JP6199273B2 - connector - Google Patents

Description

  The present invention relates to a connector that can be connected to a cable having a star quad structure, and a mating connector that can be fitted to the connector.

  For example, Patent Document 1 discloses this type of connector.

  As shown in FIGS. 17 and 18, the connector disclosed in Patent Document 1 includes at least four types of members, specifically, four spring bars, an insulating component, a support sleeve, and an outer conductor component. Yes. The spring bar is attached to each of the four signal conductors of the star quad cable (cable having a star quad structure). Four holes are formed in the insulating component. The spring bar is folded outward after passing through the holes of the insulating parts. The support sleeve is attached to the shield wire of the cable. The outer conductor component is attached to the outside of the support sleeve. The connector connected to the cable as described above can be fitted with a mating connector (not shown).

Special table 2012-508951 gazette

  The connector of patent document 1 consists of at least 4 types of members. In addition, a complicated assembly process is required to connect the cable to the connector. This increases manufacturing costs and assembly costs.

  Accordingly, an object of the present invention is to provide a connector that has a small number of parts and that can reduce assembly costs when connecting to a cable having a star quad structure.

The present invention provides the first connector as
A connector connectable to a cable, wherein the cable includes a 4-core signal line and a shield line that shields the signal line, and the connector includes a contact set and a holding member,
The contact set includes four first contacts and one second contact;
The first contacts are respectively connected to the signal lines;
The second contact is connected to the shield wire;
The holding member is formed with a holding hole set,
The holding hole set includes four first holding holes and one second holding hole.
The first holding hole and the second holding hole penetrate the holding member in a predetermined direction,
The first holding holes are respectively located at vertices of virtual squares in a predetermined plane orthogonal to the predetermined direction,
The second holding hole is located outside the square in the predetermined plane,
The first holding holes hold the first contacts, respectively.
The second holding hole provides a connector for holding the second contact.

Moreover, this invention is a 1st connector as a 2nd connector,
The connector includes a plurality of the contact sets respectively connected to the plurality of cables.
The holding member has a plurality of holding hole sets for holding the contact sets, respectively.
The second holding hole is arranged along an imaginary circle within the predetermined plane. In each of the holding hole sets, the second holding hole has a center point of the square and a center point of the circle. To provide a connector located between.

Moreover, this invention is a 2nd connector as a 3rd connector,
The holding hole set provides a connector arranged in a rotationally symmetrical manner with respect to the center point of the circle within the predetermined plane.

Moreover, this invention is a 2nd or 3rd connector as a 4th connector,
The connector includes a cable holding member,
The cable holding member is formed with a plurality of cable holding holes for holding the cables,
The cable holding hole penetrates the cable holding member in the predetermined direction,
Within the predetermined plane, the arrangement of the cable holding holes provides a connector similar to the arrangement of the holding hole set.

Moreover, this invention is a connector in any one of 1st thru | or 4 as a 5th connector,
The second holding hole provides a connector that is equidistant from the two first holding holes respectively located at both ends of one side of the square in the predetermined plane.

The present invention also provides a first mating connector that can be fitted to the first connector.
The mating connector includes a mating contact set and a mating holding member,
The counterpart contact set is composed of four counterpart first contacts and one counterpart second contact,
The counterpart holding member is formed with a counterpart holding hole set,
The mating holding hole set is composed of four mating first holding holes and one mating second holding hole.
The counterpart first holding hole and the counterpart second holding hole penetrate the counterpart holding member in the predetermined direction,
The counterpart first holding holes are respectively located at the vertices of virtual counterpart squares within the predetermined plane,
The counterpart second holding hole is located outside the counterpart square within the predetermined plane,
The counterpart first holding holes hold the counterpart first contacts, respectively.
The counterpart second holding hole provides a counterpart connector for holding the counterpart second contact.

Further, the present invention is a first mating connector as the second mating connector,
The mating second holding hole provides a mating connector that is equidistant from the two mating first holding holes located at both ends of one side of the mating square in the predetermined plane.

The present invention also provides a third mating connector that can be fitted to the second connector.
The mating connector includes a plurality of mating contact sets and a mating holding member,
Each of the counterpart contact sets consists of four counterpart first contacts and one counterpart second contact,
A plurality of counterpart holding hole sets are formed in the counterpart holding member,
Each of the counterpart holding hole sets is composed of four counterpart first holding holes and one counterpart second holding hole.
The counterpart first holding hole and the counterpart second holding hole penetrate the counterpart holding member in the predetermined direction,
In each of the counterpart side holding hole sets, the counterpart side first holding holes are respectively located at vertices of virtual counterpart squares within the predetermined plane,
In each of the counterpart holding hole sets, the counterpart second holding hole is located outside the counterpart square in the predetermined plane,
In each of the counterpart holding hole sets, the counterpart first holding hole holds the counterpart first contact, respectively.
In each of the counterpart holding hole sets, the counterpart second holding hole holds the counterpart second contact,
The counterpart second holding hole is disposed along a virtual counterpart circle in the predetermined plane,
In each of the counterpart holding hole sets, the counterpart second holding hole provides a counterpart connector positioned between a center point of the counterpart square and a center point of the counterpart circle.

Moreover, this invention is a 3rd mating connector as a 4th mating connector,
The counterpart side holding hole set provides a counterpart side connector that is arranged in rotational symmetry with respect to the center point of the counterpart circle within the predetermined plane.

Further, the present invention is a third or fourth mating connector as the fifth mating connector,
In each of the counterpart holding hole sets, the counterpart second holding hole is equidistant from the two counterpart first holding holes respectively located at both ends of one side of the counterpart square in the predetermined plane. Provide a counterpart connector.

  The connector according to the present invention can be manufactured from three types of members: a first contact, a second contact, and a holding member. For this reason, the manufacturing cost of a connector can be reduced. Further, by connecting the first contact and the second contact to the signal line and the shield line of the cable, respectively, and inserting the first contact and the second contact into the first holding hole and the second holding hole of the holding member, respectively, the cable having the star quad structure is connected to the connector. Can connect. For this reason, workability | operativity improves and an assembly cost can be reduced.

  According to the present invention, the first holding holes for holding the first contacts are located at the vertices of virtual squares within the predetermined plane, and the second holding holes for holding the first contacts are Located outside the square. With the arrangement of the first holding hole and the second holding hole, transmission line characteristics equivalent to those of the conventional connector can be obtained.

It is a perspective view which shows the connector by embodiment of this invention. Here, although the illustrated connector is connected only to a cable having a single star quad structure, the connector can be connected to a plurality of cables. It is a disassembled perspective view which shows the connector of FIG. It is a perspective view which shows the holding member of the connector of FIG. It is a front view which shows the holding member of FIG. Here, the positional relationship of the holding hole set is indicated by a virtual broken line. It is a front view which shows one of the holding hole sets of FIG. Here, the positional relationship between the first holding hole and the second holding hole is indicated by a virtual broken line. Moreover, the 2nd holding hole arrange | positioned in the position different from this Embodiment is drawn with the dashed-dotted line. FIG. 3 is a perspective view showing a first contact and a second contact of the connector of FIG. 2. Here, the first contact and the second contact are connected to the signal line and the shield line of the cable, respectively. It is a perspective view which shows the connector which consists only of a holding member, the 1st contact, and the 2nd contact which are contained in the connector of FIG. Here, the first contact and the second contact are respectively connected to the signal line and the shield line of the cable, and are held by the holding member. In addition, an end portion of the cable (a portion surrounded by a broken line) is enlarged and drawn. It is another perspective view which shows the connector of FIG. It is a front view which shows the cable holding member of the connector of FIG. Here, the positional relationship of the cable holding holes is indicated by a virtual broken line. Further, the first holding hole and the second holding hole of the holding member are drawn by a one-dot chain line. FIG. 3 is a perspective view showing a connector including only a holding member, a first contact, a second contact, and a cable holding member included in the connector of FIG. 2. Here, the first contact and the second contact are respectively connected to the signal line and the shield line of the cable, and are held by the holding member. The cable is inserted into the cable holding hole. It is a perspective view which shows the other party connector by embodiment of this invention. Here, the mating connector shown in the figure is connected only to a cable having a single star quad structure, but the mating connector can be connected to a plurality of cables. It is a disassembled perspective view which shows the other party connector of FIG. It is a perspective view which shows the other party 1st contact and the other party 2nd contact of the other party connector of FIG. Here, the mating first contact and the mating second contact are connected to the signal line and the shield line of the cable, respectively. It is a perspective view which shows the other party connector which consists only of the other party holding member, the other party 1st contact, and the other party 2nd contact which are contained in the other party connector of FIG. Here, the mating first contact and the mating second contact are respectively connected to the signal line and the shield line of the cable, and are held by the mating holding member. It is a perspective view which shows the other party fitting member of the other party connector of FIG. It is a front view which shows the other party holding member of the other party connector of FIG. Here, the positional relationship of the counterpart holding hole set is indicated by a virtual broken line. Moreover, the cable holding hole of the cable holding member is drawn with a one-dot chain line. It is a perspective view which shows a part of connector of patent document 1, and a cable. It is a perspective view which shows the connector of patent document 1, and a cable.

  As can be understood from FIGS. 1 and 7, the connector 10 according to the embodiment of the present invention can be connected to a cable 80 having a star quad structure. Further, the connector 10 can be fitted with a mating connector (connector) 20 (see FIG. 11) along a predetermined direction (X direction: front-rear direction).

  As understood from FIGS. 6 and 7, the cable 80 includes a four-core signal line 82, a shield line 86 made of a conductor, and a coating 88 made of an insulator. Each of the signal lines 82 includes a core wire made of a conductor and an insulator covering the core wire. Ideally, each of the signal lines 82 is located at each vertex of a virtual square in a predetermined plane (YZ plane) orthogonal to the X direction. The two signal lines 82 located on the square diagonal line are used for differential transmission (differential transmission). The shield line 86 covers and shields the signal line 82 within a predetermined plane. The covering 88 covers the shield line 86 in the YZ plane.

  As shown in FIGS. 1 and 2, the connector 10 according to the present embodiment includes a metal fitting member 310, a holding member 410 made of an insulator, a contact set 510 made of a conductor, a spacer 610, , A cable holding member 620 made of an elastic material such as rubber, a cable clamp 660, a nut 670, and a band 680. Each of the fitting member 310, the spacer 610, the cable clamp 660, the nut 670, and the band 680 has an annular shape or a cylindrical shape centering on an axis parallel to the X direction.

  As shown in FIGS. 3 and 7, the holding member 410 according to the present embodiment has a cylindrical shape extending along the X direction. A plurality of holding hole sets 420 are formed in the holding member 410. In the present embodiment, the number of holding hole sets 420 is six. Each of the holding hole sets 420 includes four first holding holes 422 and one second holding hole 424. The first holding hole 422 and the second holding hole 424 penetrate the holding member 410 in the X direction. The first holding hole 422 and the second holding hole 424 have a circular shape of the same size in the YZ plane.

  As shown in FIG. 6, the contact set 510 includes four first contacts 520 and one second contact 530. Each of the first contact 520 and the second contact 530 extends along the X direction. The first contact 520 is connected to the signal line 82 of the cable 80 at the end on the −X side (rear side). Similarly, the second contact 530 is connected to the shield line 86 at the end on the −X side.

  As shown in FIGS. 7 and 8, the contact set 510 is inserted and held in the corresponding holding hole set 420 from the −X side. Specifically, the first holding holes 422 hold the first contacts 520, respectively. The + X side (front side) end portion of the first contact 520 protrudes from the first holding hole 422, and an intermediate portion (see FIG. 6) of the first contact 520 in the X direction is formed on the inner wall of the first holding hole 422. A holding clip or the like (not shown) attached to the first contact 520 is held by being engaged with the provided engaging portion (not shown). Similarly, the second holding hole 424 holds the second contact 530. The + X side end of the second contact 530 protrudes from the second holding hole 424, and an intermediate portion (see FIG. 6) in the X direction of the second contact 530 is provided on the inner wall of the second holding hole 424. A holding clip or the like (not shown) attached to the second contact 530 is held by being engaged with an engaging portion (not shown).

  As understood from FIGS. 7 and 8, the holding member 410 and the contact set 510 configured as described above do not include a member such as the fitting member 310 (see FIG. 1), but the −X side. Can be connected to the cable 80 and can be fitted to a mating connector (for example, the mating connector 20 in FIG. 11) on the + X side. In other words, the connector 10X that can be connected to the cable 80 using only the holding member 410 and the contact set 510 can be configured. However, in the present embodiment, the connector 10X is a part of the connector 10.

  In the connector 10X, the first contact 520 and the second contact 530 respectively connected to the signal line 82 and the shield line 86 of the cable 80 are simply inserted into the first holding hole 422 and the second holding hole 424 of the holding member 410, respectively. The cable 80 can be connected. For this reason, workability | operativity improves and an assembly cost can be reduced. The connector 10 </ b> X can be manufactured from three types of members: the first contact 520, the second contact 530, and the holding member 410. For this reason, the manufacturing cost of the connector 10X can be reduced.

  Furthermore, as shown in FIG. 6, according to the present embodiment, the first contact 520 and the second contact 530 have the same size and shape. Therefore, the connector 10X (see FIG. 8) can be manufactured from two types of members. According to the present embodiment, the manufacturing cost of the connector 10X can be further reduced.

  Referring to FIG. 5, in each holding hole set 420, the first holding hole 422 and the second holding hole 424 are arranged as follows. First, the first holding holes 422 are respectively located at the vertices of the virtual square 440 in the YZ plane. In other words, the arrangement of the first holding holes 422 in the YZ plane is similar to the arrangement of the signal lines 82 inside the cable 80 (see FIG. 7). The second holding hole 424 is located outside the square 440 in the YZ plane.

  Referring to FIGS. 7 and 8, since the first holding hole 422 and the second holding hole 424 are arranged as described above, the holding member 410 is bent or twisted to the signal line 82 and the shield line 86 of the cable 80. The first contact 520 and the second contact 530 can be held with little occurrence of this. Also, with this arrangement, the holding member 410 can maintain the transmission path characteristics of the cable 80 (see FIG. 7). For example, when performing signal transmission using Ethernet (registered trademark) in a railway vehicle, it is possible to ensure transmission path characteristics conforming to ISO / IEC 11801 (JIS X 5150) CLASS D.

  Referring to FIG. 5, according to the present embodiment, in addition to the above-described arrangement of the first holding holes 422 and the second holding holes 424, the second holding holes 424 are located at both ends of the side 440S of the square 440, respectively. It is equidistant from the two first holding holes 422. With this arrangement, the holding member 410 can more reliably maintain the transmission path characteristics of the cable 80 (see FIG. 7). However, as long as the 2nd holding hole 424 is located outside the square 440, you may arrange | position different from this Embodiment. For example, the second holding hole 424 may be located on a diagonal extension of the square 440 as depicted by a one-dot chain line in FIG.

  Referring to FIG. 8, the illustrated holding member 410 holds only one contact set 510. In this case, only one holding hole set 420 needs to be formed in the holding member 410. On the other hand, since the holding member 410 according to the present embodiment has the six holding hole sets 420, the six contact sets 510 can be held. In other words, the holding member 410 according to the present embodiment is formed with a plurality of holding hole sets 420 for holding the contact sets 510 respectively. Therefore, the connector 10 </ b> X can include a plurality of contact sets 510 that are respectively connected to the plurality of cables 80.

  Referring to FIG. 4, the six holding hole sets 420 are arranged concentrically with the second holding hole 424 inside. Specifically, the second holding hole 424 is disposed along a virtual circle 430 in the YZ plane. A center point 430C of the circle 430 coincides with the center point of the holding member 410 in the YZ plane. The center point 430C is located on an imaginary straight line that passes through the center of the second holding hole 424 and the center point 440C of the corresponding square 440. In each of the holding hole sets 420, the second holding hole 424 is located between the center point 440 </ b> C of the square 440 and the center point 430 </ b> C of the circle 430.

  Since the holding hole set 420 is arranged as described above, it can be arranged on the holding member 410 at a high density. In other words, the mounting efficiency of the transmission path in the connector 10X (see FIG. 8) is improved. Furthermore, the holding hole set 420 according to the present embodiment is disposed rotationally symmetrically with respect to the center point 430C of the circle 430 in the YZ plane. In other words, the holding hole sets 420 are arranged on the concentric circles at equal intervals. For this reason, the transmission path characteristics of a plurality of transmission paths in the connector 10X can be matched, and variations in transmission performance can be suppressed.

  Referring to FIG. 10, when connecting a plurality of cables 80 to the connector 10 </ b> X (see FIG. 8), it is preferable to include a member that holds the cables 80. In this case, the connector 10Y may be configured using the cable holding member 620 in addition to the holding member 410 and the contact set 510. The connector 10 according to the present embodiment includes a connector 10Y as a part thereof.

  2 and 10, the cable holding member 620 according to the present embodiment has a cylindrical shape extending along the X direction. A plurality of cable holding holes 622 are formed in the cable holding member 620. In the present embodiment, the number of cable holding holes 622 is six. The cable holding hole 622 penetrates the cable holding member 620 in the X direction. The cable holding holes 622 can hold the cables 80 respectively.

  As shown in FIG. 9, the arrangement of the cable holding holes 622 is similar to the arrangement of the holding hole set 420 in the YZ plane. Specifically, the cable holding holes 622 are positioned at the vertices of virtual regular hexagons connecting the center points 440C of the holding hole set 420, respectively. With the arrangement of the cable holding holes 622, the cable 80 (see FIG. 10) can be held on the cable holding member 620 so as to extend linearly.

  Referring to FIGS. 1 and 2, the connector 10 is assembled from the various members described above in addition to the holding member 410, the contact set 510 and the cable holding member 620. Specifically, first, the cable 80 is passed through the spacer 610, the cable holding hole 622 of the cable holding member 620, the cable clamp 660, the nut 670, and the band 680 in advance. Next, the contact set 510 is attached to the cable 80. Thereafter, the contact set 510 is held by the holding member 410. Next, the cable clamp 660 is attached around the cable holding member 620. Next, the fitting member 310 and the nut 670 sandwich the member combined as described above in the X direction.

  At this time, the rear portion (the portion on the −X side) of the cable holding member 620 and the cable clamp 660 protrudes rearward (in the −X direction) from the nut 670. A band 680 is tightened around the rear of the cable clamp 660. Thereby, the position in the X direction of each member is fixed. The cable holding member 620 tightened by the cable clamp 660 securely holds the cable 80.

  As shown in FIG. 1, the fitting member 310 according to the present embodiment includes a main body 312 and a flange 314. The main body 312 has a substantially cylindrical shape, and the flange 314 protrudes from the main body 312 on the YZ plane. Three engagement grooves 316 are formed in the main body 312. As can be understood from this shape, the fitting member 310 is a so-called bayonet connector. For this reason, the connector 10 can be easily fitted to an object such as the connector 20 (see FIG. 11).

  1 and 8, the connector 10 according to the present embodiment is a plug, and the contact set 510 of the connector 10 is composed of pin contacts. However, as described below, the present invention is also applicable to a receptacle that includes a socket contact and can be fitted to a plug.

  As understood from FIG. 11, the connector 20 can be fitted to the connector 10 (see FIG. 1) along the X direction. The connector 20 according to the embodiment of the present invention can be connected to the cable 80 similarly to the connector 10. However, as long as one of the connector 10 and the connector 20 is connected to the cable 80, the other may be connected to an object other than the cable 80. For example, the connector 20 may be a connector connected to a circuit board (not shown).

  As shown in FIGS. 11 and 12, the connector 20 according to the present embodiment includes a metal mating fitting member (fitting member) 350, and a mating holding member (holding member) 450 made of an insulator. And a mating contact set (contact set) 550 made of a conductor. Further, the connector 20 includes a spacer 610, a cable holding member 620, a cable clamp 660, a nut 670, and a band 680, similar to the connector 10 (see FIG. 2). The connector 20 is assembled in the same manner as the connector 10. Hereinafter, the fitting member 350, the holding member 450, and the contact set 550 will be mainly described.

  As shown in FIGS. 11 and 15, the fitting member 350 has a cylindrical shape extending in the X direction. The fitting member 350 is formed with a receiving portion 352 and a fitting groove 354. Further, the fitting member 350 has a barrel 356 and a coupling nut 357. The coupling nut 357 is formed with a lock member accommodating portion 358. A lock member (not shown) is held in the lock member accommodating portion 358. The coupling nut 357 is held by the barrel 356 so as to be rotatable about an axis parallel to the X direction. The receiving portion 352 is a cylindrical space that penetrates the fitting member 350 in the X direction. The receiving part 352 receives the holding member 450 inserted from the + X side (rear side). The fitting groove 354 is provided on the −X side (front side) of the fitting member 350 and surrounds the holding member 450 in the YZ plane.

  Referring to FIG. 14 in comparison with FIG. 8, the holding member 450 according to the present embodiment has a shape similar to the holding member 410. However, the length of the holding member 450 (size in the X direction) is longer than the length of the holding member 410.

  As shown in FIG. 14, the holding member 450 has a columnar shape extending along the X direction. A plurality of counterpart holding hole sets (holding hole sets) 460 are formed in the holding member 450. In the present embodiment, the number of holding hole sets 460 is six. Each of the holding hole sets 460 includes four counterpart first holding holes (first holding holes) 462 and one counterpart second holding hole (second holding hole) 464. The first holding hole 462 and the second holding hole 464 penetrate the holding member 450 in the X direction. The first holding hole 462 and the second holding hole 464 have a circular shape of the same size in the YZ plane.

  As shown in FIG. 13, the contact set 550 includes four mating first contacts (first contacts) 560 and one mating second contact (second contact) 570. The first contact 560 is a socket contact connectable with the first contact 520 (see FIG. 6), and the second contact 570 is a socket contact connectable with the second contact 530 (see FIG. 6). According to the present embodiment, the first contact 560 and the second contact 570 have the same size and shape.

  Each of the first contact 560 and the second contact 570 extends along the X direction. The first contact 560 is connected to the signal line 82 of the cable 80 at the end on the + X side. Similarly, the second contact 570 is connected to the shield line 86 at the end on the + X side.

  As understood from FIGS. 13 and 14, the contact set 550 is inserted and held in the corresponding holding hole set 460 from the + X side. Specifically, the first holding holes 462 hold the first contacts 560 therein. Further, the second holding hole 464 holds the second contact 570 therein.

  Referring to FIG. 14 in comparison with FIG. 8, the mating connector (connector) 20X can be configured using only the holding member 450 and the contact set 550, similarly to the connector 10X. In the present embodiment, the connector 20X is a part of the connector 20. The connector 20X can be fitted with the connector 10X, for example. The connector 20X can be easily connected to the cable 80 similarly to the connector 10X. For this reason, workability | operativity improves and an assembly cost can be reduced. Moreover, the connector 20X can be produced from two types of members, like the connector 10X. For this reason, the manufacturing cost of the connector 20X can be reduced.

  16 is compared with FIGS. 4 and 5, the holding hole set 460 is arranged in the same manner as the holding hole set 420. Specifically, the first holding hole 462 is located at the apex of a virtual counterpart square (square) 480 in the YZ plane. The second holding hole 464 is located outside the square 480 in the YZ plane. With this arrangement, the holding member 450 can maintain the transmission path characteristics of the cable 80 (see FIG. 13). Furthermore, according to the present embodiment, the second holding holes 464 are equidistant from the two first holding holes 462 located at both ends of the side 480S of the square 480, respectively. With this arrangement, the holding member 450 can more reliably maintain the transmission path characteristics of the cable 80 (see FIG. 13). However, similarly to the second holding hole 424, the second holding hole 464 may be arranged differently from the present embodiment as long as it is located outside the square 480.

  Referring to FIG. 14 in comparison with FIG. 8, the holding member 450 has the six holding hole sets 460, and thus can hold the six contact sets 550 in the same manner as the holding member 410. In other words, the holding member 450 according to the present embodiment is formed with a plurality of holding hole sets 460 for holding the contact sets 550, respectively. Accordingly, the connector 20X can include a plurality of contact sets 550 that are connected to the plurality of cables 80, respectively. However, only one holding hole set 460 may be formed in the holding member 450.

  Referring to FIG. 16 in comparison with FIG. 4, the six holding hole sets 460 are arranged concentrically with the second holding holes 464 inside, like the holding hole set 420. Specifically, the second holding hole 464 is disposed along a virtual counterpart circle (circle) 470 in the YZ plane. The center point 470C of the circle 470 is located on an imaginary straight line passing through the center of the second holding hole 464 and the center point 480C of the corresponding square 480. In each of the holding hole sets 460, the second holding hole 464 is located between the center point 480C of the square 480 and the center point 470C of the circle 470.

  Since the holding hole set 460 is arranged as described above, it can be arranged on the holding member 450 at a high density. In other words, the mounting efficiency of the transmission path in the connector 20X (see FIG. 14) is improved. Furthermore, the holding hole set 460 according to the present embodiment is disposed in rotational symmetry with respect to the center point 470C of the circle 470 in the YZ plane. For this reason, the transmission path characteristics of the plurality of transmission paths in the connector 20X can be matched, and variations in transmission performance can be suppressed.

  Referring to FIG. 14 in comparison with FIG. 10, when connecting a plurality of cables 80 to the connector 20 </ b> X, it is preferable to include a cable holding member 620 similarly to the connector 10 </ b> Y. By using the cable holding member 620, the cable 80 can be held on the cable holding member 620 so as to extend linearly.

  As can be understood from FIGS. 1 and 11, the connector 10 can be fitted with the connector 20 along the X direction while the engagement groove 316 receives the engagement protrusion (not shown) of the connector 20. . When the connector 10 is mated with the connector 20, after positioning the main body 312 of the mating member 310 and the barrel 356 of the mating mating member 350, the coupling nut 357 is rotated around an axis parallel to the X direction. Then, the main body 312 is inserted into the fitting groove 354 along the X direction. In the fitting state in which the connector 10 and the connector 20 are fitted to each other, the engagement protrusion of the connector 20 is engaged with the end portion of the engagement groove 316. As will be understood from this description, the connector 10 can be easily mated with the connector 20. In the fitted state, the first contact 520 and the second contact 530 are in contact with the first contact 560 and the second contact 570, respectively. In addition, since a lock member (not shown) is mounted on the lock member housing portion 358 of the coupling nut 357, the engagement state can be prevented from being released by the rotation of the coupling nut 357 in the engagement state.

  The connector according to the present invention and the mating connector (hereinafter, both referred to as “connectors”) can be variously modified as described below in addition to the modifications already described.

  Referring to FIGS. 1 and 11, the connector according to the present embodiment has a generally cylindrical shape. However, the present invention is not limited to this. For example, the connector may have a polygonal column shape.

  Referring to FIGS. 6 and 13, the first contact 520, the second contact 530, the first contact 560 and the second contact 570 (hereinafter referred to as “contacts”) according to the present embodiment are cables 80. The signal wire 82 or the shield wire 86 (hereinafter, both are referred to as “electric wires”). However, the contact may be connected to the electric wire by soldering. Further, the contact may be connected to a through hole of a circuit board (not shown) instead of the electric wire.

  The contact according to the present embodiment has a generally cylindrical shape. However, the present invention is not limited to this. For example, the contact may have a polygonal column shape.

  4 and 16, each of the holding member 410 and the holding member 450 (hereinafter referred to as “holding member”) according to the present embodiment includes six holding hole sets 420 or holding hole sets 460 (hereinafter referred to as “holding members”). , Both of which are referred to as “holding hole sets”). For this reason, the holding member can hold six contact sets each composed of five contacts. However, the present invention is not limited to this. For example, as already described, the holding member may be capable of holding only one contact set.

  The holding member may be capable of holding two or more contact sets. When the holding member holds N contact sets (N ≧ 2), the holding member only needs to have N holding hole sets. The holding hole set may be arranged N times symmetrically. For example, when the holding member holds two contact sets, the holding hole set may be arranged in a 180 ° rotational symmetry (two-fold symmetry). In particular, when the holding member holds N (N ≧ 3) contact sets, the holding hole sets may be arranged at positions corresponding to the apexes of the regular N-gon. Further, a shield wall may be provided between two adjacent holding hole sets in the YZ plane.

  Referring to FIG. 9, when the holding member has N (N ≧ 2) holding hole sets, the cable holding holes 622 of the cable holding member 620 may be arranged N times symmetrically. In particular, when the holding member has N (N ≧ 3) holding hole sets, the cable holding holes 622 may be arranged at positions corresponding to the apexes of the regular N-gon.

  2 and 12, in this embodiment, the cable 80 is inserted into a cable holding member 620 made of an elastic body and fixed using a band 680. However, the present invention is not limited to this. For example, the cable holding member 620 may be tightened using a plastic member or a metal member.

10, 10X, 10Y Connector 20, 20X Mating connector (connector)
310 fitting member 312 main body 314 flange 316 engagement groove 350 mating member (fitting member)
352 receiving portion 354 fitting groove 356 barrel 357 coupling nut 358 lock member accommodating portion 410 holding member 420 holding hole set 422 first holding hole 424 second holding hole 430 circle 430C center point 440 square 440C center point 440S side 450 partner side Holding member (holding member)
460 Counterpart holding hole set (holding hole set)
462 Counterpart first holding hole (first holding hole)
464 Counterpart second holding hole (second holding hole)
470 Counter Yen (Yen)
470C Center point 480 Counter square (square)
480C center point 480S side 510 contact set 520 first contact 530 second contact 550 counterpart contact set (contact set)
560 Counterpart first contact (first contact)
570 Counterpart second contact (second contact)
610 Spacer 620 Cable holding member 622 Cable holding hole 660 Cable clamp 670 Nut 680 Band 80 Cable 82 Signal line 86 Shield line 88 Covering X direction Predetermined direction (front-rear direction)
YZ plane Specified surface

Claims (7)

A connector connectable to a cable, wherein the cable includes a 4-core signal line and a shield line that shields the signal line, and the connector includes a contact set and a holding member,
The contact set includes four first contacts and one second contact;
The first contacts are respectively connected to the signal lines;
The second contact is connected to the shield wire;
The holding member is formed with a holding hole set,
The holding hole set includes four first holding holes and one second holding hole.
The first holding hole and the second holding hole penetrate the holding member in a predetermined direction,
The first holding holes are respectively located at vertices of virtual squares in a predetermined plane orthogonal to the predetermined direction,
The second holding hole is located outside the square in the predetermined plane,
The first holding holes hold the first contacts, respectively.
The second holding hole holds the second contact ,
The connector includes a plurality of the contact sets respectively connected to the plurality of cables.
The holding member has a plurality of holding hole sets for holding the contact sets, respectively.
The second holding hole is arranged along a virtual circle in the predetermined plane,
In each of the holding hole sets, the second holding hole is located between a center point of the square and a center point of the circle . The connector according to claim 1 ,
The holding hole set is a connector arranged in a rotationally symmetrical manner with respect to the center point of the circle within the predetermined plane. The connector according to claim 1 or 2 , wherein
The connector includes a cable holding member,
The cable holding member is formed with a plurality of cable holding holes for holding the cables,
The cable holding hole penetrates the cable holding member in the predetermined direction,
In the predetermined plane, the arrangement of the cable holding holes is similar to the arrangement of the holding hole set. The connector according to any one of claims 1 to 3 ,
In each of the holding hole sets, the second holding holes are equidistant from the two first holding holes located at both ends of one side of the square in the predetermined plane. A mating connector that can be mated with the connector according to claim 1 ,
The mating connector includes a plurality of mating contact sets and a mating holding member,
Each of the counterpart contact sets consists of four counterpart first contacts and one counterpart second contact,
A plurality of counterpart holding hole sets are formed in the counterpart holding member,
Each of the counterpart holding hole sets is composed of four counterpart first holding holes and one counterpart second holding hole.
The counterpart first holding hole and the counterpart second holding hole penetrate the counterpart holding member in the predetermined direction,
In each of the counterpart side holding hole sets, the counterpart side first holding holes are respectively located at vertices of virtual counterpart squares within the predetermined plane,
In each of the counterpart holding hole sets, the counterpart second holding hole is located outside the counterpart square in the predetermined plane,
In each of the counterpart holding hole sets, the counterpart first holding hole holds the counterpart first contact, respectively.
In each of the counterpart holding hole sets, the counterpart second holding hole holds the counterpart second contact,
The counterpart second holding hole is disposed along a virtual counterpart circle in the predetermined plane,
In each of the mating side holding hole sets, the mating second holding hole is a mating connector located between the center point of the mating square and the center point of the mating circle. The mating connector according to claim 5 ,
The mating connector holding hole set is arranged in a rotationally symmetrical manner with respect to the center point of the mating circle within the predetermined plane. The mating connector according to claim 5 or 6 ,
In each of the counterpart holding hole sets, the counterpart second holding hole is equidistant from the two counterpart first holding holes respectively located at both ends of one side of the counterpart square in the predetermined plane. A mating connector.

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