JP3461154B2 - Antenna element fixing method and antenna - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fixing method and an antenna for fixing an antenna element to a linearly extended arm, and is suitable for application to a TV antenna.

[0002]

2. Description of the Related Art A Yagi antenna has been conventionally known as an antenna for receiving TV broadcasting. Yagi Antenna is
It comprises a waveguide element, a radiating element and a reflecting element, the waveguide element being arranged in front of the radiating element and the reflecting element being arranged behind the radiating element. Further, the waveguide element and the reflecting element are parasitic elements, and the feeder line is connected only to the radiating element. In such a Yagi antenna, since the waveguide element, the radiating element and the reflecting element are generally arranged in parallel to each other, the waveguide element, the radiating element and the reflecting element are substantially orthogonal to one linear arm. They are fixed so that they are parallel to each other.

A conventional configuration example of such an antenna is shown in FIG.
It shows in (a) (b) (c). FIG. 5A shows the antenna 10.
0 is a plan view, FIG. 2B is a side view of the antenna 100, and FIG. Figure 5 (a)
As shown in (b) and (c), the antenna 100 includes a linear arm 110 and a plurality of antenna elements 112a, 112b, ... The linear arm 110 is made of a metal pipe, and a plurality of antenna elements 112a, 112b, ... Are fixed so as to be substantially orthogonal to the arm 110. The plurality of antenna elements 112a, 112
b, ... Are inserted into the insertion holes formed in the arm 110 as described later, and the protruding processed portion formed in the arm 110 is caulked to form the caulked portion 111, so that A plurality of antenna elements 112a, 1
12b, ... Are fixed.

Antenna elements 112a, 1 are attached to the arm 110.
A fixing method for fixing 12b, ... will be described with reference to FIG. 6A is a sectional view showing the configuration of the arm 110 before the protrusion processing, FIG. 6B is a sectional view showing the configuration of the arm 110 after the protrusion processing, and FIG. 6C is a protrusion processing. It is a figure which shows the state which fixed the antenna element 112a to the rear arm 110. First, as shown in FIG. 6B, the arm 110 is inserted into the insertion hole 11 so as to penetrate the arm 110.
0a is formed. The number of insertion holes is the same as the number of fixed antenna elements. However, this insertion hole 1
The diameter of 10a is smaller than the outer diameter of the antenna elements 112a ,. Then, as shown in FIG. 6B, a protruding process is performed to insert the processing tool into the insertion hole 110a while rotating it to widen the end of the insertion hole 110a. This allows
Projection processing part 113 projecting outward from the insertion hole 110a
Are formed in the respective insertion holes. Next, the antenna element 112a is inserted through the insertion hole 110a in which the protruding processing portion 113 is formed, and the protruding processing portion 113 is caulked with a roller. As a result, the caulking portion 111 is formed and the antenna element 112a can be fixed to the arm 110.

[0005]

In the fixing method shown in FIG. 6, the protrusion processing for forming the protrusion processing portion 113 on the arm 110 is not for cutting the material of the arm 110 but for expanding it, so that the arm 110 has a protrusion. A large frictional resistance is generated between the material and the tool. Therefore, a large amount of oil is used to prevent seizure between the tool and the arm 110 when performing the protrusion processing. Therefore, there is a problem that a large amount of processing oil is required. In addition, a step of cleaning and drying the arm 110 contaminated with a large amount of processing oil is required, which is a factor that hinders mass production.

Further, the antenna element 112 is attached to the arm 110.
A fixing method shown in FIG. 7 is also used as a fixing method for fixing the. In this fixing method, first, the antenna element 112 is inserted into the insertion hole formed in the arm 110, and the press die 120 shown in FIG. 7A set in the press machine is used to exit the insertion hole of the antenna element 112. Press to crush the part. As a result, the crushed portion 121 is formed at the exit of the insertion hole of the antenna element 112 as shown in FIG. 7B. By providing the crushed portion 121, the outer diameter of the antenna element 112 at that portion becomes larger than the diameter of the insertion hole, so that the antenna element 112 is moved to the arm 1.
Can be fixed to 10. With this fixing method, since only one antenna element or two or three antenna elements can be set in the press at one time,
There is a problem that the number of times of press working is increased and it is not suitable for mass production. In addition, since the crushed portion 121 is formed at the base of the antenna element 112, the mechanical strength of the fixed antenna element 112 is weakened and the antenna element 112 is easily broken.

Further, the antenna element 11 is attached to the arm 110.
A fixing method shown in FIG. 8 has also been performed as a fixing method for fixing 2 to each other. In this fixing method, first, the antenna element 112 is inserted into the insertion hole formed in the arm 110, and the tapping screw 130 is screwed into the screw insertion hole formed in the arm 110 to fix the antenna element 112 to the arm 110. There is. In this case, the tapping screw 1 is also attached to the antenna element 112.
A prepared hole for inserting 30 is formed. In this fixing method, a pilot hole for inserting the tapping screw 130 must be formed in the arm 110 and the antenna element 112, and the tapping screw 130 is used for the antenna element 1.
Since it has to be provided for each book, the number of steps for fixing is increased. Therefore, the fixing method is not suitable for mass production.
Although a nail can be used instead of the tapping screw 130, the same problem occurs even if a nail is used.

Therefore, an object of the present invention is to provide a simple antenna element fixing method suitable for mass production and an antenna produced by this antenna element fixing method.

[0009]

In order to solve the above-mentioned problems, an antenna element fixing method of the present invention is an antenna element arranged in a linearly extended arm substantially orthogonal to the arm. A method of fixing the arm, by inserting the antenna element into an insertion hole formed so as to penetrate the arm, and then pressing the arm by sandwiching the arm with a roller surface of a roller. The antenna element is fixed to the arm by changing the cross-sectional shape. Further, in the above-described antenna element fixing method of the present invention, the roller surface of the roller has a recessed portion at the center thereof, and corners of the roller surface formed on both sides of the roller portion are brought into contact with the arm, so that the contact with the arm is made. By processing the recessed portion so as to be recessed, the cross-sectional shape of the arm may be deformed and the antenna element may be fixed to the arm. Furthermore, in the antenna element fixing method of the present invention, the concave portion formed in the central portion of the roller surface of the roller is brought into contact with the arm,
By processing the abutted portion of the arm to be concave, the cross-sectional shape of the arm is deformed,
The antenna element may be fixed to the arm.

Next, an antenna of the present invention which can solve the above-mentioned problems includes an arm extending linearly,
A plurality of waveguide elements fixed to the arm so as to be substantially orthogonal to the arm, and a radiating element arranged behind the waveguide element and fixed to the arm so as to be substantially orthogonal to the arm. At least, the cross-sectional shape of the arm is deformed by pressing the arm by being sandwiched by the roller surface of the roller, and the waveguide element inserted in the insertion hole penetrating the arm is It is fixed to the arm. Further, in the antenna of the present invention, the roller surface of the roller has a recessed portion in the center thereof, and corners of the roller surface formed on both sides are contacted with the arm, and the contacted portion of the arm is recessed. By processing as described above, the cross-sectional shape of the arm may be deformed, and the waveguide element may be fixed to the arm. Furthermore, in the above antenna of the present invention,
A concave portion formed in the central portion of the roller surface of the roller is brought into contact with the arm, and the abutted portion of the arm is processed to be concave, whereby the sectional shape of the arm is deformed, The waveguide element may be fixed to the arm.

According to such an antenna fixing method, the arm is sandwiched between the roller surfaces of the rollers and pressed to deform the sectional shape of the arm and fix the antenna element to the arm. Therefore, a plurality of antenna elements can be fixed to the arm by a single processing step of passing through the roller, so that the antenna element fixing method suitable for mass production can be obtained. Further, since such an antenna element fixing method is a simple method, it is possible to inexpensively provide an antenna manufactured by this antenna element fixing method.

[0012]

FIG. 1 is a perspective view showing the overall structure of an antenna according to the present invention produced by the method for fixing an antenna element according to the present invention. The antenna 1 shown in FIG. 1 is UHF.
This is an example of a band TV antenna, in which a plurality of waveguide elements 2 are arranged substantially parallel to each other in front of the radiating element 3, and a plurality of reflecting elements 4 vertically arranged behind the radiating element 3. Are arranged. The radiating element 3 and the plurality of waveguide elements 2 are fixed to a linear arm 10 made of a metal pipe. In this case, the waveguide element 2 is fixed to the arm 10 by the antenna element fixing method of the present invention described later,
Since the radiating element 3 needs to be insulated and fixed from the arm 10, it is fixed to the arm 10 by an insulating fixing tool. The plurality of reflective elements 4 are fixed to the reflective element support tool, and the reflective element support tool is fixed to the rear end portion of the arm 10. The arm 10 is supported by a support rod 5 bent in a U shape, and the antenna 1 is attached to the pole 6 by attaching the support rod 5 to the pole 6.

Arm 10 in antenna 1 shown in FIG.
2 is an enlarged view of a part of FIG.
The front view is shown in FIG. 2 (b). However, in FIGS. 2A, 2B, and 2C, the antenna element is fixed to the arm by the first antenna element fixing method of the present invention described later. As shown in FIGS. 2A, 2 </ b> B, and 2 </ b> C, a plurality of antenna elements 12 a, 12 b, ..., Which are waveguide elements 2, are fixed to the linear arm 10 of the antenna 1. The linear arm 10 is composed of a metal pipe made of iron, aluminum or the like, and the plurality of antenna elements 1 are arranged so as to be substantially orthogonal to the arm 10.
2a, 12b, ... Are fixed. The plurality of antenna elements 12a, 12b, ... Are inserted into the through holes formed in the arm 10 as described later, and are processed by rollers so that the sectional shape of the arm 10 is deformed. , Arm 10 has a plurality of antenna elements 12
a, 12b, ... Are fixed. By processing the arm 10 using rollers, as shown in FIG. 2 (c), four recesses 11 are formed on the outer peripheral surface of the arm 10.
a, 11b, 11c and 11d are formed. The recessed portions 11a, 11b, 11c, 11d are shown in FIGS.
As shown in FIG. 4, the arm 10 is formed over substantially the entire length in the axial direction.

A first antenna element fixing method according to the present invention for fixing the antenna elements 12a, 12b, ... To the arm 10 as shown in FIG. 2 will be described with reference to FIG. FIG. 3A is a cross-sectional view showing the configuration of the arm 10 before the antenna element 12 is fixed, and FIG. 3B is a cross-sectional view showing a processed state of the first antenna element fixing method according to the present invention. Is. When fixing the antenna element 12 to the arm 10, as shown in FIG.
An insertion hole 10a is formed so as to penetrate the arm 10. The number of the insertion holes 10a is the number of fixed antenna elements 12
The same number of insertion holes 10a as the number of holes are formed in the arm 10.
However, the diameter of the insertion hole 10a is substantially equal to the outer diameter of the antenna element 12 through which the antenna element 12 can be inserted. Next, the antenna element 12 is inserted into each of the insertion holes 10a, and the arm 10 is inserted between the first roller 20 and the second roller 21 which are arranged to face each other as shown in FIG. 3B. .

The first roller 20 and the second roller 21 are arranged so as to face each other in the vertical direction, and the roller surface 20a of the first roller 20 and the roller surface 21a of the second roller 21 are formed in a concave shape as shown in the drawing. Both ends of the roller surface 20a of the first roller 20 are projected so that the roller surface corners 20
b, a roller surface corner portion 20c is formed. Similarly, both end portions of the roller surface 21a of the second roller 21 are also projected to form a roller surface corner portion 21b and a roller surface corner portion 21c. Between the first roller 20 and the second roller 21 as described above,
When the arm 10 is inserted while the antenna element 12 is inserted into the insertion hole 10a, the roller surface 20a of the first roller 20 is formed on the outer peripheral surface of the arm 10 as shown in FIG. 3B.
Roller surface corner portion 20b and roller surface corner portion 20c
Is contacted with the roller surface 21a of the second roller 21.
Roller surface corner 21b and roller surface corner 21c formed on
Will come into contact.

In this case, the first roller 20 and the second roller 2
Since the space formed between the two is slightly smaller than the outer diameter of the arm 10, the corners 2 of the contacted roller surface 2
The arm 10 is pressed by 0b, 20c, 21b, and 21c so as to be recessed. Thereby, the arm 10
The recesses 11a, 11b, 11c, and 11d are formed at four positions along the entire length of the arm 10 in the axial direction. By forming the recesses 11a, 11b, 11c, and 11d, the arm 1 as shown in FIG.
The cross-sectional shape of 0 is deformed from a circular shape to an irregular shape. Along with this, the shape of the insertion hole 10 a is also deformed, and the insertion hole 1 a
The edge portion of 0a bites into the outer peripheral surface of the antenna element 12 which is inserted. As a result, the antenna element 12 is prevented from coming out from the insertion hole 10a.
Will be fixed to the arm 10.

Incidentally, the first roller 20 and the second roller 21 are opposed to each other and moved with respect to the arm 10 having the antenna element 12 inserted therethrough, so that the fixing processing for deforming the cross-sectional shape of the arm 10 is performed. Alternatively, the first roller 20 and the second roller 21 may be fixed so as to face each other, and the arm 10 having the antenna element 12 inserted therein may be passed between the first roller 20 and the second roller 21. You may perform the fixing process which deforms the cross-sectional shape of 10.

Next, the arm 10 is provided with an antenna element 12a,
A second antenna element fixing method according to the present invention for fixing 12b, ... will be described with reference to FIG. Figure 4 (a)
FIG. 4 is a cross-sectional view showing the structure of the arm 10 before the antenna element 12 is fixed, and FIG.
FIG. 6 is a cross-sectional view showing a processed state of the antenna element fixing method of FIG. Also in the second antenna element fixing method, when fixing the antenna element 12 to the arm 10, as shown in FIG.
As shown in FIG. 5, an insertion hole 10 a is formed in the arm 10 so as to penetrate the arm 10. The number of the insertion holes 10a is equal to the number of the fixed antenna elements 12 and the insertion holes 10a are formed in the arm 10. However, the diameter of the insertion hole 10a is substantially equal to the outer diameter of the antenna element 12 through which the antenna element 12 can be inserted. Next, the antenna elements 12 are inserted into the respective insertion holes 10a, and
As shown in (b), the arm 10 is inserted between the first roller 30 and the second roller 31.

The first roller 30 and the second roller 31 are arranged so as to face each other vertically, and the roller surface 30a of the first roller 30 and the roller surface 31a of the second roller 31 are arcuate as shown in the figure. It is formed in a concave shape having a curved surface. Between the first roller 30 and the second roller 31 as described above,
When the arm 10 is inserted while the antenna element 12 is inserted into the insertion hole 10a, the concave roller surface 30a of the first roller 30 is formed on the upper and lower outer peripheral surfaces of the arm 10 as shown in FIG. 4B. And the concave roller surface 31a of the second roller 31 come into contact.

In this case, the first roller 30 and the second roller 3
Since the space between the first and second rollers is slightly smaller than the outer diameter of the arm 10, the space between the first roller 30 and the roller surface 31a of the second roller 31 sandwiched between the first roller 30 and the second roller 31 is a little. The arm 10 is pressed so as to be recessed. As a result, the upper and lower portions of the arm 10 are recessed over substantially the entire axial length of the arm 10.
Thereby, as shown in FIG. 4B, the cross-sectional shape of the arm 10 is deformed from a circular shape to an irregular shape. Along with this, the shape of the insertion hole 10a is also deformed so that the edge portion of the insertion hole 10a bites into the outer peripheral surface of the antenna element 12 that is inserted. As a result, the antenna element 12 is fixed to the arm 1 so that the antenna element 12 does not come out from the insertion hole 10a.
It becomes fixed to 0.

Incidentally, the first roller 30 and the second roller 31 are opposed to each other and moved with respect to the arm 10 having the antenna element 12 inserted therethrough, so that a fixing process for deforming the cross-sectional shape of the arm 10 is performed. Alternatively, the first roller 30 and the second roller 31 may be opposed to each other and fixed, and the arm 10 having the antenna element 12 inserted therein may be passed between the first roller 30 and the second roller 31 so that the above-mentioned arm is provided. You may perform the fixing process which deforms the cross-sectional shape of 10.

In the first antenna element fixing method and the second antenna element fixing method according to the present invention described above, the first roller 20 (30) and the second roller 21 (31) are used.
A plurality of antenna elements 12 can be fixed to the arm 10 by one processing step of passing the arm 10 with the antenna element 12 inserted therebetween. Further, since the processing for the arm 10 is only required to form the insertion hole 10a,
The antenna element can be fixed by a small number of working steps. Furthermore, the gap between the first roller 20 (30) and the second roller 21 (31) need only be set once, and the preparation work for processing can be simplified. Therefore, the first antenna element fixing method and the second antenna element fixing method according to the present invention are optimum fixing methods for mass production as the fixing method for fixing the antenna element 12 to the arm 10.

The antenna according to the present invention can be easily manufactured by performing a simple work by the first antenna element fixing method and the second antenna element fixing method. Therefore, the antenna of the present invention can be provided at low cost. Further, in the first antenna element fixing method and the second antenna element fixing method of the present invention, since oil is not used during processing, the steps such as cleaning after the antenna element is fixed are prepared. It is not necessary and the antenna can be created more easily. In addition, the antenna element 12 is not processed.
Since it can be fixed to the arm 10, the antenna can be an antenna that does not impair the mechanical strength of the antenna element 12, and the breakage of the antenna element can be prevented as much as possible. The antenna according to the present invention is not limited to the UHF band TV antenna, but may be a VHF band TV antenna.

[0024]

As described above, according to the present invention, the arm is sandwiched between the roller surfaces of the rollers and pressed to deform the cross-sectional shape of the arm and fix the antenna element to the arm. . Therefore, a plurality of antenna elements can be fixed to the arm by a single processing step of passing through the roller, so that the antenna element fixing method suitable for mass production can be obtained. Further, since oil is not used during processing, a work step such as cleaning is not required after fixing the antenna element. Further, since it is sufficient to form only the insertion hole for inserting the antenna element in the arm and the antenna element can be fixed without processing the antenna element, the antenna element can be fixed by a simple work. At the same time, the antenna element can be fixed without impairing the mechanical strength of the antenna element. Furthermore, since the antenna element fixing method according to the present invention is a simple antenna element fixing method, it is possible to inexpensively provide an antenna manufactured by this antenna element fixing method.

[Brief description of drawings]

FIG. 1 is a perspective view showing an overall configuration of an antenna according to the present invention produced by an antenna element fixing method according to the present invention.

FIG. 2 is an enlarged view showing a part of an arm in the antenna according to the exemplary embodiment of the present invention.

3A and 3B are a cross-sectional view of an arm and a cross-sectional view showing a processing step for explaining the first antenna element fixing method according to the exemplary embodiment of the present invention.

FIG. 4 is a cross-sectional view of an arm for explaining a second antenna element fixing method according to an embodiment of the present invention, and a cross-sectional view showing a processing step.

FIG. 5 is an enlarged view showing a part of an arm in an antenna formed by a conventional antenna element fixing method.

FIG. 6 is a diagram showing a process performed on an arm in a conventional antenna element fixing method.

FIG. 7 is a diagram showing a processing step and a state after processing in another conventional antenna element fixing method.

FIG. 8 is a front view of an antenna formed by still another conventional antenna element fixing method.

[Explanation of symbols]

1,100 antenna 2 Waveguide element 3 radiating element 4 reflective elements 5 support rods 6 poles 10,110 arms 10a, 110a insertion hole 12, 12a, 112, 112a Antenna element 20, 30 First roller 20a, 21a, 30a, 31a Roller surface 20b, 20c, 21b, 21c Roller face corners 21, 31 Second roller 111 Caulking part 113 Projection processing part 120 press type 121 Processing Department 130 tapping screw

─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-63-248202 (JP, A) JP-A-58-184026 (JP, A) Actually open 54-96131 (JP, U) Actual-open Sho 52- 71441 (JP, U) (58) Fields surveyed (Int.Cl. ⁷ , DB name) H01Q 1/12 F16B 7/00 F16B 7/20 F16B 4/00

Claims (6)

(57) [Claims] 1. A method for fixing an antenna element, which is arranged substantially orthogonal to the arm to a linearly extending arm, in an insertion hole formed so as to penetrate the arm. After inserting the antenna element, the arm is sandwiched by the roller surface of the roller and pressed to deform the cross-sectional shape of the arm, thereby fixing the antenna element to the arm. Characteristic antenna element fixing method. 2. The roller surface of the roller has a concave portion at the center thereof, and corners of the roller surface formed on both sides thereof are brought into contact with the arm so that the contacted portion of the arm is recessed. The antenna element fixing method according to claim 1, wherein the cross-sectional shape of the arm is deformed by processing so that the antenna element is fixed to the arm. 3. A recess formed in the center of the roller surface of the roller is brought into contact with the arm, and the contacted portion of the arm is processed to be recessed,
The antenna element fixing method according to claim 1, wherein the cross-sectional shape of the arm is modified so that the antenna element is fixed to the arm. 4. An arm extending linearly, a plurality of waveguide elements fixed to the arm so as to be substantially orthogonal to the arm, and arranged at the rear of the waveguide element and provided on the arm. At least a radiating element fixed to the arm so as to be substantially orthogonal to the arm is provided, and the arm is clamped by the roller surface of the roller and pressed, whereby the cross-sectional shape of the arm is deformed and the arm is fixed. An antenna, wherein the waveguide element inserted in an insertion hole passing through is fixed to the arm. 5. The roller surface of the roller is machined so that a central portion of the roller surface is a concave portion and corners of the roller surface formed on both sides are brought into contact with the arm, and the abutted portion of the arm is recessed. 5. The antenna according to claim 4, wherein the cross-sectional shape of the arm is deformed to thereby fix the waveguide element to the arm. 6. A recess formed in the central portion of the roller surface of the roller is brought into contact with the arm, and the abutted portion of the arm is processed to be recessed,
The antenna according to claim 4, wherein the cross-sectional shape of the arm is deformed, and the waveguide element is fixed to the arm.