KR102550876B1 - Connector for coaxial cable - Google Patents

Abstract

(Problem) It is possible to easily perform impedance matching even if the inner conductor connection portion of the center conductor is not sufficiently surrounded by the outer conductor.
(Solution) In the outer conductor 16 of the coaxial terminal 11 of the connector 1, the inner conductor barrel arrangement part 23 is formed between the outer fitting part 17 and the outer conductor barrel part 21. Inside the inner conductor barrel arrangement part 23, the inner conductor barrel part 14 of the center conductor 12 is arranged. The inner conductor barrel arranging portion 23 is formed with an opening 25 through which a tool for crimp-connecting the inner conductor 6 to the inner conductor barrel portion 14 can be inserted. The connector 1 is electrically connected to the outer conductor 7 or the outer conductor 16, enters the inner conductor barrel arranging portion 23 from the opening 25, and conducts the conductor approaching the inner conductor barrel portion 14. A member 31 and a dielectric piece 34 formed between the conductive member 31 and the inner conductor barrel portion 14 are provided.

Description

Connector for coaxial cable {CONNECTOR FOR COAXIAL CABLE}

The present invention relates to a connector for a coaxial cable suitable for use in connecting a coaxial cable to a device, a circuit, or another coaxial cable.

BACKGROUND ART As a connector for coaxial cables used by attaching to an end of a coaxial cable, a coaxial terminal having a center conductor and an outer conductor formed on the outer circumferential side of the center conductor through an insulating member is known.

In such a connector for a coaxial cable, an inner conductor barrel for crimp-connecting an inner conductor (core wire) of the coaxial cable to the center conductor is formed in the center conductor. In addition, an outer conductor barrel for press-connecting the outer conductor (braid) of the coaxial cable to the outer conductor is formed in the outer conductor. In addition to these, there is also a case in which a coating barrel for crimping and fixing the outer conductor to the insulation sheath of the coaxial cable is formed on the outer conductor.

In a general coaxial terminal, when the coaxial cable is connected and fixed to the coaxial terminal, the portion where the inner conductor and the center conductor are crimp-connected by the inner conductor barrel is disposed inside the outer conductor and surrounded by the outer conductor. Therefore, the operation of connecting and fixing the coaxial cable with the inner conductor and the outer conductor exposed to the end treatment to the coaxial terminal generally goes through the following steps. (1) First, an inner conductor and a center conductor are crimp-connected by means of an inner conductor barrel. (2) Next, the center conductor to which the inner conductor is connected is inserted inside the outer conductor. (3) Next, an outer conductor and an outer conductor are crimp-connected by means of an outer conductor barrel. In the case of a coaxial terminal in which a covered barrel is formed on the outer conductor, the outer conductor is press-fitted to the insulating coating by means of the coated barrel as a step after the inner conductor and the center conductor are crimp-connected.

On the other hand, in recent years, the crimp connection of the inner conductor and the center conductor by the inner conductor barrel, the crimp connection of the outer conductor and the outer conductor by the outer conductor barrel, and furthermore, the crimp-fixing of the insulation sheath and the outer conductor by the sheath barrel are collectively performed. A technique (for example, see Patent Literature 1 below) that can be implemented by doing this is widespread. Hereinafter, this technique is referred to as "batch compression method". According to the batch crimping method, the number of man-hours for connecting and fixing the coaxial cable to the coaxial terminal can be reduced.

In order to implement the batch crimping method, the structure of the outer conductor of the coaxial terminal is set to have an opening through which a crimping tool can be inserted into a portion where the inner conductor and the center conductor are to be crimp-connected by means of the inner conductor barrel. Thereby, a crimping tool can be directly brought into contact with each of the inner conductor barrel, the outer conductor barrel, and the coating barrel in the coaxial terminal from the outside, and each barrel can be crimped with each crimping tool.

A terminal crimping device for performing the batch crimping method includes: a first crimping tool for pressing an inner conductor barrel to crimp-connect an inner conductor and a center conductor; and a second crimping tool for crimp-connecting an outer conductor and an outer conductor by pressing an outer conductor barrel. A crimping tool and a third crimping tool for crimping and fixing the insulation sheath and the outer conductor by pressing the sheath barrel, and by simultaneously operating these three crimping tools, crimp connection between the inner conductor and the center conductor, and the outer conductor and the outer conductor are formed. crimp connection and crimp fixing of the insulation coating and the outer conductor are performed collectively.

On the other hand, Patent Literature 2 describes a shield connector compatible with high frequencies. This shielded connector includes an inner conductor terminal to which a signal conductor of a shielded cable is connected, a substantially normal outer conductor terminal to which a shielded conductor of a shielded cable is connected, a dielectric material, and a small-diameter body having conductivity. The inner conductor terminal is accommodated in the outer conductor terminal, and a dielectric material is interposed between the inner conductor terminal and the outer conductor terminal. The small-diameter body is mounted on the dielectric inside the outer conductor terminal, is electrically connected to the outer conductor terminal, and covers the crimping portion of the inner conductor terminal. Patent Literature 2 describes the fact that the diameter of the outer conductor terminal can be electrically reduced so that the diameter of the outer conductor terminal approaches the crimping part of the inner conductor terminal by means of a small diameter body, and the impedance in the vicinity of the crimping part can be matched with other parts. has been

Japanese Unexamined Patent Publication No. 2011-3363 Japanese Unexamined Patent Publication No. 2003-163058

By the way, in the coaxial terminal on the premise of implementing the batch crimping method, as described above, an opening that can insert a crimping tool for crimping and connecting the inner conductor and the center conductor to the inside of the outer conductor is formed in the outer conductor, there is. As a result, the portion of the inner conductor barrel where the inner conductor and the center conductor are press-fitted is not completely surrounded by the outer conductor, and the portion of the inner conductor barrel is exposed through the opening. For this reason, it is difficult to match the characteristic impedance of the connector with the characteristic impedance of the coaxial cable or the characteristic impedance of the mating connector.

In this regard, the characteristic impedance of the connector can be adjusted by bringing the conductive member electrically connected to the outer conductor closer to the inner conductor barrel. However, since the inner conductor barrel is arranged in a narrow space inside the outer conductor, it is not easy to form a structure that brings the conductive member close to the inner conductor barrel.

Further, Patent Document 2 describes a structure in which the crimping portion of the inner conductor terminal is covered with a dielectric and a small-diameter body, but in this structure, the conductive member is brought close to the inner conductor barrel disposed in the narrow space inside the outer conductor. It is difficult to realize the structure.

The present invention has been made in view of the problems described above, for example, and an object of the present invention is a structure in which an inner conductor connecting portion (for example, an inner conductor barrel portion) of a center conductor is not sufficiently surrounded by an outer conductor. It is to provide a connector for a coaxial cable that can easily perform impedance matching even if it is.

In order to solve the above problems, the connector for coaxial cable of the present invention is a coaxial terminal provided with a center conductor, an outer conductor formed on the outer circumferential side of the center conductor, and an insulating member formed between the center conductor and the outer conductor, and an insulating material. and a housing for accommodating the coaxial terminal, the center conductor being disposed on the front end side of the center conductor and contacting the center conductor of the mating connector, and the rear end side of the center conductor. and an inner conductor connecting portion for connecting the inner conductor of the coaxial cable, the outer conductor being disposed on the front end side of the outer conductor, and fitted with the mating outer conductor of the mating connector. , an outer conductor barrel portion disposed on the rear end side of the outer conductor and crimp-connecting the outer conductor of the coaxial cable, disposed between the outer fitting portion and the outer conductor barrel portion in the outer conductor, and an inner conductor inside the outer conductor A coaxial cable having an inner conductor arranging portion in which a connecting portion is disposed, and a pair of openings for opening the inside of the inner conductor arranging portion to the outside are formed on one side and the other side of the coaxial terminal in the radial direction of the inner conductor arranging portion, respectively. A connector for use, comprising: a conductive member formed of metal, electrically connected to an outer conductor or an outer conductor, and entering an inside of an inner conductor arranging portion through one of a pair of openings and approaching the inner conductor connecting portion; and a conductive member and a dielectric piece formed between the internal conductor connecting portion, wherein the conductive member has a conductive plate portion covering the one opening, and a convex portion is formed on the conductive plate portion to pass through the one opening and protrude into the inner conductor mounting portion. , the protruding end of the convex portion approaches the inner conductor connecting portion, and the dielectric piece is formed at the protruding end of the convex portion.

In the coaxial cable connector of the present invention, the conductive member is electrically connected to the outer conductor or the outer conductor, enters the inner conductor mounting portion through one of the openings, and approaches the inner conductor connecting portion. By bringing a conductive member electrically connected to the outer conductor closer to the inner conductor connection portion, the impedance of the peripheral portion of the inner conductor connection portion can be easily adjusted. In this way, the characteristic impedance of the coaxial cable connector can be easily matched with the characteristic impedance of the coaxial cable or the characteristic impedance of the mating connector.

Further, there is a concern that the conductive member and the inner conductor connection portion come into contact with each other when the conductive member approaches the inner conductor connection portion. However, in the connector for a coaxial cable of the present invention, a dielectric piece is formed between the conductive member and the inner conductor connecting portion. With this dielectric piece, contact between the conductive member and the internal conductor connecting portion can be prevented. Further, the impedance of the peripheral portion of the inner conductor connection portion can be adjusted by the dielectric piece.

Further, in the connector for coaxial cable of the present invention described above, it is preferable that the dielectric piece is molded to the conductive member.

Further, in the coaxial cable connector of the present invention described above, the inner conductor mounting portion has a pair of intermediate wall portions connecting the outer fitting portion and the outer conductor barrel portion on both sides of the inner conductor connecting portion, and the conductive member preferably has a pair of contact portions contacting the respective outer surfaces of the pair of intermediate wall portions.

Further, in the connector for coaxial cable of the present invention described above, the one opening is formed below the inner conductor arranging portion, the pair of intermediate wall portions are disposed on the left and right sides of the inner conductor connecting portion, respectively, and the conductive plate portion Covering one of the openings from below, the conductive member protrudes from the left portion of the conductive plate portion, is disposed between the left middle wall portion and the left side wall portion of the housing, and has a seat portion formed with a contact portion contacting the outer surface of the left middle wall portion. And, the left support portion formed in the seat plate portion and supporting the seat portion between the middle wall portion on the left side and the left wall portion of the housing at a position forward or rearward of the contact portion formed on the seat portion portion, and rising from the right portion of the conductive plate portion, on the right side A right plate portion disposed between the middle wall portion and the right side wall portion of the housing and formed with a contact portion contacting the outer surface of the right intermediate wall portion, and the right plate portion formed on the right plate portion at a position forward or rearward of the contact portion formed on the right plate portion. It is preferable to provide a right support portion supported between the right middle wall portion and the right wall portion of the housing.

Further, in the connector for coaxial cable of the present invention described above, each intermediate wall portion has an engaging piece protruding downward from the intermediate wall portion, and the left and right portions of the conductive plate portion have notches for engaging a pair of engaging pieces. It is desirable that it is formed.

Further, in the connector for coaxial cable of the present invention described above, the conductive member has an external connection portion for electrical connection with a shield shell formed on the mating connector, and a connection hole is formed in the housing so that the external connection portion faces the outside of the housing. It is desirable to have

Further, in the connector for a coaxial cable of the present invention described above, the conductive member has a connection barrel portion for crimp-connecting the conductive member to an outer conductor or an outer conductor, and the connection barrel portion includes an inner conductor arranging portion and an outer conductor barrel. It is preferable to be connected between parts.

Further, in the above-described connector for coaxial cable of the present invention, it is preferable that the dielectric piece is formed in a plate shape extending in the front-back direction, and forms a microstrip line structure together with the inner conductor connecting portion and the outer conductor barrel portion.

According to the present invention, in a connector having a structure in which the inner conductor connecting portion of the center conductor is not sufficiently surrounded by the outer conductor, impedance matching can be performed easily.

1 is a perspective view showing an external appearance of a connector for a coaxial cable according to a first embodiment of the present invention.
Fig. 2 is an exploded perspective view of a connector for a coaxial cable according to the first embodiment of the present invention.
Fig. 3 is a cross-sectional view showing the connector for coaxial cable according to the first embodiment of the present invention viewed from the direction of arrow III-III in Fig. 1;
Fig. 4 is a cross-sectional view showing a coaxial terminal and a conductive member in the connector for a coaxial cable according to the first embodiment of the present invention viewed from the direction of the arrow IV-IV in Fig. 3;
Fig. 5 is a cross-sectional view showing a center conductor, an outer conductor, and an insulating member in a coaxial terminal of a connector for a coaxial cable according to the first embodiment of the present invention.
Fig. 6 is an external view showing a conductive member in a connector for a coaxial cable according to the first embodiment of the present invention.
Fig. 7 is a cross-sectional view showing a coaxial terminal and a conductive member of the connector for a coaxial cable according to the first embodiment of the present invention viewed from the direction of arrow VII-VII in Fig. 4;
Fig. 8 is an explanatory diagram showing mounting of a conductive member to a coaxial terminal in the connector for a coaxial cable according to the first embodiment of the present invention.
Fig. 9 is an explanatory view showing a coaxial terminal and a conductive member in the connector for a coaxial cable according to the first embodiment of the present invention.
Fig. 10 is a circuit diagram showing electrical paths of the outer conductor of the coaxial cable connector, the conductive member, the outer conductor of the coaxial cable, the outer conductor of the mating connector, the shield shell, and the ground circuit of the board in the first embodiment of the present invention.
11 is an exploded perspective view showing a connector for a coaxial cable according to a second embodiment of the present invention.
Fig. 12 is an external view showing a connector for a coaxial cable according to a third embodiment of the present invention.
13 is an exploded perspective view showing a connector for a coaxial cable according to a third embodiment of the present invention.
Fig. 14 is a cross-sectional view showing a coaxial terminal of a connector for a coaxial cable according to a third embodiment of the present invention.
Fig. 15 is a perspective view showing a mating connector corresponding to the connector for a coaxial cable according to the first or second embodiment of the present invention;
Fig. 16 is a sectional view showing the mating connector in Fig. 15;
Fig. 17 is a perspective view showing a shield shell in the mating connector in Fig. 15;

(1st Embodiment)

1 shows a connector 1 for a coaxial cable according to a first embodiment of the present invention. Fig. 2 shows a state in which the connector 1 is disassembled. In each of the following embodiments, the direction in which the connector 1 is inserted into the insertion port 129 of the mating connector 121 (see Fig. 15) is referred to as the "connector insertion direction", and the opposite direction is referred to as the "connector removal direction". direction”. An arrow (In) in FIG. 1 and the like indicates a connector insertion direction, and an arrow (Out) indicates a connector removal direction. Further, in the connector 1, the front side in the connector insertion direction is the front and the back side is the rear, and up, down, left, and right are indicated by arrows shown in the lower right of Figs. 1 to 9. follow Arrows U, D, L, and R in FIGS. 1 to 9 indicate upward, downward, leftward, and rightward directions, respectively. In addition, before, after, top, bottom, left, and right are only defined for convenience of description.

In Fig. 1, connector 1 is a plug connector used by being attached to the end of coaxial cable 5. As shown in FIG. 2 , the connector 1 includes a coaxial terminal 11 , a conductive member 31 , a housing 43 and a retainer 61 .

FIG. 3 shows a cross section of the connector 1 seen from the direction of the arrow III-III in FIG. 1 . FIG. 4 shows cross-sections of the coaxial terminal 11 and the conductive member 31 viewed from the direction of the arrow IV-IV in FIG. 3 . FIG. 5 shows cross sections of the center conductor 12, the outer conductor 16 and the insulating member 29 in the coaxial terminal 11. As shown in FIG.

As shown in FIG. 3 , the coaxial terminal 11 is provided between the center conductor 12, the outer conductor 16 formed on the outer circumferential side of the center conductor 12, and the center conductor 12 and the outer conductor 16. It is equipped with the formed insulating member 29. The center conductor 12 and the outer conductor 16 are made of a conductive material such as metal, and the insulating member 29 is made of an insulating material such as resin.

As shown in FIG. 4 , the center conductor 12 has a center contact portion 13 and an inner conductor barrel portion 14 as an inner conductor connecting portion. The center contact portion 13 is a portion whose distal end is fitted into the center conductor 123 of the coaxial terminal 122 of the mating connector 121 in elastic contact. The center contact portion 13 is disposed on the front end side of the center conductor 12 . In this embodiment, the center contact portion 13 is female and formed in a cylindrical shape. The inner conductor barrel portion 14 is a portion that press-connects the inner conductor 6 of the coaxial cable 5. The inner conductor barrel portion 14 is disposed on the rear end side of the center conductor 12 . The shape of the inner conductor barrel portion 14 is substantially U-shaped before the inner conductor 6 is crimped, but after crimping, it is compressed and becomes substantially plate-shaped.

The outer conductor 16 has an outer fitting portion 17, an outer conductor barrel portion 21, a covered barrel portion 22, and an inner conductor barrel arranging portion 23 as an inner conductor arranging portion. The outer fitting portion 17 is a portion fitted with the outer conductor 124 of the coaxial terminal 122 of the mating connector 121. The outer fitting portion 17 is disposed on the front end side of the outer conductor 16 and is located on the outer peripheral side of the center contact portion 13 . The outer conductor barrel portion 21 is a portion that press-connects the outer conductor 7 of the coaxial cable 5. The outer conductor barrel portion 21 is disposed at the rear of the outer conductor 16 . The sheathed barrel portion 22 is a portion for pressing and fixing the outer conductor 16 to the insulated sheath 9 of the coaxial cable 5. The covered barrel part 22 is disposed behind the outer conductor barrel part 21 in the outer conductor 16, that is, at the rear end of the outer conductor 16.

The inner conductor barrel arranging portion 23 is disposed between the outer fitting portion 17 and the outer conductor barrel portion 21 . Inside the inner conductor barrel arrangement part 23, the inner conductor barrel part 14 of the center conductor 12 is arrange|positioned. The inner conductor barrel arranging portion 23 has a pair of left and right intermediate wall portions 24 connecting the outer fitting portion 17 and the outer conductor barrel portion 21, and has a substantially rectangular box shape. As shown in Fig. 4, a pair of intermediate wall portions 24 are disposed on the left and right sides of the inner conductor barrel portion 14, respectively. In addition, a pair of openings 25 for opening the inside of the inner conductor barrel arranging portion 23 to the outside are formed on one side and the other side of the coaxial terminal 11 in the radial direction in the inner conductor barrel arranging portion 23. has been Specifically, as shown in FIG. 3 , a pair of openings 25 are formed in the upper and lower portions of the inner conductor barrel arranging portion 23, respectively. Further, a space penetrating the inner conductor barrel arranging portion 23 in the vertical direction (opposite direction) is formed in the inner conductor barrel arranging portion 23 by the pair of openings 25 . In the present embodiment, these openings 25 are tool inlets for inserting a tool for press-connecting the inner conductor 6 into the inner conductor barrel arranging portion 23. The left and right sides of the inner conductor barrel portion 14 are covered by the middle wall portion 24 of the outer conductor 16, respectively, but the upper and lower portions of the inner conductor barrel arranging portion 23 are formed with openings 25, respectively. Therefore, the upper and lower sides of the inner conductor barrel 14 are not covered with the outer conductor 16.

Further, as shown in FIGS. 2 and 5 , a hooking piece 26 protruding downward from the rear portion of each intermediate wall portion 24 is formed. A pair of left and right locking pieces 26 are respectively engaged with a pair of notches 41 (see Fig. 6) formed at the rear of the conductive plate portion 32.

Further, as shown in Fig. 5, in the outer conductor 16, a concave portion 27 is formed between the inner conductor barrel arranging portion 23 and the outer conductor barrel portion 21. That is, in the outer conductor 16, the outer surface of the portion between the inner conductor barrel arranging portion 23 and the outer conductor barrel portion 21 is curved so as to be mounted upward, and as a result, the inner surface facing downward of the portion this is lost This recessed part is the concave part 27. In manufacturing the connector 1, when inserting a unit combining the center conductor 12 and the insulating member 29 into the outer conductor 16, the space formed by the concave portion 27 is used to make the unit The unit can be inserted into the outer conductor 16 in a state where the axial position of the outer conductor 16 coincides with the axial position of the outer conductor 16 . This facilitates the operation of inserting the unit into the outer conductor 16.

6 shows the conductive member 31. FIG. 7 shows a cross section of the conductive member 31 viewed from the direction of arrow VII-VII in FIG. 4 . 8 and 9 show the mounting of the conductive member 31 to the coaxial terminal 11 . The conductive member 31 is mainly a member having a function of adjusting the impedance of the peripheral portion of the inner conductor barrel portion 14 and a function of removing high-frequency noise in cooperation with the shield shell 131 of the mating connector 121. am.

As can be seen from FIGS. 3, 4, 8, 9 and the like, the conductive member 31 is attached to the inner conductor barrel arranging portion 23 of the outer conductor 16. As shown in FIGS. 6 and 7 , the conductive member 31 includes a conductive plate portion 32 extending in the front-back and left-right directions, a dielectric piece 34 formed on a part of the conductive plate portion 32, and a conductive plate portion. A left board portion 35L rising from the left side of 32, a right board portion 35R rising from the right side of conductive plate portion 32, and a connection barrel portion 40 connected to the rear of conductive plate portion 32, there is. A portion of the conductive member 31 excluding the dielectric piece 34 is formed of a conductive material. Specifically, the said part is formed by performing press working and bending work with respect to a metal plate material, for example.

The conductive plate portion 32 is disposed below the inner conductor barrel arranging portion 23 in the outer conductor 16, and covers the opening 25 formed under the inner conductor barrel arranging portion 23 from below. As shown in Fig. 6, a convex portion 33 protruding upward on the plate surface is formed in the central portion of the conductive plate portion 32 when the conductive plate portion 32 is viewed from above. As shown in FIG. 7 , the convex portion 33 passes through the opening 25 formed in the lower portion of the inner conductor barrel arranging portion 23 and enters the inner conductor barrel arranging portion 23, and the convex portion 33 The upper end (protruding end) of is approaching the inner conductor barrel portion (14).

The dielectric piece 34 is formed of a dielectric material such as resin. The dielectric piece 34 is formed between the conductive member 31 and the inner conductor barrel portion 14 . Specifically, the dielectric piece 34 is disposed in the middle of the upper end of the convex portion 33 in the left-right direction. In addition, the dielectric piece 34 is integrally formed with the conductive member 31 . Specifically, the dielectric piece 34 is molded into a plate shape extending in the front-back direction at the upper end of the convex portion 33 of the conductive plate portion 32, and the inner conductor barrel portion 14 and the outer conductor barrel portion 21 ) and form a microstrip line structure. In this way, impedance matching can be achieved easily.

The seat plate portion 35L extends upward from the left end of the conductive plate portion 32 and is disposed between the middle wall portion 24 on the left side of the inner conductor barrel arranging portion 23 and the left wall 48L of the housing 43. has been The right plate portion 35R extends upward from the right end of the conductive plate portion 32 and is disposed between the middle wall portion 24 on the right side of the inner conductor barrel arranging portion 23 and the right wall 48R of the housing 43. has been

Also, fixing portions 36 for fixing the conductive member 31 to the inner conductor barrel arranging portion 23 are formed on the upper end side of each of the left plate portion 35L and the right plate portion 35R. As shown in FIG. 7 , by bending the fixed portion 36 of the seat plate portion 35L to the right, the left middle wall portion 24 is sandwiched between the left portion of the conductive plate portion 32 and the fixed portion 36. . Similarly, by bending the fixed portion 36 of the right plate portion 35R to the left, the right middle wall portion 24 is sandwiched between the right portion of the conductive plate portion 32 and the fixed portion 36. By this, the conductive member 31 is fixed to the inner conductor barrel arranging portion 23 . 6 shows a state in which each fixing part 36 is not bent.

Further, a contact piece 37 that contacts the outer surface of the left intermediate wall portion 24 is formed in the left plate portion 35L, and a contact piece 37 that contacts the outer surface of the right intermediate wall portion 24 is formed in the right plate portion 35R. A piece 37 is formed. The conductive member 31 is electrically connected to the outer conductor 16 by the pair of contact pieces 37 . The left contact piece 37 protrudes to the right from the seat plate portion 35L, contacts the outer surface of the left intermediate wall portion 24 in an elastically deformed state, and presses the outer surface. Similarly, the right contact piece 37 protrudes leftward from the right board portion 35R, contacts the outer surface of the right intermediate wall portion 24 in an elastically deformed state, and presses the outer surface.

Further, as shown in FIG. 6 , in the seat plate portion 35L, a pair of left support portions ( 38L) is formed. Among the pair of left support portions 38L, one left support portion 38L is disposed at the front end of the seat plate portion 35L. This left support part 38L, at a position forward of the contact piece 37 formed on the seat plate part 35L, attaches the seat plate part 35L to the left middle wall part 24 and the left wall 48L of the housing 43. support between Among the pair of left support portions 38L, the other left support portion 38L is disposed at the rear end of the seat plate portion 35L. This left support part 38L is located at a position rearward of the contact piece 37 formed on the seat plate part 35L, and attaches the seat plate part 35L to the left middle wall part 24 and the left wall 48L of the housing 43. support between As shown in FIG. 7 , the separation distance between the left middle wall portion 24 and the left wall 48L of the housing 43 is greater than the thickness of the seat plate portion 35L. In this embodiment, the seat surface of the seat plate portion 35L is in contact with the right surface of the left wall 48L of the housing 43 . And each left support part 38L protrudes rightward from the seat plate part 35L, and the protruding end side of each left support part 38L is in contact with the seat surface of the left intermediate wall part 24.

Similarly, a pair of right support parts 38R for supporting the right plate part 35R between the right middle wall part 24 and the right wall 48R of the housing 43 are formed in the right plate part 35R. . Among the pair of right support portions 38R, one right support portion 38R is disposed at the front end of the right plate portion 35R. This right support portion 38R, at a position forward of the contact piece 37 formed on the right plate portion 35R, moves the right plate portion 35R between the right middle wall portion 24 and the right wall 48R of the housing 43. support between Among the pair of right support portions 38R, the other right support portion 38R is disposed at the rear end of the right plate portion 35R. This right support portion 38R, at a position on the rear side of the contact piece 37 formed on the right plate portion 35R, attaches the right plate portion 35R to the right middle wall portion 24 and the right wall 48R of the housing 43. support between The separation distance between the right middle wall portion 24 and the right wall 48R of the housing 43 is greater than the thickness of the right plate portion 35R. In this embodiment, the right surface of the right board portion 35R is in contact with the left surface of the right wall 48R of the housing 43 . Then, each right support portion 38R protrudes leftward from the right board portion 35R, and the protruding end side of each right support portion 38R is in contact with the right face of the middle wall portion 24 on the right side.

Further, in the left board portion 35L and the right board portion 35R, a pair of external connection portions ( 39) are formed respectively. As shown in Fig. 6, the seat plate portion 35L is formed in a plate shape extending in the front-back and vertical directions, and the seating surface of the seat plate portion 35L is flat. The seat surface of this seat plate part 35L is one external connection part 39. Similarly, the right plate portion 35R is formed in a plate shape extending in the front-back and vertical directions, and the right surface of the right plate portion 35R is flat. The right side of this right plate part 35R is the other external connection part 39. As shown in FIG. 1 and the like, in the housing 43, connection holes 49 are formed in the left wall 48L and the right wall 48R, respectively, and the left and right external connection parts 39 are connected to the housing via these connection holes 49. It faces the outside of (43). When the connector 1 is inserted into the insertion hole 129 of the mating connector 121, a pair of left and right shell connection pieces 132 formed in the shield shell 131 of the mating connector 121 are connected to the connecting hole 49 They contact the external connection part 39 through the.

As shown in FIGS. 8 and 9 , the connection barrel portion 40 is a portion that press-connects the conductive member 31 to the outer conductor 16 . As shown in Fig. 6, a portion of the conductive plate portion 32 extends backward, and a connection barrel portion 40 is formed at the rear end of the portion. As shown in FIG. 3 , the connection barrel portion 40 is press-fitted between the inner conductor barrel arrangement portion 23 and the outer conductor barrel portion 21 in the outer conductor 16 . Specifically, the connecting barrel portion 40 is firmly connected to the mounted outer surface corresponding to the concave portion 27 of the outer conductor 16 by crimping. The conductive member 31 is fixed to the outer conductor 16 by the connection barrel portion 40, and the conductive member 31 and the outer conductor 16 are electrically connected at a position apart from the inner conductor barrel portion 14. connected

Further, as shown in Fig. 6, in the left and right rear portions of the conductive plate portion 32, a pair of hooking pieces respectively formed on the middle wall portion 24 of the inner conductor barrel arranging portion 23 of the outer conductor 16. A pair of notches 41 engaging 26 are respectively formed. As can be seen from FIGS. 8 and 9 , each locking piece 26 enters each notch 41 and is engaged.

The housing 43 shown in FIG. 1 is made of an insulating material such as resin and has a substantially rectangular cross section. A connector fitting part 44 fitted into the housing 128 of the mating connector 121 is formed on the front of the housing 43 . On the outer circumferential portion of the connector fitting portion 44, concavities and convexities matching those of the erroneous insertion prevention portion 130 formed in the insertion port 129 of the mating connector 121 are formed. At the rear of the housing 43, a gripping portion 45 is formed for a user to hold the connector 1 when plugging or unplugging the connector 1 to the mating connector 121.

As shown in FIG. 3 , the coaxial terminal 11 is accommodated in the housing 43 . Further, at the front end of the housing 43, a terminal insertion port 46 into which the front end side of the coaxial terminal 122 (see Fig. 15) of the mating connector 121 is inserted is formed. The center contact portion 13 of the center conductor 12 of the coaxial terminal 11 and the outer fitting portion 17 of the outer conductor 16 are disposed at the front end in the housing 43, and are connected from the terminal insertion port 46. It faces the outside of the housing 43. Further, at the rear end of the housing 43, there is a device for inserting the coaxial terminal 11 into the housing 43 or passing the coaxial cable 5 attached to the coaxial terminal 11 inserted into the housing 43. An insertion hole 47 is formed.

Further, as shown in FIG. 1 , in the right wall 48R of the housing 43, there is a connecting hole 49 for bringing the external connection part 39 on the right side of the conductive member 31 to the outside of the housing 43. is formed Similarly, a connection hole 49 is formed in the left wall 48L of the housing 43 to allow the external connection portion 39 on the left side of the conductive member 31 to face the outside of the housing 43 .

Further, a lance 50 for supporting the coaxial terminal 11 to the housing 43 is formed at an upper portion of the inside of the housing 43 . The lance 50 is disposed at the center of the upper part of the housing 43 in the left-right direction, extends in the front-back direction as shown in FIG. Locking protrusions 50A are formed.

Here, in the connector 1, the contact spring portion 18 formed in the outer fitting portion 17 of the outer conductor 16 of the coaxial terminal 11 in consideration of the position of the locking protrusion 50A of the lance 50. ) is set as follows. That is, as shown in FIGS. 2 and 5 , in the outer fitting portion 17 of the outer conductor 16, there is provided a contact with the outer conductor 124 of the coaxial terminal 122 of the mating connector 121. Three contact spring portions 18 are formed at intervals of 120 degrees in the circumferential direction. These three contact spring parts 18 are arranged so as to avoid the center of the upper part of the outer fitting part 17 in the left-right direction. Specifically, the metal plate material forming the outer fitting portion 17 is bent into a cylindrical shape so that the three contact spring portions 18 are disposed away from the center of the upper portion of the outer fitting portion 17 in the left-right direction. The length before uncoating is set so that one side is about twice as large as the other side, and the position of the joint surface 19 is deviated from the center of the upper surface. When the coaxial terminal 11 is inserted into the housing 43 from the insertion hole 47 by arranging the three contact spring portions 18 to avoid the left-right center of the top of the outer fitting portion 17, It is possible to prevent the contact spring portion 18 from being deformed due to contact with the locking protrusion 50A of the lance 50.

Further, as shown in FIG. 3 , a retainer accommodating portion 51 for accommodating the retainer 61 and a retainer engaging hole 52 for engaging the retainer 61 are formed on the rear lower side of the housing 43. has been

Here, the retainer 61, as shown in FIG. 2, includes a mounting portion 62 inserted into the retainer accommodating portion 51 and mounted in the housing 43, and the mounting portion 62 is inserted into the retainer accommodating portion 51. A pair of regulating parts (63) for preventing the coaxial terminal (11) from falling out by regulating the locking piece (26) of the coaxial terminal (11) in the locked state, and the mounting part (62) being inserted into the retainer accommodating part (51). A cable support part 64 for supporting the coaxial cable 5 in the rear of the housing 43 in the state is provided. Further, on the lower surface of the rear of the mounting portion 62, a protruding piece 65 (see FIG. 3) that is engaged with the retainer locking hole 52 is formed. Also, the upper surface of the cable support portion 64 of the retainer 61 is curved to conform to the circular outer shape of the coaxial cable 5 . Due to the curved upper surface of the cable support portion 64, sudden large bending of the coaxial cable 5 to the left or right immediately after the housing 43 can be suppressed. Thereby, it is possible to prevent a large force from being applied to the outer conductor 16 due to such bending of the coaxial cable 5.

Further, a locking mechanism 53 for fixing the connector 1 to the mating connector 121 is formed on the upper portion of the housing 43 . The lock mechanism 53 includes a beam portion 54 extending in the front-rear direction and having both ends supported on the upper portion of the housing 43, a lock projection 55 projecting upward from the upper surface of the beam portion 54, and a beam portion ( 54) has a lock release portion 56 formed behind the lock projection 55 on the upper surface. The lock projection 55 can be displaced in the vertical direction by the elastic deformation of the beam portion 54 . When the connector 1 is inserted into the mating connector 121, the beam portion 54 is inserted into the beam receiving portion 135 (see Fig. 16) of the mating connector 121, and the lock projection 55 is the mating connector ( 121) is caught in the lock hole 136. By pressing the unlocking part 56 downward, the lock protrusion 55 can be separated from the lock hole 136. Also, a rib 57 is formed on the upper surface of the rear portion of the beam portion 54 . By this rib 57, the elastic force of the beam part 54 can be increased, and the reliability of fitting and fixation of the connector 1 and the mating connector 121 by the locking mechanism 53 can be improved.

15 to 17 show the mating connector 121. In detail, FIG. 15 shows the appearance of the mating connector 121, FIG. 16 shows a cross section of the left portion of the mating connector 121 cut at the center in the left-right direction and divided into left and right parts, and FIG. 17 shows the mating connector 121 ) of the shield shell 131 is shown. In the mating connector 121, the rear side in the connector insertion direction is front and the front side is rear, and up, down, left, and right are indicated by arrows shown in the lower right of FIGS. 15 to 17 Follow Arrows U, D, L, and R in FIGS. 15 to 17 indicate upward, downward, leftward, and rightward directions, respectively. In addition, before, after, top, bottom, left, and right are only defined for convenience of description.

As shown in FIGS. 15 and 16 , the mating connector 121 is a receptacle connector used by being attached to a board, and is provided with a coaxial terminal 122, a housing 128 and a shield shell 131.

The coaxial terminal 122 has a center conductor 123 as a mating center conductor, an outer conductor 124 as a mating outer conductor formed on the outer circumferential side of the center conductor 123, and between the center conductor 123 and the outer conductor 124. It has an insulating member 125 formed on. In this embodiment, the center conductor 123 is male. In addition, the center conductor 123 has a circuit connecting portion 126 for connecting the center conductor 123 to, for example, a signal circuit of a board. In addition, the outer conductor 124 has a circuit connecting portion 127 for connecting the outer conductor 124 to the ground circuit of the board.

The housing 128 is made of an insulating material such as resin and has a substantially rectangular cross section. A coaxial terminal 122 is accommodated at the rear of the housing 128, and an insertion port 129 is formed at the front end of the housing 128. In addition, an erroneous insertion prevention part 130 having a predetermined concavo-convex shape is formed in the insertion port 129.

The shield shell 131 is made of a conductive material such as metal and is formed on the outer peripheral side of the housing 128 . At the front end of the shield shell 131, a pair of left and right shell connection pieces 132 are formed. The shell connecting pieces 132 protrude inside the housing 128 through insertion holes 137 formed on the left and right walls of the housing 128, respectively. Further, a circuit connecting portion 133 for connecting the shield shell 131 to the ground circuit of the substrate is formed in the shield shell 131 .

When the connector 1 and the mating connector 121 are used, a coaxial cable 5 is attached to the connector 1 as shown in FIG. 3 . Also, the mating connector 121 is mounted on the board, and the center conductor 123 of the mating connector 121 is connected to the signal circuit of the board via a circuit connecting portion 126. In addition, the outer conductor 124 of the mating connector 121 is connected to the ground circuit of the board via a circuit connecting portion 127. Further also, the shield shell 131 of the mating connector 121 is connected to the ground circuit of the board via a circuit connection 133.

If the connector fitting portion 44 of the connector 1 is inserted into the insertion hole 129 of the mating connector 121, and the connector fitting portion 44 is pushed all the way into the housing 128 of the mating connector 121, , the lock protrusion 55 of the lock mechanism 53 of the connector 1 enters the lock hole 136 of the mating connector 121, and the connector 1 is fixed to the mating connector 121. In this state, the center conductor 12 of the coaxial terminal 11 of the connector 1 and the center conductor 123 of the coaxial terminal 122 of the mating connector 121 are fitted to each other, and both center conductors 12, 123) are electrically connected to each other. Thereby, the inner conductor 6 of the coaxial cable 5 is electrically connected to the signal circuit of the board. Further, the outer conductor 16 of the coaxial terminal 11 of the connector 1 and the outer conductor 124 of the coaxial terminal 122 of the mating connector 121 are fitted to each other, so that both outer conductors 16, 124 are electrically connected to each other. Thereby, the outer conductor 7 of the coaxial cable 5 is connected to the ground circuit of the board.

Further, in a state where the connector 1 is fixed to the mating connector 121 in this way, the pair of shell connection pieces 132 of the mating connector 121 are connected to the pair of external connection portions 39 of the connector 1. contact each other In this way, the conductive member 31 of the connector 1 is connected to the ground circuit of the board via the shield shell 131 . Then, in the coaxial terminal 11 of the connector 1, the entirety of the center conductor 12 enters the inside of the shield shell 131, and in the outer conductor 16 of the coaxial terminal 11 of the connector 1 The entire outer fitting portion 17 and the entirety of the inner conductor barrel placing portion 23 enter the inside of the shield shell 131. In the coaxial terminal 11 of the connector 1, the part recessed inside the shield shell 131 is shielded by the shield shell 131. This suppresses emission of noise from the center conductors 12 and 123 and the like or mixing of noise into the center conductors 12 and 123 and the like.

As described above, in the connector 1 of the embodiment of the present invention, the conductive member 31 is electrically connected to the outer conductor 16 via a pair of contact pieces 37, and furthermore, the conductive plate portion ( The convex portion 33 formed in 32) enters the inner conductor barrel arranging portion 23 through the opening 25 and approaches the inner conductor barrel portion 14. Thereby, the impedance of the peripheral portion of the inner conductor barrel portion 14 can be easily adjusted. Accordingly, it is possible to easily match the characteristic impedance of the connector 1 with the characteristic impedance of the coaxial cable 5 or the characteristic impedance of the mating connector 121 and the like.

In addition, by forming the convex portion 33 in the conductive plate portion 32 and making the protruding end side of the convex portion 33 enter the inside of the inner conductor barrel arranging portion 23 through the opening 25, The convex portion 33 of the conductive member 31 can be brought close to the inner conductor barrel portion 14 disposed in the narrow space inside the inner conductor barrel arranging portion 23.

Further, in the connector 1 of the embodiment of the present invention, a dielectric piece 34 is formed between the convex portion 33 of the conductive plate portion 32 and the inner conductor barrel portion 14. By this dielectric piece 34, it is possible to prevent the inner conductor barrel portion 14 from contacting the convex portion 33 of the conductive plate portion 32. In addition, the impedance of the peripheral portion of the inner conductor barrel portion 14 can be adjusted by the dielectric piece 34.

Further, the dielectric piece 34 is molded into the convex portion 33 of the conductive plate portion 32 . In this way, the dielectric piece 34 and the conductive member 31 can be integrally formed, and they can be made into a single component. Thereby, the number of parts for the connector 1 can be reduced, and the number of man-hours for assembling the connector 1 can be reduced.

Further, in the connector 1 of the embodiment of the present invention, the conductive member 31 is a pair of contact pieces 37 that come into contact with the pair of intermediate wall portions 24 of the inner conductor barrel arranging portion 23. has Thereby, electrical connection of the electrically conductive member 31 and the outer conductor 16 can be performed easily.

Further, in the connector 1 of the embodiment of the present invention, the conductive member 31 is positioned at the front and rear positions of the contact pieces 37 formed on the seat plate portion 35L, and the seat plate portion 35L is positioned in the middle of the left side. A pair of left support parts supported between the wall part 24 and the left wall 48L of the housing 43 and the right plate part 35R at positions forward and rear of the contact pieces 37 formed on the right plate part 35R. It has a pair of right supporting parts 38R supported between the right middle wall part 24 and the right wall 48R of the housing 43. By means of the pair of left support portions 38L and the pair of right support portions 38R, the conductive member 31 and the inner conductor barrel arrangement portion 23 are positioned between the left wall 48L and the right wall 48R of the housing 43. It is supported by four points on the front, left, and right sides. Accordingly, movement of the conductive member 31 and the inner conductor barrel arranging portion 23 within the housing 43 can be suppressed. That is, when the coaxial cable 5 attached to the connector 1 is greatly bent to the left or right immediately after the connector 1, the external force to bend the rear of the outer conductor 16 to the left or right causes the outer conductor ( 16) works on Even when such an external force acts on the outer conductor 16, the conductive member 31 and the inner conductor barrel arranging portion 23 are placed between the left wall 48L and the right wall 48R of the housing 43 at four points in the front, rear, left and right directions. Since the conductive member 31 and the inner conductor barrel arranging portion 23 are supported by the housing 43, movement between the left wall 48L and the right wall 48R of the housing 43 can be suppressed.

When the conductive member 31 and the inner conductor barrel arranging portion 23 move between the left wall 48L and the right wall 48R of the housing 43, the position of the conducting member 31 relative to the inner conductor barrel arranging portion 23 is changed, the distance between the left plate portion 35L of the conductive member 31 and the intermediate wall portion 24 on the left side of the inner conductor barrel arranging portion 23, or the distance between the right plate portion 35R of the conductive member 31 and the inner conductor The distance of the intermediate wall part 24 on the right side of the barrel placement part 23 may change. If such a change occurs, there is a fear that the contact pieces 37 formed on the left board portion 35L or the right board portion 35R will move away from the opposing intermediate wall portion 24 or be pressed against the intermediate wall portion 24. there is. As a result, there is a possibility that contact failure of the contact piece 37 or breakage of the contact piece 37 may occur. In the connector 1, the movement of the conductive member 31 and the inner conductor barrel arranging portion 23 is suppressed by the pair of left supporting portions 38L and the pair of right supporting portions 38R, so that such a contact piece Poor contact of 37 and breakage of contact piece 37 can be prevented. Further, by arranging the contact pieces 37 between the front and rear left supports 38L and between the front and rear right supports 38R, respectively, each contact is made by the movement of the conductive member 31 and the inner conductor barrel arranging portion 23. The amount of movement of the piece 37 can be reduced. Thus, the effect of preventing contact failure of the contact piece 37 or damage to the contact piece 37 can be enhanced.

Further, in the connector 1 of the embodiment of the present invention, a pair of locking pieces 26 respectively formed on a pair of intermediate wall portions 24 of the inner conductor barrel arranging portion 23 are attached to the conductive member 31 It is caught by a pair of notches 41 formed at the rear of the conductive plate portion 32 of the . Accordingly, displacement of the conductive member 31 with respect to the inner conductor barrel arranging portion 23 in the front-back direction can be suppressed.

In addition, in the connector 1 of the embodiment of the present invention, a pair of connection holes 49 are formed in each of the left wall 48L and the right wall 48R of the housing 43 and formed in the conductive member 31. The external connection part 39 faces the outside of the housing 43 through the connection hole 49. Thus, when the connector 1 is inserted into the mating connector 121, each external connection portion 39 is brought into contact with each shell connection piece 132 of the shield shell 131 of the mating connector 121, and the conductive member (31) can be electrically connected to the shield shell 131 of the mating connector 121. Here, FIG. 10 shows the outer conductor 7 of the coaxial cable 5, the outer conductor 16 of the connector 1, the conductive member 31, the outer conductor 124 of the mating connector 121, the shield shell ( 131) and an electric circuit formed from the ground circuit of the substrate. As shown in FIG. 10 , by electrically connecting the conductive member 31 to the shield shell 131 via each external connection portion 39, the outer conductor 16 of the connector 1 connects to the outer side of the mating connector 121. In addition to the first electric path (a-b-c-d) connected to the ground circuit of the board through the conductor 124, the outer conductor 16 of the connector 1 is connected to each contact piece 37 of the conductive member 31, each external connection portion ( 39) and the shield shell 131 to form a second electrical path (a-b-c-e-f-g) connected to the ground circuit of the board. Noise can be removed from the outer conductor 16 by this second electric path.

Further, in the connector 1, a connection barrel portion 40 formed on the conductive member 31 is connected between the inner conductor barrel arrangement portion 23 of the outer conductor 16 and the outer conductor barrel portion 21. . Therefore, by electrically connecting the conductive member 31 to the shield shell 131 via each external connection portion 39, the outer conductor 16 of the connector 1 connects to the connection barrel portion 40 and each external connection portion 39. ) and a third electrical path (a-b-e-f-g) connected to the ground circuit of the substrate through the shield shell 131. Noise can be removed from the outer conductor 16 also by this third electric path. In particular, the branch point (b) from the outer conductor 16 in the third electric path is farther from the inner conductor barrel portion 14 than the branch point (c) from the outer conductor 16 in the second electric path. away Thereby, by forming a third electric path, noise transmitted from the coaxial cable 5 through the outer conductor 16 is removed from the inner conductor barrel portion 14 before the noise is mixed into the center conductor 12. This makes it possible to improve the noise removal performance.

(Second Embodiment)

Fig. 11 shows a connector 71 for a coaxial cable according to the second embodiment of the present invention. In addition, in the connector 71 in FIG. 11, the same code|symbol is attached|subjected to the same component as 1st Embodiment mentioned above, and the description is abbreviate|omitted. As shown in FIG. 11 , in the connector 71 , a conductive member 72 includes an inner conductive member 73 and an outer conductive member 74 .

The inner conductive member 73 is disposed inside the inner conductor barrel arranging portion 23 of the outer conductor 16, and a part of the inner conductive member 73 approaches the inner conductor barrel portion 14. In addition, the insulation member 8 and the outer conductor 7 of the coaxial cable 5 slightly enter the inside of the inner conductor barrel arrangement portion 23 from the rear of the inner conductor barrel arrangement portion 23, and these insulation members 8 ) and the end of the outer conductor 7 are located behind the inner conductor barrel portion 14 inside the inner conductor barrel arrangement portion 23. The inner conductive member 73 disposed inside the inner conductor barrel arranging portion 23 is electrically connected to an end of the outer conductor 7 disposed inside the inner conductor barrel arranging portion 23.

The outer conductive member 74 is attached to the outer circumferential side of the inner conductor barrel arranging portion 23 . A pair of contact portions 76 are formed on the left plate portion 75L and the right plate portion 75R of the external conductive member 72 . The left contact portion 76 protrudes rightward (inward) from the right surface (inner surface) of the seat plate portion 75L, and the right contact portion 76 protrudes leftward (inward) from the seat surface (inner surface) of the right plate portion 75R. has been When the outer conductive member 74 is attached to the outer circumferential side of the inner conductor barrel arranging portion 23, these contact portions 75 contact the left and right intermediate wall portions 24 of the inner conductor barrel portion 14. Further, external connection portions 77 are formed on the left surface (outer surface) of the left plate portion 75L and the right surface (outer surface) of the right plate portion 75R of the outside conductive member 74, respectively. Each external connection portion 77 contacts the shell connection piece 132 of the mating connector 121. Also, a pair of contact pieces 78 are formed at the rear of the outside conductive member 74 . When the outer conductive member 74 is attached to the outer circumferential side of the inner conductor barrel arranging portion 23, these contact pieces 78 displace the outer conductor barrel portion 21 and the inner conductor barrel in the outer conductor 16. It contacts the part between parts 23. In addition, 79 in FIG. 11 is a retainer.

Even with the connector 71 of the second embodiment of the present invention, substantially the same effects as those of the first embodiment of the present invention described above can be obtained.

(Third Embodiment)

12 to 14 show a connector 81 for a coaxial cable according to a third embodiment of the present invention. In detail, FIG. 12 shows the external appearance of the connector 81, FIG. 13 shows a disassembled state of the connector 81, and FIG. 14 shows the coaxial terminal 82 of the connector 81 cut along its axis. shows a cross section. In addition, in the connector 81 shown in FIGS. 12-14, the same code|symbol is attached|subjected to the same component as 1st Embodiment mentioned above, and the description is abbreviate|omitted.

A connector 81 shown in FIGS. 12 to 14 is a relay connector corresponding to the connector 1 of the first embodiment. 12 and 13, a connector fitting hole 88 to be fitted with the connector fitting portion 44 of the connector 1 of the first embodiment is formed on the front of the housing 87, An insertion port 89 is formed at the front end of the connector fitting hole 88 . Further, a locking mechanism 90 is formed in the housing 87 . Moreover, as shown in FIG. 14, the center contact part 84 of the center conductor 83 in the coaxial terminal 82 has a pin-shaped male shape, and the female center of the connector 1 of the 1st embodiment It can be fitted into the contact part 13 in an elastic contact state. In addition, the outer fitting portion 86 of the outer conductor 85 in the coaxial terminal 82 has a smaller diameter than the outer fitting portion 17 of the connector 1 of the first embodiment, It can be fitted into the outer fitting part 17 of the connector 1 of one embodiment.

Similarly to the first embodiment of the present invention described above, also by the connector 81 of the third embodiment of the present invention, the inner conductor barrel of the connector 81 is provided by the conductive member 31 of the connector 81. The impedance of the peripheral portion of section 14 can be easily adjusted.

In the above-described embodiment, the case where the dielectric piece 34 is formed on the conductive member 31 is exemplified, but the dielectric material may be applied or formed on the upper surface of the convex portion 33 of the conductive plate portion 32.

Further, in the above-described embodiment, a pair of left support portions 38L are provided on the front and rear sides of the left contact piece 37, and a pair of right support portions are provided on the front and rear sides of the right contact piece 37. 38R is formed, but one left support part 38L is formed on either the front or rear side of the left contact piece 37, and one left support part 38L is formed on either the front or rear side of the right contact piece 37. You may form the right support part 38R.

Further, in the above-described embodiment, a structure in which the center contact portion 13 of the connector 1 and the center conductor 123 of the mating connector 121 are fitted to each other has been cited as an example, but is not limited to this, and two connectors A structure in which the center contact parts of are abutted with each other or pressed against each other may be used. In addition, although the case where the inner conductor 6 of the coaxial cable 5 is crimped|bonded with the center conductor 12 of the connector 1 is mentioned as an example, you may press-fit or weld a center conductor and an inner conductor.

Further, the connector for coaxial cable of the present invention can be preferably used for transmission of signals having a frequency of several hundred Hz to several GHz, for example, but can also be applied to transmission of signals having other frequencies.

In addition, the present invention can be appropriately modified within a range that does not contradict the gist or spirit of the invention that can be read from the claims and the entire specification, and the connector for a coaxial cable accompanying such a change is also within the technical spirit of the present invention. included

1, 71, 81 connectors
11, 82 coaxial terminals
12, 83 center conductor
13, 84 center contact
14 inner conductor barrel part (internal conductor connection part)
16, 85 outer conductor
17, 86 outer fitting part
21 outer conductor barrel
22 film barrel
23 inner conductor barrel arrangement (inner conductor arrangement)
24 middle wall
25 openings
26 snag
31, 72 conductive member
32 conductive board
33 convex part
34 dielectric
35L, 75L seat part
35R, 75R Right Sales Department
37 contact piece (contact part)
38L left support
38R right support
39, 77 external connection
40 connection barrel part
41 notch
43, 87 housing

Claims (8)

A coaxial terminal having a center conductor, an outer conductor formed on an outer circumferential side of the center conductor, and an insulating member formed between the center conductor and the outer conductor;
a housing formed of an insulating material and accommodating the coaxial terminal;
The center conductor,
a center contact portion disposed on the front end side of the center conductor and brought into contact with the mating center conductor of the mating connector;
an inner conductor connection portion arranged at a rear end side of the center conductor and connecting an inner conductor of the coaxial cable;
The outer conductor,
an outer fitting portion disposed on a front end side of the outer conductor and fitted with the mating outer conductor of the mating connector;
an outer conductor barrel portion disposed at a rear end side of the outer conductor and crimp-connecting the outer conductor of the coaxial cable;
an inner conductor arranging portion disposed between the outer fitting portion and the outer conductor barrel portion in the outer conductor and having the inner conductor connection portion disposed therein;
A connector for a coaxial cable in which a pair of openings are formed on one side and the other side of the coaxial terminal in the radial direction of the inner conductor arranging portion to open the inside of the inner conductor arranging portion to the outside, respectively,
a conductive member made of metal, electrically connected to the outer conductor or the outer conductor, and entering the inside of the inner conductor mounting portion through one of the pair of openings and approaching the inner conductor connecting portion;
a dielectric piece formed between the conductive member and the inner conductor connection portion;
The conductive member has a conductive plate portion covering the one opening portion, and a convex portion is formed on the conductive plate portion to pass through the one opening portion and protrude into the inner conductor mounting portion, and a protruding end portion of the convex portion is formed on the inner conductor portion. A connector for a coaxial cable, characterized in that the connecting portion is approached, and the dielectric piece is formed at the protruding end of the convex portion. According to claim 1,
The connector for a coaxial cable according to claim 1 , wherein the dielectric piece is formed on the conductive member. According to claim 1 or 2,
the inner conductor mounting portion has a pair of intermediate wall portions connecting between the outer fitting portion and the outer conductor barrel portion on both sides of the inner conductor connecting portion;
The connector for a coaxial cable according to claim 1 , wherein the conductive member has a pair of contact portions contacting the respective outer surfaces of the pair of intermediate wall portions. According to claim 3,
the one opening is formed below the inner conductor mounting portion, the pair of intermediate wall portions are disposed on the left and right sides of the inner conductor connection portion, respectively, and the conductive plate portion covers the one opening from below;
The conductive member,
a seat plate portion rising from the left portion of the conductive plate portion, disposed between the left intermediate wall portion and the left wall portion of the housing, and formed with the contact portion contacting the outer surface of the left intermediate wall portion;
a left support portion formed on the seat plate portion and supporting the seat portion between the intermediate wall portion on the left side and the wall portion on the left side of the housing at a position forward or rearward of the contact portion formed on the seat portion portion;
a right plate portion rising from the right portion of the conductive plate portion, disposed between the right middle wall portion and the right side wall portion of the housing, and having the contact portion contacting the outer surface of the right middle wall portion;
It is formed in the right plate part and has a right support part for supporting the right plate part between the middle wall part on the right side and the right wall part of the housing at a position forward or rearward of the contact part formed in the right plate part. connector for coaxial cable. According to claim 4,
Each of the intermediate wall portions has a locking piece protruding downward from the intermediate wall portion,
A connector for a coaxial cable characterized in that notches for engaging the pair of locking pieces are formed in the left and right portions of the conductive plate portion. According to claim 1 or 2,
the conductive member has an external connection portion electrically connected to a shield shell formed on the mating connector;
A connector for a coaxial cable according to claim 1 , wherein the housing is formed with a connection hole for facing the external connection portion outside the housing. According to claim 6,
The conductive member has a connection barrel portion for press-connecting the conductive member to the outer conductor or the outer conductor,
The connector for a coaxial cable according to claim 1 , wherein the connection barrel portion is connected between the inner conductor placing portion and the outer conductor barrel portion. According to claim 1 or 2,
The dielectric piece is formed in a plate shape extending in the longitudinal direction, and forms a microstrip line structure together with the inner conductor connection portion and the outer conductor barrel portion.

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