JP3761976B2 - Inner mirror - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an inner rear view mirror (hereinafter simply referred to as an inner mirror), and more particularly, to an inner mirror including an antenna that receives radio waves emitted from a transmitter of a remote control device provided in a vehicle.
[0002]
[Prior art]
Conventionally, there has been proposed a remote control device that locks / unlocks a door by remote control from the vicinity outside the vehicle. A preset identification code is stored in the transmitter of the apparatus, and the identification code is transmitted based on an operation of an operation button provided on a key or the like.
[0003]
On the other hand, the receiver of the said apparatus is the inside of a motor vehicle, Comprising: Generally, it is equipped in the instrument panel or under the seat. The receiver has a built-in antenna. The receiver receives the identification code transmitted from the transmitter via the antenna, and compares the identification code with a discrimination code set in advance and stored. When the identification code matches the discrimination code, the receiver outputs a signal corresponding to locking / unlocking, and locks / unlocks the door based on each signal.
[0004]
However, since the antenna of the receiver described above is provided in the instrument panel or under the seat, the radio wave from the transmitter receives an electromagnetic shielding effect by the vehicle body. Therefore, the reception sensitivity of the antenna is not good.
[0005]
Therefore, it is conceivable that the antenna is provided on the roof portion in the vehicle so that the radio wave from the transmitter is not subjected to the electromagnetic shielding effect by the vehicle body.
For example, the antenna disclosed in Japanese Utility Model Laid-Open No. 7-9653 is a telescopic rod antenna and is accommodated in a mirror support portion that supports a mirror body of an inner mirror provided in a vehicle. This antenna is extended downward along the glass surface of the windshield when in use.
[0006]
The antenna disclosed in Japanese Utility Model Publication No. 3-94816 is formed by adhering a conductive material with a predetermined pattern to a plate provided on the back of an inner mirror in a vehicle.
[0007]
[Problems to be solved by the invention]
However, the antennas disclosed in Japanese Utility Model Laid-Open Nos. 7-9653 and 3-94816 do not receive the electromagnetic shielding effect of the vehicle body from the radio wave from the transmitter, so the reception sensitivity of the antenna is good. However, there are problems in terms of appearance design and the like, which is not preferable. In particular, since the antenna disclosed in Japanese Utility Model Publication No. 7-9653 is a rod antenna, it is necessary to expand and contract each time it is used, which is very troublesome.
[0008]
The present invention has been made to solve the above problems, and an object of the present invention is to provide an inner mirror having an antenna that can ensure a wide and uniform operating area of a receiver without impairing the appearance design. There is to do.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the invention according to claim 1 is an inner mirror including a housing in which a housing recess is formed, and a reflector that is disposed in the opening of the housing and reflects light. A first antenna that is housed in the housing recess and receives a radio wave transmitted from a transmitter, and the first antenna is housed in the housing recess and is transmitted from the transmitter at an interval. A second antenna that receives the received radio wave, and a receiving circuit that receives a received signal from at least one of the first and second antennas, wherein the first and second antennas include the housing It is arrange | positioned along the inner peripheral side.
[0010]
The invention according to claim 2 is an inner mirror including a housing in which a housing recess is formed, and a reflector that is disposed in the opening of the housing and reflects light, and is housed in the housing recess of the housing. And a plurality of antennas for receiving radio waves transmitted from a transmitter, and a receiving circuit for inputting a reception signal from at least one of the plurality of antennas, and formed on a circuit board of the receiving circuit and grounded. The conductor layer was used as the ground plane of the plurality of antennas.
According to a third aspect of the present invention, in an inner mirror including a housing in which a housing recess is formed and a reflector that is disposed in the opening of the housing and reflects light, the housing is housed in the housing recess of the housing. And a plurality of antennas for receiving radio waves transmitted from a transmitter, and a receiving circuit for inputting a reception signal from at least one of the plurality of antennas, and are integrally formed on the inner peripheral surface of the housing. A locking portion for locking the antenna is provided.
[0011]
Therefore, according to the first aspect of the present invention, the plurality of antennas are housed in the housing recesses of the housing, respectively, and receive radio waves transmitted from the transmitter. The reception circuit inputs a reception signal from at least one of the plurality of antennas.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
FIG. 2 shows an electrical configuration of a remote control device 1 that remotely locks and unlocks a door (not shown) of an automobile. The portable transmitter 2 is provided with an operation switch 2a. The transmitter 2 reads an identification code stored in advance in a memory (not shown) based on the operation of the operation switch 2a, modulates the identification code, and then accommodates the modulated identification code in an inner mirror 3 described later. To the received receiver 4.
[0014]
The receiver 4 includes first and second antennas 5 a and 5 b and a receiving circuit 6. The receiving circuit 6 receives the identification code transmitted from the transmitter 2 via both antennas 5a and 5b, demodulates and shapes the received identification code, that is, digitizes it, and outputs it to the processing circuit 7. To do.
[0015]
The processing circuit 7 is provided with a memory (not shown) therein, and a discrimination code is stored in advance. When receiving the identification code from the receiving circuit 6, the processing circuit 7 reads out the determination code stored in the memory and compares the determination code with the identification code. The processing circuit 7 outputs a drive signal to the actuator 8 only when the two codes match. The actuator 8 is driven based on a drive signal from the processing circuit 7, and each door of the automobile is locked or unlocked by the drive.
[0016]
Next, the configuration of the receiver 4 provided in the inner mirror 3 will be described. FIG. 1 shows an inner mirror 3. A stay 9 of the inner mirror 3 is fixed to a front lower surface of a roof (not shown) of the automobile. The stay 9 has a hollow shape, and a connection cord 10 that connects the receiving circuit 6 and the processing circuit 7 is accommodated therein. In addition, the mirror body 11 is supported on the stay 9 so as to be rotatable within a predetermined range. Then, the driver or the like rotates and adjusts the mirror main body 11 within the range so as to secure the field of view behind the automobile.
[0017]
The mirror body 11 includes a housing 12, a reflecting mirror 13 as a reflector, a frame 14, a circuit board 15 forming the receiving circuit 6, and the first and second antennas 5a and 5b. . The housing 12 has a curved shape, and an accommodation recess 12a for accommodating the circuit board 15 and the like is formed therein. A frame 14 that supports the reflecting mirror 13 having substantially the same shape as the opening 12 b is attached to the opening 12 b on the front side of the housing 12. The reflecting mirror 13 includes, for example, a transparent plate such as a glass plate, a reflective film (not shown) formed on the back surface of the transparent plate, and a protective film (not shown) that protects the reflective film formed on the back surface of the reflective film. It consists of. The circuit board 15 is fixed to a mounting portion (not shown) protruding from the inner wall surface of the housing 12 with screws or the like.
[0018]
In the present embodiment, the circuit board 15 is a two-layer printed wiring board as shown in FIG. 3, and a conductor layer 16 is formed on one side (housing 12 side). A conductor wiring pattern is formed on the surface on which the conductor layer 16 is not formed, and various electronic components 17 such as an IC chip, a chip resistor, and a chip capacitor constituting the receiving circuit 6 are soldered to them. It is attached. The various electronic components 17 are connected to a conductor layer 16 and a connector 18 mounted on the conductor layer 16 through through holes (not shown) formed through the circuit board 15 as appropriate. The connector 18 is connected to the connection cord 10 accommodated in the hollow portion of the stay 9. The receiving circuit 6 is connected to the processing circuit 7 via a connector 18 and a connection cord 10.
[0019]
On the other hand, the first and second antennas 5a and 5b are, for example, conductive wires such as iron and copper, and one end of each of the various electrons constituting the receiving circuit 6 through the conductor layer 16 and the through hole, respectively. It is connected to the component 17. As shown in FIG. 1, the first and second antennas 5a and 5b extend from the circuit board 15 at the center of the housing 12, respectively. The first and second antennas 5a and 5b are formed with substantially the same length. The lengths of the first and second antennas 5a and 5b are determined by the frequency of the radio wave used for the remote control device 1.
[0020]
The first antenna 5a is arranged along the inner peripheral side surface of the bottom of the housing 12 extending from near the center to the left side when viewed from the reflecting mirror 13 side. The first antenna 5a is bent in a substantially L shape at the left end portion thereof, extends upward, and is formed in a spiral shape. On the other hand, the second antenna 5b is arranged along the inner peripheral side surface of the bottom of the housing 12 extending from the center to the right side when viewed from the reflecting mirror 13 side. The second antenna 5b is bent in a substantially L shape at the right end thereof and extends upward, and is formed in a spiral shape. That is, the first and second antennas 5a and 5b are erected in a spiral shape with the same length on the left side and the right side in the housing 12 with a predetermined interval. The first and second antennas 5a and 5b are locked by a locking claw 12c as a locking portion integrally formed along the inner peripheral side surface of the bottom of the housing 12.
[0021]
The first and second antennas 5a and 5b receive the radio waves transmitted from the transmitter 2, and the received signals from the connection points (feed points) N1 and N2 shown in FIG. The signal is supplied to the receiving circuit 6. That is, the first and second antennas 5a and 5b are combined to form a diversity antenna. In this reception method using diversity antennas, one transmission radio wave is received using two or more different propagation paths, and each received signal is combined (combining method) or selected with a high reception level (switching method). By doing so, there is an excellent feature that the best received signal can be obtained. Accordingly, the first and second antennas 5a and 5b are erected on the left side and the right side in the housing 12 with the same length and with a predetermined interval as described above. Even if there is an obstacle such as a pillar that supports the roof of the vehicle on the straight line connecting the first antenna 5a and the first antenna 5a, the radio wave transmitted from the transmitter 2 is received by the second antenna 5b. Therefore, since the first and second antennas 5a and 5b are in a complementary relationship, the radio waves transmitted from the transmitter 2 can be reliably received, and a wide and uniform operating area of the receiver 4 is ensured. It is like that. In the present embodiment, the receiving circuit 6 selects a receiving signal having a high reception level input from the connection points (feeding points) N1 and N2 by switching the switching circuit 6a configured in the receiving circuit 6. To enter.
[0022]
The conductor layer 16 formed on the circuit board 15 and grounded via the connector 18 and the connection cord 10 with respect to the first and second antennas 5a and 5b serves as a ground plane (ground plate). Accordingly, the grounded conductor layer (ground plate) 16 has a mirror effect, and an image antenna is formed separately from the first and second antennas 5a and 5b. As a result, the gains of the first and second antennas 5a and 5b are improved.
[0023]
In the present embodiment, the received radio wave includes a television broadcast wave, a radio broadcast wave, and the like in addition to the radio wave from the transmitter 2 of the remote control device 1. It can also be received by the first and second antennas 5a and 5b. However, since each broadcast wave uses various frequency bands, it is necessary to receive radio waves in each frequency band on average. As a result, depending on a certain frequency band, it becomes lower than the optimum reception sensitivity. Conversely, in order to obtain a suitable reception sensitivity, it is necessary to change the lengths of the first and second antennas 5a and 5b depending on the frequency band.
[0024]
However, since the radio wave from the transmitter 2 of the remote control device 1 uses a single frequency, the lengths of the first and second antennas 5a and 5b can be adjusted only to the single frequency. What is necessary is just to determine the length easily.
[0025]
As described above, the features of this embodiment will be described below.
(1) Since the first and second antennas 5a and 5b of the receiver 4 are provided inside the inner mirror 3, radio waves from the transmitter 2 are not affected by the electromagnetic shielding effect of the vehicle body, and both antennas 5a and 5b The reception sensitivity is very good.
[0026]
(2) Since the first and second antennas 5a and 5b are accommodated inside the inner mirror 3, the appearance design is not harmed.
(3) Since the first and second antennas 5a and 5b are made of conductive wires such as iron and copper, they can be easily constructed.
[0027]
(4) Since the receiving circuit 6 is disposed inside the inner mirror 3 and the first and second antennas 5a and 5b are directly connected to the circuit 6, it can be configured without using a coaxial cable, and the cost can be reduced. Can be planned.
[0028]
(5) Since the first and second antennas 5a and 5b are arranged on the left and right sides of the housing 12 with the same length and at a predetermined interval, the two antennas 5a and 5b are complementary to each other. Thus, the radio wave transmitted from the transmitter 2 can be reliably received. Therefore, the receiver 4 can ensure a wide and uniform operating area.
[0029]
(6) Since the antenna of the receiver 4 is composed of the two first and second antennas 5a and 5b, the reception sensitivity is good and the space efficiency is good.
(7) Since the first and second antennas 5a and 5b are respectively locked by the locking claws 12c integrally formed along the inner peripheral side surface of the housing 12, they can be securely accommodated. Also, no extra parts are required.
[0030]
(8) The first and second antennas 5a and 5b can easily correspond to the frequency of the radio wave used for the remote control device 1 depending on the vehicle type, etc., by simply adjusting the length of each of the first and second antennas 5a and 5b.
[0031]
(9) Since the conductor layer 16 formed on the circuit board 15 and grounded becomes a ground plane (ground plate), a mirror effect is obtained, so that the gains of the first and second antennas 5a and 5b can be improved. .
[0032]
In addition, you may change this invention as follows, and the same effect | action and effect are acquired also in that case.
(1) In the above embodiment, the first and second antennas 5a and 5b are configured inside the general inner mirror 3. An automatic anti-glare EC (electrochromic) mirror that automatically reduces the reflected light of the inner mirror by detecting with a sensor may be used. At that time, the receiving circuit 6 may be configured integrally with the EC circuit and the like built in the automatic anti-glare EC mirror.
[0033]
(2) In the above embodiment, the processing circuit 7 is provided inside the vehicle body separately from the inner mirror 3, but may be accommodated in the inner mirror 3. Further, the processing circuit 7 may be integrated with the receiving circuit 6.
[0034]
(3) In the above embodiment, the received signals are input from the connection points (feeding points) N1 and N2 with the first and second antennas 5a and 5b as separate bodies, but both antennas 5a and 5b are connected. You may connect by connection point (feeding point) N1, N2. Further, as shown in FIG. 4, the antenna may be formed so as to branch from the circuit board 15 in the middle.
[0035]
(4) In the above embodiment, the receiving circuit 6 receives the same radio wave from two different propagation paths as the first and second antennas 5a and 5b. .
[0036]
(5) In the above embodiment, the first and second antennas 5a and 5b are not limited to the shape shown in FIG. For example, although a part of both antennas 5a and 5b is formed in a spiral shape, it may be linear. Further, the shape of one antenna may be changed. For example, the second antenna 5b in which a part shown in FIG. 1 is formed in a spiral shape may be changed to an inverted F antenna 5c configured on the back side of the circuit board 15 as shown in FIG. . For convenience of explanation, various electronic components 17 are omitted in FIG.
[0037]
(6) In the above embodiment, the grounded conductive layer 16 formed on the circuit board 15 is used as the ground plane (earth board). However, it may be formed of a conductive member that is separate from the circuit board 15. .
[0038]
(7) In the above embodiment, the first and second antennas 5a and 5b are used in the receiver 4 of the remote control device 1 that locks and unlocks the door of the automobile. However, the present invention is not limited to this. is not. For example, you may use for the receiver of the remote control apparatus which starts and stops an engine.
[0041]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to provide an inner mirror including an antenna that can ensure a wide and uniform operating area of the receiver without impairing the appearance design.
According to the second aspect of the present invention, since the grounded conductor layer becomes a ground plane (ground plate), a mirror effect is obtained, so that gains of a plurality of antennas can be improved.
According to the third aspect of the present invention, a plurality of antennas can be reliably fixed without using extra parts.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of an inner mirror in the present embodiment.
FIG. 2 is an electrical configuration diagram of a remote control device.
FIG. 3 is a cross-sectional view of a main part of the inner mirror.
FIG. 4 is an exploded perspective view of an inner mirror in another example.
FIG. 5 is an exploded perspective view of an inner mirror in another example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 2 ... Transmitter, 5a, 5b ... 1st, 2nd antenna as several antennas, 6 ... Reception circuit, 12 ... Housing, 12a ... Housing recessed part, 12b ... Opening part, 12c ... Locking as a locking part Nail, 13 ... Reflector as reflector, 15 ... Circuit board.

Claims (3)

A housing (12) in which a housing recess (12a) is formed;
In an inner mirror provided with a reflector (13) disposed in the opening (12b) of the housing (12) and reflecting light,
A first antenna (5a ) that receives the radio wave that is received in the receiving recess (12a) of the housing (12) and transmitted from the transmitter (2) ;
A second antenna (5b) that is housed in the housing recess (12a) of the housing (12) at an interval from the first antenna (5a) and that receives radio waves transmitted from the transmitter (2 ). When,
Said first and second antenna (5a, 5b) and a receiving circuit (6) for inputting a received signal from at least one of said first and second antenna (5a, 5b), the An inner mirror disposed along the inner peripheral side surface of the housing (12) . A housing (12) in which a housing recess (12a) is formed;
A reflector (13) disposed in the opening (12b) of the housing (12) and reflecting light;
In the inner mirror with
A plurality of antennas (5a, 5b) for receiving radio waves received from the receiving recess (12a) of the housing (12) and transmitted from the transmitter (2);
A receiving circuit (6) for receiving a received signal from at least one of the plurality of antennas (5a, 5b);
An inner mirror having a grounded conductor layer (16) formed on the circuit board (15) of the receiving circuit (6) as a ground plane of the plurality of antennas (5a, 5b) . A housing (12) in which a housing recess (12a) is formed;
  A reflector (13) disposed in the opening (12b) of the housing (12) and reflecting light;
In the inner mirror with
  A plurality of antennas (5a, 5b) for receiving radio waves received from the receiving recess (12a) of the housing (12) and transmitted from the transmitter (2);
  A receiving circuit (6) for receiving a received signal from at least one of the plurality of antennas (5a, 5b);
And an inner mirror that is integrally formed on the inner peripheral surface of the housing (12) and includes a locking portion (12c) that locks the plurality of antennas (5a, 5b).

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