JP2018170177A - Coaxial connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coaxial connector hardly affected by noise from outside and suppressing occurence of connection failure.SOLUTION: A coaxial connector 100 includes an outer conductor 10, a central conductor 20 and an insulation member 30. The outer conductor 10 includes a socket portion 11 and a flange portion 12. THe central conductor 20 includes a central portion 21 and a lead portion 22, and is disposed inside at one end portion of the socket portion 11. The insulation member 30 includes a through-hole 30a into which the central portion 21 is inserted, and is disposed between the socket portion 11 and the central portion 20 such that the outer conductor 10 and the central conductor 20 are electrically insulated. A first rotation suppression portion 11a is provided at the other end portion of the socket portion 11. A second rotation suppression portion 30c is provided on the insulation member 30. The first rotation suppression portion 11a and the second rotation suppression portion 30a are in contact with each other, whereby relative rotation between the socket portion 11 and the insulation member 30 are suppressed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a coaxial connector having an outer conductor, a central conductor, and an insulating member.

  As an example of a coaxial connector having an outer conductor, a central conductor, and an insulating member, there is a coaxial connector described in JP-A-2006-91657 (Patent Document 1). FIG. 4A is an exploded perspective view showing components before assembly of the coaxial connector 200 described in Patent Document 1. FIG. The coaxial connector 200 is a receptacle in which a mating coaxial connector (plug) (not shown) can be inserted and removed, and includes an outer conductor 210, a center conductor 220, and an insulating member 230.

  The outer conductor 210 includes a cylindrical socket portion 211 and a flange portion 212. The flange portion 212 extends from one end portion of the socket portion 211. The collar portion 212 is provided with a notch 212a. The flange 212 is connected to the ground electrode on the circuit board when the coaxial connector 200 is connected to the circuit board of the electronic device. The plug is inserted and removed from the other end side of the socket part 211.

  The center conductor 220 includes a columnar center portion 221 and a lead portion 222 extending from one end portion of the center portion 221. The lead 222 is connected to a signal electrode on the circuit board when the coaxial connector 200 is connected to the circuit board of the electronic device. That is, the above-described socket part 211 is a shield conductor for the central part 221.

  The insulating member 230 extends in a direction perpendicular to the central axis of the central portion 231 on the side peripheral surface of the central portion 231 and a central portion 231 formed in a columnar shape so as to be mated with the socket portion 211. And a collar portion 232. The central part 231 has an opening 231a formed so as to include the central axis. The central portion 231 is provided with a groove 231b in which the lead portion 222 is mated.

  FIG. 4B is a perspective view of the coaxial connector 200 after the above-described components are assembled. In the coaxial connector 200 shown in FIG. 4B, the central portion 221 is inserted through the opening 231a so that the other end protrudes from the surface of the insulating member 230. Further, the collar part 232 is engaged with a notch 212 a provided in the collar part 212. The lead portion 222 is engaged with the groove 231b as described above. Thereby, the central conductor 220 is fixed to the insulating member 230.

JP-A-2006-91657

  In the structure of the coaxial connector 200, one end portion of the central portion 221 and the lead portion 222 are outside the socket portion 211. That is, the center conductor 220 is not sufficiently shielded by the socket portion 211. Therefore, the coaxial connector 200 may be easily affected by external noise.

  In order for the central conductor 220 to be sufficiently shielded by the socket portion 211, the length of the lead portion 222 needs to be shortened so that the central conductor 220 as a whole is inside the socket portion 211. In that case, it is not necessary to provide the flange portion 232 that insulates between the socket portion 211 and the lead portion 222 in the insulating member 230. That is, the cylindrical insulating member 230 having the opening 231a is engaged with the socket portion 211.

  As described above, in the coaxial connector 200, the flange portion 232 is engaged with the notch 212a provided in the flange portion 212. That is, the flange portion 232 has a function of fixing the insulating member 230 to the outer conductor 210. Therefore, when the cylindrical insulating member 230 without the flange portion 232 is engaged with the socket portion 211, such an insulating member 230 may rotate inside the socket portion 211.

  Since the central conductor 220 is fixed to the insulating member 230, when the insulating member 230 rotates, the central conductor 220 also rotates together. As a result, the position of the lead part 222 is shifted from the original position. As a result, when the coaxial connector 200 is connected to the circuit board of the electronic device, a connection failure may occur.

  That is, an object of the present invention is to provide a coaxial connector that is hardly affected by external noise and that suppresses the occurrence of poor connection when an electronic device is connected to a circuit board.

  In the coaxial connector according to the present invention, the structure of the outer conductor, the central conductor and the insulating member can be improved.

  The coaxial connector according to the present invention includes an outer conductor, a central conductor, and an insulating member. The external conductor has a cylindrical socket portion that is a shield member and a flange portion that is a ground electrode extending from one end portion of the socket portion. The central conductor has a columnar or cylindrical central portion and a lead portion that is a signal electrode extending from one end portion of the central portion. The central conductor is disposed inside one end of the socket part when viewed from the central axis direction of the socket part.

  The insulating member has a through hole through which the central portion is inserted so that the other end portion of the central portion is exposed. The insulating member is disposed between the socket portion and the central conductor so that the outer conductor and the central conductor are electrically insulated.

  A first rotation suppressing portion is provided at the other end of the socket portion. The insulating member is provided with a second rotation suppressing portion. And since the 1st rotation suppression part and the 2nd rotation suppression part are contact | abutting, the relative rotation between a socket part and an insulating member is suppressed.

  In the above coaxial connector, the central conductor is disposed inside one end of the socket part when viewed from the central axis direction of the socket part. For this reason, the central conductor is sufficiently shielded by the socket portion. Therefore, the coaxial connector is not easily affected by external noise.

  In the above coaxial connector, relative rotation between the socket portion and the insulating member is suppressed by the first rotation suppression portion and the second rotation suppression portion. Therefore, in the coaxial connector described above, the occurrence of connection failure when the electronic device is connected to the circuit board is suppressed.

  The coaxial connector according to the present invention preferably has the following features. That is, the first rotation suppressing part is a flat part provided on the inner peripheral surface of the other end of the socket part. The second rotation suppressing portion is a flat portion provided at a position on the outer peripheral surface of the insulating member that contacts the first rotation suppressing portion when the insulating member is disposed between the socket portion and the central conductor. is there.

  In the above coaxial connector, the first rotation suppressing portion and the second rotation suppressing portion are simple in form, but the relative rotation between the socket portion and the insulating member is suppressed, and the above-described effect is obtained. .

  The coaxial connector according to the present invention preferably includes the following features. That is, the first rotation suppressing portion is a recess provided on the inner peripheral surface of the other end portion of the socket portion. The second rotation suppressing portion is a convex portion provided at a position of the outer peripheral surface of the insulating member that contacts the first rotation suppressing portion when the insulating member is disposed between the socket portion and the central conductor. is there.

  In the above coaxial connector, since the first rotation suppressing portion that is the concave portion and the second rotation suppressing portion that is the convex portion are mated, relative rotation between the socket portion and the insulating member is ensured. The above-described effects can be obtained with certainty.

  The coaxial connector according to the present invention preferably includes the following features. That is, the first rotation suppressing portion is a convex portion provided on the inner peripheral surface of the other end portion of the socket portion. The second rotation suppression portion is a recess provided at a position on the outer peripheral surface of the insulating member that contacts the first rotation suppression portion when the insulating member is disposed between the socket portion and the central conductor. .

  In the above coaxial connector, since the first rotation suppression portion that is the convex portion and the second rotation suppression portion that is the concave portion are mated, relative rotation between the socket portion and the insulating member is ensured. The above-described effects can be obtained with certainty.

  The coaxial connector according to the present invention preferably includes the following features. That is, the insulating member has a covering portion that covers at least a part of the other end surface of the socket portion. A 1st rotation suppression part is a recessed part provided in the other end surface of the socket part. The second rotation suppressing portion is a convex portion provided at a position of the insulating member covering portion that contacts the first rotation suppressing portion when the insulating member is disposed between the socket portion and the central conductor. is there.

  In the above coaxial connector, since the first rotation suppressing portion that is the concave portion and the second rotation suppressing portion that is the convex portion are mated, relative rotation between the socket portion and the insulating member is ensured. The above-described effects can be obtained with certainty. In addition, the 1st rotation suppression part may be a through-hole which goes out from the other end surface of a socket part to the internal peripheral surface of a socket part.

  The coaxial connector according to the present invention preferably includes the following features. That is, the insulating member has a covering portion that covers at least a part of the other end surface of the socket portion. A 1st rotation suppression part is a convex part provided in the other end surface of the socket part. The second rotation suppression portion is a recess provided at a position of the covering portion of the insulating member that contacts the first rotation suppression portion when the insulating member is disposed between the socket portion and the central conductor. .

  In the above coaxial connector, since the first rotation suppression portion that is the convex portion and the second rotation suppression portion that is the concave portion are mated, relative rotation between the socket portion and the insulating member is ensured. The above-described effects can be obtained with certainty. In addition, the 1st rotation suppression part may be a through-hole which goes out to the outer surface of a coating | coated part from the surface which contact | connects the other end surface of the socket part of a coating | coated part.

  In the coaxial connector according to the present invention, since the central conductor is sufficiently shielded by the socket portion, it is difficult to be influenced by external noise. Further, in the coaxial connector according to the present invention, since the relative rotation between the socket portion and the insulating member is suppressed, the occurrence of connection failure when the electronic device is connected to the circuit board is suppressed.

1 is an exploded perspective view of a coaxial connector 100 which is an embodiment of a coaxial connector according to the present invention. 2 is a perspective view of the coaxial connector 100. FIG. 6 is a perspective view showing first to fourth modifications of the outer conductor 10 in the coaxial connector 100. FIG. 2 is an exploded perspective view of a coaxial connector 200 of the background art and a perspective view of the coaxial connector 200. FIG.

  Embodiments of the present invention will be described below to describe the features of the present invention in more detail. The present invention is applied to, for example, a coaxial connector (receptacle) used for measuring electrical characteristics for product inspection of portable electronic devices, but is also applicable to other coaxial connectors.

-Embodiment of coaxial connector-
A structure of a coaxial connector 100 as an embodiment of the coaxial connector according to the present invention will be described with reference to FIGS. 1 and 2.

  Each drawing is a schematic diagram and does not necessarily reflect actual product dimensions. Further, variations in the shape of each component generated in the manufacturing process are not necessarily reflected in each drawing. That is, hereinafter, the drawings used for explanation in this specification can be said to represent an actual product in an essential aspect even if there are different parts from the actual product.

  FIG. 1 is an exploded perspective view showing components before the coaxial connector 100 is assembled. FIG. 2 is a perspective view illustrating the positional relationship between the outer conductor 10 and the center conductor 20 through the insulating member 30 of the coaxial connector 100 after assembly. The outer conductor 10, the central conductor 20, and the insulating member 30 will be described below.

  The coaxial connector 100 is a receptacle in which a mating coaxial connector (plug) (not shown) can be inserted and removed, and includes an outer conductor 10, a central conductor 20, and an insulating member 30. The outer conductor 10 includes a cylindrical socket portion 11 that is a shield member, and a flange portion 12 that is a ground electrode that extends from a region in contact with one end surface of the side surface of the socket portion 11. . In addition, the collar part 12 may extend from the area | region which adjoins at a distance from one end surface or from one end surface. The outer conductor 10 is formed using a metal material such as Cu or Cu alloy, for example.

  The socket part 11 has the 1st rotation suppression part 11a. In the coaxial connector 100, the first rotation suppressing portion 11a is a flat portion provided at four locations on the inner peripheral surface of the other end. In addition, the number and shape of the 1st rotation suppression part 11a are not restricted above (refer the modification of the below-mentioned external conductor 10). Further, in the coaxial connector 100, the socket portion 11 is provided with four notches 11b formed in a shape that can be engaged with a claw portion provided in a plug (not shown). However, the notch 11b is not an essential component in the present invention.

  The center conductor 20 has a cylindrical center portion 21 formed so that a part of an insulating member 30 described later can be filled therein, and a signal electrode extending from one end portion of the center portion 21. And a lead portion 22. The central conductor 20 may be cylindrical.

  Further, the central conductor 20 is entirely disposed inside one end portion of the socket portion 11 when viewed from the central axis direction of the socket portion 11. That is, the central conductor 20 is sufficiently shielded by the socket portion 11. Therefore, the coaxial connector 100 is hardly affected by external noise. The central conductor 20 is formed using a metal material such as Cu or Cu alloy, for example.

  The insulating member 30 is disposed between the socket portion 11 and the central conductor 20 so that the outer conductor 10 and the central conductor 20 are electrically insulated. The insulating member 30 has a through hole 30a through which the central portion 21 is inserted so that the other end of the central portion 21 of the central conductor 20 is exposed. In the coaxial connector 100, a columnar member that can be filled in the cylindrical central portion 21 is disposed in the through hole 30a as described above. However, this cylindrical member is not an essential component in the present invention.

  Further, in the coaxial connector 100, the insulating member 30 has a notch 30b formed so that the lead portion 22 of the central conductor 20 can be accommodated. However, the notch 30b is not an essential component in the present invention.

  The insulating member 30 has a second rotation suppressing part 30c. In the coaxial connector 100, the second rotation suppressing portion 30 c includes the first rotation suppressing portion 11 a on the outer peripheral surface of the insulating member 30 when the insulating member 30 is disposed between the socket portion 11 and the central conductor 20. It is the plane part provided in three places which contact | abut. In addition, the number and shape of the 2nd rotation suppression part 130c are not restricted above.

  Further, in the coaxial connector 100, the insulating member 30 is provided with four protrusions 30d formed in a shape that can be engaged with an external conductor of a plug (not shown). However, the protrusion 30d is not an essential component in the present invention. The insulating member 30 is formed using an insulating resin material such as polypropylene, nylon, or rubber.

  In the coaxial connector 100, the central conductor 20 and the insulating member 30 are integrally formed by a so-called insert mold so that the lead portion 22 is disposed inside the notch 30b. That is, the central conductor 20 is fixed to the insulating member 30.

  As described above, in the coaxial connector 100, the planar first rotation suppression unit 11a and the planar second rotation suppression unit 30c are in close contact with each other. Therefore, relative rotation between the socket part 11 and the insulating member 30 to which the central conductor 20 is fixed is suppressed.

  That is, the relative positional relationship between the flange portion 12 that is the ground electrode and the lead portion 22 that is the signal electrode does not deviate from that at the time of design. Therefore, in the coaxial connector 100, the first rotation suppression unit 11a and the second rotation suppression unit 30c are in a simple form, but the occurrence of connection failure when the electronic device is connected to the circuit board is suppressed.

-First to fourth modifications of the outer conductor-
3A to 3D are perspective views showing outer conductors 10A to 10D that are first to fourth modifications of the outer conductor 10 in the coaxial connector 100. FIG. The outer conductors 10A to 10D are different from the outer conductor 10 described above in the form of the first rotation suppressing portion 11a. Since the other components are the same as those of the external conductor 10, further description thereof is omitted here.

  Further, the shape of the second rotation suppressing portion 30c of the insulating member 30 corresponds to the shape of the first rotation suppressing portion 11a. Therefore, illustration of the insulating member 30 is omitted, and only the shapes of the outer conductors 10A to 10D will be described.

  FIG. 3A is a perspective view of an outer conductor 10A that is a first modification. In the outer conductor 10 </ b> A, the first rotation suppressing portion 11 a is a recess provided on the inner peripheral surface of the other end portion of the socket portion 11. In this case, the second rotation suppressing portion 30c (not shown) is a first rotation suppressing portion on the outer peripheral surface of the insulating member 30 when the insulating member 30 is disposed between the socket portion 11 and the central conductor 20. It becomes the convex part provided in the position contact | abutted to 11a.

  In addition, although the two 1st rotation suppression parts 11a which are simple rectangular recessed parts are provided in 10 A of outer conductors, the number and shape of a recessed part are not restricted to this.

  In the coaxial connector 100 having the outer conductor 10A as a constituent element, the first rotation suppressing portion 11a that is a concave portion and the second rotation suppressing portion 30c that is a convex portion are engaged with each other to insulate the socket portion 11 from each other. The member 30 is fixed. Therefore, the relative rotation between the socket part 11 and the insulating member 30 is reliably suppressed, and the above-described effects can be reliably obtained.

  FIG. 3B is a perspective view of an outer conductor 10B that is a second modification. In the outer conductor 10 </ b> B, the first rotation suppressing portion 11 a is a convex portion provided on the inner peripheral surface of the other end portion of the socket portion 11. In this case, the second rotation suppressing portion 30c (not shown) is a first rotation suppressing portion on the outer peripheral surface of the insulating member 30 when the insulating member 30 is disposed between the socket portion 11 and the central conductor 20. It becomes a recessed part provided in the position contact | abutted to 11a.

  In addition, although the two 1st rotation suppression parts 11a which are simple rectangular convex parts are provided in the outer conductor 10B, the number and shape of a convex part are not restricted to this.

  In the coaxial connector 100 having the outer conductor 10B as a constituent element, the first rotation suppressing portion 11a that is a convex portion and the second rotation suppressing portion 30c that is a concave portion are mated to insulate the socket portion 11 from each other. The member 30 is fixed. Therefore, the relative rotation between the socket part 11 and the insulating member 30 is reliably suppressed, and the above-described effects can be reliably obtained.

  FIG. 3C is a perspective view of an outer conductor 10C that is a third modification. In the outer conductor 10 </ b> C, the first rotation suppressing portion 11 a is a recess provided on the other end surface of the socket portion 11. In this case, the insulating member 30 (not shown) has a covering portion that covers at least a part of the other end surface of the socket portion 11. And the 2nd rotation suppression part 30c not shown is the 1st rotation suppression of said coating | coated part of the insulating member 30, when the insulating member 30 is arrange | positioned between the socket part 11 and the center conductor 20. FIG. It becomes the convex part provided in the position contact | abutted to the part 11a.

  In addition, although the four 1st rotation suppression parts 11a which are simple column-shaped recessed parts are provided in 10 C of outer conductors, the number and shape of a recessed part are not restricted to this.

  In the coaxial connector 100 having the outer conductor 10 </ b> C as a constituent element, the first rotation suppression portion 11 a that is a concave portion and the second rotation suppression portion 30 c that is a convex portion are mated to insulate the socket portion 11. The member 30 is fixed. Therefore, the relative rotation between the socket part 11 and the insulating member 30 is reliably suppressed, and the above-described effects can be reliably obtained.

  FIG. 3D is a perspective view of an outer conductor 10D that is a fourth modification. In the outer conductor 10 </ b> D, the first rotation suppressing portion 11 a is a convex portion provided on the other end surface of the socket portion 11. In this case, the insulating member 30 (not shown) has a covering portion that covers at least a part of the other end surface of the socket portion 11. And the 2nd rotation suppression part 30c not shown is the 1st rotation suppression of said coating | coated part of the insulating member 30, when the insulating member 30 is arrange | positioned between the socket part 11 and the center conductor 20. FIG. It becomes a recessed part provided in the position contact | abutted to the part 11a.

  In addition, although the four 1st rotation suppression parts 11a which are simple cylindrical convex parts are provided in 10 D of outer conductors, the number and shape of a convex part are not restricted to this.

  In the coaxial connector 100 having the outer conductor 10D as a constituent element, the first rotation suppression portion 11a that is a convex portion and the second rotation suppression portion 30c that is a concave portion are mated to insulate the socket portion 11 from each other. The member 30 is fixed. Therefore, the relative rotation between the socket part 11 and the insulating member 30 is reliably suppressed, and the above-described effects can be reliably obtained.

  The embodiments described in this specification are illustrative, and the present invention is not limited to the above-described embodiments, and various applications and modifications are added within the scope of the present invention. Can do.

100 Coaxial connector (receptacle)
DESCRIPTION OF SYMBOLS 10 Outer conductor 11 Socket part 11a 1st rotation suppression part 11b Notch 12 ridge part 20 Center conductor 21 Center part 22 Lead part 30 Insulation member 30a Through-hole 30b Notch 30c 2nd rotation suppression part 30d Protrusion part

Claims (6)

A coaxial connector having an outer conductor, a center conductor, and an insulating member,
The outer conductor has a cylindrical socket part which is a shield member, and a flange part which is a ground electrode extending from one end part of the socket part,
The central conductor has a columnar or cylindrical central portion and a lead portion that is a signal electrode extending from one end portion of the central portion, and is viewed from the central axis direction of the socket portion. The insulating member has a through hole through which the central portion is inserted so that the other end portion of the central portion is exposed, and the external member is disposed outside the first end portion of the socket portion. It is disposed between the socket part and the central conductor so that a conductor and the central conductor are electrically insulated,
The other end portion of the socket portion is provided with a first rotation suppression portion, and the insulating member is provided with a second rotation suppression portion, and the first rotation suppression portion and the second rotation suppression portion are provided. The coaxial connector is characterized in that relative rotation between the socket part and the insulating member is suppressed by abutting the rotation suppressing part of the coaxial connector.   The first rotation suppression portion is a flat portion provided on the inner peripheral surface of the other end of the socket portion, and the second rotation suppression portion is configured such that the insulating member includes the socket portion and the central conductor. 2. The coaxial connector according to claim 1, wherein the coaxial connector is a flat portion provided at a position in contact with the first rotation suppressing portion of the outer peripheral surface of the insulating member when arranged between the two. .   The first rotation suppression portion is a recess provided on the inner peripheral surface of the other end portion of the socket portion, and the second rotation suppression portion is configured such that the insulating member is formed between the socket portion and the central conductor. 2. The coaxial connector according to claim 1, wherein the coaxial connector is a convex portion provided at a position in contact with the first rotation suppressing portion on the outer peripheral surface of the insulating member when being disposed in between.   The first rotation suppression portion is a convex portion provided on the inner peripheral surface of the other end portion of the socket portion, and the second rotation suppression portion is configured such that the insulating member includes the socket portion and the central conductor. 2. The coaxial connector according to claim 1, wherein the coaxial connector is a recess provided at a position in contact with the first rotation suppressing portion of the outer peripheral surface of the insulating member when arranged between the two. The insulating member has a covering portion that covers at least a part of the other end surface of the socket portion;
The first rotation suppression unit is a recess provided on the other end surface of the socket unit, and the second rotation suppression unit includes the insulating member disposed between the socket unit and the central conductor. 2. The coaxial connector according to claim 1, wherein the coaxial connector is a convex portion provided at a position of the covering portion of the insulating member in contact with the first rotation suppressing portion. The insulating member has a covering portion that covers at least a part of the other end surface of the socket portion;
The first rotation suppressing portion is a convex portion provided on the other end surface of the socket portion, and the second rotation suppressing portion is configured such that the insulating member is disposed between the socket portion and the central conductor. 2. The coaxial connector according to claim 1, wherein the coaxial connector is a concave portion provided at a position of the covering portion of the insulating member in contact with the first rotation suppressing portion.