JP3312306B2 - Wireless transceiver - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio transceiver.
In particular, it relates to a wireless relay device that does not require a power line and can be easily installed on a ceiling.

[0002]

2. Description of the Related Art FIG. 7 shows an example of a conventional radio relay device.
In FIG. 1, a conventional wireless transmission / reception apparatus includes an antenna (1).
1 and 13) are fixedly mounted on the surface of the housing (14), and it is difficult to obtain a large scanning angle when scanning the antenna beam using the phase control circuit in the transmission / reception circuit (9). There was a disadvantage. The reason for this is that if the scanning angle is increased, the operating impedance of the antenna changes and impedance matching with the feeder circuit cannot be achieved, and the side lobe level increases.

[0003]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned drawbacks and provides a wireless relay apparatus which does not require a power supply line, can be easily installed on a ceiling, and can easily perform beam scanning at a large scanning angle. It is intended to provide.

[0004]

SUMMARY OF THE INVENTION The present invention relates to a radio transmitting / receiving apparatus having an antenna substrate, a transmitting circuit, and a receiving circuit inside a housing. In particular, according to the present invention, a plurality of antenna substrates are provided, and the housing has substantially the same shape as the general-purpose fluorescent lamp and can be inserted into the general-purpose fluorescent lamp socket, and is applied to the general-purpose fluorescent lamp socket. A voltage conversion circuit that converts an AC voltage for lighting a fluorescent lamp into a DC voltage and supplies the DC voltage to a transmission circuit and a reception circuit; and a plurality of antenna boards, each of which is coupled to a plurality of antenna boards. And a plurality of drive mechanisms that can be independently rotated.

Preferably, each antenna board is composed of a plurality of element antennas connected to a phase control circuit.

[0006]

[0007] More preferably, the housing is provided with a longitudinal expansion / contraction function or a length conversion adapter, and the length of the housing in the longitudinal direction can be adjusted.

[0008]

The housing has almost the same shape as a general-purpose fluorescent lamp and has a structure that can be inserted into a general-purpose fluorescent lamp socket. (6) More necessary power can be obtained, and data transmission between the main processor and the memory connected to the bus (2) can be made wireless. In particular, according to the present invention, a plurality of antenna substrates are provided, and each antenna substrate is independently rotated around its longitudinal axis in the housing (14) by the plurality of drivers (20, 22). Therefore, for example, the rotation angle can be set so that two antennas cover half of the zone. Therefore, the scanning time can be shortened when operating as a scanning antenna by performing mechanical beam scanning, and the diversity gain can be increased when operating as an angle diversity antenna.

Further, the phase control circuit (21) can be used in combination with electric beam scanning with a very short scanning time and a small scanning angle.

The wireless transmitting / receiving apparatus of the present invention can be mounted on a fluorescent lamp socket having an arbitrary length and an arbitrary mounting angle.

[0011]

FIG. 1 is a diagram showing a first embodiment of the present invention. In the figure, (6) is an existing fluorescent lamp socket,
(7) is a plug, (8) is a wiring, (9) is a transmission circuit, a reception circuit, and a central processing circuit, (10) is a voltage conversion circuit,
(11) is antenna A, (13) is antenna C, (1)
4) denotes a housing, and (20) denotes a manual driving device.

The plug (7) and the voltage conversion circuit (10) are connected by a wiring (8), and the AC voltage for lighting the fluorescent lamp is converted into a desired DC voltage by the voltage conversion circuit (11). This voltage is applied to the transmitting circuit (9), the receiving circuit (9), and the central processing circuit (9).

The antenna A (11) is an antenna composed of one or a plurality of element antennas having directivity on one side of the substrate, and is connected to a rotating shaft to which a manual driving device (20a) is connected. By moving the manual driving device (20a), the antenna A rotates around the longitudinal direction of the housing and scans the antenna beam. The antenna A is connected to a transmission / reception circuit (9) by a power supply line that does not hinder rotation, and performs wireless data transmission with a plurality of user terminal transmission / reception devices (4) installed on a desk. By rotating the antenna beam after installing the present invention on a ceiling or the like, a transmission path with the best transmission quality can be selected between each user terminal transmitting / receiving apparatus.

The antenna C (13) is connected to the antenna A (11)
And one or more element antennas having a directivity on one side of the substrate and having different frequencies, and are connected to a rotating shaft to which a manual driving device (20c) is connected.
By moving the manual driving device (20c), the antenna C rotates around the longitudinal direction of the housing as an axis to scan the antenna beam. The antenna C is connected to the transmission / reception circuit (9) by a power supply line that does not hinder rotation, and performs wireless data transmission with the bus interface transmission / reception device (3). After the present invention is installed on a ceiling or the like, the antenna beam scanning is performed to select a transmission path having the best transmission quality with the bus interface transmitting / receiving device.

As a material of the housing (14) of the peripheral portion in which the antenna is built, a material such as FRP, which is less affected by radio wave absorption and refraction, is used.

FIG. 2 shows another embodiment of the present invention. FIG. 2 shows an embodiment in which electric drive units (22a, 22c) are used in place of the manual drive unit (20a) in FIG. The electric drive is connected to a central processing circuit and centrally controlled. Therefore, antenna beam scanning can be automatically performed according to the location of the user terminal transmitting / receiving device (4) or the bus interface transmitting / receiving device.

FIG. 3 is a block diagram showing details of one embodiment of the present invention. A driving device (22a) is provided for the antenna A (11).
Are connected, and rotate about the longitudinal direction of the housing as an axis. The drive is connected to and controlled by a central processing circuit (9). The antenna A includes a plurality of element antennas (15) connected to a phase control circuit including a phase shifter and a switch.

FIG. 1 shows an example in which the phase control circuit (21) is directly mounted on the back of the antenna substrate. The phase control circuit is connected to the transmission / reception circuit (9) by a feed line that does not hinder rotation. Incidentally, the phase control circuit can be realized by being built in the transmission / reception circuit (9). In addition to the phase control circuit, an amplifier circuit can be directly mounted on the back of the antenna substrate.

With such a structure, it is possible to scan the antenna beam mechanically or electrically or in a combination of both methods. Further, it is possible to reduce the loss in the transmission line connecting the antenna and the phase control circuit.

FIG. 4 is a block diagram showing another embodiment of the present invention.

(12) and (22b) are an antenna B and an electric motor having the same structure as (11) and (22a). (13) is an antenna C having a different frequency band from the antennas A and B, and is connected to the driving device (22c).
The antennas A and B are used for wireless data transmission with the user terminal, and the rotation angles can be set so that two antennas cover half of a zone. In this way, a diversity effect can be obtained, and when performing mechanical beam scanning, the scanning time can be shortened.

The beam of the antenna C is directed to the bus interface transmitting / receiving device (3), and performs wireless data transmission. At this time, even if the bus interface transmitting / receiving device is installed at an arbitrary place, the beam direction can be easily adjusted by performing beam scanning with the driving device.

FIG. 5A shows another embodiment of the present invention. (19) is an example of a length conversion adapter which has the same shape as the wireless transmission / reception device of the present invention and can be integrated with the housing (14), and (30) shows the internal wiring. ing.

FIG. 5B is a view showing another embodiment of the present invention, in which the housing (14) has a function of extending and contracting in the longitudinal direction, and (30) is a wiring inside thereof. Is shown. By using these length conversion adapters or extendable housings, it is possible to mount the fluorescent lamp sockets on arbitrary fluorescent lamp sockets having different lengths and shapes.

FIG. 6 shows the installation of the present invention.
(1) a wireless transmission / reception device according to the present invention, (2) a bus,
(3) is a bus interface transmitting / receiving device, (4) is a user terminal transmitting / receiving device, (5) is a fluorescent lamp, and (6) is a socket. Generally, a plurality of fluorescent lamps (5) are installed on the ceiling of an office. One of them is removed, and the wireless transmission / reception device (1) according to the present invention is attached to its socket (6).

A bus interface transmission / reception device (3) is connected to a bus (2) installed along the wall surface, and an antenna built in the radio transmission / reception device (1) is used for the radio transmission / reception device (1). Wireless data transmission with the user terminal transmitting / receiving device (4) installed on the desk.

[0027]

As described above, the wireless transmission / reception device of the present invention has almost the same shape as a general-purpose fluorescent lamp, can be inserted into a general-purpose socket, and can take out commercial power from the socket terminal. And an antenna, a transmission circuit, a reception circuit, and a central processing circuit. Further, the internal antenna is at least two or more antennas, of which one or more antennas are used to perform wireless data transmission with the user terminal transmitting / receiving device, and another antenna is used to perform wireless data transmission with the bus interface. . Therefore, it is not necessary to lay a power supply line or a new outlet, and it is not necessary to lay a wired communication line with a bus interface, and it becomes extremely easy to install many such devices in an existing building or factory. Alternatively, there is an advantage that a temporary installation such as an event or a conference can be easily performed.

The wireless transmitting / receiving apparatus of the present invention can perform mechanical beam rotation in addition to electric beam scanning. When beam scanning with a large scanning angle is required, mechanical beam scanning can be performed. When a small beam scan with a short scan time and a short scan time is required, an electric beam scan can be selected or used in combination. As a result, there is an advantage that the antenna beam is scanned when the terminal moves, the indoor layout is changed, or when a person comes and goes and the radio wave propagation environment changes, so that the radio transmission quality can be maintained at the best. . Also, there is an advantage that the zone configuration of the wireless LAN can be easily performed.

Also, since the antenna for performing wireless data transmission with the bus interface transmitting / receiving device can perform beam scanning, even if the gas interface transmitting / receiving device is installed at an appropriate place, it is possible to perform beam scanning with a driving device. There is an advantage that the beam direction can be easily adjusted.

The wireless transmission / reception device of the present invention can adjust the length in the longitudinal direction of the housing by using a telescopic function in the longitudinal direction of the housing or the use of a length conversion adapter. The antenna can be mounted on a socket, and since the antenna can be rotated, it can be mounted on a fluorescent lamp socket at an arbitrary installation angle.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an embodiment of a wireless relay device according to the present invention.

FIG. 2 is a configuration diagram showing another embodiment of the wireless relay device of the present invention.

FIG. 3 is a configuration diagram showing details of an antenna and a driving mechanism of the wireless relay device of the present invention.

FIG. 4 is a configuration diagram showing another embodiment of the wireless relay device of the present invention.

FIG. 5 is a diagram showing another embodiment of the wireless relay device of the present invention.

FIG. 6 is a diagram showing an arrangement example when the wireless relay device of the present invention is arranged on a ceiling.

FIG. 7 is a diagram showing a conventional wireless relay device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Wireless transmission / reception apparatus by this invention 2 Bus 3 Bus interface transmission / reception apparatus 4 User terminal transmission / reception apparatus 5 Fluorescent lamp 6 Socket 7 Plug 8 Wiring 9 Transmission / reception circuit and central processing circuit 10 Voltage conversion circuit 11 Antenna A12 Antenna B13 Antenna C14 Housing 15 Element antenna 16 Power line and plug 17 Commercial power outlet 19 Length conversion adapter 20 Manual drive 21 Phase control circuit 22 Electric drive 30 Wiring

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B ^7/ 14-7/22

Claims (3)

(57) [Claims] 1. A wireless transmission / reception device including an antenna substrate, a transmission circuit, and a reception circuit inside a housing, wherein a plurality of the antenna substrates are provided, and the housing is substantially the same as a general-purpose fluorescent lamp. A voltage converter that has the same shape and can be inserted into a general-purpose fluorescent lamp socket, converts an AC voltage for lighting a fluorescent lamp applied to the general-purpose fluorescent lamp socket into a DC voltage, and supplies the DC voltage to the transmission circuit and the reception circuit. And a plurality of drive mechanisms coupled to the plurality of antenna boards, respectively, and capable of independently rotating each antenna board about a longitudinal axis of the housing. Wireless transceiver. 2. The wireless transmission / reception device according to claim 1, wherein each of the antenna boards is configured by a plurality of element antennas connected to a phase control circuit. 3. The wireless device according to claim 1, wherein the housing has a longitudinal expansion / contraction function or a length conversion adapter, and the length of the housing can be adjusted in the longitudinal direction. Transceiver.