JP6802654B2 - A coaxial connector having a viewing window and a coaxial connector device using the coaxial connector. - Google Patents

Description

The present invention relates to a coaxial connector having a window that makes the core wire of the coaxial cable visible, and a coaxial connector device using the coaxial connector.

Patent Document 1 discloses a conventional coaxial connector having a window that makes the core wire of a coaxial cable visible, and a coaxial connector device using the coaxial connector. FIG. 17 is a perspective view of the coaxial connector device disclosed in Patent Document 1. This figure shows, in particular, the process of attaching one end of the coaxial cable 111 to the coaxial connector 110, here, the state before attachment.

The coaxial connector device 110 includes a contact member 120 that is electrically connected to the core wire 112 of the coaxial cable 111, a ground contact member 121 that is electrically connected to the outer conductor 114 of the coaxial cable 111, and a contact member 120. Includes an insulating housing member 122 that supports the ground contact member 121 in a mutually insulated state.

When connecting the core wire 112 to the fixed portion 150, first, the core wire 112 of the coaxial cable 111 is placed on the fixed portion 150, and then the bent contact portion 140 of the insulating housing member 122 is bent to form the movable portion 151. It is pressed and displaced toward the fixed portion 150, and the core wire 112 of the coaxial cable 111 is sandwiched between the movable portion 51 and the fixed portion 150.

In order to make the core wire 112 of the coaxial cable 111 visible, the coaxial connector device 110 is provided with a through hole 155 in the bottom surface portion of the holding portion 141 that holds the fixed portion 150. For example, the core wire 112 can be connected to the fixed portion 150 and the connection state can be confirmed while visually observing through the through hole 155 or the like.

Japanese Unexamined Patent Publication No. 2012-243441

However, in the above-mentioned conventional device, the through hole (window) 142 that makes the core wire 112 visible is the bent contact portion 140 and the fixed portion when the bent contact portion 140 is bent toward the fixed portion 150. Since it is provided on the same side as the fixed portion 150 with respect to the core wire 112 sandwiched between the core wire 112 and the 150, only by turning over the device 110 during the connection work in which the core wire 112 is connected to the fixed portion 150. Alternatively, the connection state of the core wire can be confirmed only after a series of connection operations are completed, which makes the confirmation operation very complicated.

The present invention has been made to solve such a problem in the prior art, and has a viewing window capable of confirming the connection state without turning over the device during the core wire connection work. It is an object of the present invention to provide a coaxial connector and a coaxial connector device using the coaxial connector.

In order to solve the above problems, the coaxial connector according to one aspect of the present invention includes a terminal, a housing that supports the terminal, and a conductor shell that covers the outside of the housing, and the terminal is a core wire of a coaxial cable. The housing has a pressing portion that is foldable toward the installation portion, and the pressing portion is pressed when bent toward the installation portion. It is characterized by having a window that allows the core wire to be visually recognized on the side opposite to the installation portion with respect to the core wire sandwiched between the portion and the installation portion.
According to the coaxial connector of this aspect, the window for checking the connection state is located on the side opposite to the installation part with respect to the core wire sandwiched between the window and the installation part when it is bent toward the installation part. Since it is provided in the pressing part, it is possible to check the connection state without turning over the device during the core wire connection work, and therefore, a coaxial connector having a viewing window that makes it easy to check the connection state is obtained. Be done.

In the coaxial connector of the above aspect, the conductor shell has a crimping piece provided so as to be bendable toward the pressing portion, and the crimping piece is combined with the crimping piece when bent toward the pressing portion. It is preferable to have a window on the side opposite to the installation portion with respect to the core wire sandwiched between the installation portion and the core wire so as to communicate with the window of the pressing portion so that the core wire can be visually recognized.
According to the coaxial connector of this aspect, by providing the conductor shell with a window communicating with the pressing portion, the conductor shell can be attached also around the window of the pressing portion.

In the coaxial connector of the above aspect, it is preferable that the pressing portion forms a gap between the pressing surface of the pressing portion and the installation portion when the pressing portion is bent toward the installation portion.
According to the coaxial connector of this aspect, the device can be used for core wires having various diameters by securing a gap.

In the coaxial connector of the above aspect, the pressing portion may be provided only on one side facing the core wire installed in the installation portion, or the pressing portion is installed in the installation portion. It may consist of a pair of pressing portions provided on the opposite sides of the core wire.

In the coaxial connector of the above aspect, each of the pair of pressing portions has a butt surface that is abutted against each other when bent toward the installation portion, and the butt surface of at least one pressing portion is pressed by the other side. It is preferable that a convex portion is provided so as to extend beyond the butt surface of the portion toward the pressing portion on the other side.
According to the coaxial connector of this aspect, by providing the convex portion, the length of the pressing surface of the pressing portion in the width direction "β" of the core wire installed in the installation portion is increased, and the core wire is more reliably crimped. can do.

In the coaxial connector of the above aspect, it is preferable that a part of the convex portion is formed by the pressing surface of the pressing portion.
According to the coaxial connector of this aspect, the core wire can be pressed more effectively by using a part of the convex portion as a pressing surface.

In the coaxial connector of the above aspect, it is preferable that the concave portion that meshes with the convex portion is provided on the abutting surface of the pressing portion on the mating side corresponding to the convex portion.
According to the coaxial connector of this aspect, the device can be further miniaturized by engaging the convex portion and the concave portion.

In the coaxial connector of the above aspect, the concave portion may be a recessed portion that is recessed toward a side away from the pressing surface of the pressing portion.
By forming the concave portion as such a concave portion, the convex portion can be positioned on the same side as the pressing surface or closer to the installation surface than the pressing surface.

In the coaxial connector of the above aspect, it is preferable that the convex portion is provided with a taper that approaches the pressing surface of the pressing portion toward the tip of the convex portion.
By providing the taper, it is possible to reduce the risk that the convex portion collides with the pressing portion on the other side when the pressing portions are abutted against each other.

In the coaxial connector of the above aspect, the convex portions and / or the concave portions are arranged in each of the pair of pressing portions in a plurality and / or alternately along the extending direction of the core wire installed in the installation portion. It is preferable to have.
By arranging the convex portions and the concave portions alternately, the core wire can be more reliably crimped at a plurality of locations along the extending direction of the core wire installed in the installation portion.

In the coaxial connector of the above aspect, the window is adjacent to one or more of the convex portions and / or one or more of the concave portions in the extending direction of the core wire installed in the installation portion. It may be arranged.

In the coaxial connector of the above aspect, the windows are provided on both of the pair of pressing portions, and when the pair of pressing portions are bent toward the installation portion, they are provided on the pair of pressing portions, respectively. The windows may be connected in the width direction of the core wire installed in the installation portion.
According to the coaxial connector of this aspect, the connection state of the core wire can be confirmed in a larger range by connecting the windows provided on both of the pair of pressing portions in the width direction "β" of the core wire.

In the coaxial connector of the above aspect, it is preferable that the pressing surface of the pressing portion is provided on the tip end side of the core wire with respect to the window in the extending direction of the core wire installed in the installation portion.
According to the coaxial connector of this aspect, by crimping the tip end side of the core wire, it is possible to effectively prevent the tip end side of the core wire, which tends to vary through the window, from protruding to the outside.
In the coaxial connector of the above aspect, the butt surface may be a contact surface.
According to the coaxial connector of this aspect, the state of the pressing portions abutted against each other can be maintained by bringing the butt surfaces into contact with each other.

A coaxial connector device according to another aspect of the present invention includes a terminal, a housing that supports the terminal, a conductor shell that covers the outside of the housing, and a coaxial cable, and the terminal has a core wire of the coaxial cable. The housing has an installed installation portion, the housing has a pressing portion bent toward the installation portion, and the pressing portion is formed on the core wire sandwiched between the pressing portion and the installation portion. On the other hand, it is characterized by having a window on the side opposite to the installation portion so that the core wire can be visually recognized.

According to the present invention, a coaxial connector having a viewing window for easy confirmation of the connection state, which can confirm the connection state without turning over the device during the core wire connection work, and the coaxial connector are used. The coaxial connector device that was used is provided.

It is a perspective view which shows the detached state of a coaxial connector and a substrate side apparatus. It is an exploded perspective view which showed the coaxial connector together with the coaxial cable. It is a perspective view of the coaxial connector immediately after installing a coaxial cable. It is a top view of FIG. It is a perspective view of the coaxial connector after the assembly is completed. FIG. 5 is a plan view of FIG. It is a perspective view of a housing. FIG. 4 is a cross-sectional view taken along the line AA of FIG. FIG. 4 is a cross-sectional view taken along the line BB of FIG. It is sectional drawing corresponding to FIG. 8 and FIG. 9 is a cross-sectional view corresponding to FIGS. 9 and 15. FIG. 6 is a cross-sectional view taken along the line AA of FIG. FIG. 6 is a cross-sectional view taken along the line BB of FIG. It is a figure which shows the modification, and is the perspective view of the coaxial connector immediately after installing a coaxial cable. It is a figure which shows the modification of FIG. 14, and is the perspective view of the coaxial connector after the assembly completion. It is a figure which shows the other modification, and is the perspective view of the coaxial connector immediately after installing a coaxial cable. It is the schematic sectional drawing of the connector structure of the conventional coaxial connector.

Hereinafter, a coaxial connector according to a preferred embodiment of the present invention and a coaxial connector device using the coaxial connector will be described with reference to the accompanying drawings. Although only preferred embodiments of the present invention are shown here, of course, this does not intend to limit the present invention.

FIG. 1 is a perspective view showing a coaxial connector device 1 in which one end of a coaxial cable 10 is connected to the coaxial connector 3 of the present invention together with a coaxial connector 9 that can be fitted / removed from the device 1. FIG. 1 shows, in particular, the removed state of the coaxial connector device 1 and the coaxial connector 9.
As shown in the figure, the coaxial connector 9 may be a board connection type, but may be a cable connection type as in the coaxial connector device 1. In the present specification, for convenience, the extension direction of the coaxial cable 10 is the “α” direction, the width direction of the coaxial cable 10 is “β”, and the direction in which the coaxial connector device 1 and the coaxial connector 9 are fitted / removed is defined. This will be described as the “γ” direction.

The coaxial connector 9 is used in a state of being fixed to a circuit board (not shown). The coaxial connector 9 mainly includes an insulating housing 93, an annular outer conductor 91, and a rod-shaped center conductor 92. The outer conductor 91 and the center conductor 92 are integrally molded with the housing 93. The outer conductor 91 can be connected to the circuit board via the external connection portion 94, and the center conductor 92 can be connected to the circuit board via the external connection portion 95. When the coaxial connector 9 and the coaxial connector device 1 are fitted together, the central conductor 92 is connected to a terminal provided inside the coaxial connector device 1, and the outer conductor 91 is connected to a conductor shell 70 that covers the outside of the coaxial connector device 1. It is connected to a substantially annular fitting portion 72 provided. Through this connection, the coaxial connector device 1 is electrically connected to a predetermined portion of the circuit board.

FIG. 2 shows an exploded perspective view of the coaxial connector device 1, in other words, an exploded perspective view of the coaxial cable 3 together with the coaxial cable 10. Further, FIG. 3 is a perspective view immediately after the coaxial cable 10 is installed on the coaxial connector 3, FIG. 4 is a plan view thereof, and FIG. 5 is a perspective view of the coaxial connector device 1 after the assembly is completed, FIG. The plan view is shown in each.

The coaxial connector 3 mainly includes a terminal 20, a housing 40 that supports the terminal 20, and a conductor shell 70 that covers the outside of the housing 40, and the coaxial connector device 1 further includes a coaxial cable 10. FIG. 7 is a perspective view of the housing 40 alone, which is shown at a different angle from that of FIG. Unless otherwise specified, the coaxial connector 3 and the coaxial connector device 1 may be considered to have basically symmetrical shapes. Hereinafter, the left and right sides will be distinguished by using the reference numerals “A” or “B” as necessary.

As the coaxial cable 10, a conventional general coaxial cable can be used. The coaxial cable 10 includes an outer cover 11, an outer conductor 12, an insulator 13, and a core wire 14 from the outermost shell toward the center.

The terminal 20 has a length portion along the axial direction “α” of the coaxial cable 10. A contact portion 22 is provided in front of the terminal 20, and an installation portion 24 is provided behind the terminal 20.
The contact portion 22 is connected to the central conductor 92 (see FIG. 1) of the coaxial connector device 9 on the substrate side when the coaxial connector device 1 is fitted with the coaxial connector 9 on the substrate side. The contact portion 22 includes two elastic pieces 22a erected toward the fitting side with the coaxial connector device 9 on the substrate side. The central conductor 92 of the substrate-side device 9 is sandwiched between these elastic pieces 22a. Of course, the present invention is not limited to this, and for example, it may be a simple insertion hole.

The core wire 14 of the coaxial cable 10 is installed and connected to the installation unit 24 when the coaxial connector device 1 is assembled. As a result, the core wire 14 and the center conductor 92 on the substrate side are electrically connected through the terminal 20. The surface forming the installation portion 24 is substantially flat, but it may be in a slightly protruding or recessed state along the fitting / removing direction “γ”. As a result, the contact with the core wire 14 can be ensured. In the illustrated example, a recess 24a is formed.

The housing 40 mainly includes a main body 46 having a substantially rectangular shape when assembly is completed, and a circular portion 47 located on the front side of the main body 46. The main body 46 and the circular portion 47 are connected via a plate-shaped neck portion 48.

The housing 40 is integrally molded with the terminal 20. Therefore, in practice, they cannot be separated. FIG. 2 shows a state in which these are separated for convenience.

Even after the housing 40 and the terminal 20 are integrally molded, a part of the terminal 20, that is, the contact portion 22, the installation portion 24, and the peripheral portions thereof remains exposed to the outside of the housing 40. The contact portion 22 is arranged in the through hole 43 of the annular protrusion 44 provided in the circular portion 47 of the housing 40. In the through hole 43, the contact portion 22 stands upright along the fitting / removing direction “γ”.

The installation portion 24 is arranged with the surface on the fitting / removing side exposed to the outside. The bottom side of the installation portion 24 is fitted into the recess 64 provided in the main body 46 of the housing 40. Above the installation portion 24, a pressing portion 50 connected to the main body 46 through the support piece 53 is arranged. The pressing portions 50 may be formed in pairs. These paired pressing portions 50A and 50B are provided on the opposite sides of the core wire 14 installed in the installation portion 24, respectively. The pressing portions 50A and 50B can be bent toward the installation portion 24 by using the support pieces 53A and 53B. The support pieces 53A and 53B are preferably formed of a thin plate in order to facilitate bending. When the pressing portions 50A and 50B are bent toward the installation portion 24, the core wire 14 is sandwiched between the pressing portions 50A and 50B and the installation portion 24. The pressing portions 50A and 50B are provided with windows 60A and 60B so that the core wire 14 can be visually recognized, respectively. These windows 60A and 60B have the installation portion 24 with respect to the core wire 14 sandwiched between the pressing portions 50A and 50B and the installation portion 24 when the pressing portions 50A and 50B are bent toward the installation portion 24. It is located on the other side. Therefore, the user can confirm the connection state of the core wire 14 through these windows 60A and 60B. When the pair of pressing portions 50A and 50B are bent toward the installation portion 24, the windows 60A and 60B provided in the pair of pressing portions 50A and 50B respectively have the width direction "β" of the core wire 14 installed in the installation portion 24. Is connected at. By connecting the two windows 60A and 60B in this way, the window can be made larger.

The conductor shell 70 is formed by punching and bending a single plate-shaped metal.
The conductor shell 70 has a crimping piece 80, a crimping barrel 83, and a crimping barrel 84 in this order in addition to the substantially annular fitting portion 72 provided in the front. The crimping piece 80 is for crimping the core wire 14 of the coaxial cable 10, the crimping barrel 83 is for crimping the outer conductor 12, and the crimping barrel 84 is for crimping the outer cover 11.

The fitting portion 72 is connected to the scoop-shaped mounting portion 74 through the bent piece 74a provided at the front end. The conductor shell 70 can be bent with respect to the mounting portion 74 around the bent piece 74a.

The crimp pieces 80 are formed in pairs corresponding to the pressing portions 50. These crimping pieces 80A and 80B forming a pair are provided on the opposite sides of the core wire 14 installed in the installation portion 24, respectively. The crimp pieces 80A and 80B can be bent toward the pressing portions 50A and 50B of the housing 40. By bending the crimping pieces 80A and 80B, the pressing portions 50A and 50B can be crimped and fixed to the core wire 14 with the core wire 14 sandwiched between the pressing portions 50A and 50B and the installation portion 24.

The core wires 14 are made visible by communicating with the windows 60A and 60B of the pressing portions 50A and 50B through the edges 87A and 87B of the crimping pieces 80A and 80B that are abutted against each other when bent toward the pressing portions 50A and 50B. Windows 81A and 81B are provided, respectively. Similar to the windows 60A and 60B of the pressing portions 50A and 50B, these windows 81A and 81B are sandwiched between the crimping pieces 80A and 80B and the installation portion 24 when bent toward the pressing portions 50A and 50B. It is provided on the side opposite to the installation portion 24 with respect to the core wire 14. The windows 81A and 81B may be notched, for example. The user can confirm the connection state of the core wire 14 through these windows 81A and 81B. When the pair of pressing portions 50A and 50B are bent toward the installation portion 24, these windows 81A and 81B are connected in the width direction "β" of the core wire 14 installed in the installation portion 24. In this way, the windows can be made larger by connecting the two windows 81A and 81B. The crimping piece may be removed around the windows 60A and 60B of the pressing portions 50A and 50B without providing the window 80 on the crimping piece 80. However, by providing the windows 80A and 80B, the conductor shell can be attached around the windows 60A and 60B of the pressing portions 50A and 50B to further strengthen the crimping force.

As is often shown in FIGS. 5 and 6, when the pair of crimp pieces 80A and 80B are bent toward the installation portion 24, the edges 87A and 87B of the pair of crimp pieces 80A and 80B do not interfere with each other. , It is preferable to provide a predetermined distance between them. By preventing the pressure-bonding pieces 80A and 80B from interfering with each other, it is possible to reduce the generation of dust such as metal pieces generated by their interference. Further, in order to shorten the length at which the edges 87A and 87B are abutted, the edges 87A and 87B may be provided with a small notch 85 similar to the window 81. By reducing the length at which the crimping pieces 80A and 80B are butted against each other, the possibility that the crimping pieces 80A and 80B interfere with each other can be reduced, and the generation of dust such as metal pieces that can be generated by the interference can be reduced. it can.

The crimp barrel 83 is annularly crimped to the outer conductor 12. In order to strengthen the crimping force, the protrusion 83a may be provided so as to project inward of the crimping barrel 83. The crimping barrel 83A may be provided with a concave portion 83b, and the crimping barrel 83B may be provided with a convex portion 83c so that an excessive force is not applied, and the inner diameter when these are combined may be adjusted.

The crimp barrel 84 is annularly crimped to the outer cover 11. Similar to the crimping barrel 83, a protrusion 84a projecting inward of the crimping barrel 84 may be provided in order to strengthen the crimping force.

As is well shown in FIG. 2, when assembling the coaxial connector device 1, the integrally molded terminal 20 and housing 40 and the coaxial cable 10 are incorporated into the conductor shell 70 in this order. The installation is performed along the fitting / removing direction “γ” between the coaxial connector device 1 and the coaxial connector 9 on the substrate side.

First, the integrally molded terminal 20 and the housing 40 are installed in the conductor shell 70. At this time, in the recess 66a formed around the substantially inverted trapezoidal portion 66 (see FIGS. 2, 9, 11, and 13) of the housing 40, a pair of substantially inverted C-shaped conductor shells 70 are formed. The raised portions 86A and 86B are fitted so that the housing 40 is positioned at a predetermined position of the conductor shell 70. The substantially inverted trapezoidal portion 66 (see FIGS. 2, 9, 11, and 13) of the housing 40 is located on the side of the main body 46 of the housing 40 opposite to the side on which the pressing portion 50 is provided with respect to the installation portion 24. It is formed by providing a recess 66a. Further, the pair of raised portions 86A and 86B of the conductor shell 70 are arranged between the pair of crimping pieces 80A and 80B of the conductor shell 70 in the width direction "β" of the core wire 14 installed in the installation portion 24. The free ends 86b of the tongue pieces formed by cutting out the flat bottom plate 82 in a substantially U shape are directed toward the installation side of the housing 40 near the root 86a, and the free ends 86b of the tongue pieces are at the tips. It is formed by standing at an angle so that it separates from each other as it faces.

Next, the fitting portion 72 is bent toward the annular protrusion 44 of the housing 40 around the bent piece 74a connected to the mounting portion 74. FIG. 2 shows a state in which the fitting portion 72 is already bent, but at the time of actual assembly, the fitting portion 72 is placed on the mounting portion 74 after the circular portion 47 of the housing 40 is installed on the mounting portion 74. Bend to the side.

After that, the coaxial cable 10 is arranged at a predetermined position on the housing 40 and the conductor shell 70, and the crimp piece 80, the crimp barrel 83, and the crimp barrel 84 of the conductor shell 70 are bent or crimped, respectively. The window 60 provided in the housing 40 and the window 81 provided in the crimping piece 80 are installed with respect to the core wire 14 sandwiched between the pressing portion 50 and the installation portion 24 when the pressing portion 50 is bent toward the installation portion 24. Since it is provided on the side opposite to the portion 24, according to this configuration, it is possible to check the connection state of the core wire 14 without turning over the device during the connection work.

The configuration of the housing 40 will be described in more detail with reference to FIGS. 2 and 7.
The pair of pressing portions 50A and 50B provided on the main body 46 of the housing 40 each have a substantially rectangular shape from the front to the rear along the extending direction "α" of the core wire 14 installed in the installation portion 24. The front portions 54A and 54B, the recessed windows 60A and 60B, and the flat plate-shaped covering portions 55A and 55B are provided in this order. Covers 55A and 55B extend rearward and extend above the rear standing walls 59A and 59B.

The front portions 54A and 54B are arranged closer to the tip 14a of the core wire 14 than the windows 60A and 60B in the extension direction "α" of the core wire 14 installed in the installation portion 24. As a result, the tip 14a side of the core wire 14 which is likely to vary can be crimped by the pressing surfaces 52A and 54B of the front portions 54A and 54B, and the core wire 14 can be prevented from protruding to the outside through the window 60. It has become like. When the pressing portions 50A and 50B are bent toward the installation portion 24 in the "β1" direction shown in the drawing, the front portions 54A and 54B are press-fitted into the press-fitting projections 41 provided on the neck portion 48. In order to make the press-fitting smooth, it is preferable to provide the press-fitting protrusion 47 with a taper 41a for guiding the front portions 54A and 54B.

The front portions 54A and 54B and the covering portions 55A and 55B are abutted surfaces 51A, which are abutted against each other in the "β" direction when the pressing portions 50A and 50B are bent toward the installation portion 24 in the "β1" direction, respectively. 51B can be configured. These butt surfaces 51A and 51B may be formed as contact surfaces. By making the butt surfaces 51A and 51B contact surfaces that come into contact with each other, the contact state of the pressing portions 50A and 50B can be maintained with a predetermined force regardless of the conductor shell 70.

A convex portion 56A protruding from the butt surface 51A is provided on the bottom surface side of the covering portion 55A. When the pressing portions 50A and 50B are bent toward the installation portion 24, the convex portion 56A protrudes toward the mating portion 50B in the butt direction "β" from the butt surface 51A of the covering portion 55A, and is on the mating side. It may project beyond the butt surface 51B of the pressing portion 50B toward the pressing portion 50B on the other side.

Similarly, convex portions 56B and 56B'protruding from the butt surface 51B are provided on the bottom surface side of the covering portion 55B. These convex portions 56B and 56B'are closer to the other pressing portion 50A in the butt direction "β" than the butt surface 51B in the covering portion 55B when the pressing portions 50A and 50B are bent toward the installation portion 24. It may project beyond the butt surface 51A of the pressing portion 50A on the other side and project toward the pressing portion 50A on the other side.

By providing these convex portions 56A, 56B, 56B', when the pressing portions 50A, 50B are bent toward the installation portion 24, the pressing portion 14 installed in the installation portion 24 is pressed in the width direction "β". By increasing the length of the pressing surface 52 of the portion 50, the core wire 14 can be more reliably crimped.

The convex portions 56A, 56B, 56B'can form pressing surfaces 52A, 52B, 52B facing the installation portion 24 in the "γ" direction when the pressing portions 50A, 50B are bent toward the installation portion 24, respectively. .. When the pressing portions 50A and 50B are bent toward the installation portion 24, the core wire 14 installed in the installation portion 24 is placed between the pressing surfaces 52A and 52B of the pressing portions 50A and 50B and the installation portion 24. Be sandwiched. By using a part of the convex portions 56A, 56B, 56B'as the pressing surfaces 52A, 52B in this way, the core wire 14 can be more effectively crimped.

Corresponding to the convex portion 56A, the concave portion 58B that meshes with the convex portion 56A is provided on the butt surface 51B of the pressing portion 50B on the mating side. When the pressing portions 50A and 50B are bent toward the installation portion 24, the recess 58B is recessed in a direction away from the butt surface 51A of the covering portion 55A in the butt direction "β" than the butt surface 51B of the covering portion 55B. I'm sorry.

Similarly, the concave portions 58A and 58A'that mesh with the convex portions 56B and 56B'are provided on the butt surface 51A of the pressing portion 50A on the mating side corresponding to the convex portions 56B and 56B'. The recesses 58A and 58A'are separated from the butt surface 51B in the covering portion 55B in the butt direction "β" than the butt surface 51A in the covering portion 55A when the pressing portions 50A and 50B are bent toward the installation portion 24. It is dented in the direction.

The convex portions 56A, 56B, 56B'and the concave portions 58B, 58A, 58A' are engaged with each other when the pressing portions 50A, 50B are bent toward the installation portion 24, whereby the device can be further miniaturized. it can.

The recess 58B may be formed as a recess portion that is recessed toward the side away from the pressing surface 52B of the pressing portion 50B with the pressing surface 52B side of the pressing portion 50B open.
Similarly, the recesses 58A and 58A'are formed as recesses that are recessed toward the side away from the pressing surface 52A of the pressing portion 50A with the pressing surface 52A side of the pressing portion 50A open. You may.
By forming the recesses 58B, 58A, 58A'as recesses with the pressing surfaces 52B, 52A side open, when the pressing portions 50A, 50B are bent toward the installation portion 24, the convex portions 56A, 56B, 56B 'Can be positioned on the same side as the pressing surfaces 52B, 52A or closer to the installation portion 24 than the pressing surfaces 52B, 52A.

In this case, the convex portions 56A, 56B, 56B'are provided with tapers 65A, 65B, 65B'that approach the pressing surfaces 52A, 52B of the pressing portions 50A, 50B toward the tips 56a of the convex portions 56A, 56B, 56B'. Is preferable. By providing the tapers 65A, 65B, 65B', when the convex portions 56A, 56B, 56B' and the concave portions 58B, 58A, 58A' are engaged, the convex portions 56A, 56B, 56B'collide with the pressing portion on the other side. You can reduce the risk of doing so.

Of course, the number of protrusions and recesses is not limited to that of the embodiment, but it is preferable that these are arranged alternately. By arranging the convex portions and the concave portions alternately, the core wire 14 can be more reliably crimped at a plurality of locations along the extending direction "α" of the core wire 14 installed in the installation portion 24. Further, the window 60 may be provided at any position, not limited to the illustrated example. The window 60 can be arranged adjacent to one or more convex portions and / or one or more concave portions in the extension direction “α” of the core wire 14 installed in the installation portion 24.

The crimping process of the core wire 14 will be described with reference to FIGS. 8 to 13. FIG. 8 is a sectional view taken along line AA of FIG. 4, and FIG. 9 is a sectional view taken along line BB of FIG. 4, both showing the state of the coaxial connector device 1 immediately after the coaxial cable 10 is installed. There is. On the other hand, FIG. 12 is a sectional view taken along line AA of FIG. 6, and FIG. 13 is a sectional view taken along line BB of FIG. 6, both of which show the state of the coaxial connector device 1 after the assembly is completed. FIG. 10 is a cross-sectional view corresponding to FIGS. 8 and 12, and FIG. 11 is a cross-sectional view corresponding to FIGS. 9 and 13, showing the state of these intermediate stages.

As is clear from FIGS. 8 and 9, when the coaxial cable 10 is installed in the installation portion 24, the pressing portions 50A and 50B are both in the open position. After the coaxial cable 10 is installed in the installation portion 24, the crimp pieces 80A and 80B of the conductor shell 70 are shown toward the pressing portions 50A and 50B, respectively, as shown in FIGS. 10 and 11, using a jig or the like. It is bent in the "β1" direction, and as a result, the pressing portions 50A and 50B of the housing 40 are bent toward the installation portion 24 about the support pieces 53A and 53B, respectively, through contact with the crimping pieces 80A and 80B. At this time, the convex portion 56A of the pressing portion 50A is the concave portion 58B of the pressing portion 50B, the convex portion 56B'of the pressing portion 50B is the concave portion 58A'of the pressing portion 50A, and the convex portion 56B of the pressing portion 50B is the pressing portion. It is meshed with the recess 58A of 50A. As a result, the crimping surfaces 52A and 52B of the convex portions 56A, 56B'and 56B reach the core wires 14 installed in the installation portion 24, and as shown in FIGS. 12 and 13, the core wires 14 are the crimping pieces 80A and 80B. It is sandwiched between the installation unit 24 and the installation unit 24. By providing the convex portion 56 in this way, the length of the pressing surface 52A of the pressing portion 50 in the width direction "β" of the core wire 14 installed in the installation portion 24 is increased, and the core wire 14 is more reliably made. Can be crimped.

As shown in FIGS. 9 and 13, when the pressing portion 50 is bent toward the installation portion 24, a gap “d” is formed between the pressing surface 52 of the pressing portion 50 and the installation portion 24. It is preferable to do. By providing such a gap, it becomes possible to correspond to core wires having various diameters.

14 and 15 show modified examples of the embodiment shown in FIG. 1 and the like. 14 and 15 correspond to FIGS. 3 and 5, respectively. In these figures, the same members as those in FIG. 1 and the like are given the same reference numbers. In addition, the changed member is given the letter "C". It can be considered that the points not particularly described are substantially the same as those of the previous embodiment. In this modification, the pressing portion 50C is provided only on one side facing the core wire 14 installed in the installation portion 24. In order to crimp the core wire 14 in a wider range, the pressing portion 50C is set longer than the pressing portions 50A and 50B shown in FIG. The window 60C is provided only on the pressing portion 50C.

FIG. 16 shows another modification of the embodiment shown in FIG. 1 and the like. This figure is a perspective view corresponding to FIGS. 3 and 14. The main difference from the previous embodiment is that the crimping piece 89A is separated into the crimping piece 89Aa and the crimping piece 89Ab by a large notch 88A in the extension direction "α" of the coaxial cable. The crimping piece 89B is separated into a crimping piece 89Ba and a crimping piece 89Bb by a large notch 88B. In this figure, the same members as those in FIG. 1 and the like are designated by the same reference numbers. It can be considered that the points not particularly described are substantially the same as those of the previous embodiment.

When the crimp piece 89 is bent toward the housing 40 in the "β1" direction, the crimp pieces 89Aa and 89Ba may interfere with the holding portion 67 of the housing 40, so that the crimp pieces 89 may not be sufficiently bent. is there. In this case, the crimping pieces 89Aa and 89Ba are crimped in a slightly floating state in the direction away from the housing 40. If the crimping piece 89Aa and the crimping piece 89Ab and the crimping piece 89Ba and the crimping piece 89Bb are not sufficiently separated, the crimping pieces 89Ab and 89Bb are also affected by the crimping pieces 89Aa and 89Ba and are in an insufficient state. It will be crimped. In order to prevent this, a relatively large window, that is, notches 88A and 88B extending to the side surface when the crimp piece 80 is bent to form a box shape is provided, and the independence of each crimp piece 89 with respect to the bending function. To solve such problems. According to this configuration, at least the crimp pieces 89Ab and 89Bb can be bent toward the housing 40 at a sufficient bending angle without being affected by the interference with the holding portion 67.

Of course, the present invention is not limited to the above-described embodiment, and various other modifications can be made.

1 Coaxial connector device on the cable side 9 Coaxial connector on the board side 10 Coaxial cable 14 Core wire 20 Terminal 24 Installation unit
40 Housing 50 Pressing part 51 Butt surface 52 Pressing surface 53 Support piece 60 Window 70 Conductor shell 80, 80 Crimping piece 81 Window 83 Crimping barrel

Claims (14)

With terminals
A housing that supports the terminals and
A conductor shell that covers the outside of the housing.
The terminal has an installation portion on which the core wire of the coaxial cable is installed.
The housing has a pressing portion that is foldable toward the installation portion.
The pressing portion is transparent so that the core wire can be visually recognized on the side opposite to the installation portion with respect to the core wire sandwiched between the pressing portion and the installation portion when bent toward the installation portion. have a window is a hole in a state of penetrating the pressing portion intermediate of the pressing portion in the direction along the installation direction of the core wire,
The conductor shell has a crimping piece provided so as to be bendable toward the pressing portion, and the crimping piece is between the crimping piece and the installation portion when bent toward the pressing portion. On the side opposite to the installation portion with respect to the sandwiched core wire, a window, which is a through hole that communicates with the window of the pressing portion and makes the core wire visible, is pressed in a direction along the installation direction of the core wire. It is held in a state where the crimping piece is penetrated in the middle of the portion.
The pair of pressing portions is composed of a pair of pressing portions, the windows are provided on both sides of the pair of pressing portions, and when the pair of pressing portions are bent toward the installation portion, the pair of pressing portions A coaxial connector characterized in that the windows provided in the pressing portion are connected in the width direction of the core wire installed in the installation portion . The pressing portion is coaxial connector according to claim 1 to form a gap between the pressing surface of the pressing portion and the installation portion when folded toward the installation part. The coaxial connector according to claim 1 or 2 , wherein the pressing portion comprises a pair of pressing portions provided on the opposite sides of the core wire installed in the installation portion. Each of the pair of pressing portions has an abutting surface that abuts against each other when bent toward the installation portion.
The coaxial connector according to claim 3 , wherein the butt surface of at least one pressing portion is provided with a convex portion that protrudes toward the pressing portion on the other side beyond the butt surface of the pressing portion on the other side. The coaxial connector according to claim 4 , wherein a part of the convex portion is formed by a pressing surface of the pressing portion. The coaxial connector according to claim 4 or 5 , wherein a concave portion that meshes with the convex portion is provided on the abutting surface of the pressing portion on the other side corresponding to the convex portion. The coaxial connector according to claim 6 , wherein the recess is a recess that is recessed from the pressing surface of the pressing portion toward the side away from the pressing surface. The coaxial connector according to claim 7 , wherein the convex portion is provided with a taper that approaches the pressing surface of the pressing portion toward the tip of the convex portion. Each of the pressing portion of the pair, the projections and / or the recess, the installation unit according to claim 6 or are arranged in a plurality and / or alternately in the extending direction of the core wire to be installed in 8 Coaxial connector described in any of. The window is in the extending direction of the core wire that is installed in the installation portion, one or more of the protrusions, and / or, claim 6 which is arranged adjacent to the one or more of the recesses 9. The coaxial connector according to any one of 9 . The coaxial connector according to any one of claims 4 to 10 , wherein a pressing surface of the pressing portion is provided on the tip end side of the core wire with respect to the window in the extending direction of the core wire installed in the installation portion. .. The coaxial connector according to any one of claims 4 to 11 , wherein the butt surface is a contact surface. With terminals
A housing that supports the terminals and
A conductor shell that covers the outside of the housing and
With coaxial cable,
The terminal has an installation portion on which the core wire of the coaxial cable is installed.
The housing has a pressing portion that is bent toward the installation portion.
The pressing portion has a window, which is a through hole for making the core wire visible on the side opposite to the installation portion with respect to the core wire sandwiched between the pressing portion and the installation portion, in the installation direction of the core wire. the pressing portion possess while penetrating middle of the pressing portion in the direction along the,
The conductor shell has a crimping piece provided so as to be bendable toward the pressing portion, and the crimping piece is between the crimping piece and the installation portion when bent toward the pressing portion. On the side opposite to the installation portion with respect to the sandwiched core wire, a window, which is a through hole that communicates with the window of the pressing portion and makes the core wire visible, is pressed in a direction along the installation direction of the core wire. It is held in a state where the crimping piece is penetrated in the middle of the portion.
The pair of pressing portions is composed of a pair of pressing portions, the windows are provided on both sides of the pair of pressing portions, and when the pair of pressing portions are bent toward the installation portion, the pair of pressing portions A coaxial connector device characterized in that the windows provided in the pressing portion are connected in the width direction of the core wire installed in the installation portion . The coaxial connector according to claim 1 or the coaxial connector device according to claim 13, wherein the window of the conductor shell is larger than the window of the pressing portion.

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