JP5872000B1 - Coaxial connector - Google Patents

Abstract

To provide a coaxial connector having a structure capable of reliably connecting even when the distance between substrates is short. An external contact 600 of an adapter 300 has a first end 610 connected to a first external conductor 130 of a first connector 100 and a second end connected to a second external conductor 230 of a second connector 200. An end 620, a plurality of first slits 640 extending from the first end 610 toward the second end 620 but not reaching the second end 620, and the second end 620 to the first end 610. A plurality of second slits 650 that extend toward the end but do not reach the first end 610 are formed. The first slits 640 and the second slits 650 are alternately arranged in the circumferential direction, and the positions of the first slits 640 and the second slits 650 in the axial direction partially overlap each other. [Selection] Figure 1

Description

  The present invention relates to a coaxial connector, and more particularly to a coaxial connector suitable for connection between circuit boards.

  As shown in FIG. 19, Patent Document 1 discloses a coaxial connector 900 including a first connector 910, a second connector 920, and an adapter 930. The first connector 910 is fixed to the mother board 940. The adapter 930 is fitted and held in the first connector 910. The second connector 920 is fixed to the daughter board 950. The second connector 920 and the adapter 930 can be fitted and removed from each other along the axial direction.

Japanese Patent Laid-Open No. 2000-215956

  An object of this invention is to provide the coaxial connector provided with the structure which can be connected reliably even when the distance between board | substrates is short.

The present invention provides the first coaxial connector as
A coaxial connector comprising a first connector, a second connector, and an adapter,
The first connector includes a first central conductor extending in the axial direction, and a first outer conductor positioned away from the first central conductor in a radial direction orthogonal to the axial direction,
The second connector includes a second center conductor extending in the axial direction, and a second outer conductor positioned away from the second center conductor in the radial direction,
The adapter is fitted to the first connector and the second connector at both ends in the axial direction,
The adapter includes a center contact connected to the first center conductor and the second center conductor, an external contact connected to the first outer conductor and the second outer conductor, the center contact and the outer An insulating member that insulates the contacts from each other;
The external contact has a first end, a second end, and a main portion,
The first end and the second end are located away from each other in the axial direction, and are connected to the first outer conductor and the second outer conductor, respectively.
The main portion connects the first end and the second end,
The external contact includes a plurality of first slits extending from the first end toward the second end but not reaching the second end, and the second end to the first end. A plurality of second slits extending toward but not reaching the first end are formed,
The first slits and the second slits are alternately arranged in a circumferential direction centered on the axial direction,
The positions of the first slit and the second slit in the axial direction provide a coaxial connector that partially overlaps each other.

Further, the present invention is a first coaxial connector as the second coaxial connector,
The number of the first slits and the number of the second slits provide the same coaxial connector.

The present invention is the first or second coaxial connector as the third coaxial connector,
The external contact is provided with a first stopper positioned between the first slit and the second end, and a second stopper positioned between the second slit and the first end. And
The insulating member is formed with at least one first protrusion received in the first slit and at least one second protrusion received in the second slit,
The first protrusion has a first facing surface facing the first stopper in the axial direction,
The second protrusion provides a coaxial connector having a second facing surface facing the second stopper in the axial direction.

Further, the present invention is a third coaxial connector as the fourth coaxial connector,
The first protrusion further includes a first slope that obliquely intersects the axial direction,
The first facing surface is located between the first slope and the first stopper in the axial direction;
The second protrusion further includes a second inclined surface that obliquely intersects the axial direction,
The second facing surface provides a coaxial connector positioned between the second inclined surface and the second stopper in the axial direction.

Further, the present invention is a third or fourth coaxial connector as the fifth coaxial connector,
A lock portion that locks the second end portion is formed only in the second outer conductor of the first outer conductor and the second outer conductor,
The adapter is held by the second connector by the lock portion locking the second end,
When the first connector is removed from the adapter, the coaxial connector is provided in which the second stopper and the second facing surface abut against each other to prevent the insulating member from coming off from the external contact.

Moreover, this invention is a coaxial connector in any one of 1st thru | or 5 as a 6th coaxial connector,
The main portion of the external contact provides a coaxial connector that is located away from the first external conductor and the second external conductor in the radial direction.

Moreover, this invention is a 6th coaxial connector as a 7th coaxial connector,
The first external conductor is provided with a coaxial connector in which a guide portion for guiding the first end portion of the external contact is formed when the first connector and the adapter are fitted to each other.

Further, the present invention is a seventh coaxial connector as the eighth coaxial connector,
The guide portion provides a coaxial connector that is provided so as not to be in direct contact with the second outer conductor even when the first connector and the second connector are connected via the adapter.

Further, the present invention is any one of the first to eighth coaxial connectors as the ninth coaxial connector,
The center contact has a first base portion extending in the circumferential direction, a second base portion extending in the circumferential direction, a plurality of first spring portions, and a plurality of second spring portions,
Each of the first spring portions connects the first base portion and the second base portion, and contacts the first central conductor when the first connector and the adapter are fitted. Has one contact,
Each of the second spring portions connects the first base portion and the second base portion, and contacts the second central conductor when the second connector and the adapter are fitted. Has two contacts,
The first spring portions and the second spring portions are alternately positioned with an interval in the circumferential direction,
When a spring region, which is a region between the first base and the second base, is divided into two equal parts in a first region close to the first base and a second region close to the second base in the axial direction. Each of the first contacts is located in the first region, and each of the second contacts provides a coaxial connector located in the second region.

Further, the present invention is a ninth coaxial connector as the tenth coaxial connector,
The first contacts are located at the same position in the axial direction,
The second contacts provide coaxial connectors that are located at the same position in the axial direction.

The present invention is the ninth or tenth coaxial connector as the eleventh coaxial connector,
A coaxial connector is provided in which the first base and the second base have the same size in the axial direction.

Further, the present invention is the ninth to eleventh coaxial connector as the twelfth coaxial connector,
The center contact is a member obtained by punching and bending one metal plate,
The first size, which is the size in the axial direction of the first base, is equal to or greater than the thickness of the metal plate,
The second size, which is the size in the axial direction of the second base, is equal to or greater than the thickness of the metal plate,
The size of the first spring portion in the circumferential direction is not less than the thickness of the metal plate and not more than the smaller of the first size and the second size,
The size of the said 2nd spring part in the said circumferential direction is more than the thickness of the said metal plate, and provides the coaxial connector which is below the smaller one of the said 1st size and the said 2nd size.

Moreover, this invention is a 1st thru | or 12th coaxial connector as a 13th coaxial connector,
In the axial direction, the size of the first slit is larger than half of the size of the external contact,
In the axial direction, a coaxial connector is provided in which the size of the second slit is larger than half of the size of the external contact.

Further, the present invention is any one of the first to thirteenth coaxial connectors as the fourteenth coaxial connector,
The first connector is fixed to a first circuit board;
The second connector provides a coaxial connector that is fixed to a second circuit board different from the first circuit board.

Furthermore, the present invention provides
A contact having a first base extending in the circumferential direction, a second base extending in the circumferential direction while being separated from the first base in the axial direction, a plurality of first spring portions, and a plurality of second spring portions. There,
Each of the first spring parts connects the first base part and the second base part, and has a first contact,
Each of the second spring parts connects the first base part and the second base part, and has a second contact.
The first spring portions and the second spring portions are alternately positioned with an interval in the circumferential direction,
When the region between the first base and the second base is equally divided into a first region close to the first base and a second region close to the second base in the axial direction, the first Both contacts are located in the first region, and the second contacts provide contacts that are both located in the second region.

  The first slit and the second slit are alternately provided in the circumferential direction, and the positions of the first slit and the second slit in the axial direction partially overlap each other, thereby reducing the size of the external contact in the axial direction. This can reduce the axial size of the coaxial connector. For this reason, the distance between substrates can be shortened.

It is a perspective view which shows the coaxial connector provided with the 1st connector by embodiment of this invention, a 2nd connector, and an adapter. The first connector, the second connector, and the adapter are not fitted to each other. It is a perspective view which shows the coaxial connector of FIG. The adapter is attached to the second connector. The first connector is not fitted to the adapter. It is a top view which shows the coaxial connector of FIG. The first connector, the second connector, and the adapter are fitted. It is sectional drawing which shows the coaxial connector of FIG. 3 along the A-A line. It is sectional drawing which shows the coaxial connector of FIG. 3 along the BB line. FIG. 4 is a cross-sectional view showing the coaxial connector of FIG. 3 along the line C--C. It is a perspective view which shows the 1st connector of FIG. It is sectional drawing which shows the 1st connector of FIG. It is sectional drawing which shows the 2nd connector of FIG. It is a perspective view which shows the adapter of FIG. It is a side view which shows the adapter of FIG. It is a disassembled perspective view which shows the adapter of FIG. It is a perspective view which shows the center contact contained in the adapter of FIG. It is a side view which shows the center contact of FIG. It is a perspective view which shows the insulating member contained in the adapter of FIG. It is a side view which shows the insulating member of FIG. It is a top view which shows the insulating member of FIG. It is a side view which shows the external contact contained in the adapter of FIG. 10 is a cross-sectional view showing a coaxial connector of Patent Document 1. FIG.

  1 and 2, the coaxial connector 10 includes a first connector 100, a second connector 200, and an adapter 300 that fits the first connector 100 and the second connector 200 at both ends in the axial direction. ing. In the actual use state, the adapter 300 is fitted and attached to the second connector 200, and only the first connector 100 is fitted and removed from the adapter 300 along the axial direction. As shown in FIGS. 4 to 6, the first connector 100 is fixed to the first circuit board 700, and the second connector 200 is attached to the second circuit board 750 different from the first circuit board 700. It is fixed. Specifically, the first connector 100 is a surface mounting type, and the second connector 200 is a through-hole mounting type.

  As shown in FIGS. 3, 7, and 8, the first connector 100 includes a first center conductor 110, a first holding member 120, and a first outer conductor 130. As shown in FIGS. 7 and 8, the first center conductor 110 extends in the axial direction. The first holding member 120 is made of an insulator and holds the first center conductor 110. The first outer conductor 130 is attached to the first holding member 120 so as to cover the first holding member 120 in the radial direction, so that the first outer conductor 130 is located away from the first center conductor 110 in the radial direction. doing. Thus, the first central conductor 110 and the first outer conductor 130 are separated and insulated in the radial direction by the first holding member 120. The end portion of the first outer conductor 130 is open in the radial direction and constitutes a guide portion 132.

  As shown in FIGS. 1 and 9, the second connector 200 includes a second center conductor 210, a second holding member 220, and a second outer conductor 230. The second center conductor 210 extends in the axial direction. The second holding member 220 is made of an insulator and holds the second center conductor 210. As shown in FIG. 9, the second center conductor 210 extends through the second holding member 220 and extends in the axial direction. The second outer conductor 230 is attached to the second holding member 220 so as to cover the second holding member 220 in the radial direction, so that the second outer conductor 230 is positioned away from the second central conductor 210 in the radial direction. doing. In this way, the second central conductor 210 and the second outer conductor 230 are separated and insulated in the radial direction by the second holding member 220.

  As shown in FIG. 9, the end portion 232 of the second outer conductor 230 has a smaller diameter than the end portion 232, and a step is formed between the end portion 232 and the end portion 232. The step is used as the lock portion 234. As can be understood from FIGS. 7 and 9, such a lock portion 234 is not formed on the first outer conductor 130. That is, the lock portion 234 is formed only on the second outer conductor 230 of the first outer conductor 130 and the second outer conductor 230. On the other hand, as can be understood from FIGS. 7 and 9, the above-described guide portion 132 is formed only on the first outer conductor 130 and is not formed on the second outer conductor 230.

  As shown in FIGS. 1, 10, and 12, the adapter 300 includes a center contact 400, an insulating member 500, and an external contact 600.

  As shown in FIGS. 4 to 6, the center contact 400 is connected to the first center conductor 110 and the second center conductor 210.

  As shown in FIGS. 12 to 14, the center contact 400 of the present embodiment is a contact having a special shape, that is, a louver-shaped spring, and includes a first base portion 410 extending in the circumferential direction, A second base 420 extending in the direction, a plurality of first spring portions 430, and a plurality of second spring portions 440 are provided. In the present embodiment, the number of first spring portions 430 is five, and the number of second spring portions 440 is five. That is, the number of first spring portions 430 and the number of second spring portions 440 is the same. However, the present invention is not limited to this, and the number of first spring portions 430 and the number of second spring portions 440 may be different from each other.

  As shown in FIG. 12 to FIG. 14, the first base portion 410 and the second base portion 420 of the present embodiment each have a C shape, and the diameter can be temporarily reduced. . The 1st size which is the size in the axial direction of the 1st base 410 is more than the thickness of a metal plate. The 2nd size which is the size in the axial direction of the 2nd base 420 is more than the thickness of a metal plate. In particular, the first base portion 410 and the second base portion 420 of the present embodiment have the same size in the axial direction. That is, the first size and the second size are equal to each other. However, the present invention is not limited to this, and the first base portion 410 and the second base portion 420 may have different sizes.

  As shown in FIGS. 12 to 14, the first spring portions 430 and the second spring portions 440 are alternately positioned with a gap in the circumferential direction.

  As shown in FIGS. 12 to 14, each of the first spring portions 430 connects the first base portion 410 and the second base portion 420. As understood with reference to FIGS. 4 to 6 and FIGS. 12 to 14, each first spring portion 430 contacts the first center conductor 110 when the first connector 100 and the adapter 300 are fitted. A first contact 435 is provided.

  As shown in FIGS. 12 to 14, each of the second spring portions 440 connects the first base portion 410 and the second base portion 420. As is understood with reference to FIGS. 4 to 6 and FIGS. 12 to 14, each second spring portion 440 is connected to the second central conductor 210 in the actual use state in which the second connector 200 and the adapter 300 are fitted. It has the 2nd contact 445 which contacts.

  As shown in FIGS. 12 to 14, the size in the circumferential direction of the first spring portion 430 is equal to or greater than the thickness of the metal plate, and the size in the circumferential direction of the second spring portion 440 is equal to or greater than the thickness of the metal plate. . The first spring part 430 and the second spring part 440 of the present embodiment have the same size in the circumferential direction. The size in the circumferential direction of the first spring portion 430 and the second spring portion 440 is the same as or smaller than the smaller one of the first size and the second size described above. Therefore, it is possible to reduce the possibility that the first base 410 and the second base 420 are distorted and deformed when the first base 410 and the second base 420 are formed.

  As shown in FIG. 14, the second region close to the first region R1 and the second base 420 close to the first base 410 in the axial direction in the spring region RS that is the region between the first base 410 and the second base 420. When divided into two equal to the region R2, the first contacts 435 are all located in the first region R1. The second contacts 445 are all located in the second region R2. In particular, the first contacts 435 are located at the same position in the axial direction, while the second contacts 445 are located at the same position in the axial direction.

  The center contact 400 having such a structure is obtained by punching and bending a single metal plate. Specifically, a plurality of slits are formed in a single metal plate, and the first contact 435 and the second contact with respect to the first spring part 430 and the second spring part 440 located on both sides of the slit in the circumferential direction. 445, and the first base portion 410 and the second base portion 420 are formed in a C shape. In this way, the center contact 400 as shown in FIGS. 12 to 14 is obtained.

  As can be understood from FIG. 10, the insulating member 500 holds the center contact 400 and insulates the center contact 400 and the external contact 600 from each other.

  As shown in FIGS. 12, 15, and 16, the insulating member 500 of the present embodiment includes a large diameter portion 510 and two small diameter portions 520. The two small diameter portions 520 are located at both ends of the large diameter portion 510 in the axial direction. In other words, the large diameter portion 510 is sandwiched between the two small diameter portions 520 in the axial direction. In the large diameter portion 510, two first protrusions 530 and two second protrusions 540 are formed. Each first protrusion 530 has a first facing surface 532 orthogonal to the axial direction and a first slope 534 obliquely intersecting the axial direction. The first facing surface 532 and the first slope 534 are located at both ends of the first protrusion 530 in the axial direction. Each second protrusion 540 has a second facing surface 542 that is orthogonal to the axial direction, and a second slope 544 that is oblique to the axial direction. The second facing surface 542 and the second inclined surface 544 are located at both ends of the second protrusion 540 in the axial direction. In the axial direction, the first protrusion 530 and the second protrusion 540 face in opposite directions.

  As shown in FIGS. 12, 15, and 17, a holding hole 550 is formed in the insulating member 500. The holding hole 550 penetrates the insulating member 500 in the axial direction. A holding projection 560 is formed near the end of the holding hole 550. Specifically, three holding projections 560 are arranged at equal intervals near one end of the holding hole 550, and three holding projections 560 are arranged at equal intervals near the other end of the holding hole 550. As can be seen from FIG. 10, the center contact 400 is received and retained within the retention hole 550. Further, the holding protrusion 560 prevents the center contact 400 held in the holding hole 550 from coming out of the holding hole 550.

  As shown in FIGS. 4 to 6, the external contact 600 is connected to the first external conductor 130 and the second external conductor 230.

  As shown in FIGS. 12 and 18, the external contact 600 has a first end 610, a second end 620, and a main portion 630. The first end 610 and the second end 620 are located away from each other in the axial direction. The main portion 630 connects the first end 610 and the second end 620. As shown in FIGS. 4 to 6, the first end 610 and the second end 620 have a dog-shaped cross section protruding outward. The first end 610 and the second end 620 are connected to the first outer conductor 130 and the second outer conductor 230, respectively.

  As shown in FIGS. 12 and 18, the external contact 600 is formed with a plurality of first slits 640 and a plurality of second slits 650. The first slits 640 extend from the first end 610 toward the second end 620 but do not reach the second end 620. The second slits 650 extend from the second end portion 620 toward the first end portion 610 but do not reach the first end portion 610. An end portion constituting the end of the first slit 640 in the axial direction (that is, an end portion close to the second end portion 620) functions as a first stopper 645 described later. Similarly, an end portion that forms the end of the second slit 650 in the axial direction (that is, an end portion close to the first end portion 610) functions as a second stopper 655 described later.

  The portion sandwiched between the first slits 640 functions as a spring portion that elastically supports the first end portion 610, and the portion sandwiched between the second slits 650 is a spring portion that elastically supports the second end portion 620. Function as. By these spring portions, the first end portion 610 and the second end portion 620 can move in the radial direction. That is, it is elastically deformed.

  In the present embodiment, the number of the first slits 640 and the number of the second slits 650 are equal, and the first slits 640 and the second slits 650 are alternately arranged in the circumferential direction centering on the axial direction. . Further, the positions of the first slit 640 and the second slit 650 in the axial direction partially overlap each other. As a result, a part of the second slit 650 is formed in the spring part that supports the first end 610, and a part of the first slit 640 is formed in the spring part that supports the second end 620. ing. With this structure, it is possible to obtain a spring having a long spring length by forming a relatively long slit while reducing the size of the external contact 600 in the axial direction. Specifically, in the present embodiment, in the axial direction, the size of the first slit 640 is larger than half of the size of the external contact 600, and the size of the second slit 650 is half of the size of the external contact 600. Therefore, even if the size of the external contact 600 is small, the spring length of the spring portion that supports the first end portion 610 and the second end portion 620 can be increased.

  The external contact 600 having the structure as described above is attached on the outer periphery of the insulating member 500 by inserting the insulating member 500 into the external contact 600. At the time of this attachment, since the first slope 534 of the first protrusion 530 and the second slope 544 of the second protrusion 540 are provided, the insulating member 500 can be easily inserted into the external contact 600. As a result of this attachment, the first protrusion 530 is received in the first slit 640 and the second protrusion 540 is received in the second slit 650.

  Specifically, referring to FIG. 11, the first facing surface 532 of the first protrusion 530 faces the first stopper 645 in the axial direction, and the second facing surface 542 of the second protrusion 540 has a shaft. It faces the second stopper 655 in the direction. Further, in the axial direction, the first facing surface 532 is located between the first slope 534 and the first stopper 645, and the second facing surface 542 is in the axial direction the second slope 544 and the second stopper. 655. Further, the first stopper 645 is located between the first slit 640 and the second end 620, and the second stopper 655 is located between the second slit 650 and the first end 610. Yes.

  Further, since the small diameter portions 520 are provided at both ends in the axial direction of the large diameter portion 510 as shown in FIG. 12, the diameters of the first end portion 610 and the second end portion 620 as shown in FIG. A space is formed on the inner side in the direction. Therefore, the first end 610 and the second end 620 are movable toward the inside in the radial direction.

  As can be understood from FIG. 2, the main portion 630 of the external contact 600 is positioned away from the second external conductor 230 in the radial direction in a state where the adapter 300 is fitted to the second connector 200. Therefore, the adapter 300 can move in a plane orthogonal to the axial direction by using the spring property of the external contact 600. That is, the adapter 300 is floatingly supported by the second connector 200. Thus, when the adapter 300 floating-supported by the second connector 200 and the first connector 100 are fitted together, the first end 610 is guided by the guide portion 132 and is appropriately received in the first outer conductor 130. The As a result, as can be understood from FIGS. 4 to 6, when the first circuit board 700 and the second circuit board 750 are opposed to each other, even if the positions of the first connector 100 and the adapter 300 are slightly shifted, The first connector 100 and the adapter 300 can be appropriately fitted without visually checking the fitting position between the two.

  As shown in FIG. 4, in a state where the first connector 100 and the second connector 200 are connected to each other via the adapter 300, the main portion 630 of the external contact 600 is separated from the first external conductor 130 in the radial direction. Is located. As understood from FIG. 4, the first outer conductor 130 of the first connector 100 and the outer contact 600 of the adapter 300 are connected only at the first end 610, and the second outer conductor 230 of the second connector 200. And the external contact 600 of the adapter 300 are connected only at the second end 620.

  As shown in FIGS. 4 to 6, the guide portion 132 is provided so as not to directly contact the second outer conductor 230 in a state where the first connector 100 and the second connector 200 are connected to each other via the adapter 300. It has been. In particular, in the present embodiment, the first connector 100 and the second connector 200 are connected to each other via the adapter 300, and the first end portion of the adapter 300 is a reference in design. A space S exists between 610 and the insulating member 500 and the first holding member 120 of the first connector 100. Therefore, even if the distance between the first circuit board 700 and the second circuit board 750 (inter-substrate distance) slightly varies, the variation can be absorbed by the space S. In the present embodiment, even when the distance between the substrates is the shortest, that is, the first end 610 of the adapter 300 and the insulating member 500 hit the first holding member 120 of the first connector 100 and the space S is eliminated. Even at times, the guide portion 132 does not make direct contact with the second outer conductor 230. Therefore, even when the distance between the substrates is the smallest, the first connector 100 is interposed via the adapter 300 while reliably absorbing the shift in the plane orthogonal to the axial direction between the first connector 100 and the second connector 200. And the second connector 200 can be reliably connected.

  As shown in FIGS. 4 to 6, the second end portion 620 is locked to the lock portion 234 of the second outer conductor 230 in a state where the adapter 300 is fitted to the second connector 200. On the other hand, as described above, the first connector 100 is not provided with a portion like the lock portion 234. Therefore, in a state where the first connector 100 fixed to the first circuit board 700 and the second connector 200 fixed to the second circuit board 750 are connected to each other via the adapter 300, the first circuit board 700 and the second circuit board When 750 is moved away from each other, the first connector 100 is removed from the adapter 300 while the fitting between the adapter 300 and the second connector 200 is maintained. At this time, the second stopper 655 (see FIG. 11) and the second facing surface 542 abut against each other, so that the insulating member 500 is prevented from being detached from the external contact 600.

  The embodiment of the present invention has been specifically described above. However, the present invention is not limited to this, and various modifications can be made. For example, the guide portion 132 shown in FIG. 1 is opened by cutting the end portion of the first outer conductor 130, but the present invention is not limited to this, and the end portion is shear-deformed by shear cutting. After forming the portion, the guide portion having no notch may be formed by forming the first outer conductor 130 by winding it in a cylindrical shape.

DESCRIPTION OF SYMBOLS 10 Coaxial connector 100 1st connector 110 1st center conductor 120 1st holding member 130 1st outer conductor 132 Guide part 200 2nd connector 210 2nd center conductor 220 2nd holding member 230 2nd outer conductor 232 End part 234 Lock part 300 Adapter 400 Center Contact 410 First Base 420 Second Base 430 First Spring Part 435 First Contact 440 Second Spring Part 445 Second Contact 500 Insulating Member 510 Large Diameter Part 520 Small Diameter Part 530 First Projection 532 First Opposite Surface 534 First slope 540 Second protrusion 542 Second opposing surface 544 Second slope 550 Holding hole 560 Holding protrusion 600 External contact 610 First end 620 Second end 630 Main portion 640 First slit 645 First stopper 650 2nd slit 655 2nd stopper 700 1st Road board 750 Second circuit board RS Spring region R1 First region R2 Second region S Space

Claims (14)

A coaxial connector comprising a first connector, a second connector, and an adapter,
The first connector includes a first central conductor extending in the axial direction, and a first outer conductor positioned away from the first central conductor in a radial direction orthogonal to the axial direction,
The second connector includes a second center conductor extending in the axial direction, and a second outer conductor positioned away from the second center conductor in the radial direction,
The adapter is fitted to the first connector and the second connector at both ends in the axial direction,
The adapter includes a center contact connected to the first center conductor and the second center conductor, an external contact connected to the first outer conductor and the second outer conductor, the center contact and the outer An insulating member that insulates the contacts from each other;
The external contact has a first end, a second end, and a main portion,
The first end and the second end are located away from each other in the axial direction, and are connected to the first outer conductor and the second outer conductor, respectively.
The main portion connects the first end and the second end,
The external contact includes a plurality of first slits extending from the first end toward the second end but not reaching the second end, and the second end to the first end. A plurality of second slits extending toward but not reaching the first end are formed,
The first slits and the second slits are alternately arranged in a circumferential direction centered on the axial direction,
The positions of the first slit and the second slit in the axial direction partially overlap each other ,
The external contact is provided with a first stopper positioned between the first slit and the second end, and a second stopper positioned between the second slit and the first end. And
The insulating member is formed with at least one first protrusion received in the first slit and at least one second protrusion received in the second slit,
The first protrusion has a first facing surface facing the first stopper in the axial direction,
The coaxial connector is a coaxial connector , wherein the second protrusion has a second facing surface that faces the second stopper in the axial direction . A coaxial connector comprising a first connector, a second connector, and an adapter,
The first connector includes a first central conductor extending in the axial direction, and a first outer conductor positioned away from the first central conductor in a radial direction orthogonal to the axial direction,
The second connector includes a second center conductor extending in the axial direction, and a second outer conductor positioned away from the second center conductor in the radial direction,
The adapter is fitted to the first connector and the second connector at both ends in the axial direction,
The adapter includes a center contact connected to the first center conductor and the second center conductor, an external contact connected to the first outer conductor and the second outer conductor, the center contact and the outer An insulating member that insulates the contacts from each other;
The external contact has a first end, a second end, and a main portion,
The first end and the second end are located away from each other in the axial direction, and are connected to the first outer conductor and the second outer conductor, respectively.
The main portion connects the first end and the second end,
The external contact includes a plurality of first slits extending from the first end toward the second end but not reaching the second end, and the second end to the first end. A plurality of second slits extending toward but not reaching the first end are formed,
The first slits and the second slits are alternately arranged in a circumferential direction centered on the axial direction,
The positions of the first slit and the second slit in the axial direction partially overlap each other,
The center contact has a first base portion extending in the circumferential direction, a second base portion extending in the circumferential direction, a plurality of first spring portions, and a plurality of second spring portions,
Each of the first spring portions connects the first base portion and the second base portion, and contacts the first central conductor when the first connector and the adapter are fitted. Has one contact,
Each of the second spring portions connects the first base portion and the second base portion, and contacts the second central conductor when the second connector and the adapter are fitted. Has two contacts,
The first spring portions and the second spring portions are alternately positioned with an interval in the circumferential direction,
When a spring region, which is a region between the first base and the second base, is divided into two equal parts in a first region close to the first base and a second region close to the second base in the axial direction. The first contacts are all located in the first region, and the second contacts are both located in the second region . Coaxial connector. A coaxial connector comprising a first connector, a second connector, and an adapter,
The first connector includes a first central conductor extending in the axial direction, and a first outer conductor positioned away from the first central conductor in a radial direction orthogonal to the axial direction,
The second connector includes a second center conductor extending in the axial direction, and a second outer conductor positioned away from the second center conductor in the radial direction,
The adapter is fitted to the first connector and the second connector at both ends in the axial direction,
The adapter includes a center contact connected to the first center conductor and the second center conductor, an external contact connected to the first outer conductor and the second outer conductor, the center contact and the outer An insulating member that insulates the contacts from each other;
The external contact has a first end, a second end, and a main portion,
The first end and the second end are located away from each other in the axial direction, and are connected to the first outer conductor and the second outer conductor, respectively.
The main portion connects the first end and the second end,
The external contact includes a plurality of first slits extending from the first end toward the second end but not reaching the second end, and the second end to the first end. A plurality of second slits extending toward but not reaching the first end are formed,
The first slits and the second slits are alternately arranged in a circumferential direction centered on the axial direction,
The positions of the first slit and the second slit in the axial direction partially overlap each other,
The external contact is provided with a first stopper positioned between the first slit and the second end, and a second stopper positioned between the second slit and the first end. And
The insulating member is formed with at least one first protrusion received in the first slit and at least one second protrusion received in the second slit,
The first protrusion has a first facing surface facing the first stopper in the axial direction,
The second protrusion has a second facing surface facing the second stopper in the axial direction ,
The center contact has a first base portion extending in the circumferential direction, a second base portion extending in the circumferential direction, a plurality of first spring portions, and a plurality of second spring portions,
Each of the first spring portions connects the first base portion and the second base portion, and contacts the first central conductor when the first connector and the adapter are fitted. Has one contact,
Each of the second spring portions connects the first base portion and the second base portion, and contacts the second central conductor when the second connector and the adapter are fitted. Has two contacts,
The first spring portions and the second spring portions are alternately positioned with an interval in the circumferential direction,
When a spring region, which is a region between the first base and the second base, is divided into two equal parts in a first region close to the first base and a second region close to the second base in the axial direction. The first contacts are all located in the first region, and the second contacts are both located in the second region . Coaxial connector. The coaxial connector according to any one of claims 1 to 3 ,
The number of the first slits and the number of the second slits are equal coaxial connectors. The coaxial connector according to claim 1 or 3 ,
The first protrusion further includes a first slope that obliquely intersects the axial direction,
The first facing surface is located between the first slope and the first stopper in the axial direction;
The second protrusion further includes a second inclined surface that obliquely intersects the axial direction,
The second opposing surface is a coaxial connector located between the second slope and the second stopper in the axial direction. The coaxial connector according to any one of claims 1, 3, and 5 ,
A lock portion that locks the second end portion is formed only in the second outer conductor of the first outer conductor and the second outer conductor,
The adapter is held by the second connector by the lock portion locking the second end,
A coaxial connector in which the insulating member is prevented from coming off from the external contact when the second stopper and the second facing surface abut when the first connector is removed from the adapter. The coaxial connector according to any one of claims 1 to 6 ,
The coaxial connector, wherein the main portion of the external contact is located away from the first external conductor and the second external conductor in the radial direction. The coaxial connector according to claim 7 ,
A coaxial connector in which the first outer conductor is formed with a guide portion that guides the first end portion of the external contact when the first connector and the adapter are fitted together. The coaxial connector according to claim 8 , wherein
The guide part is a coaxial connector provided so that the first connector and the second connector are not in direct contact with the second outer conductor even when the first connector and the second connector are connected via the adapter. The coaxial connector according to claim 2 or 3 , wherein
The first contacts are located at the same position in the axial direction,
The second contacts are coaxial connectors that are located at the same position in the axial direction. The coaxial connector according to any one of claims 2, 3, and 10 ,
The coaxial connector in which the first base and the second base have the same size in the axial direction. A coaxial connector according to any one of claims 2, 3, 10 and 11,
The center contact is a member made of one metal plate ,
The first size, which is the size in the axial direction of the first base, is equal to or greater than the thickness of the metal plate,
The second size, which is the size in the axial direction of the second base, is equal to or greater than the thickness of the metal plate,
The size of the first spring portion in the circumferential direction is not less than the thickness of the metal plate and not more than the smaller of the first size and the second size,
The size of the said 2nd spring part in the said circumferential direction is a coaxial connector which is more than the thickness of the said metal plate, and is below the smaller one of the said 1st size and the said 2nd size.
The coaxial connector according to any one of claims 1 to 12,
In the axial direction, the size of the first slit is larger than half of the size of the external contact,
In the axial direction, the size of the second slit is a coaxial connector larger than half of the size of the external contact. The coaxial connector according to any one of claims 1 to 13,
The first connector is fixed to a first circuit board;
The second connector is a coaxial connector that is fixed to a second circuit board different from the first circuit board.

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