KR20060007122A - Slotted waveguide antenna and process of the same - Google Patents

Abstract

In order to ensure structural stability, improve productivity, and reduce material costs, the waveguide having a plurality of slots formed in a predetermined pattern on one side thereof and the brazing tube at predetermined intervals on the opposite side of the slot of the waveguide are integrated through brazing. One or more coupling blocks that are fixed to the female thread is formed, and the installation groove is inserted into the slot is inserted into the opposite side of the waveguide slot is formed long, the installation groove is formed with an assembly groove into which the coupling block is inserted, the assembly groove is formed with a frame formed with a fixing hole and The present invention provides a waveguide tube slot antenna including a fastening member which is fastened to the female screw formed in the coupling block by penetrating the fixing hole of the frame to tightly fix the waveguide integrally to the frame.

Waveguide, slot, antenna, brazing, block, assembly, installation, integral, fastening, coupling

Description

Waveguide slot antenna and manufacturing method thereof {Slotted Waveguide Antenna and Process of The Same}

1 is an exploded perspective view showing an embodiment of a waveguide slot antenna according to the present invention.

2 is an assembled perspective view showing an embodiment of the waveguide slot antenna according to the present invention.

3 is a cross-sectional view showing an embodiment of a waveguide slot antenna according to the present invention.

Figure 4 is a perspective view showing a state in which the coupling block is installed in the waveguide in one embodiment of the waveguide slot antenna according to the present invention.

5 is an enlarged partial cross-sectional perspective view showing a frame in one embodiment of the waveguide slot antenna according to the present invention.

Figure 6 is a partially enlarged perspective view showing another example of the fastening member in an embodiment of the waveguide slot antenna according to the present invention.

Figure 7 is a partially enlarged perspective view showing an example of assembling the frame to the support in one embodiment of the waveguide slot antenna according to the present invention.

Figure 8 is a partially enlarged perspective view showing another example of assembling the frame to the support in one embodiment of the waveguide slot antenna according to the present invention.

9 is a block diagram showing an embodiment of a method for manufacturing a waveguide slot antenna according to the present invention.

10 is a process flowchart showing one embodiment of a method for manufacturing a waveguide tube slot antenna according to the present invention.

The present invention relates to a waveguide slot antenna and a method for manufacturing the waveguide, and more particularly, to install a coupling block in a waveguide and fasten a fastening force with a frame by fastening a fastening member such as a bolt to the waveguide, thereby ensuring structural stability. A slot antenna and a method of manufacturing the same.

In general, a waveguide slot antenna is formed by forming a slot in a waveguide N-side or an H-side of a waveguide, so that the cross-sectional area of a transmission line can be increased because there is no radiation loss. It is strong in structure and can be used at high frequencies, so it is mainly used for aircraft and ship radar.

Recently, many waveguide slot antennas have been developed and used as satellite communication or various communication antennas.

The waveguide is a metal tube formed of an electrical conductor such as copper, which is hollow inside, to transmit electromagnetic waves through the inside, and is a transmission line for transmitting electromagnetic energy of high frequency of microwave or more. The waveguide is a kind of high pass filter and has a predetermined cutoff wavelength according to the size, and is divided into a circular waveguide, a rectangular waveguide, an elliptical waveguide, and the like according to the cross-sectional shape.

Conventionally, a waveguide slot antenna is manufactured by mounting a slotted waveguide in a frame using adhesive or welding.

In particular, the use of waveguide slot antennas in aircraft, ships, and military radars strictly enforces product inspection standards and environmental specifications, and requires precise performance. In the waveguide slot antenna, the performance of the product has a large influence on the processing position, processing accuracy, and assembly method of each slot formed in the waveguide, and how the waveguide is applied to the frame in the environment where the vibration, shock, and heat conditions are applied It is very important to remain firmly mounted.

However, when the waveguide is mounted on the frame using adhesive, the adhesive part may fall or shake due to the impact or vibration applied from the outside, and when the adhesive strength drops due to durability and various environments, the product may be defective or damaged. , Failures, etc. will occur. In addition, since the curing time of the epoxy-based adhesive used for at least 24 to 48 hours or more, productivity is greatly reduced, and if the vibration and impact are received from the outside during curing, the position and dimensions of the waveguide may be deformed. high.

Therefore, some use a method of fixing the waveguide to the frame by using a separate approximately "c" shape holder to maintain the fixed state while the adhesive is cured and to compensate for the adhesive force by the adhesive. In other words, the waveguide is inserted into the "c" shape holder is used to fix the assembly using a bolt or the like to the frame.

Even when using a stator as described above, when a plurality of waveguides are arranged and used, it may be difficult to maintain a sufficient fixation force due to a fixed fixing interval or there may not be enough working space for fixing. There is a problem that takes a long time.

In the case where the waveguide is welded and mounted on the frame, there is a high possibility of damage to the product due to thermal deformation, and when the waveguide and the frame are made of different materials, welding is difficult.

An object of the present invention is to solve the problems as described above, the waveguide slot can be installed in the waveguide to the waveguide using aluminum brazing and mounted to the frame using a fastening member such as bolts to ensure structural stability To provide an antenna.

Another object of the present invention is to provide a waveguide slot antenna manufacturing method for assembling a waveguide and a frame by installing a coupling block on the waveguide by aluminum brazing and fastening a fastening member such as a bolt to the coupling block through the frame. .

The waveguide slot antenna proposed by the present invention includes a waveguide having a plurality of slots formed in a predetermined pattern on one side thereof, and at least one of which is fixed integrally through brazing at predetermined intervals on the opposite side of the slot of the waveguide and a female screw is formed. A coupling block and an installation groove into which a portion opposite the slot of the waveguide is inserted are formed long, and an assembly groove is formed in the installation groove into which the coupling block is inserted, and a frame having a fixing hole formed therein, and fixing the frame. It includes a fastening member which is fastened to the female screw formed in the coupling block through the hole to tightly fix the waveguide integrally to the frame.

And the method of manufacturing a waveguide slot antenna of the present invention by fixing the coupling block formed with a female thread at a predetermined interval on the opposite side of the slot of the waveguide formed in a predetermined pattern by brazing, one to a length corresponding to the length of the waveguide in the frame Form one or more installation grooves and form one or more assembly grooves and fixing holes at predetermined intervals in the installation grooves, couple the waveguides to the installation grooves so that the coupling blocks are inserted into the assembly grooves of the frame, and fastening members on opposite sides of the waveguides. Inserting through the fixing hole and fastening to the female screw of the coupling block to fix the waveguide integrally to the frame.

Next, a preferred embodiment of a waveguide slot antenna and a method of manufacturing the same according to the present invention will be described in detail with reference to the accompanying drawings.

First, an embodiment of the waveguide slot antenna according to the present invention, as shown in Figs. 1 to 3, one or more waveguides 10 in which a plurality of slots 12 are formed in a predetermined pattern on one side, and the waveguide One or more coupling blocks 14 which are integrally fixed through brazing at predetermined intervals on opposite sides of the slot 12 of the 10 and the female screw 16 is formed, and opposite the slot 12 of the waveguide 10. One or more installation grooves 22 are formed to be arranged in parallel at one or more predetermined intervals, and each of the installation grooves 22 is formed with an assembly groove 24 into which the coupling block 14 is inserted. Each of the 24 has a frame 20 having a fixing hole 26 and a female screw 16 formed in the coupling block 14 through the fixing hole 26 of the frame 20 to be fitted with a waveguide ( 10) comprises a fastening member 30 for tightly fixing the frame 20 integrally. Lose.

One or more waveguides 10 are installed in one frame 20. For example, four, six, and eight waveguides 10 are installed in one frame 20 to be modularized.

The installation grooves 22 of the frame 20 are formed corresponding to the number of waveguides 10 to be installed, and are formed to a depth into which only a portion of the waveguide 10 is inserted.

The assembly groove 24 of the frame 20 is formed in a shape corresponding to the shape of the coupling block 14, and as shown in FIG. 3, the coupling block 14 and the assembly groove ( It is also possible to form 24) in two or more stages.

Two or more coupling blocks 14 are installed in the waveguide 10 at predetermined intervals, and are installed in an appropriate number in consideration of structural stability and adhesive strength.

The coupling block 14 is installed in the waveguide 10 using a brazing process or the like.

For example, the waveguide 10 and the coupling block 14 are formed of aluminum, and integrated using an aluminum deep brazing process.

The fastening member 30 is made using a bolt or the like. In addition, as shown in FIG. 4, the coupling block 14 is provided with a female screw 16 to which the fastening member 30 is fastened.

The waveguide 10 is integrally assembled to the frame 20 by the fastening member 30 passing through the fixing hole 26 of the frame 20 and fastened to the female screw 16 of the coupling block 14. do.

3 and 5, the buried groove 27 is formed in the fixing hole 26 of the frame 20 so that the head of the bolt, which is the fastening member 30, can be embedded. It is preferable because the fastening member 30 does not protrude to the surface thereof.

In the above, the fastening member 30 has been described using a bolt. However, as shown in FIG. 6, the male screw portion 17 is installed in the coupling block 14 and the nut 32 is disposed on the frame 20 side. ) Can also be configured by fastening to the external threaded portion 17.

In the above, it is preferable that the nut 32 is also embedded in the buried groove 27 so as not to protrude to the surface of the frame 20.

And one embodiment of the waveguide slot antenna according to the present invention, as shown in Figs. 1 to 3, the frame 20 is assembled to the support 50, and is assembled to both sides of the frame 20 It is also possible to further include a pair of side fingerboards 40 to which the waveguide 10 is inserted and supported.

As shown in Fig. 7, the support 50 is provided with a plurality of assembly holes 52 through which fastening members 59 such as bolts pass. The assembly hole 52 forms a buried groove 54 so that the head of the fastening member 59 is embedded and does not protrude beyond the surface of the support 50.

As shown in FIG. 7, the frame 20 is provided with an assembly hole 55 in which female threads are formed to fasten the fastening member 59.

The side support plate 40 is formed with a pipe insertion hole 42 into which the waveguide 10 is inserted to support the waveguide 10 in groups of four, six, eight, and the like.

One or two or more side support plates 40 are assembled to one support 50 and / or frame 20.

The side support plate 40 is assembled and supported to the frame 20 and the support 50 through fastening members 49 such as bolts or small screws.

An assembly hole 44 through which the fastening member 49 penetrates is formed in the side support plate 40, and female screws to which the fastening member 49 is fastened are formed at the side surfaces of the frame 20 and the support 50. Assembling holes 28 and 56 are formed, respectively.

In the above description, the fastening member 59 is fastened to the support 50, but as shown in FIG. 8, the fastening member 59 may be assembled to the support 50 toward the frame 20. In this case, an assembly hole 58 through which the fastening member 59 penetrates is formed in the frame 20, and an assembly hole 53 in which the female screw is formed to fasten the fastening member 59 to the support 50. ) Is formed.

It is also possible to form a fastening groove 57 in the frame 20 in a widthwise direction at a portion where the assembly hole 58 is formed and the fastening member 59 is fastened. The fastening groove 57 is formed to a predetermined depth so that the head of the fastening member 59 does not interfere with the waveguide 10 assembled to the installation groove 22.

1 and 2, when the end portion of the waveguide 10 protrudes from the frame 20 and the side support plate 40, the waveguide 10 may be used to stably support the waveguide 10. It is also possible to further install the tube fixing plate 60 is formed with a tube insertion hole 62 is inserted into the end.

And one embodiment of the waveguide slot antenna manufacturing method according to the present invention, as shown in Figures 9 and 10, the slot 12 is a predetermined interval on the opposite side of the slot 12 of the waveguide 10 formed in a predetermined pattern Fixing the coupling block 14 formed with the female screw 16 by brazing (P10), and forming one or more mounting grooves 22 with a length corresponding to the length of the waveguide 10 in the frame 20, the installation groove One or more assembly grooves 24 and fixing holes 26 are formed (P12) at predetermined intervals on the 22, and the waveguides are formed so that the coupling block 14 is inserted into the assembly grooves 24 of the frame 20. 10 is coupled to the installation groove 22 (P20), and the fastening member 30 is inserted through the fixing hole 26 on the opposite side of the waveguide 10 to the female screw 16 of the coupling block 14. By fastening the waveguide 10 is integrally fixed to the frame 20 (P30) is made.

The step (P10) of fixing the coupling block 14 to the waveguide 10 by brazing is completed in about 1 to 2 hours.

The installation groove 22 formed in the frame 20 is formed so that the entire length of the waveguide 10 can be inserted.

When the assembly of the frame 20 and the waveguide 10 is completed as described above, as shown in Fig. 7 is assembled with the support 50, the side support plate 40 and the tube fixing plate as shown in Figs. 60 is assembled.

In the above, a preferred embodiment of a waveguide tube slot antenna and a method of manufacturing the same according to the present invention has been described, but the present invention is not limited thereto, and various modifications are made within the scope of the claims and the detailed description of the invention and the accompanying drawings. It is possible and this also belongs to the scope of the present invention.

According to the waveguide tube slot antenna and the method of manufacturing the same according to the present invention made as described above, the waveguide and the frame is assembled by installing a coupling block in the waveguide by using brazing and fastening a fastening member such as a bolt, so that the overall waveguide When the assembly time of the frame is about 1 to 2 hours is completed. Conventionally, since an epoxy adhesive is used, it takes about 24 to 48 hours depending on the curing time of the adhesive. Therefore, according to the present invention, workability and productivity are greatly improved.

In addition, according to the waveguide slot antenna and the manufacturing method thereof according to the present invention, since it is assembled by brazing and bolt joints, it is possible to maintain a strong fastening force (bolt joint), and even if vibration or shock is applied, product defects, breakage, The occurrence of a failure or the like is suppressed as much as possible.

In addition, according to the waveguide slot antenna and the manufacturing method according to the present invention, it is possible to disassemble by parts in case of partial failure, it is possible to greatly reduce the repair cost and minimize the maintenance cost. Conventionally, since the assembly is fixed using an adhesive, even if a partial failure occurs, the whole must be replaced, and maintenance costs are high.

According to the waveguide slot antenna and the manufacturing method thereof according to the present invention, since assembly is performed using a bolt or the like which is a standardized mechanical element, the purchase of parts is easy and quick response to partial failure or damage is possible.

Claims (5)

One or more waveguides in which a plurality of slots are formed in a predetermined pattern on one side; At least one coupling block fixedly integrally through brazing at a predetermined interval on the opposite side of the slot of the waveguide, and having a female thread, One or more installation grooves in which a portion opposite the slot of the waveguide is inserted are arranged in parallel at predetermined intervals, and the installation grooves are formed with assembly grooves into which the coupling blocks are inserted, and fixing holes are formed in the assembly grooves, respectively. Frame, And a fastening member penetrating the fixing hole of the frame to a female screw formed in the coupling block to fasten the waveguide integrally to the frame. The method according to claim 1, Waveguide slot antenna to form a buried groove in the fixing hole of the frame so that the head of the fastening member can be embedded. The method according to claim 1, A waveguide slot antenna comprising a male screw portion instead of a female screw on the coupling block and fastening a nut to the male screw portion at the frame side. The method according to any one of claims 1 to 3, A support having a plurality of assembly holes through which the frame is assembled and supported and the fastening member is fastened; And a pair of side support plates assembled to both sides of the frame and supporting the waveguide inserted therein. Brazing the coupling block in which the female thread is formed at predetermined intervals on the opposite side of the slot of the waveguide in which the slot is formed in a predetermined pattern, Form one or more installation grooves in the frame corresponding to the length of the waveguide, and form one or more assembly grooves and fixing holes at predetermined intervals in the installation grooves, Couple the waveguide to the installation groove so that the coupling block is inserted into the assembly groove of the frame, A method of manufacturing a waveguide slot antenna comprising inserting a fastening member through a fixing hole at an opposite side of the waveguide to fasten the waveguide to the frame by fastening to a female screw of the coupling block.

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