed by overlapping at least a part of coils. According to this configuration, since it is possible to increase the number of turns in each eccentric winding portion, it is further advantageous to ensure communication feasibility of the secondary antenna.

  ADVANTAGE OF THE INVENTION According to this invention, even if the position of a secondary antenna switches in response to a motion of a movable member, suitable communication establishment property can be maintained.

The block diagram of the security system and antenna apparatus of one Embodiment. The schematic diagram of a secondary antenna. The schematic diagram of a primary antenna. The development view of a primary antenna. (A)-(c) is an operation | movement figure of the antenna apparatus at the time of glass opening operation. (A)-(c) is the schematic of the primary antenna of another example.

Hereinafter, an embodiment of an antenna device will be described with reference to FIGS.
As shown in FIG. 1, the vehicle 1 includes a security system 3 that controls an in-vehicle device based on a result of wireless ID verification with the communication terminal 2. The security system 3 of this example controls locking / unlocking of the vehicle door 4, for example. For the communication of the security system 3, for example, short-range wireless communication may be used. The near field radio includes, for example, a near field type (NFC (Near Field Communication)), RFID (Radio Frequency IDentification), and Bluetooth (registered trademark).

  The communication terminal 2 is preferably a portable terminal such as an electronic key provided as a dedicated key of the vehicle 1, an IC card which is a kind of authentication card, a high-function mobile phone, or the like. In a memory (not shown) of the communication terminal 2, a communication terminal key ID is written and stored as a unique ID of the communication terminal 2.

  The vehicle 1 includes a terminal authentication ECU (Electronic Control Unit) 5 that performs ID verification with the communication terminal 2 and a body ECU 6 that manages the power supply of the on-vehicle electrical components. These ECUs are connected through a communication line 7 in the vehicle. In the memory of the terminal authentication ECU 5, a communication terminal key ID that is an ID of the communication terminal 2 registered in the terminal authentication ECU 5 (vehicle 1) is written and stored. The body ECU 6 controls the operation of the door lock 8 disposed on the vehicle door 4.

  The vehicle 1 includes an antenna device 9 that performs transmission and reception of radio waves of the security system 3 in the vehicle 1. The antenna device 9 includes a primary antenna 11 connected to the terminal authentication ECU 5 and a secondary antenna 12 that relays radio waves transmitted and received between the communication terminal 2 and the primary antenna 11. The primary antenna 11 is attached to a door body 13 that is not a glass portion of the vehicle door 4. The secondary antenna 12 is attached to the window glass 14 of the vehicle door 4.

  As shown in FIG. 2, the secondary antenna 12 includes an electromagnetic coupling portion 15 that is a portion that is electromagnetically coupled to the primary antenna 11, an input / output portion 16 that is a port of radio waves to be communicated, and a narrow width that connects them. And a connecting portion 17. The electromagnetic coupling unit 15, the input / output unit 16, and the connection unit 17 are formed by winding a single antenna wire a plurality of times along a required shape. The electromagnetic coupling portion 15 is formed in, for example, a substantially rectangular shape, and is disposed in a door wall hidden portion 18 that is hidden inside the door body 13 (door wall) in the closed window glass 14. The input / output unit 16 is formed in an annular shape, for example, and is disposed in the visible portion 19 of the window glass 14.

  As shown in FIG. 3, the primary antenna 11 includes a coiled electromagnetic coupling portion 21 that is a portion electromagnetically coupled to the secondary antenna 12 (electromagnetic coupling portion 15). The electromagnetic coupling portion 21 includes a plurality of eccentric winding portions 22 that are eccentric with different loop cross-sectional areas S of the coils. It can be said that these eccentric winding portions 22 have different loop circumferential lengths or loop diameters. The plurality of eccentric winding portions 22 are formed by winding a single antenna wire a plurality of times along a required shape.

  Three eccentric winding portions 22 of this example are arranged side by side along the opening / closing direction (direction of arrow A in FIG. 3) of the window glass 14. In the case of this example, along the opening direction of window glass 14 (the direction of arrow A1 in FIG. 3), the uppermost one in the drawing is the first eccentric winding portion 22a, and the middle one is the second eccentric winding portion. 22b, and the lowest one is the third eccentric winding portion 22c.

  FIG. 4 shows a development view of the primary antenna 11. The positions of the first eccentric winding portion 22a to the third eccentric winding portion 22c are aligned such that a line Lk connecting the loop centers P1 to P3 is along the opening / closing direction of the window glass 14. The first eccentric winding portion 22a to the third eccentric winding portion 22c are formed so that the loop cross-sectional area S of the coil increases in order along the opening direction of the window glass 14. That is, the loop cross-sectional area S is formed so as to satisfy the relationship of S1 <S2 <S3. In this way, even if the number of turns of the first eccentric winding part 22a to the third eccentric winding part 22c is the same, the number of turns of the first eccentric winding part 22a to the third eccentric winding part 22c is assumed to be the same. However, the number of turns may be reduced according to 22a to 22c.

  When the number of turns of the first eccentric winding part 22a to the third eccentric winding part 22c is the same and the area is set as S1 <S2 <S3, or the number of turns of the first eccentric winding part 22a to the third eccentric winding part 22c In this case, the inductance value becomes L1 <L2 <L3. The inductance L1 is the inductance value of the first eccentric winding portion 22a, the inductance L2 is the inductance value of the second eccentric winding portion 22b, and the inductance L3 is the inductance value of the third eccentric winding portion 22c. .

  Further, the loop center P of the first eccentric winding part 22 a to the third eccentric winding part 22 c is gradually displaced along the opening direction of the window glass 14. Specifically, the loop center P1 where the electromagnetic coupling portion 15 is aligned in the first eccentric winding portion 22a is set at the center of the first eccentric winding portion 22a. The loop center P2 where the electromagnetic coupling portion 15 is aligned in the second eccentric winding portion 22b is arranged such that the lower side 22a-2 of the first eccentric winding portion 22a does not interfere with the magnetic flux path. It arrange | positions in the position near the downward direction in the line part 22b. The loop center P3 where the electromagnetic coupling portion 15 is aligned in the third eccentric winding portion 22c is arranged such that the lower side 22b-2 of the second eccentric winding portion 22b does not interfere with the magnetic flux path. It arrange | positions in the position near the downward direction in the line part 22c.

  The plurality of eccentric winding portions 22 are arranged so that at least a part of the loop overlaps. Specifically, one side (upper side) 22a-1 of the first eccentric winding part 22a is shared by the loop of the second eccentric winding part 22b and the loop of the third eccentric winding part 22c. In each drawing of this example, the portions where the antenna wires of the first eccentric winding portion 22a to the third eccentric winding portion 22c overlap are drawn by shifting the lines for convenience.

Next, the operation of the antenna device 9 will be described with reference to FIG.
As shown in FIG. 5A, when the window glass 14 is in a fully closed state, the electromagnetic coupling portion 15 of the secondary antenna 12 is connected to the first eccentric winding portion 22a of the primary antenna 11 and the loop center P1. At the opposite. Thereby, the primary antenna 11 and the secondary antenna 12 are electromagnetically coupled, and bidirectional communication is possible between the communication terminal 2 and the terminal authentication ECU 5. In addition, since the first eccentric winding portion 22a has the largest number of turns of the antenna wire, among the three eccentric winding portions 22, the electromagnetic coupling force of the first eccentric winding portion 22a is the highest. . Therefore, it is possible to maximize the output of the antenna device 9 when the window glass 14 assumed to be used most frequently is closed.

  As shown in FIG. 5B, it is assumed that the window glass 14 is opened by a very small distance W1 (an example is about 1 cm). At this time, the secondary antenna 12 is lowered according to the opening amount of the window glass 14, and the electromagnetic coupling portion 15 of the secondary antenna 12 is connected to the second eccentric winding of the primary antenna 11 with respect to the fixed primary antenna 11. The line 22b faces the loop center P2. Thereby, although the electromagnetic coupling of the primary antenna 11 and the secondary antenna 12 is maintained, the electromagnetic coupling part 15 is aligned with the loop center P2 of the second eccentric winding part 22b. Even if the number of turns of the antenna wire is smaller than that of the first eccentric winding portion 22a, a certain degree of electromagnetic coupling force is ensured. Therefore, the output of the antenna device 9 can be reduced as much as possible.

  As shown in FIG. 5C, it is assumed that the window glass 14 is opened by a predetermined interval W2 (an example is several centimeters) wider than W1. At this time, the secondary antenna 12 further falls according to the opening amount of the window glass 14, and the electromagnetic coupling portion 15 of the secondary antenna 12 faces the third eccentric winding portion 22c of the primary antenna 11 near the loop center P3. To do. Thereby, the electromagnetic coupling of the primary antenna 11 and the secondary antenna 12 is maintained. At this time, since the electromagnetic coupling portion 15 is aligned with the loop center P3 of the third eccentric winding portion 22c, the third eccentric winding portion 22c has a smaller number of turns of the antenna wire than the first eccentric winding portion 22a. However, a certain degree of electromagnetic coupling force is ensured. Therefore, the output of the antenna device 9 can be reduced as much as possible.

According to the configuration of the present embodiment, the following effects can be obtained.
(1) In the primary antenna 11 that electromagnetically couples with the secondary antenna 12 attached to the window glass 14 and communicates with the communication terminal 2, the loop cross-sectional area S gradually increases along the opening direction of the window glass 14, and A plurality of eccentric winding portions 22 are provided so that the loop center P is gradually displaced. By adopting this structure, even if the window glass 14 is opened and closed and the position of the secondary antenna 12 is changed, the secondary antenna 12 is aligned with one of these eccentric winding portions 22. For this reason, even if the window glass 14 is displaced and the position of the secondary antenna 12 changes, the secondary antenna 12 faces the loop centers P <b> 1 to P <b> 3 of one of the eccentric winding portions 22, and the high electromagnetic coupling force Thus, the primary antenna 11 and the secondary antenna 12 are coupled. Therefore, suitable communication establishment with the primary antenna 11 can be maintained in the secondary antenna 12 interlocked with the window glass 14.

  (2) When the window glass 14 is in the closed position (closed state), among the plurality of eccentric winding portions 22a to 22c, 22a having the smallest loop area is positioned in the electromagnetic coupling portion 15 of the secondary antenna 12. It is formed. For this reason, when the frequency of use that the window glass 14 is in the closed state is the highest, it is possible to always satisfy favorable communication establishment.

  (3) The positions of the plurality of eccentric winding portions 22 are aligned so that the line Lk connecting the loop centers P1 to P3 is along the opening / closing direction of the window glass 14. In other words, when the plurality of eccentric winding portions 22 have a square shape as in this example, the antenna wires are wound so that three of the four sides overlap. Therefore, even if the window glass 14 is opened and the secondary antenna 12 comes to face the second eccentric winding portion 22b or the third eccentric winding portion 22c, it can be positioned at the loop centers P2 and P3. As a result, it becomes more advantageous to maintain the communication feasibility of the secondary antenna 12.

  (4) The plurality of eccentric winding portions 22 are formed by overlapping and cracking at least a part of a coil (antenna wire). Therefore, since it is possible to increase the number of turns in each eccentric winding part 22, it is further advantageous to ensure the communication feasibility of the secondary antenna 12.

Note that the embodiment is not limited to the configuration described so far, and may be modified as follows.
-As shown to Fig.6 (a), as for the primary antenna 11, each eccentric winding part 22 (22a-22c) may take an elliptical shape.

  -As shown in FIG.6 (b), the primary antenna 11 may take the shape where the angle | corner of each eccentric winding part 22 (22a-22d) made into the substantially square shape was overlapped and arranged. Moreover, you may form the some eccentric winding part 22 in a similar shape.

-As shown in FIG.6 (c), as for the primary antenna 11, each eccentric winding part 22 (22a-22d) may take a trapezoid shape.
The shape of the secondary antenna 12 is not limited to the shape in which the rectangular electromagnetic coupling portion 15 and the circular input / output portion 16 are connected by the narrow connecting portion 17, and can be changed to various shapes.

The input / output unit 16 may be changed to a square shape, for example.
Various positions such as a position on the upper side of the glass, a position on the lower side of the glass, a position on the left side of the glass, and a position on the right side of the glass can be adopted as the attachment position of the input / output unit 16 on the window glass 14.

The vehicle door 4 is not limited to the driver's seat door, and may be changed to a passenger seat door, rear left and right doors, or the like.
The movable member is not limited to the window glass 14 and may be any member that can be opened and closed.

The communication terminal 2 may be any terminal that can perform wireless communication.
The communication frequency of the antenna device 9 can use various frequencies such as LF, HF, and UHF.

The security system 3 is not limited to the short-range wireless system, and various systems such as a key operation free system using a narrow area wireless can be applied.
The antenna device 9 is not limited to being applied to the security system 3 of the vehicle 1 and may be employed in various systems.

Next, technical ideas that can be grasped from the above-described embodiment and other examples will be described below together with their effects.
(A) In a primary antenna that communicates with a communication terminal through a secondary antenna attached to a movable member that is opened and closed, the primary antenna includes a coiled electromagnetic coupling portion that serves as an electromagnetic coupling portion with the secondary antenna, and the electromagnetic coupling portion Provided with a plurality of eccentric winding portions having different coil cross-sectional areas (loop circumferential length and loop diameter). According to this configuration, it is possible to obtain the same effects as those of the antenna device described above.

  DESCRIPTION OF SYMBOLS 2 ... Communication terminal, 9 ... Antenna apparatus, 11 ... Primary antenna, 12 ... Secondary antenna, 14 ... Window glass which is an example of a movable member, 15 ... Electromagnetic coupling part of a secondary antenna, 21 ... Electromagnetic of a primary antenna Coupling part, 22 (22a-22d) ... eccentric winding part, S (S1, S2, S3) ... loop cross-sectional area, P (P1 to P3) ... loop center, Lk ... line connecting the loop centers.

Claims (4)

In an antenna apparatus, wherein a secondary antenna capable of relaying a radio wave communicated between a primary antenna and a communication terminal is attached to a movable member that is closed and opened, and the primary antenna and the communication terminal communicate with each other through the secondary antenna ,
The primary antenna includes a coiled electromagnetic coupling portion that is a portion electromagnetically coupled to the secondary antenna,
The electromagnetic coupling part includes a plurality of eccentric winding parts having different eccentric loop cross-sectional areas of the coil ,
The plurality of eccentric winding portions are formed such that when the movable member is in the closed position, the coil having the smallest loop cross-sectional area is located at the electromagnetic coupling portion of the secondary antenna <br / > An antenna device characterized by that. In an antenna apparatus, wherein a secondary antenna capable of relaying a radio wave communicated between a primary antenna and a communication terminal is attached to a movable member that is closed and opened, and the primary antenna and the communication terminal communicate with each other through the secondary antenna ,
The primary antenna includes a coiled electromagnetic coupling portion that is a portion electromagnetically coupled to the secondary antenna,
The electromagnetic coupling part includes a plurality of eccentric winding parts having different eccentric loop cross-sectional areas of the coil ,
The plurality of eccentric winding portions are arranged such that the degree of electromagnetic coupling with the secondary antenna is maximized when the movable member is in the closed position. . In an antenna apparatus, wherein a secondary antenna capable of relaying a radio wave communicated between a primary antenna and a communication terminal is attached to a movable member that is closed and opened, and the primary antenna and the communication terminal communicate with each other through the secondary antenna ,
The primary antenna includes a coiled electromagnetic coupling portion that is a portion electromagnetically coupled to the secondary antenna,
The electromagnetic coupling part includes a plurality of eccentric winding parts having different eccentric loop cross-sectional areas of the coil ,
The antenna device , wherein the plurality of eccentric winding portions are aligned such that a line connecting the centers of the loops is along a moving direction of the movable member . The antenna device according to any one of claims 1 to 3 , wherein the plurality of eccentric winding portions are formed by overlapping at least a part of a coil.