KR20160066514A - Coaxial cable connector having improved compression strength and impedance performance - Google Patents

Abstract

(OBJECTIVE) Provided is a coaxial cable connector which can improve compression strength for the coaxial cable and also perform the impedance matching of the coaxial cable. (SOLUTION) A coaxial cable connector comprises a terminal, a housing supporting the terminal, and an external conductor shell which covers at least part of the housing and at least part of the coaxial cable. The external conductor shell has a contact surface with the coaxial cable in a surface orthogonal to the coaxial cable, and/or, at least one concave part and at least one convex part, on a contact surface in the axial-line direction of the coaxial cable.

Description

TECHNICAL FIELD [0001] The present invention relates to a coaxial cable connector having improved compressive strength and impedance performance,

The present invention relates to a coaxial cable connector, and more particularly to a coaxial cable connector with improved compressive strength and impedance matching to a coaxial cable connector.

Patent Document 1 shows an example of this type of coaxial cable connector. Fig. 14 is an exploded perspective view of the coaxial cable connector 110 disclosed in the patent document 1. Fig.

The coaxial cable connector 110 includes a housing 116 having a separable insulating property and a conductive terminal 116 formed on the insulating housing 114. The coaxial cable connector 110 includes at least a portion of the housing 114, And an outer conductor shell 112 covering at least a portion thereof. The outer conductor shell 112 has a substantially cylindrical portion 120 to be connected to the cylindrical shell of the mating connector and is formed with a substantially cylindrical insulative cylindrical And a portion of the terminal 116 is formed inside the insulating cylindrical portion 141. The terminal 141 is provided with a terminal 141,

The caulking portion 130 of the outer conductor shell 112 is formed with a concave portion G by press working. When the caulking portion 130 is wound around the insulator 221 a part of the insulator 221 intrudes into the groove formed by the recess G around the insulator 221. As a result, The frictional force between the insulator 221 and the insulator 130 is increased.

Japanese Laid-Open Patent Publication No. 2013-97914

According to this conventional structure, the strength of the coaxial cable against the coaxial cable can be increased by the external conductor shell, and the strength against the tensile strength of the coaxial cable is increased. However, the amount of the insulator 221 entering the recess G is not so large The increase of the frictional force is not sufficient.

In this case, the concave portion G is in a state in which the distance between the concave portion G and the core wire 224 is reduced only in a part of the coaxial cable. As a result, The impedance is increased only in the portion of the resonator, that is, the impedance as a whole is disturbed.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a coaxial cable connector capable of increasing the compressive strength of a coaxial cable and capable of performing impedance matching of the coaxial cable do.

(1) A coaxial cable connector according to the present invention comprises a terminal, a housing for supporting the terminal, and an external conductor shell covering at least a part of the housing and at least a part of the coaxial cable, At least one concave portion and at least one convex portion on the contact surface of the coaxial cable and / or the contact surface along the axial direction of the coaxial cable in a plane substantially perpendicular to the cable.

According to this configuration, it is possible not only to increase the compressive strength with respect to the coaxial cable, but also to match the impedance of the coaxial cable by the set of the concave portion and the convex portion.

Further, since the concave portion and the convex portion are alternately arranged along the axial direction? Of the coaxial cable, the compression strength against the coaxial cable is increased and the impedance matching is facilitated.

(2) In the coaxial cable connector according to (1), it is preferable that the at least one concave portion and the at least one convex portion are formed symmetrically in the plane.

By forming the concave portion and the convex portion symmetrically with respect to each other, impedance matching can be easily performed.

 (3) In the coaxial cable connector according to the above (1) or (2), the outer conductor shell preferably includes a pair of caulking rods disposed on opposite sides of the coaxial cable, It is preferable to have a part.

The impedance is influenced by the caulking force of the caulking portion, but is caught by the pair of caulking portions arranged on the opposite sides with the placement surface 85 therebetween, It is easy to adjust the impedance, and the matching of the impedance can be easily performed.

(4) In the coaxial cable connector according to any one of (1) to (3), the outer conductor shell may be formed of a single plate-shaped metal.

(5) In the coaxial cable connector according to any one of (1) to (4), the coaxial cable connector may be a right angle type connector.

According to the present invention, it is possible to increase the compressive strength with respect to the coaxial cable and to perform the impedance matching of the coaxial cable by the set consisting of at least one concave portion and at least one convex portion formed in the pressed piece of the outer conductor shell .

1 is a bottom plan view of a coaxial cable connector of the present invention having a coaxial cable.
2 is an exploded perspective view of the coaxial cable connector of the present invention.
3 is a bottom perspective view of the housing.
4 is an upper perspective view of the housing and a lower perspective view of the outer conductor shell.
5 is a sectional view taken along the line AA in Fig.
6 is a view for explaining the assembling process of the coaxial cable connector.
7 is a view for explaining the assembling process of the coaxial cable connector.
8 is a view for explaining the assembling process of the coaxial cable connector.
9 is a view for explaining the assembling process of the coaxial cable connector.
10 is a sectional view taken along the line HH in Fig.
Fig. 11 is a sectional view taken along line EE of Fig. 1. Fig.
12 is a cross-sectional view taken along the line FF of Fig.
13 is a sectional view taken along a line GG in Fig.
14 is a schematic cross-sectional view of a connector structure of a conventional coaxial cable connector.

One suitable embodiment of the present invention will be described with reference to the accompanying drawings. Here, a so-called light-angle type connector will be described, but the present invention is not limited to this.

Fig. 1 is a bottom plan view of a coaxial cable connector 1 of the present invention, to which a coaxial cable 10 is connected. Fig. 2 shows an exploded perspective view of the coaxial cable connector 1. Fig. The coaxial cable connector 1 has a symmetrical shape with a central axis HH of FIG. 1 interposed therebetween. The coaxial cable connector 1 mainly includes a conductive terminal 20, an insulating housing 40 formed integrally with the terminal 20, And an outer conductor shell (70) covering at least a portion of the housing (40) and at least a portion of the coaxial cable (10). In addition, since the terminal 20 and the housing 40 are integrally formed, they can not be disassembled in practice. However, Fig. 2 shows a state in which the terminals 20 and the housing 40 are separated for convenience. When the coaxial cable connector 1 is assembled, the terminal 20, the housing 40, and the coaxial cable 10 are moved from the lower side to the upper side of the coaxial cable connector 1 along the direction of the arrow " The outer conductor shell 70 and the outer conductor shell 70 in this order.

The coaxial cable 10 has the same structure as that of the conventional coaxial cable except that the insulating sheath 11, the outer conductor 12, the insulator 13, the core wire 14, Respectively. This structure is well known and will not be described in detail.

The terminal 20 has a predetermined length along the axial direction? Of the coaxial cable 10. An end portion 25 is formed in the vicinity of the middle of the main body portion 26 and the rear end side 24 of the terminal 20 is formed in the housing 40 integrally molded by the end portion 25. [ The front end side 22 of the terminal 20 is made closer to the face 78 of the outer conductor shell 70 than the rear end side 24 by making the front end side 22 of the terminal 20 closer to the coaxial cable 10 than the front end side 22, . A connecting portion 24 is formed at the rear end side 24 of the terminal 20 so as to be in contact with the core wire 14 of the coaxial cable 10. The connecting portion 24 is provided, The core wire 14 of the coaxial cable 10 is provided. The front end side 22 of the terminal 20 is provided with a contact portion 22 to be in contact with the center terminal (not shown) of the mating connector. The contact portion 22 is formed in a state of standing up toward the contact side with the mating connector and includes an elastic displacement portion 22 'formed of two pieces capable of fitting the center terminal of the mating connector to the center, As shown in Fig. Of course, it is not necessary to be formed as the elastic displacement portion 22 ', but may be formed as a simple insertion hole, for example.

Fig. 3 is a bottom perspective view of the housing 40 integrally molded with the terminal 20, and Fig. 4 is a perspective view thereof. 4, the lower side perspective view of the outer conductor shell 70 is shown at an angle different from that of Fig. 5 is a sectional view taken along the line A-A in Fig.

The housing 40 mainly includes a main body 46, a cylindrical portion 42 formed on the distal end side of the main body 46, and a cable fixing portion 41 formed on the rear end side of the main body 46 , 50, etc.).

Each of these parts is molded integrally with the terminal 20 by a resin mold. However, a part of the terminal 20 is exposed to the outside even after the integral molding. The exposed portion of the terminal 20 is provided with an elastic displaceable portion 22 'and its peripheral portion of the contact portion 22 at a portion of the lower side of the contact portion 22 as well as the connecting portion 24, Part of the surface opposite to the external conductor shell 70 which is located on the side (upper surface side) opposite to the contact portion 22 of the terminal 20 in the thickness direction of the terminal 20 is included. A part of the upper surface side of the contact portion 22 is also exposed because of a specific problem in the integral molding. That is, in order to reliably suppress the swinging of the terminal 20 against the flow of the resin at the time of integral molding, it is necessary to press part of the terminal 20 with the mold. At this time, It is effective to press the upper surface side of the elastic displacement portion 22 'with the mold together with the elastic displacement portion 22' on the lower side having the elastic displacement portion 22 '. The exposed portion 27 of the terminal 20 remains as the exposed portion 27 of the resin through the through hole 48. As a result, (20) on the side opposite to the contact portion (22).

The main body portion 46 has a generally cubic shape as a whole, and has a projecting portion 47 projecting toward the approach side of the mating connector on its upper surface. The projecting portion 47 can be used as a portion for supporting the discontinuous portion 73 of the substantially cylindrical portion 72 of the outer conductor shell 70.

The cylindrical portion 42 on the tip end side of the main body portion protrudes from the upper surface portion 45 toward the contact side with the mating connector and the contact portion 22 of the terminal 20 is disposed at the center thereof. The cylindrical portion 42 is inserted into the cylindrical shell of the mating connector and at the same time the contact portion 22 disposed at the center of the cylindrical portion 42 is disposed at the center of the cylindrical shell (Not shown) is inserted and contacted. Three protrusions 44 extending from the upper face portion 45 of the cylindrical portion 42 toward the front side and the left and right sides can be used to position the housing 40 to the outer conductor shell 70. [

A mounting surface 41 for mounting a core wire 14 of the coaxial cable 10 is formed in the cable fixing portions 41, 50 and the like on the rear end side of the main body portion. The connecting portion 24 of the terminal 20 is exposed from the mounting surface 41 even after the terminal 20 and the housing 40 are integrally formed. Further, although the mounting surface 41 is substantially flat, the connecting portion 24 may be protruded or depressed from the mounting surface 41. As a result, contact between the terminal 20 and the core wire 14 can be ensured. In the illustrated example, the depressed portion 43 is used.

In order to fix the core wire 14, the pair of crimping pieces 50A and 50B are formed on the cable fixing portions 41 and 50 and the like. The pair of the compression pieces 50A and 50B are supported only on one side 53 on the opposite side with the mounting surface 41 interposed therebetween and are supported by the support portions 53A and 53B So that it can be bent toward the mounting surface 41 on which the core wire 14 is installed.

The outer conductor shell 70 is formed by punching and bending one plate-shaped metal. The outer conductor shell 70 mainly includes a placement surface 85 on which the housing 40 or the coaxial cable 10 is disposed, a substantially cylindrical portion 72 formed on the tip side of the placement surface 85, , And a plurality of caulking portions (80, 83, 84). The substantially cylindrical portion 72 is a portion connected to the cylindrical shell (not shown) of the mating connector at the time of fitting with the mating connector. The tip end side of the placement surface 85 has a structure in which the overall cylindrical portion 72 is surrounded by the granular portion 74 which is a part of the spoon portion as a whole and the strength of the substantially cylindrical portion 72 is strengthened .

4, the housing 40 has a protruding portion 49 protruding toward the outer conductor shell 70 on the surface 45 opposed to the outer conductor shell 70. As shown in Fig. The protruding portion 49 is formed by two straight lines having a predetermined width and having a cross shape as a whole and having a through hole 48 for exposing the exposed portion 27 of a part of the terminal 20 as an intersection, And one of the straight portions extends along the axial direction? Of the coaxial cable 10 from the front end side of the terminal 20 to a length longer than the length of the end portion 25. The outer conductor shell 70 is provided on the surface 78 opposite to the surface 45 of the housing 40 so as to correspond to the protruding portion 49 of the housing 40, Shaped depression 79 is formed toward the opposite side. When the housing 40 is arranged in the outer conductor shell 70 by forming the raised portions 49 and the depressed portions 79 that can be accommodated in the recessed portions 79, The exposed portion 27 of the terminal 20 by the through hole 48 formed in the integral molding of the terminal 20 and the housing 40 is separated from the external conductor shell 70 and the exposed portion 27 and the external The insulating distance between the conductor shells 70 can be increased. Therefore, the terminal 20 and the outer conductor shell 70 can be securely insulated with a simple structure, and the connector can be lowered. By forming the raised portions 49 and the depressed portions 79, it is possible to prevent the raised portions 49 from being inserted into the depressed portions 79 when the housing 40 is disposed in the external conductive shell 70. [ So that the housing 40 can be easily positioned at a predetermined position of the outer conductor shell 70. The shape of the raised portion 49 and the depressed portion 79 is not limited to the cross, and may be, for example, a triangular shape or a square shape. In addition, the degree of depression of the depression 79 relative to the raised portion 49 may be large. 4, the raised portion 49 does not need to completely cover the periphery of the edge of the through hole 48, and a raised portion 49 is provided near the edge of the through hole 48 The raised portion may be formed only at the portion remote from the edge. It is sufficient that the exposed portion 27 can be separated from the outer conductor shell 70 by using the protruding portion 49 and the depressed portion 79. Therefore, for example, when the cross- . Particularly, since the outer conductor shell 70 is formed of a plate-shaped metal, the depressed portion 79 can be easily formed by a stamping process, and the manufacturing cost can be suppressed inexpensively. The depressed portion 79 also helps reinforce the strength of the outer conductor shell 70.

The substantially cylindrical portion 72 is connected to the placement surface 85 in a bendable state at the bent portion 72 '. After the housing 40 is disposed at a predetermined position of the outer conductor shell 70, the cylindrical portion 72 is bent toward the placement surface 85. 1 to 5 all show a state after the cylindrical portion 72 is bent. Between the cutout 71 of the substantially cylindrical portion 72 and the surface 78 of the outer conductor shell 70 facing the housing 40 when the cylindrical portion 72 is bent substantially, The left and right projections 44 extending from the table portion 45 of the housing 40 are fitted into the outer conductor shell 70 so that the housing 40 can be easily fixed to the outer conductor shell 70. [ Likewise, protrusions on which the front protrusions 44 'are engaged are formed on the inner surface of the bent portion 72' of the outer conductor shell 70.

The caulking portion is formed as a pair of caulking portions, each of which is disposed on each of opposing sides with the placement surface 85 interposed therebetween. A total of three sets, that is, a front side caulking portion 80, an intermediate caulking portion 83 and a rear side caulking portion 84 are formed along the axial direction? Of the coaxial cable 10. The front caulking portions 80A and 80B mainly serve to caulk the pair of crimping pieces 50A and 50B from the outside. The intermediate caulking portions 83A and B mainly serve to caulk the outer conductor 12 And the rear caulking portions 84A, 84B are for mainly caulking the insulating cover 11.

The assembling process of the coaxial cable connector 1 will be described with reference to Figs. 6 to 9. Fig. 8 and 9 show the state after the assembling is finished. In FIG. 8, for the sake of convenience, a part of the front calking portion 80 is removed and the state of the crimping pieces 50A and 50B is shown.

The housing 40 is attached to the outer conductor shell 70 as shown in Fig. 6 and then the coaxial cable 10 is placed in the housing 40 or the outer conductor shell 70 as shown in Fig. At this time, the core wire 14 of the coaxial cable 10 is provided on the mounting surface 41 of the housing 40, and the outer conductor 12 of the coaxial cable 10 is provided to correspond to the intermediate caulking portion 83 And the insulating sheath 11 of the coaxial cable 10 is disposed at a corresponding position of the rear calking portion 84, respectively.

8 and 9, the front side caulking portions 80A and 80B, the intermediate caulking portion 83 and the rear side caulking portion 84 are fixed to the housing 40 and the coaxial cable 10, respectively, Corking. At this time, the respective crimping pieces 50A and 50B are bent toward the mounting surface 41 through contact with the front side caulking portions 80A and 80B. As a result, the core wire 14 of the coaxial cable 10, And is sandwiched between the crimping pieces 50A, 50B and the mounting surface 41, and fixed there. According to this configuration, the holding and fixing of the core wire 14 of the coaxial cable 10 can be performed simultaneously with the caulking operation of the front calking portions 80A and 80B, thereby simplifying the operation. The insulator 13 of the coaxial cable 10 is covered by the protrusions 56 and 57 of the pair of crimping pieces 50A and 50B when the pair of crimping pieces 50A and 50B are bent There is no special caulking part.

When the intermediate caulking portion 83 is caulked with respect to the outer conductor 12, the outer conductor shell 70 is electrically connected to the outer conductor 12 through the contact between the intermediate caulking portion 83 and the outer conductor 12 Respectively. As a result, when the coaxial cable connector 1 and the mating connector are fitted to each other, the outer conductor of the coaxial cable 10 is connected to the cylindrical shell of the mating connector through the connection between the substantially circular portion 72 of the outer conductor shell 70 and the cylindrical shell of the mating connector. (12) and the cylindrical shell of the mating connector are electrically connected. In the same manner, the rear caulking portion 84 is caulked against the insulating cover 11, but of course, no electrical connection occurs here. 7, etc., the substantially cylindrical portion 72 is substantially cylindrical in the cylindrical direction of the cylindrical portion 72 (in the direction of the arrow "?" In FIG. 2) after the coaxial cable connector 1 is assembled And the coaxial cable 10 are not overlapped with each other, the dimension in the direction of the facing surface of the outer conductor shell 70 and the housing 40 is not increased, and consequently the connector can be reduced in thickness.

Next, the construction of the intermediate caulking portion 83 and the rear calking portion 84 will be described in more detail with reference to Figs. 10 to 13. Fig. 1 is a sectional view taken along the line HH in Fig. 1, Fig. 11 is a sectional view taken along the line EE in Fig. 1, Fig. 12 is a sectional view taken along the FF line in Fig. 1, . 10 to 13 show the cross section of the intermediate caulking portion 83 in particular, but as is clear from Figs. 1 to 9 and the description thereof, the rear caulking portion 84 has the same I can think.

As described above, the intermediate caulking portion 83 is provided on the outer conductor 12 of the coaxial cable 10 and the rear caulking portion 84 on the outer surface of the coaxial cable 10, , Respectively. In order to increase the compressive strength of the intermediate caulking portion 83 and the rear caulking portion 84 with respect to the coaxial cable 10, the caulking portions 83 and 84 are provided with protruding portions Thereby forming a concave portion. In Fig. 10, convex portions 83a and recessed portions 83b are formed in the? Direction with the placement surface 85 interposed therebetween. 11 to 13, the intermediate caulking portion 83 is provided with a convex portion 83a (not shown) extending in at least one of the surfaces in contact with the coaxial cable 10 in a plane substantially perpendicular to the coaxial cable 10, And the rear calking portion 84 is formed with a concave portion 83b extending in a direction substantially perpendicular to the coaxial cable 10 so as to be in contact with the coaxial cable 10 At least one convex portion 83a and at least one concave portion 83b are formed. For example, the intermediate caulking portion 83 is provided with a convex portion 83a positioned on the placement surface 85 of the outer conductor shell 70, on the contact surface of the intermediate caulking portion 83 with the coaxial cable 10 in the cross section of Fig. And two concave portions 83b positioned symmetrically with respect to the center of the outer conductor shell 70 are formed on the outer surface of the outer conductor shell 70. On the contact surface of the outer conductor shell 70 and the coaxial cable 10 in the cross section of FIG. And two convex portions 83a positioned symmetrically with respect to the concave portion 83b are formed on the surface of the coaxial cable 10 in the cross section shown in Fig. The convex portion 83a positioned on the placement surface 85 of the outer conductor shell 70 and two concave portions 83b positioned symmetrically to the convex portion 83a are formed. The convex portion 83a and the concave portion 83b of the placement surface 85 are formed to have substantially the same length and the length of the convex portion 83a and the concave portion 83b at portions other than the arrangement surface of each caulking portion is And the concave portion 83b is longer. The indentations 83a 'on the opposite side of the convex portions 83a in the plate thickness direction are the marks of the impacts generated by forming the convex portions 83a. When the intermediate caulking portion 83 and the rear caulking portion 84 are caulked with respect to the coaxial cable 10 by these convex portions and the concave portions, the convex portion and the concave portion, which come into contact with the coaxial cable 10, Of the coaxial cable 10 can be increased to increase the compressive strength of the coaxial cable 10 and particularly the compressive strength of the coaxial cable 10 in the axial direction? It is possible.

The convex portion and the concave portion exhibit an excellent effect of increasing the compressive strength with respect to the coaxial cable 10 as described above. On the other hand, depending on the degree of curvature of the coaxial cable 10, the impedance is disturbed. Generally, the disturbance of the impedance occurs when the distance in the radial direction of the external conductor 12 and the core wire 14 changes in a plane substantially perpendicular to the coaxial cable 10, but in the present invention, By forming concave portions and convex portions in a plane substantially perpendicular to the cable 10, this change can be canceled.

For example, as shown in Figs. 11 and 13, by forming the convex portion 83a on the placement surface 85, the outer conductor 12 of the coaxial cable 10 is pushed from the radial direction toward the center side The impedance tends to decrease in the case where the distance between the external conductor 12 and the core wire 14 is small. However, in this configuration, in correspondence to the convex portion 83a of the placement surface 85, The pair of concave portions 83b are symmetrically formed on the opposing sides of the coaxial cable 10 and the outer conductor 12 of the coaxial cable 10 is spread in the radially outer direction So that the distance between the outer conductor 12 and the core wire 14 is increased so that the impedance is increased at these portions. By forming the convex portion 83a and the concave portion 83b in the plane substantially perpendicular to the coaxial cable 10 as described above, it is possible to prevent the impedance of the "low" tendency and the impedance of the "high" So as to reduce the deterioration of the impedance while maintaining the compression strength.

10, the concave portions and the convex portions may be alternately arranged along the axial direction? Of the coaxial cable 10 to form the above canceling relationship. For example, for the intermediate caulking portion 83, three sets of concave and convex portions are set along the axial direction alpha and two sets of concave portions and convex portions are set for the rear coating portion 84 Respectively. By alternately arranging a plurality of sets along the axial direction? As described above, the compression strength against the coaxial cable can be further increased and the impedance can be adjusted more easily.

However, in this configuration, the outer conductor shell 70 is provided on the opposite side with the arrangement plane 85 on which the coaxial cable 10 is disposed between the outer conductor shell 70 and the coaxial cable 10, and the impedance is affected by the caulking force of the caulking portion. The pair of caulking portions 83A, B, 84A, and B are arranged so that they are caulked by the pair of caulking portions, so that it is easy to adjust the force applied to the left and right sides, Can be easily carried out.

Of course, it is needless to say that the present invention is not limited to the above-described embodiment, but various modifications are possible. Accordingly, the scope of the claims of the present invention encompasses various modifications that are ordinarily practiced by those skilled in the art. For example, the number of concave portions and convex portions in the plane substantially perpendicular to the coaxial cable 10 and the number of sets in the axial direction? Are not limited. The terminal 20 and the housing 40 do not necessarily have to be integrally molded but it is sufficient if the terminal 20 is formed in the housing 40. [

It has a general effect that the compression strength is increased and the impedance is adjusted, so that it can be widely used for the coaxial cable connector.

1: Coaxial cable connector
10: Coaxial cable
11: Insulation film
12: External conductor
13: Insulator
14: core wire
20: terminal
24: Exposed portion (connection portion)
40: Housing
41: Mounting surface
42:
46:
48: Exposed portion (hole)
49:
50:
70: outer conductor shell
72:
80A, 80B: front caulking portion
83: intermediate caulking portion
83a:
83b:
84:
84a:
84b:
85:

Claims (5)

Terminal,
A housing for supporting the terminal,
And an outer conductor shell covering at least a part of the housing and at least a part of the coaxial cable,
Wherein the outer conductor shell has at least one concave portion and at least one convex portion on a contact face along the axial direction of the coaxial cable and a contact face with the coaxial cable in a plane substantially perpendicular to the coaxial cable And the coaxial cable connector. The method according to claim 1,
Wherein the at least one concave portion and the at least one convex portion formed on a contact surface with the coaxial cable in a plane substantially orthogonal to the coaxial cable are formed symmetrically in the plane within the plane. 3. The method according to claim 1 or 2,
Wherein the external conductor shell has a pair of caulking portions each disposed on an opposing side with an arrangement surface on which the coaxial cable is disposed. 4. The method according to any one of claims 1 to 3,
Wherein the external conductor shell is formed of a single plate-like metal. 5. The method according to any one of claims 1 to 4,
The coaxial cable connector is a light-angle type connector.

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