JPH0682152B2 - Radar equipment - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a radar device which is composed of a waveguide and a waveguide component and which pressurizes the inside of the radio wave pipe in order to maintain power resistance.

[Conventional technology]

FIG. 4 is a block diagram showing a conventional radar device of this type, in which (1) is a transmitter, (2) is a transmission tube,
(3) is a window integrated with a transmission pipe, (4) is a duplexer, (5) is an antenna, and (6) is a transmitter (1).
The waveguide (7) for connecting the transmission / reception switch (4) and the antenna (5) is a pressure window inserted in the microwave circuit constituted by the waveguide (6), and (8) is the receiver (9). ) Is an air pressurizer for pressurizing the inside of the waveguide from the transmitter (1) to the pressure window (7), and (10) sends an abnormal pressurization from the air pressurizer (9) to the transmitter (1). Is a pressurization abnormality signal. FIG. 5 is a view showing a conventional pressure window (7), and (11) is a window member made of a dielectric material such as quartz that allows microwaves to pass therethrough.

Next, the operation will be described. The microwave transmission signal generated from the transmission pipe (2) in the transmitter (1) is radiated into space via the transmission / reception switch (4), the pressure window (7), and the antenna (5). The received signal is sent to the receiver (8) via the antenna (5) and the pressure window (7) transmission / reception switch (4). On the other hand, the waveguide (6) of the microwave circuit connecting the transmission pipe (2) and the pressure window (7) is filled with pressurized air from the air pressurizer (9) in order to maintain power resistance. Further, when the filled air pressure is abnormally reduced, a pressure abnormality signal is sent from the air pressurizer (9) to stop the transmission.

By the way, in a radar device, output power is generally increased in order to see a long distance. Due to this increase in transmission output power, it becomes necessary to improve the withstand voltage of the waveguide circuit. Conductive tube circuit parts have their own power withstanding capability, and if the air pressure inside the waveguide circuit drops due to a failure of the air pressurizer, an arc will be generated in the circuit parts with low power durability. .

When transmission stops after the temperature of the window member rises, generally when an arc occurs, that position is short-circuited in terms of microwave, and the microwave power is totally reflected toward the transmission source. , The arc point also moves toward the transmission source.

Since the arc stops when transmission is stopped, the arc does not run to the transmission pipe, and the influence on the transmission pipe can be prevented.

The arc (discharge) is a spark discharge based on Paschen's law, and its breakdown voltage is a function of the distance between the discharge parts and the pressure of the filled gas.

In order to maintain the power resistance, either the pressure is reduced (vacuum) or the pressure is increased. Generally, in a circuit structure using a waveguide, there are many junctions, so the vacuum Since it is difficult from the viewpoint of cost and technology, pressure resistance is normally secured by applying pressure.

[Problems to be Solved by the Invention]

In the radar device configured as described above, the arc member (discharging) of the microwave circuit melts the window member (11) of the pressure window (7) and the airtightness cannot be broken until abnormal detection and transmission can be stopped. There was a problem of damaging the pressure window. In addition, if the same phenomenon as described above occurs in the window portion of the transmission pipe, the transmission pipe may be damaged.

The present invention has been made to solve the above problems, and measures the heat generated by the arc in the pressure window portion induced by the arc of the microwave circuit and the arc of the pressure window itself to measure the temperature of the window member. By doing so, it is possible to detect abnormalities and stop transmission without damaging the pressure window.

[Means for Solving the Problems]

The radar device according to the present invention is provided with a pressure window having a hole from the outer surface of the pressure window to the window member for measuring the temperature of the window member of the pressure window, and a temperature sensor provided in the hole to detect a temperature abnormality by the means. An abnormal signal detection circuit for detecting is provided.

Further, the window of the transmitter tube has the same structure as the pressure window, and the transmitter tube is installed in the transmitter as a part of the configuration.

[Action]

In the present invention, by measuring the heat generated during the arc from the dielectric itself through which the microwave passes,
It is possible to detect the arc indirectly by reducing the time delay. This makes it possible to detect abnormalities and stop transmission without damaging the pressure window and the transmission pipe.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. First
In FIGS. 2, 2 and 3, (1)-(6) (8)-
(11) is the same as the above conventional device. In FIG. 1, (12) is a pressure window, (13) is a window integrated with the transmitter pipe (2), (14) is an abnormality detection circuit,
(15) is a temperature sense signal for detecting the temperature of the pressure window (12), (16) is a temperature sense signal for detecting the temperature of the window (13), and (17) is from the abnormality detection circuit (14) to the transmitter (1 ) Is a temperature abnormality signal sent to. In addition, (18) in FIG. 2 is a hole extending from the outer surface of the pressure window (12) to the window member (11), and in FIG. 3, (19) is the temperature inserted in the hole (18). It is a sensor.

The operation will be described below. Holes shown in Figure 2 (18)
Since the temperature of the window member (11) can be directly measured by inserting the temperature sensor (19) into the, the response of the measured temperature can also be made faster. As a result, when the window member generates heat due to the arc of the pressure window or the like, it is possible to detect an abnormality before the window member melts. When the temperature sensor signal (15) exceeds the arbitrarily set threshold value by the abnormality detection circuit, the temperature abnormality signal (17) can be sent to the transmitter (1) to stop the transmission.
Further, the conventional type transmission pipe (2) is composed of a window (3) having the same structure as the conventional type pressure window (7), and this window has the same structure (13) as the pressure window (12). ), The temperature sensing signal (16) is also changed to the abnormality detection circuit (14).
Can be sent to. As described above, it becomes possible to detect an abnormality and stop the transmission before the pressure window (12) and the expensive transmission pipe (2) are damaged.

By the way, in the above description, the radar device pressurized by air was described, but it goes without saying that a gas other than air, for example, a gas such as SF ₆ can also be used.

〔The invention's effect〕

As described above, since the present invention is configured to detect the heat due to the arc of the pressure window in a quick response and stop the transmission, it is possible to prevent damage to the pressure window and the transmission pipe.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a radar device showing an embodiment of the present invention, and FIGS. 2 and 3 are pressure window diagrams and pressure window sectional views showing an embodiment of the present invention. FIG. 4 is a block diagram of a conventional radar device of this type, and FIG. 5 is a diagram showing a conventional pressure window of this type. In the figure, (1) is a transmitter, (2) is a transmission pipe, (3) is a window which is a part of the configuration of the transmission pipe, (4) is a transmission / reception switch, and (5).
Is an antenna, (6) is a waveguide, (7) is a pressure window, (8) is a receiver, (9) is an air pressurizer, (10) is an abnormal pressure signal, (11) is a window member, ( 12) is a pressure window, (13) is a window, (14) is an abnormality detection circuit, (15) and (16) are temperature sensor signals, (17) is an abnormal temperature signal, (18) is a hole, and (19) is It is a temperature sensor. The same reference numerals in the drawings indicate the same or corresponding parts.

Claims (2)

[Claims] 1. A radar apparatus for transmitting microwaves from a transmitter to an antenna by increasing the power resistance by pressurizing the inside of the waveguide and the waveguide component, and the inside of the waveguide connecting the transmitter and the antenna. As a pressure window that keeps the airtightness of the air conditioner, a hole is provided to connect the outer surface of the pressure window to the window member, a temperature sensor is installed in the hole, and an abnormal signal is sent to the transmitter by the output of the temperature sensor. A radar device having a circuit for stopping the radar transmitter when an abnormality occurs. 2. A temperature measuring hole of a window member, and a transmitter pipe having a window having a temperature sensor installed in the hole as a part of the structure. Radar device.