JP2021086761A - Coaxial connector - Google Patents

Abstract

PURPOSE: To suppress variations in impedance of a terminal of a coaxial connector.CONSTITUTION: A coaxial connector C1 includes: a terminal 300; a body 200 for holding the terminal; and a shell 100 for accommodating the body 200 and the terminal 300. The terminal 300 has a cylindrical portion 310 extending in a Y-Y' direction and a tail portion 320 extending in the Y-Y' direction at a Y' direction side of the cylindrical portion 310. A first portion 110 of the shell 100 is a cylindrical shape substantially similar to the cylindrical portion 310 extending in the Y-Y' direction and houses the cylindrical portion 310 therein. A second portion 120 of the shell 100 extends in the Y-Y' direction and is disposed around the tail portion 320. In a first sectional view of the first portion of the coaxial connector C1, a plurality of first distances R1 in different directions from each other from the cylindrical portion 310 to the first portion 110 is substantially same. In a second sectional view of a second portion of the coaxial connector C1, a plurality of second distances in different directions from each other from the tail portion 320 to the second portion 120 is substantially same.SELECTED DRAWING: Figure 2A

Description

The present invention relates to a coaxial connector.

Patent Document 1 describes a conventional coaxial connector. The coaxial connector includes a tubular shell, an insulating body housed in the shell, terminals held in the body, and a conductive enclosing member. The terminal has a tubular connecting portion connected to the terminal of the mating connector and a crimping portion. The crimping portion has a substantially U-shaped cross section in the vertical direction, is wound around the signal conductor of the coaxial cable, and is crimped. In this crimped state, the crimped portion has a substantially O-shaped cross section in the vertical direction. The surrounding member has a substantially U-shaped cross section that is upside down in the vertical direction, and is externally fitted to the crimped portion in the crimped state from the upward side.

Japanese Unexamined Patent Publication No. 2010-049855

Since the surrounding member is fitted onto the crimping portion from the upward side in this way, the distance from the surrounding member to the shell in the upward direction and the distance from the crimping portion to the shell in the downward direction do not match. For this reason, the impedance of the terminal fluctuates at the crimping portion and the surrounding member portion of the terminal.

The present invention provides a coaxial connector capable of suppressing fluctuations in the impedance of terminals.

The coaxial connector of one aspect of the present invention includes a terminal, a body that holds the terminal, and a shell that houses the body and the terminal. The terminal has a tubular portion extending in the first direction and a tail portion located on one side of the tubular portion in the first direction and extending in the first direction. The shell has a tubular first portion extending in the first direction and at least one second portion extending in the first direction. The first part houses the cylinder part inside the cylinder part and has a shape substantially similar to the cylinder part. At least one second part is arranged around the tail part of the terminal.

In the first cross-sectional view of the tubular portion and the portion having the first portion of the coaxial connector in the second direction and the third direction, it is assumed that the plurality of first distances from the tubular portion to the first portion in different directions are substantially the same. good. In the second and third cross-sectional views of the tail portion of the coaxial connector and the portion having at least one second portion, a plurality of second distances in different directions from the tail portion to at least one second portion. Should be about the same. It is preferable that the second direction is substantially orthogonal to the first direction and the third direction is substantially orthogonal to the first direction and the second direction.

In the case of the coaxial connector of such a mode, not only the plurality of first distances are substantially the same, but also the plurality of second distances are substantially the same, so that the possibility of impedance fluctuation at the tail portion of the terminal is reduced. it can.

The tail portion may be arranged on a virtual line extending along the central axis of the tubular portion, but the tail portion is not limited to this.

At least one second part of the shell can be plural. It is preferable that the plurality of second parts are arranged at intervals with respect to the tail part. In this case, the second distance may be the distance from the tail portion of the terminal to the plurality of second portions in the second cross-sectional view.

Alternatively, at least one second part of the shell can be one. In this case, the second part may be tubular.

The terminal can be configured to further have an inclined portion or an orthogonal portion located between the tubular portion and the tail portion. The inclined portion can be configured to be inclined so that the tail portion is located at a position where the plurality of second distances are substantially the same. The orthogonal portion can be configured to extend in the second direction so that the tail portion is located at a position where the plurality of second distances are substantially the same.

The terminal can be configured to further have an impedance adjusting portion located between the tubular portion and the tail portion. The impedance adjusting portion can be configured to further include a recess and first and second adjusting portions on both sides of the recess. The recess can be configured to be open to one side in the first direction and to have a bottom on the other side in the first direction. The inclined portion or the orthogonal portion can be configured to extend from the bottom portion of the recess to the tail portion. The first and second adjusting portions of the impedance adjusting portion can be configured to be adjacent to each other on both sides of the inclined portion or the orthogonal portion.

The terminal can be configured to further have a flat plate portion located between the tubular portion and the tail portion. The flat plate portion can be configured to have first and second end portions. The first and second end portions can be configured to be located on both sides of the tail portion when viewed from one side in the first direction. The flat plate portion may also serve as an impedance adjusting portion, but the present invention is not limited to this.

The body can be configured to extend in the first direction and have a holding hole open in one of the first directions. The tubular portion of the terminal can be configured to be housed in the holding hole from one side in the first direction. Alternatively, the tubular portion of the terminal may be configured to be embedded in the body. In this case, the holding hole is omitted.

The terminal can be configured to further have a first and second pressed portion. The first and second pressed portions can be configured to be located on both sides of the cylinder portion and the tail portion when viewed from one side in the first direction.

When the terminal has the first and second pressed portions and the flat plate portion, the first and second end portions of the flat plate portion have a projected area of the first and second end portions from one side in the first direction. It is possible to configure the second pressed portion so as not to partially overlap the projected area from one side in the first direction.

The body can be configured to have an edge of a holding hole. The terminal can be configured to further have at least one stopper. The at least one stopper extends from at least one of the first and second pressed portions in a direction substantially orthogonal to the first direction, and is located outside the tubular portion when viewed from one side of the first direction. It is possible to The at least one stopper may be configured to abut on the edge of the holding hole from one side in the first direction.

It is a perspective view which showed from the front surface, the plane and the right side surface of the coaxial connector which concerns on Example 1 of this invention. It is a perspective view shown from the back surface, the bottom surface and the left side surface of the coaxial connector of the first embodiment. It is a cross-sectional view of 2A-2A in FIG. 1A of the coaxial connector of Example 1. FIG. It is a cross-sectional view of 2B-2B in FIG. 1A of the coaxial connector of Example 1. FIG. It is a cross-sectional view of 2C-2C in FIG. 1A of the coaxial connector of Example 1. FIG. It is a 2D-2D enlarged sectional view in FIG. 2A of the coaxial connector of Example 1. FIG. It is an enlarged sectional view of 2E-2E in FIG. 2A of the coaxial connector of Example 1. FIG. FIG. 5 is an exploded perspective view showing the front, plane, and right side of the coaxial connector of the first embodiment. It is an exploded perspective view which showed from the back surface, the plane and the left side surface of the coaxial connector of Example 1. FIG. It is an exploded perspective view shown from the back surface, the bottom surface and the left side surface of the coaxial connector of the first embodiment. It is a schematic enlarged end view corresponding to FIG. 2C of the design modification example of the coaxial connector of Example 1. FIG. It is a schematic enlarged end view corresponding to FIG. 2D of the coaxial connector of the said design modification example. It is an enlarged rear view of the coaxial connector which concerns on Example 2 of this invention.

Hereinafter, Examples 1 and 2 of the present invention and examples of design modification thereof will be described. It should be noted that the components of the examples and the design modification described later can be combined with each other as long as they do not contradict each other. Further, the materials, shapes, dimensions, numbers, arrangements, etc. constituting each component in each aspect of the embodiment and the design modification described later are described as examples thereof, and are arbitrary as long as the same function can be realized. It should also be noted that the design can be changed to.

Hereinafter, the coaxial connector C1 according to the first embodiment of the present invention and a plurality of embodiments including the design modification examples thereof will be described with reference to FIGS. 1A to 3C. 1A to 3C show the coaxial connector C1 of the first embodiment. 1A to 1B and 3A to 3C show the YY'direction (first direction), the ZZ'direction (second direction), and the XX'direction (third direction). Has been done. The Y-Y'direction includes the Y'direction (one of the first directions) and the Y direction (the other of the first directions). The ZZ'direction is substantially orthogonal to the YY'direction and includes the Z direction and the Z'direction. The XX'direction is substantially orthogonal to the YY'direction and the ZZ'direction and includes the Z direction and the Z'direction.

The coaxial connector C1 includes a conductive terminal 300. The terminal 300 may be made of a press-molded metal plate, a cast metal, or a metal made by a 3D printer. The outer surface of the terminal 300 may be plated, but the terminal 300 is not limited to this. The terminal 300 has a tubular portion 310 and a tail portion 320.

The tubular portion 310 has a tubular shape (for example, a cylindrical shape or a polygonal tubular shape) and extends in the YY'direction. The tubular portion 310 may or may not be provided with a notch and / or a protrusion in a part thereof. The tubular portion 310 has a first end on the Y'direction side and a second end on the Y direction side. The first end and the second roll are annular (eg, annular or polygonal annular). The YY'direction corresponds to the longitudinal direction of the tubular portion 310.

The tail portion 320 is a flat plate extending in the YY'direction or a columnar or prismatic rod extending in the YY'direction. The tail portion 320 may be arranged on a virtual line α (see FIGS. 2A to 2C) extending along the central axis of the tubular portion 310. The tail portion 320 may be displaced from the virtual line α. For example, the tail portion 320 may be arranged slightly on the Z direction side or the Z'direction side with respect to the virtual line α.

The terminal 300 may further have a first pressed portion 330a and a second pressed portion 330b. The first pressed portion 330a and the second pressed portion 330b are located between the tubular portion 310 and the tail portion 320 in the YY'direction. The first pressed portion 330a and the second pressed portion 330b may be directly connected to the first end of the tubular portion 310, or may be directly connected to the first end of the tubular portion 310, or another one or a plurality of parts of the terminal 300 may be connected to the first end of the tubular portion 310. It may be indirectly connected via. For example, a substantially half-cylinder in which the terminal 300 is connected to a portion of the first end of the tubular portion 310 on the Z'direction side, and a first, which rises in the Z direction from the first and second ends of the substantially half-cylinder. It is possible to have a configuration having a second leg portion. In this case, the first pressed portion 330a is composed of at least a part of the first leg portion and the first end portion of the substantially half cylinder connected thereto, and the second pressed portion 330b is formed of at least a part of the second leg portion and the second leg portion. It may be composed of the second end portion of a substantially half cylinder connected thereto (see FIGS. 2A to 2C and FIGS. 3A to 3C). In either aspect, the first pressed portion 330a and the second pressed portion 330b are located on both sides of the tail portion 320 when viewed from the Y'direction side. In other words, the first pressed portion 330a is located on the X direction side with respect to the tail portion 320, and the second pressed portion 330b is located on the X direction side with respect to the tail portion 320.

The terminal 300 may further have at least one stopper 350. At least one stopper 350 extends in the Z direction from at least one of the first pressed portion 330a and the second pressed portion 330b. At least one stopper 350 is arranged outside the tubular portion 310 when viewed from the Y'direction side. In other words, at least one stopper 350 is located on the Z direction side with respect to the tubular portion 310.

In FIGS. 2A to 2C and FIGS. 3A to 3C, the first pressed portion 330a is composed of a portion of the first leg portion on the Z'direction side and a first end portion of a substantially half cylinder connected thereto, and is a second cover. The pressing portion 330b is composed of a portion of the second leg portion on the Z'direction side and a second end portion of a substantially half cylinder connected to the pressing portion 330b, and there are two stoppers 350 in the Z direction of the first leg portion. It is composed of a side portion and a portion on the Z direction side of the second leg portion. The first pressed portion 330a, the second pressed portion 330b, and / or at least one stopper 350 can be omitted.

The terminal 300 may further have a flat plate portion 340. The flat plate portion 340 is a plate extending in the YY'direction and the XX'direction, and may be located between the tubular portion 310 and the tail portion 320 in the YY'direction. The flat plate portion 340 may be directly connected to the first end of the tubular portion 310, may be directly connected to the half cylinder, or may be directly connected to the first end of the tubular portion 310 or the half cylinder of the terminal 300. It may be indirectly connected via another one or more parts. In FIGS. 2A to 2C and FIGS. 3A to 3C, the terminal 300 further has a connecting portion 380 connected to a portion between the first and second ends of the semi-cylinder, and the flat plate portion 340 has a flat plate portion 340. It is connected to the connecting portion 380.

The flat plate portion 340 has a first end portion 341a and a second end portion 341b. The first end portion 341a and the second end portion 341b are located on both sides of the tail portion 320 when viewed from the Y'direction side. In other words, the first end portion 341a is located on the X direction side with respect to the tail portion 320, and the second end portion 341b is located on the X'direction side with respect to the tail portion 320. The end surface of the first end portion 341a on the X direction side is located on the X direction side of the tubular portion 310 when viewed from the Y'direction side, and the end surface of the second end portion 341b on the X direction side is from the Y'direction side. It may be located on the X'direction side of the tubular portion 310, but the present invention is not limited to this. When the terminal 300 is made of a press-molded metal plate, after the metal plate is press-molded, the first end portion 341a and the second end portion 341b are formed in the Y'direction from the end face on the Y direction side thereof. It is possible to have a configuration in which each extended carrier is separated. In this case, the end faces of the first end portion 341a and the second end portion 341b on the Y'direction side are carrier cut surfaces. In this way, even if the carriers extend in the Y'direction from the end faces of the first end portion 341a and the second end portion 341b on the Y'direction side in the process of creating the terminal 300, the first end portion 341a and the second end portion 341a and the second Since the end portions 341b are located on both sides of the tail portion 320 when viewed from the Y'direction side, the carrier does not interfere with the tail portion 320. When the outer surface of the terminal 300 is plated, the plating treatment is performed by performing the plating treatment in a state where the carriers are connected to the end faces of the first end portion 341a and the second end portion 341b on the Y'direction side. It becomes easy and the entire tail portion 320 can be plated. The end faces of the first end portion 341a and the second end portion 341b of the flat plate portion 340 on the Y'direction side are not limited to the carrier cut surface. Further, the flat plate portion 340 and / or the connecting portion 380 can be omitted.

When the terminal 300 has the first pressed portion 330a, the second pressed portion 330b, and the flat plate portion 340, the projected area of the first end portion 341a and the second end portion 341b of the flat plate portion 340 from the Y'direction side is large. The first end portion 341a and the second end portion 341b of the flat plate portion 340 are arranged so as not to partially overlap the projected area of the first pressed portion 330a and the second pressed portion 330b from the Y'direction side. It is good to have it. For example, the first end portion 341a and the second end portion 341b are on the Z direction side or the Z'direction side with respect to the first pressed portion 330a and the second pressed portion 330b (FIGS. 2A to 2C and 3A to 3A to FIGS. 3A to 3A. 3C) may be arranged, the first end portion 341a is arranged on the X direction side with respect to the first pressed portion 330a, and the second end portion 341b is X'with respect to the second pressed portion 330b. It may be arranged on the directional side.

The terminal 300 may further have an inclined portion 360 or an orthogonal portion (not shown). The inclined portion 360 or the orthogonal portion is located between the tubular portion 310 and the tail portion 320. The inclined portion 360 or the orthogonal portion may be directly connected to the first end of the tubular portion 310, may be directly connected to the half cylinder, or may be directly connected to the connecting portion 380. , It may be directly connected to the flat plate portion 340, or may be indirectly connected to the first end of the tubular portion 310 or the half cylinder via another one or a plurality of parts of the terminal 300. In this case, the tail portion 320 may be directly connected to the end of the inclined portion 360 or the orthogonal portion in the Y'direction, or may be indirectly connected via another one or a plurality of portions of the terminal 300. Is also good. In any case, the inclined portion 360 extends in the oblique direction including the components in the Z direction and the Y'direction, and the orthogonal portion extends in the ZZ' direction.

The flat plate portion 340 may also serve as an impedance adjusting portion. In this case, the flat plate portion 340 may further have a recess 342. The recess 342 is provided between the first end portion 341a and the second end portion 341b of the flat plate portion 340 and is open to the Y'direction side. The recess 342 has a bottom portion on the Y direction side. The inclined portion 360 or the orthogonal portion extends from the bottom portion to the tail portion 320. The portions (hereinafter, the first and second adjusting portions) located on both sides of the recess 342 of the first end portion 341a and the second end portion 341b are arranged adjacent to both sides of the inclined portion 360 or the orthogonal portion. In other words, the first adjusting portion is arranged on the X direction side with respect to the inclined portion 360 or the orthogonal portion, and the second adjusting portion is arranged on the X'direction side with respect to the inclined portion 360 or the orthogonal portion. As a result, the impedance of the inclined portion 360 or the orthogonal portion can be increased. Further, since the first and second adjusting portions are located in the vicinity of the tail portion 320, the impedance of the tail portion 320 can also be increased. The flat plate portion 340 can be omitted.

When the flat plate portion 340 is omitted, the terminal 300 can be configured to have an impedance adjusting portion. The impedance adjusting portion can have the same configuration as the flat plate portion 340 described above, except that the plate extends in the YY and XX directions. The flat plate portion 340 and the impedance adjusting portion may coexist. The impedance adjustment unit can also be omitted.

The terminal 300 may be configured to further include a plurality of arms 370. The plurality of arms 370 extend in the Y direction from the second end of the tubular portion 310. When the plurality of arms 370 are two, it is preferable that they face each other in the XX'direction or the ZZ'direction. When the plurality of arms 370 are three or more, it is preferable that the arms 370 are arranged at the second end of the tubular portion 310 at intervals in the circumferential direction. In each case, the plurality of arms 370 are gradually inclined downward in the Y direction. Between the plurality of arms 370, the tip of the terminal of the mating connector (not shown) can be inserted and removed from the Y direction side. With the tip of the terminal of the mating connector inserted between the plurality of arms 370, the arm 370 elastically contacts the tip. The arm 370 can be omitted. In this case, it is preferable that the tip end portion of the terminal of the mating connector is inserted into the tubular portion 310 of the terminal 300 and is in elastic contact.

The coaxial connector C1 further includes a body 200 that holds any of the above terminals 300. The body 200 is made of an insulating resin. The body 200 has a main body 210. The main body 210 is a columnar (cylindrical or polygonal columnar) extending in the YY'direction.

The main body 210 holds at least the tubular portion 310 of the terminal 300 inside. For example, a holding hole 211 extending in the YY'direction is provided inside the main body 210, and the tubular portion 310 may be inserted and held in the holding hole 211. When the terminal 300 has the first pressed portion 330a and the second pressed portion 330b, the first pressed portion 330a and the second pressed portion 330b are pressed from the Y'direction side, so that the tubular portion It is preferable that the 310 is inserted into the holding hole 211. When the terminal 300 has at least one stopper 350, the at least one stopper 350 comes into contact with the edge portion 211a of the holding hole 211 so that the tubular portion 310 is not inserted into the holding hole 211 more than a predetermined value. There is.

The main body 210 may further have an accommodating recess 212. The accommodating recess 212 is located on the Y'direction side with respect to the holding hole 211 and communicates with the holding hole 211. The accommodating recess 212 is open in the Y'direction. In the accommodating recess 212, one or a plurality of portions (for example, the first pressed portion 330a and the second pressed portion 330b) of any of the above-described aspects between the tubular portion 310 and the tail portion 320 of the terminal 300. The half cylinder and the first and second legs, the flat plate portion 340, the inclined portion 360, and / or the connecting portion 380) are accommodated. In this case, the tail portion 320 is located on the Y'direction side with respect to the accommodating recess 212 (body 200). Alternatively, the tail portion 320 may be accommodated in the accommodating recess 212 in addition to the one or more portions between the tubular portion 310 and the tail portion 320 of the terminal 300. The accommodating recess 212 can be omitted.

The body 200 may further have a connecting portion 220 extending in the Y direction from the main body portion 210. When the holding hole 211 is provided, the connecting portion 220 is also provided with the holding hole 221. The holding hole 221 is located on the Y direction side with respect to the holding hole 211, communicates with the holding hole 211, and is open in the Y direction. The terminal of the mating connector can be inserted into the holding hole 211 from the Y direction side. When the terminal 300 has a plurality of arms 370, the tubular portion 310 of the terminal 300 is housed in the holding hole 211 and the portion of the holding hole 221 on the Y'direction side, and the plurality of arms 370 are housed in the Y'of the holding hole 221. The tubular portion 310 of the terminal 300 may be housed in the holding hole 211, and a plurality of arms 370 may be housed in the holding hole 221. When the terminal 300 does not have a plurality of arms 370, it is preferable that the tubular portion 310 of the terminal 300 is housed in the holding hole 211.

The coaxial connector C1 further includes a conductive shell 100. The shell 100 may be made of a press-molded metal plate, a cast metal, or a metal made by a 3D printer. The shell 100 has a first part 110.

The first portion 110 has a tubular shape (for example, a cylindrical shape or a polygonal tubular shape) substantially similar to the tubular portion 310 of the terminal 300, and extends in the YY'direction. The first part 110 may or may not be provided with a notch and / or a protrusion. When the tail portion 320 of the terminal 300 is located on the Y'direction side with respect to the body 200, the main body portion 210 of the body 200 is housed and held in the first portion 110. When the tail portion 320 of the terminal 300 is accommodated in the accommodating recess 212 of the body 200, the portion of the main body portion 210 of the body 200 on the Y direction side is accommodated and held in the first portion 110, and the main body portion 210 is accommodated and held. It is preferable that the portion on the Y'direction side having the accommodating recess 212 protrudes from the first portion 110 in the Y'direction. In either case, the inner shape of the cross section of the first part 110 in the ZZ'direction and the XX'direction is the outer shape of the cross section of the main body portion 210 in the ZZ'direction and the XX' direction. And the internal dimensions of the cross section of the first part 110 in the ZZ'direction and the XX'direction are in the ZZ'direction and the XX' direction of the main body portion 210 to be accommodated. It is almost the same as or slightly smaller than the external dimensions of the cross section.

Here, in the first cross-sectional view in the ZZ'direction and the XX'direction of the portion (first portion) having the first portion 110 of the shell 100 of the coaxial connector C1 and the tubular portion 310 of the terminal 300, the first A plurality of distances from the portion 110 to the tubular portion 310 in different directions are referred to as a plurality of first distances R1. When the plurality of first distances R1 are two, the two first distances R1 are the distances in the opposite directions (for example, Z direction, Z'direction, X direction, X'direction, etc.) from the tubular portion 310. Then it is good. When the plurality of first distances R1 are three or more, the three or more first distances R1 may be distances extending radially from the tubular portion 310. For example, when the first portion 110 and the tubular portion 310 have a cylindrical similarity shape, the three or more first distances R1 can be different radial distances from each other of the first portion 110 (FIG. FIG. See 2D). When the first portion 110 and the tubular portion 310 have a similar shape of a polygonal cylinder, three or more first distances R1 are a plurality of the first portion 110 located outside the plurality of sides of the tubular portion 310. It is possible to set the distance in the direction extending to the side of (see FIG. 4A). The plurality of first distances R1 are substantially the same (see FIGS. 2D and 4A).

The first part 110 has a first end on the Y'direction side and a second end on the Y direction side. The first and second ends are annular (eg, annular or polygonal annular). 2A-2C show virtual lines α extending along the central axis of Part 1 110. The YY'direction corresponds to the longitudinal direction of the first part 110.

The shell 100 further comprises at least one second part 120. At least one second portion 120 is located on the Y'direction side with respect to the first portion 110 and is arranged around the tail portion 320 of the terminal 300.

Here, in the second cross-sectional view of the portion (second portion) having at least one second portion 120 of the shell 100 of the coaxial connector C1 and the tail portion 320 of the terminal 300 in the ZZ'direction and the XX'direction. The second distance R2 is a plurality of distances from the tail portion 320 to at least one second portion 120 in different directions. When the plurality of second distances R2 are two, the two second distances R2 extend in opposite directions (for example, Z direction, Z'direction, X direction, X'direction, etc.) from the tail portion 320. The distance in the direction is good. When the plurality of second distances R2 are three or more, the three or more second distances R2 may be the distances in the direction extending radially from the tail portion 320. Further, the directions of the plurality of second distances R2 may correspond one-to-one with the directions of the plurality of first distances R1, or may be different from each other. The plurality of second distances R2 are substantially the same. The plurality of second distances R2 are larger than, but not limited to, the plurality of first distances R1. For example, the plurality of second distances R2 and the plurality of first distances R1 may be substantially the same. When the terminal 300 has the inclined portion 360, the inclined portion 360 extends in the oblique direction so that the tail portion 320 is located at a position where the plurality of second distances R2 are substantially the same. When the terminal 300 has an orthogonal portion, the orthogonal portion extends in the ZZ'direction so that the tail portion 320 is located at a position where the plurality of second distances R2 are substantially the same.

At least one second part 120 can be plural. The plurality of second portions 120 extend in the Y'direction from the first end of the first portion 110 or the plurality of connecting portions. The plurality of connecting portions connect the first end of the first portion 110 and the plurality of second portions 120.

The plurality of second portions 120 are arranged at intervals with respect to the tail portion 320 of the terminal 300. For example, when there are two plurality of second portions 120 (not shown), one of them is located on the X-direction side or the Z-direction side of the tail portion 320, and the other is X'with respect to the tail portion 320. It may be located on the directional side or the Z'direction side. In this case, the plurality of second distances R2 may be the distances from the tail portion 320 to the two second portions 120 in the second cross-sectional view. When the plurality of second parts 120 are 3 or more (see FIGS. 1A to 3C), the 3 or more second parts 120 are arranged at intervals along the circumferential direction of the first end of the first part 110. It is good to have it. In this case, the plurality of second distances R2 may be the distances from the tail portion 320 to the third or more second portion 120 in the second cross-sectional view (see FIGS. 2E and 4B).

When the tail portion 320 is located on the virtual line α, the plurality of second portions 120 may extend in the Y'direction from the first end of the first portion 110, and the plurality of connecting portions may extend in the Y'direction. It may be bent to the α side or the opposite side and extend in the Y'direction from a plurality of connecting portions. In this way, the plurality of second distances R2 are substantially the same. Further, when the tail portion 320 is displaced from the virtual line α, the plurality of connecting portions are bent in the misaligned direction of the tail portion 320, and the plurality of second portions 120 extend in the Y'direction from the plurality of connecting portions. It is good to have it. By bending the plurality of connecting portions in this way, the plurality of second distances R2 are substantially the same.

When the tail portion 320 is located on the Y'direction side with respect to the body 200, a plurality of second portions 120 are arranged around the tail portion 320 of the terminal 300. In this case, the body 200 is not provided between the plurality of second portions 120 and the tail portions 320 of the terminals 300. On the other hand, when the tail portion 320 is housed in the accommodating recess 212 of the body 200, a plurality of second portions 120 are arranged around the tail portion 320 of the terminal 300, and the plurality of second portions 120 and terminals are arranged. A portion on the Y'direction side having an accommodating recess 212 of the main body portion 210 of the body 200 is provided between the tail portion 320 of the 300.

The shell 100 may further include a third part 130. The third part 130 has a tubular shape (for example, a cylindrical shape or a polygonal tubular shape) extending in the Y direction from the second end of the first part 110, and is open in the Y direction. The third part 130 may be provided with a notch or a protrusion, but may not be provided. In FIGS. 1A to 3C, a plurality of elastic arms are provided by cutting out the third portion 130. This elastic arm is configured to be able to elastically hold the counterparty connector when the counterparty connector is inserted into the shell 100. When the body 200 has a connecting portion 220, it is preferable that a plurality of arms 370 of the connecting portion 220 of the body 200 and the terminal 300 are housed in the third portion 130. Here, in the third cross-sectional view of the portion (third portion) having the plurality of arms 370 and the third portion 130 of the coaxial connector C1, a plurality of plurality of arms 370 to the third portion 130 of the shell 100 in different directions. Let the distance be a plurality of third distances. It is preferable that the directions of the plurality of third distances correspond to the directions of the first distance R1. The third distance is substantially the same, but the third distance gradually increases as the third cross section moves toward the Y direction. The amount of increase in the third distance is almost the same. The third part 130 can be omitted.

Hereinafter, the manufacturing method of the coaxial connector C1 will be described in detail. First, a terminal 300 provided with a plurality of arms 370 and a body 200 provided with holding holes 211 and 221 are prepared. A plurality of arms 370 and cylinders 310 of terminals 300 are inserted into the holding holes 211 and 221 of the body 200 from the Y'direction side. At this time, when the terminal 300 is provided with the first pressed portion 330a and the second pressed portion 330b, each of the first pressed portion 330a and the second pressed portion 330b is on the Y'direction side with a jig or the like. It is good that they are pressed almost evenly. When the terminal 300 is provided with the stopper 350, the stopper 350 comes into contact with the edge portion 211a of the holding hole 211 to prevent the tubular portion 310 from being inserted into the holding hole 211 more than a predetermined value. When the first pressed portion 330a and the second pressed portion 330b are not provided, any portion of the terminal 300 on the Y'direction side of the tubular portion 310 may be pressed from the Y'direction side. In this way, the plurality of arms 370 are housed in the holding hole 221 and the tubular portion 310 is housed in the holding holes 211 and 221 or in the holding hole 211. Further, when the body 200 is provided with the accommodating recess 212, any of the above-mentioned ones between the tubular portion 310 and the tail portion 320 of the terminal 300, together with the insertion of the plurality of arms 370 and the tubular portion 310 into the holding holes 211 and 221. One or more of the parts of the embodiment are housed in the housing recess 212. In this case, the tail portion 320 of the terminal 300 is located on the Y'direction side with respect to the body 200. The tail portion 320 may also be accommodated in the accommodating recess 212. As described above, the terminal 300 is held by the body 200.

After that, a shell 100 having a first part 110, a plurality of second parts 120, and a third part 130 is prepared. The body 200 is inserted from the Y'direction side with respect to the first part 110 of the shell 100. Hereinafter, this will be referred to as the insertion of the body 200.

When the tail portion 320 of the terminal 300 is located on the Y'direction side with respect to the body 200, the connecting portion 220 of the body 200 is housed in the third portion 130 when the body 200 is inserted, and the connecting portion 220 of the body 200 is housed in the first portion 110. The main body 210 of the body 200 is housed and held inside. As a result, the plurality of first distances R1 from the tubular portion 310 to the first portion 110 of the terminal 300 in the body 200 become substantially the same. Along with this, the tail portion 320 of the terminal 300 is arranged inside the plurality of second portions 120 of the shell 100. In other words, a plurality of second portions 120 are arranged around the tail portion 320. As a result, the second distance R2 from the tail portion 320 to the plurality of second portions 120 becomes substantially the same.

When the tail portion 320 of the terminal 300 is housed in the housing recess 212 of the body 200, when the body 200 is inserted, the connecting part 220 of the body 200 is housed in the third part 130 and in the first part 110. A portion of the main body 210 of the body 200 on the Y direction side is accommodated and held. As a result, the plurality of first distances R1 from the tubular portion 310 to the first portion 110 of the terminal 300 in the body 200 become substantially the same. At the same time, a portion of the main body 210 on the Y'direction side and a tail portion 320 of the terminal 300 are arranged inside a plurality of second portions 120 of the shell 100. In other words, a plurality of second portions 120 are arranged around a portion of the main body portion 210 on the Y'direction side and a tail portion 320. As a result, the second distance R2 from the tail portion 320 to the plurality of second portions 120 becomes substantially the same. The coaxial connector C1 is manufactured as described above.

When the plurality of arms 370, the connecting portion 220, and the third portion 130 are omitted, in the above manufacturing method, the step of inserting the plurality of arms 370 into the holding hole 221 of the connecting portion 220 and the connecting portion 220 are the first. It is preferable to delete the process inserted in the third part 130.

When the tail portion 320 of the terminal 300 is located on the Y'direction side with respect to the body 200 and the body 200 is not provided between the tail portion 320 and the plurality of second portions 120, the coaxial connector C1 is placed on the Y direction side. Can be mounted on a substrate (not shown). In this case, the plurality of second portions 120 of the shell 100 of the coaxial connector C1 are inserted into the plurality of ground via hole electrodes of the substrate, and are connected by solder or the like. At the same time, the tail portion 320 of the terminal 300 of the coaxial connector C1 is inserted into the via hole electrode for the signal of the substrate and connected by solder or the like. In this way, the coaxial connector C1 is mounted on the substrate.

When the tail portion 320 of the terminal 300 is accommodated in the accommodating recess 212 of the body 200 and a portion on the Y'direction side of the body 200 is provided between the tail portion 320 and the plurality of second portions 120, the coaxial connector. C1 can be connected to a coaxial cable (not shown). In this case, the plurality of second portions 120 of the shell 100 are connected to the outer conductor of the coaxial cable, and the tail portion 320 is connected to the central conductor of the coaxial cable. In this way, the coaxial connector C1 is connected to the coaxial cable.

The coaxial connector C1 as described above exhibits the following technical features and effects.
Technical features and effects (1)
This is because the plurality of first distances R1 are substantially the same and the plurality of second distances R2 are substantially the same. Therefore, the impedance does not fluctuate in the tubular portion 310 of the terminal 300, and the impedance in the tail portion 320 of the terminal 300. Can be reduced. In particular, when at least one second part 120 of the shell 100 is plural, the plurality of second parts 120 are arranged around the tail part 320 of the terminal 300, so that the impedance at the tail part 320 of the terminal 300 Can be reduced.

Technical features and effects (2)
When the terminal 300 has a flat plate portion 340 or an impedance adjusting portion, the first and second adjusting portions of the flat plate portion 340 or the impedance adjusting portion are arranged adjacent to both sides of the inclined portion 360 or the orthogonal portion of the terminal 300. Therefore, the impedance of the inclined portion 360 or the orthogonal portion can be increased. As a result, it is possible to reduce the possibility that the impedance of the terminal 300 at the tail portion 320 of the terminal 300 fluctuates at the inclined portion 360 or the orthogonal portion. Further, when the first and second adjusting portions are located in the vicinity of the tail portion 320, the impedance of the tail portion 320 can also be increased, so that the impedance can also fluctuate in the tail portion 320 of the terminal 300. The property can be reduced.

Technical features and effects (3)
When the terminal 300 has the flat plate portion 340, the carriers are respectively from the end faces on the Y'direction side of the first end portion 341a and the second end portion 341b of the flat plate portion 340 in the process of producing the terminal 300 by press molding. Even if it is extended, the carrier does not interfere with the tail portion 320 because the first end portion 341a and the second end portion 341b are located on both sides of the tail portion 320 when viewed from the Y'direction side.

Technical features and effects (4)
When the terminal 300 has the first pressed portion 330a and the second pressed portion 330b, the first pressed portion 330a and the second pressed portion 330b are pressed substantially evenly from the Y'direction side. , The possibility that the tubular portion 310 of the terminal 300 is accommodated in the holding hole 211 of the body 200 in an inclined state is reduced.

Hereinafter, the coaxial connector C2 according to the second embodiment of the present invention and a plurality of embodiments including the design modification example thereof will be described with reference to FIG. FIG. 5 shows the coaxial connector C2 of the second embodiment. The coaxial connector C2 is the same as the coaxial connector C1 except that the coaxial connector C2 differs from at least one second part 120 of the shell 100 of the coaxial connector C1 in that the second part 120'of the shell 100 is one. It is the composition of. Hereinafter, only the differences will be described in detail, and among the description of the coaxial connector C2, the description overlapping with the description of the coaxial connector C1 will be omitted.

The second portion 120'is a cylindrical shape (for example, a cylindrical shape or a polygonal tubular shape) extending in the Y'direction from the first portion 110 of the shell 100, and is arranged around the tail portion 320 of the terminal 300. .. When the tail portion 320 of the terminal 300 is located on the Y'direction side with respect to the body 200, the body 200 is not provided between the second portion 120'and the tail portion 320. On the other hand, when the tail portion 320 of the terminal 300 is accommodated in the accommodating recess 212 of the body 200, the Y'having the accommodating recess 212 of the main body 210 of the body 200 between the second portion 120'and the tail portion 320. A portion on the directional side is provided.

The second distance R2 is a second cross-sectional view of the portion (second portion) having the second portion 120'of the shell 100 of the coaxial connector C2 and the tail portion 320 of the terminal 300 in the ZZ'direction and the XX'direction. In the above, it is preferable to set a plurality of distances from the tail portion 320 to the second portion 120'in different directions. Again, when the plurality of second distances R2 are two, the two second distances R2 are in directions facing each other from the tail portion 320 (for example, Z direction, Z'direction, or X direction, X'direction, etc.). The distance should be. When the plurality of second distances R2 are three or more, the three or more second distances R2 may be the distances in the direction extending radially from the tail portion 320. For example, when the second part 120'is cylindrical, the three or more second distances R2 can be different radial distances from the second part 120' (see FIG. 5). When the second portion 120'is a polygonal cylinder, the three or more second distances R2 can be distances extending from the tail portion 320 to a plurality of sides of the second portion 120'. Further, the directions of the plurality of second distances R2 may correspond one-to-one with the directions of the plurality of first distances R1, or may be different from each other. The plurality of second distances R2 are substantially the same. The plurality of second distances R2 are larger than, but not limited to, the plurality of first distances R1. When the terminal 300 has the inclined portion 360, the inclined portion 360 extends in the oblique direction so that the tail portion 320 is located at a position where the plurality of second distances R2 are substantially the same. The orthogonal portion, in which the terminal 300 has an orthogonal portion, extends in the ZZ'direction so that the tail portion 320 is located at a position where the plurality of second distances R2 are substantially the same.

The coaxial connector C2 as described above can be manufactured in the same manner as the coaxial connector C1. The coaxial connector C2 can be mounted on the surface of a substrate (not shown). In this case, the second portion 120'of the shell 100 may be connected to the ground electrode on the surface of the substrate, and the tail portion 320 of the terminal 300 may be connected to the signal electrode on the surface of the substrate. The coaxial connector C2 can be connected to a coaxial cable (not shown). In this case, the second portion 120'of the shell 100 may be connected to the outer conductor of the coaxial cable, and the tail portion 320 may be connected to the central conductor of the coaxial cable.

The coaxial connector C2 as described above exhibits the same technical features and effects as the technical features and effects (1) to (4) of the coaxial connector C1.

The coaxial connector described above is not limited to the above embodiment, and the design can be arbitrarily changed within the scope of the claims. For example, it is as follows.

The holding hole of the body of the present invention can be omitted. In this case, the tubular portion 310 of the terminal 300 of any of the above-described embodiments is embedded inside the body by insert molding, or the tubular portion 310 of the terminal 300 of any of the above-described embodiments and the cylinder thereof are inside the body. It is possible to have a configuration in which one or more portions between the portion 310 and the tail portion 320 are embedded by insert molding. In this case as well, the accommodating recess 212 is also omitted.

C1, C2: Coaxial connector 100: Shell 110: Part 1 120, 120': Part 2 130: Part 3 200: Body 210: Main body 211: Holding hole
211a: Edge portion 212: Accommodating recess 220: Connection portion 221: Holding hole 300: Terminal 310: Tube portion 320: Tail portion 330a: First pressed portion 330b: Second pressed portion 340: Flat plate portion 341a: First end Part 341b: Second end 342: Recess 350: Stopper 360: Inclined part 370: Arm 380: Connecting part α: Virtual line R1: First distance R2: Second distance

Claims (10)

It ’s a coaxial connector,
With terminals
The body that holds the terminal and
It includes the body and a shell that houses the terminals.
The terminal has a tubular portion extending in the first direction and a tail portion located on one side of the first direction with respect to the tubular portion and extending in the first direction.
The shell has a tubular first portion extending in the first direction and at least one second portion extending in the first direction.
The first part houses the cylinder portion inside the cylinder portion and has a shape substantially similar to the cylinder portion.
The at least one second part is arranged around the tail part of the terminal.
In the first cross-sectional view of the tubular portion and the portion having the first portion of the coaxial connector in the second direction and the third direction, a plurality of first distances in different directions from the tubular portion to the first portion It is substantially the same, the second direction is substantially orthogonal to the first direction, and the third direction is substantially orthogonal to the first direction and the second direction.
In the second cross-sectional view of the tail portion and the portion having the at least one second portion of the coaxial connector in the second direction and the third direction, the tail portion to the at least one second portion are different from each other. A coaxial connector in which a plurality of second distances in a direction are substantially the same. In the coaxial connector according to claim 1,
The tail portion of the terminal is a coaxial connector arranged on a virtual line extending along the central axis of the tubular portion. In the coaxial connector according to claim 1 or 2.
The at least one second part of the shell is plurality and is arranged at intervals with respect to the tail part.
The plurality of second distances are coaxial connectors which are distances from the tail portion to the plurality of second portions in the second cross-sectional view. In the coaxial connector according to claim 1 or 2.
The at least one second part of the shell is a coaxial connector having a tubular shape. In the coaxial connector according to any one of claims 1 to 4.
The terminal further has an inclined portion or an orthogonal portion located between the tubular portion and the tail portion.
The inclined portion is inclined so that the tail portion is located at a position where the plurality of second distances are substantially the same.
The orthogonal portion is a coaxial connector extending in the second direction so that the tail portion is located at a position where the plurality of second distances are substantially the same. In the coaxial connector according to claim 5,
The terminal further has an impedance adjusting portion located between the cylinder portion and the tail portion.
The impedance adjusting portion has a recess that is open to one of the first directions and has a bottom portion on the other side of the first direction, and first and second adjusting portions on both sides of the recess. ,
The inclined portion or the orthogonal portion extends from the bottom portion of the recess to the tail portion.
The first and second adjusting portions of the impedance adjusting portion are coaxial connectors arranged adjacent to both sides of the inclined portion or the orthogonal portion. In the coaxial connector according to any one of claims 1 to 6.
The terminal further has a flat plate portion located between the tubular portion and the tail portion, and the flat plate portion has first and second end portions, and the first and second end portions are provided. The ends are coaxial connectors located on both sides of the tail when viewed from one side in the first direction. In the coaxial connector according to any one of claims 1 to 7.
The body has a holding hole extending in the first direction and opening in one of the first directions.
The tubular portion of the terminal is housed in the holding hole from one side in the first direction.
The terminal further has first and second pressed portions, and the first and second pressed portions are formed between the tubular portion and the tail portion from one side in the first direction. Look, coaxial connectors located on both sides of the tail. In the coaxial connector according to claim 7.
The body has a holding hole extending in the first direction and opening in one of the first directions.
The tubular portion of the terminal is housed in the holding hole from one side in the first direction.
The terminal further has first and second pressed portions, and the first and second pressed portions are formed between the tubular portion and the tail portion from one side in the first direction. As you can see, it is located on both sides of the tail.
The first and second ends of the flat plate portion have a projected area of the first and second ends from one side of the first direction of the first and second pressed portions in the first direction. A coaxial connector that is arranged so that it does not at least partially overlap the projected area from one side. In the coaxial connector according to claim 8 or 9.
The body has an edge of the holding hole.
The terminal further has at least one stopper, and the at least one stopper extends from at least one of the first and second pressed portions in a direction substantially orthogonal to the first direction. , A coaxial connector that is located outside the tubular portion when viewed from one side in the first direction and is in contact with the edge portion of the holding hole from one side in the first direction.

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