JP2015011947A - Shield connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a shield connector capable of maintaining a contact state of a shield member and a shield wire while suppressing enlargement.SOLUTION: A shield connector 1 comprises: a terminal fitting 2; a housing 3 accommodating the terminal fitting; and a shield member 5 for electrically shielding a wire 4 connected to the terminal fitting. The shield member includes a pair of divided parts 7 and 8 holding the wire therebetween. The pair of divided parts include wire holding portions 7A and 8A for holding the wire and fastening portions 7B and 8B which penetrate the wire holding portions to bolt the wire holding portions. In at least one of the pair of divided parts, the fastening portion is provided while protruding from the wire holding portion in a bolt penetration direction, and a reinforcing portion 85 is included which is provided while protruding from the wire holding portion in the same direction as the fastening portion and formed continuously to the portion of the fastening portion protruding from the wire holding portion for reinforcing the wire holding portion.

Description

  The present invention relates to a shield connector including a terminal fitting, a housing that houses the terminal fitting, and a shield member that electrically shields an electric wire connected to the terminal fitting.

  A wide variety of electronic devices are mounted on automobiles as moving bodies. A wire harness is used to transmit electric power and control signals to the electronic device. The wire harness includes a plurality of electric wires and a connector attached to the end of the electric wires.

  For example, high voltage power is supplied to a motor for traveling in the above-described automobile, for example, in an electric vehicle, a hybrid vehicle, or a fuel cell vehicle. There has been a problem that electrical noise leaks to the outside, or electrical noise flows from the electric wire or the terminal fitting into another electric wire or another terminal fitting.

  As a technique for solving such a problem, for example, a shield connector as shown in FIG. 6 is disclosed (see Patent Document 1). A shield connector 101 on the wire harness side as a shield connector described in Patent Document 1 includes an outer case 110 having a shield function and a housing 120 that houses connection terminals (not shown).

  The outer case 110 includes a shield shell 111 having a shield function for shielding electromagnetic waves and grounding, and a shell holder 113 fixed to the shield shell 111 by screwing of a screw member 112. The housing 120 is engaged in the shield shell 111 of the outer case 110. The housing 120 accommodates the connection terminals that are respectively crimped and fixed to the end portions (front end portions) of the plurality of shielded wires 130, and holds and insulates the connection terminals.

  In the vicinity of the rear end portion of the shield shell 111, the shield terminal 131 is fixed to the outer periphery of the braid of each shielded electric wire 130 folded back to the outer peripheral side by caulking in a conductive state with the braid.

  The shield terminal 131 grounds the braid of the shielded electric wire 130 to the shield shell 111 in a state where the shell holder 113 is fixed to the shield shell 111. That is, the shield terminal 131 is sandwiched by the shell holder 113 together with a projection (not shown) provided on the inner wall of the shield shell 111 in a state where the shell holder 113 is fixed to the shield shell 111 by screwing of the screw member 112. . The braid of the shielded electric wire 130 is conducted to the shield shell 111 and grounded to the shield shell 111 by the axial force of the screw member 112 to be screwed.

  In such a conventional shield connector 101, since the shield shell 111 and the shell holder 113 are fixed between the shielded electric wires 130 by screwing of the screw member 112, the screw connector 114 screwed to the screw member 112 is used. The dimensions to both ends of the shield shell 111 and the shell holder 113 (both ends of the outer case 110) are relatively small, and the axial force of the screw member 112 to be screwed up to both ends of the outer case 110. By acting, the braid of the shielded electric wire 130 is in contact with the shield shell 111.

JP 2007-115428 A

  However, in the above-described conventional shield connector 101, the shield shell 111 and the shell holder 113 are fixed between the shielded electric wires 130 by screwing of the screw member 112, so that the pitch between the shielded electric wires 130 is formed large. Thus, there is a problem that the shield shell 111 and the shell holder 113 (outer case 110) including the screwing portion 114 are increased in size in the direction in which the shielded electric wires 130 are arranged (arrow X direction). For this reason, by trying to move the screwing portion 114 to one end of the shield shell 111 and the shell holder 113 (hereinafter referred to as “shell body”), an attempt is made to reduce the size of the screwing portion 114 of the shell body. However, in that case, the dimension from the screwing portion 114 to the other end portion of the shell body is relatively large, and the axial force of the screw member 112 to be screwed acts on the other end portion of the shell body. Furthermore, since the rigidity of the shell body is insufficient, the shell holder 113 is deformed against the repulsive force of the shield terminal 131 when the screw member 112 is screwed, and the other end of the shell holder 113 is lifted. As a result, the shell holder 113 and the shield terminal 131 may not be able to contact each other. Alternatively, depending on the thickness of the shielded electric wire 130 and the number of shielded electric wires 130 used, the dimension from the screwing portion 114 to the other end of the shell main body is relatively large. There is a possibility that the terminal 131 cannot be contacted. For this reason, it has been considered that both ends of the shell main body are fastened using the screw members 112, but two screwing portions 114 are provided side by side, and the outer case 110 is arranged with the shielded wires 130 aligned. It becomes large in the direction. That is, it is difficult to maintain the contact state between the shell holder 113 and the shield terminal while suppressing the increase in the arrangement direction of the shielded wires 130 of the outer case 110.

  The objective of this invention is providing the shield connector which can maintain the contact state of a shield member and a shield electric wire, suppressing the enlargement.

  The present invention according to claim 1 is a shield connector comprising a terminal fitting, a housing that houses the terminal fitting, and a shield member that electrically shields an electric wire connected to the terminal fitting, The shield member is configured to include a pair of divided portions that hold the electric wire in between, and each of the pair of divided portions includes an electric wire holding portion that holds the electric wire, and the electric wire holding portion that penetrates the pair of divided portions. A fastening part that fastens the parts to each other by bolts, and at least one of the pair of split parts, the fastening part is provided to protrude in a direction in which the bolt penetrates more than the wire holding part, and The wire holding portion is provided so as to protrude from the wire holding portion in the same direction as the fastening portion, and is formed continuously from a portion protruding from the wire holding portion of the fastening portion. It has a reinforcing section to strengthen a shielded connector according to claim.

  According to a second aspect of the present invention, in the shield connector according to the first aspect, the electric wire holding portion holds the plurality of electric wires side by side, and the reinforcing portion includes the plurality of electric wires. It is provided to extend to the electric wire farthest from the fastening portion.

  According to a third aspect of the present invention, in the shielded connector according to the first or second aspect, the reinforcing portion is formed so as to be inclined in a direction approaching the wire holding portion as the distance from the fastening portion increases. It is characterized by being.

  According to a fourth aspect of the present invention, in the shield connector according to any one of the first to third aspects, the shield member is provided with an attachment portion for attaching the pair of divided portions to the attachment portion. The mounting portion is provided so as to protrude from the pair of split portions to one side in the radial direction of the electric wire, and the fastening portion of the electric wire that is opposite to the mounting portion with the electric wire holding portion interposed therebetween. It is provided so as to protrude on the other side in the radial direction.

  According to the first aspect of the present invention, in at least one of the pair of divided portions, the fastening portion is provided so as to protrude in the direction in which the bolt penetrates more than the wire holding portion, and the fastening portion extends from the wire holding portion. And has a reinforcing portion that is formed continuously from the protruding portion of the electric wire holding portion of the fastening portion and reinforces the electric wire holding portion. The size of the wire is increased, the rigidity is improved by the increase in the dimension in the penetrating direction, and the rigidity of the electric wire holding part is improved by providing the reinforcing part. Thus, the electric wire holding portion is not deformed by the repulsive force of the electric wire, and the bolt fastening force is transmitted (acted) to the end portion away from the fastening portion of the electric wire holding portion. Therefore, the end part away from the fastening part of the electric wire holding part does not float, the contact state between the electric wire holding part and the electric wire can be maintained, and the shielding performance can be improved. That is, the contact state between the electric wire holding portion and the electric wire can be maintained regardless of the distance from the fastening portion to the end portion of the electric wire holding portion. Moreover, since the contact state between the wire holding part and the electric wire can be maintained without providing the fastening part at both ends of the electric wire holding part, the contact state between the shield member and the electric wire is maintained while suppressing an increase in size. A shielded connector that can be provided can be provided.

  In addition, by having such a structure, it is possible to maintain the contact state between the electric wire holding part and the electric wire without providing the fastening part at both ends of the electric wire holding part. Thus, the number of bolts to be fastened is reduced, and therefore the number of work steps can be reduced.

  According to the second aspect of the present invention, the electric wire holding portion holds the plurality of electric wires side by side, and the reinforcing portion extends to the electric wire farthest from the fastening portion among the plural electric wires. Therefore, the bolt fastening force is transmitted to the wire farthest from the fastening portion among the plurality of wires, and thus the number of wires held by the wire holding portion is increased, and the wire farthest from the fastening portion Even if the distance becomes larger, the end portion away from the fastening portion of the electric wire holding portion does not float, and the contact state between the shield member and the electric wire can be reliably maintained.

  According to this invention of Claim 3, the reinforcement part is formed so that it may incline in the direction approaching an electric wire holding part, as it leaves | separates from a fastening part. That is, the protrusion amount of the reinforcing portion is formed so as to decrease as the distance from the fastening portion increases. Here, since the bolt fastening force gradually decreases with increasing distance from the fastening portion, when the protrusion amount of the reinforcing portion is formed to be constant, the bolt fastening force is the end away from the fastening portion of the wire holding portion. However, in the present invention, since the protruding amount of the reinforcing portion is inclined so as to decrease as it moves away from the fastening portion, the size of the reinforcing portion in the protruding direction is fastened. It becomes small as it leaves | separates from a part, and it can be made easy to transmit a bolt fastening force to the position away from the fastening part of an electric wire holding part. Therefore, the bolt fastening force is uniformly transmitted (acted) to the end portion away from the fastening portion of the electric wire holding portion, and the end portion away from the fastening portion of the electric wire holding portion does not float, and the shield The contact state between the member and the electric wire can be reliably maintained.

  According to the fourth aspect of the present invention, the shield member is provided with an attachment portion for attaching the pair of divided portions to the attached portion, and the attachment portion protrudes from the pair of divided portions to one side in the radial direction of the electric wire. Since the fastening portion is provided to protrude to the other side in the radial direction of the electric wire, which is the opposite side of the attachment portion with the electric wire holding portion interposed therebetween, the attachment portion and the fastening portion are provided on the same direction side. Compared to the case, the shield member can be attached to the attached portion with good workability.

It is a perspective view which shows the shield connector concerning one embodiment of this invention. It is sectional drawing which follows the II line | wire in FIG. It is a top view which arrow A in FIG. 1 shows. FIG. 2 is an exploded perspective view of the shield connector shown in FIG. 1. It is a figure which shows a mode that a shield connector is attached to a vehicle body panel while it is a top view which the arrow B in FIG. 1 shows. It is a perspective view which shows the conventional shield connector.

  A shield connector according to an embodiment of the present invention will be described with reference to FIGS. The shield connector constitutes a wire harness that is routed in an automobile, etc., and is connected to the terminal of an electric wire that constitutes the wire harness and transmits a control signal and the like, and from the terminal fitting of this electric wire or connector to the outside It is used to remove electrical noise that leaks or electrical noise that flows from the outside into the electric wires and terminal fittings.

  As shown in FIGS. 1 and 2, a female connector 1 as a shield connector includes a pair of female terminals 2 (terminal fittings) and a rectangular parallelepiped female side housing 3 (housing) that holds the pair of female terminals 2. And a shield member 5 that electrically shields the shielded electric wire 4 (electric wire) connected to the female terminal 2. The pair of female terminals 2 are held by the female housing 3 with a space therebetween. Each female terminal 2 is formed in a rectangular tube shape, one end (right side in FIG. 2) is connected to a male terminal of a male connector (not shown), and the other end (left side in FIG. 2) is the shield wire 4. Connected to the terminal.

  Here, in this specification, the axial direction of the female terminal 2 is indicated by an arrow Z, the vertical direction in FIG. 1 in a direction orthogonal to the axial direction is indicated by an arrow Y, and the two directions of the arrow Z and the arrow Y are orthogonal to each other. The left and right directions are indicated by arrows X. Further, the arrow Z direction may be referred to as the front-rear direction. Among the front and rear directions, the fitting surface side (upper right in FIG. 1, right side in FIG. 2) is referred to as “front”, and (lower left in FIG. 1, left side in FIG. 2) is “rear”. May be written.

  As shown in FIGS. 2 and 3, each shielded wire 4 includes a conductor 40, an inner insulating coating 41 that covers the outer periphery of the conductor 40, a cylindrical shield braid 42 that covers the outer periphery of the inner insulating coating 41, And an outer insulation coating 43 that covers the outer periphery of the shield braid 42. The shielded electric wire 4 includes a female terminal 2 connected to a front end portion thereof, a packing 44 that is externally fitted to the outer insulating coating 43 to prevent a liquid such as water from entering the shield member 5, and a shield braid 42. A shield pipe 45 for caulking and fixing the packing 44, and a seal member 46 provided between the packing 44 and the female housing 3 to prevent a liquid such as water from entering the female housing 3. It is installed.

  As shown in FIG. 1, the shield member 5 is formed in a substantially elliptical cylindrical shape covering the female housing 3 holding the female terminal 2 and the front end side of the shielded electric wire 4 connected to the female terminal 2. Yes. As shown in FIG. 4, the shield member 5 includes a shield main body 6 that houses the female housing 3 and a pair of divided portions 7 and 8 that hold the shielded electric wire 4 between them. . The shield member 5 is formed by casting or forging. One of the pair of divided portions 7 and 8 (hereinafter referred to as the first divided portion 7) is the first divided portion 7 located below in FIG. 4, and is continuous with the rear end of the shield body 6. It is formed integrally with the shield body 6. The other of the pair of divided portions 7 and 8 (hereinafter referred to as the second divided portion 8) is provided separately from the shield body 6 and the first divided portion 7, and between the first divided portion 7. By sandwiching the shielded electric wire 4, the shielded electric wire 4 is electrically connected to the shielded pipe 45 fitted on the shielded electric wire 4. In other words, the shielded electric wire 4 is electrically connected to the shield member 5 via the shield pipe 45. The second dividing unit 8 corresponds to “one dividing unit” in the claims.

  As shown in FIG. 4, the shield body 6 is formed so as to protrude from the front end of the cylinder body 61 to one side in the left-right direction (arrow X direction). And an attaching portion 62 for attaching 61 to a housing (attached portion) of an electric device (not shown). The cylinder main body 61 is formed by cutting out a part of the upper wall 6A constituting the cylinder main body 61 into a rectangular shape so as to engage with the positioning convex part 86 of the second division part 8, and the second division part. A positioning recess 63 for positioning 8 with respect to the cylinder main body 61 is provided. The positioning recess 63 is formed by cutting out the rear end portion of the upper wall 6 </ b> A of the cylinder body 61. Here, the housing of the electric device to which the attachment portion 62 is attached is made of conductive metal, and the shield member 5 is attached to the attached portion, so that the case and the shielded electric wire 4 are shielded. It is electrically connected via the member 5. The attached portion is configured by a through hole (not shown) that is overlapped with the through hole 64 of the attaching portion 62 and is bolted. Furthermore, a fitting portion (not shown) to which the female connector 1 is fitted is provided in the vicinity of the attached portion. A male terminal is accommodated in the fitting portion (male side connector).

  The attachment portion 62 is provided in a plate shape facing the housing in the front-rear direction (arrow Z direction) and has a through-hole 64 that penetrates in the front-rear direction. And the cylinder main body 61 is attached to the housing | casing by overlapping this attaching part 62 and a to-be-attached part, screwing the bolt B to the through-hole 64, and fastening.

  As shown in FIGS. 1 and 4, the pair of divided portions 7 and 8 is a state in which the shield wire 4 is held between the pair of housing chambers 9 and 9 having a curved inner surface and a fastening portion. 10. Here, since the pair of storage chambers 9 and 9 and the fastening portion 10 are composed of a pair of divided portions 7 and 8, that is, a first divided portion 7 and a second divided portion 8, the first divided portion 7. Is composed of a first main body portion 70 having a pair of first hook-like portions 7A and 7A (electric wire holding portions) and a first fastening portion 7B (fastening portion), and the second divided portion 8 is a pair of first It is comprised by the 2nd main-body part 80 which has 2 hook-shaped parts 8A and 8A (electric wire holding part), and the 2nd fastening part 8B (fastening part). In other words, the first main body portion 70 and the second main body portion 80 face each other and their edges are overlapped with each other, and each of the first hook-like portions 7A and each of the second hook-like portions 8A The first fastening part 7B and the second fastening part 8B constitute the fastening part 10.

  As shown in FIG. 1, the pair of storage chambers 9 and 9 are provided side by side in the left-right direction (arrow X direction). Each storage chamber 9 includes a first bowl-shaped portion 7A and a second bowl-shaped portion 8A. Each storage chamber 9 has a diameter that is substantially constant in the front-rear direction. Each storage chamber 9 has a plurality of ribs 90 (shown in FIG. 4) formed so as to protrude from the inner peripheral surface at intervals in the circumferential direction. The rib 90 has a protruding dimension that contacts the shield pipe 45 that is externally fitted to the shielded electric wire 4.

  Further, a lead-out portion 9 a for leading the rear end side of the shielded electric wire 4 to the outside is provided at the rear end portion of each storage chamber 9. The dimension in the radial direction of the lead-out portion 9 a is formed to be smaller than the inner diameter dimension of the storage chamber 9. The shield pipe 45 of the shielded electric wire 4 is brought into contact with the rib 90 in a state where the pair of divided portions 7 and 8 are held with the shielded electric wire 4 interposed therebetween, and the packing 44 is provided between the lead-out portion 9 a and the shielded electric wire 4. Is intervened.

  As shown in FIG. 1, the fastening portion 10 is provided on the other side of the pair of storage chambers 9 in the left-right direction (arrow X direction) (on the opposite side of the pair of storage chambers 9 of the mounting portion 62). The fastening part 10 includes a first fastening part 7 </ b> B provided in the first split part 7 and a second fastening part 8 </ b> B provided in the second split part 8. The first fastening portion 7B is overlapped with the second fastening portion 8B, and the bolt B passes through the first and second fastening portions 7B, 8B, thereby fastening the first main body portion 70 and the second main body portion 80. It is configured as follows.

  As shown in FIG. 4, the first fastening portion 7 </ b> B is formed in a columnar shape with a through hole 71 penetrating in the vertical direction. The first fastening portion 7B is provided at an end portion (front end portion) of the first main body portion 70 on the shield main body 6 side. The upper surface 72 (end surface) of the first fastening portion 7B is formed so as to be substantially flush with the upper edge (upper end surface) superimposed on the second main body portion 80 of the first main body portion 70. In addition, a piece receiving portion 73 into which the positioning piece 84 of the second fastening portion 8B is inserted is formed in the first fastening portion 7B.

  As shown in FIG. 3, the second fastening portion 8B is formed in a cylindrical shape in which a through hole 81 (shown in FIG. 4) penetrating in the vertical direction is formed. The second fastening portion 8B is configured so that a part of the outer peripheral surface is continuous with the second main body portion 80 and the upper surface 82 thereof is higher than the upper surface of the second main body portion 80. It protrudes from the portion 80. The second fastening portion 8B is provided with a positioning piece 84 that is inserted into the piece receiving portion 73 of the first fastening portion 7B and positions the first fastening portion 7B and the second fastening portion 8B. The positioning piece 84 is formed to project downward from the second fastening portion 8B.

  As shown in FIG. 3, the second main body portion 80 is provided with a notch 89 at a corner on the second fastening portion 8B side of the rear end surface.

  Further, the second main body portion 80 is formed with a reinforcing portion 85 that reinforces the second main body portion 80. The second main body portion 80 including the reinforcing portion 85 is solidly provided. The reinforcing portion 85 is provided so as to protrude upward from the second main body portion 80 and is formed continuously to a portion protruding from the second main body portion 80 of the second fastening portion 8B. The reinforcing portion 85 approaches the second main body portion 80 from the upper surface 82 of the second fastening portion 8B toward the one side in the left-right direction (arrow X direction) (the side on which the mounting portion 62 of the shield main body 6 is provided). It consists of three inclined portions 85A, 85B, 85C that are inclined in the direction.

  Here, as shown in FIGS. 4 and 5, the second main body portion 80 includes an upper surface (inclined portions 85 </ b> A, 85 </ b> B, 85 </ b> C) on which the reinforcing portion 85 is formed, and a horizontal direction (arrow X direction) of the upper surface. And a curved surface 87 continuous on one side of the outer peripheral surface. The rear end edge of the outer peripheral surface has a linear straight portion 88a along the left-right direction and an arc portion 88b continuous with the straight portion 88a. Both ends in the left-right direction of the linear portion 88a are provided to the outside in the left-right direction with respect to the respective axes of the shielded electric wires 4 housed in the pair of housing chambers 9, 9. And the edge 88c which is continued to the edge part of the left-right direction one side of this linear part 88a, and is located in the boundary of an upper surface and the curved surface 87 is extended linearly along the front-back direction (arrow Z direction). Yes.

  Of the three inclined portions 85A, 85B, 85C, the first inclined portion 85A located on the rear side is formed in a trapezoidal shape when viewed from above, as shown in FIGS. It is formed so as to include the entire length and is continuously formed up to the upper surface 82 of the second fastening portion 8B. The inclined portion 85B is formed in a trapezoidal shape when viewed from above, is continuous with the front side of the inclined portion 85A, and includes the entire length of the edge 88c of the boundary portion between the upper surface of the second main body portion 80 and the curved surface 87. It is formed and continuously formed up to the upper surface 82 of the second fastening portion 8B. The inclined portion 85C is formed in a triangular shape in a top view, is formed to include the entire length of the front end edge of the upper surface of the second main body portion 80, and is continuous with the front side of the inclined portion 85B, and is second fastening. The upper surface 82 of the part 8B is continuously formed.

  As described above, the reinforcing portion 85 is formed so as to incline toward the second main body portion 80 as the distance from the fastening portion 10 increases. That is, since the protruding amount of the reinforcing portion 85 is formed so as to decrease as it moves away from the fastening portion 10 in the left-right direction (arrow X direction), the dimension of the reinforcing portion 85 in the protruding direction (vertical direction) is As the distance from the fastening portion 10 is increased, the bolt fastening force can be easily transmitted (acted) to a position away from the fastening portion 10 of the second main body portion 80. Further, since the reinforcing portion 85 is provided to extend to the shielded electric wire 4 (the edge 88c of the boundary portion between the upper surface of the second main body portion 80 and the curved surface 87) farthest from the fastening portion 10, the bolt fastening force However, it will be transmitted to the shielded electric wire 4 farthest from the fastening part 10.

  Next, the assembly procedure of the female connector 1 will be described. A packing 44, a shield pipe 45, a seal member 46, and the female terminal 2 are attached to the shielded electric wire 4. And the female side housing 3 is attached to the female terminal 2 so that the female terminal 2 may be accommodated. The shield main body 6 of the shield member 5 is brought close to the rear end of the shielded electric wire 4 from the attachment portion 62 side, and the shield electric wire 4 is hidden inside the shield main body 6 so that the shield main body 6 is connected to the female housing 3 side, that is, Move forward. Then, the female housing 3 is accommodated inside the shield body 6, and the portion where the shield pipe 45 of the shielded electric wire 4 is attached to the first hook-shaped portion 7 </ b> A of the first divided portion 7 is positioned. In this state, the second hook-like portion 8A is brought close to the first hook-like portion 7A, the first fastening portion 7B and the second fastening portion 8B are brought close to each other, and the through holes between the first fastening portion 7B and the second fastening portion 8B Screw bolts 71 and 72. At this time, the second fastening portion 8B is formed so as to protrude from the second main body portion 80 so that the upper surface 82 of the second fastening portion 8B is higher than the upper surface of the second main body portion 80. By increasing the dimension in the penetration direction (up and down direction Y) and increasing the dimension in the penetration direction, the rigidity of the fastening portion 8B (fastening portion 10) is improved, and the reinforcing portion 85 is provided. The rigidity of the second main body portion 80 (second hook-shaped portion 8A) is improved. Therefore, the second main body portion 80 is caused by the repulsive force of the shield pipe 45 attached to the shielded electric wire 4 generated when the bolt is tightened. No deformation occurs, and the bolt fastening force is transmitted (acted) to the end of the second main body portion 80 away from the fastening portions 7B and 8B (fastening portion 10). In this way, the edges of the first main body portion 70 and the second main body portion 80 are overlapped to form a pair of storage chambers 9 and 9 inside the first hook-like portion 7A and the second hook-like portion 8A. The shield pipe 45 attached to the shielded electric wire 4 is brought into electrical contact with the inner peripheral surface of the housing chamber 9 to complete the assembly of the female connector 1.

  Next, a procedure for attaching the female connector 1 to the housing (attached part) will be described. As shown in FIG. 5, the shield connector 1 is inserted into the fitting portion (male connector) of the electric device, approaching the casing of the electric device from the front end side. In this way, the female connector 1 is fitted to the male connector of the electrical device. Thereafter, the attaching portion 62 is brought close to the attached portion of the electric device, and is bolted. At this time, the attachment portion 62 is provided so as to protrude from the pair of divided portions 7 and 8 to one side in the left-right direction, and the fastening portion 10 is on the opposite side of the attachment portion 62 with the pair of storage chambers 9 and 9 being sandwiched therebetween. Since it is provided so as to protrude to the other side in the left-right direction, it is possible to secure a space for providing the tool G without hindering the work by the fastening portion 10, and thus the shield member 5 can be attached to the attached portion with good workability. Can be attached to. Thus, by attaching the shield member 5 to the attached portion of the housing, the shield member 5 is electrically connected to a ground circuit (not shown) through the housing, so that the shielded electric wire 4 and the female connector 1 are female. Electrical noise leaking from the terminal 2 to the outside or electrical noise flowing from the outside to the shielded electric wire 4 and the female terminal 2 is removed.

  In the embodiment described above, the fastening portion 10 is provided on the other side in the left-right direction (arrow X direction) of the pair of storage chambers 9 (the opposite side across the pair of storage chambers 9 of the mounting portion 62). . In other words, the storage chamber 9 is provided only on one side of the fastening portion 10, but the present invention is not limited to this. The storage chamber 9 may be provided on both sides of the fastening portion 10. Moreover, although the reinforcement part 85 was provided only in the 2nd division part 8, this invention is not limited to this. The reinforcing part 85 may be provided only in the first divided part 7, or may be provided in both the first divided part 7 and the second divided part 8.

  In the above-described embodiment, the female connector as the shield connector 1, the female terminal 2 as the terminal fitting, and the female housing 3 as the housing have been described as examples. However, the present invention is not limited to this. The shield connector 1 may be a male connector, a male terminal as the terminal fitting, and a male housing as the housing.

  Further, the above-described embodiments are merely representative forms of the present invention, and the present invention is not limited to the embodiments. That is, various modifications can be made without departing from the scope of the present invention.

1 Female connector (shield connector)
3 Female housing (housing)
5 Shield member 7 1st division part (division part)
7A 1st bowl-shaped part (electric wire holding part)
7B 1st fastening part (fastening part)
8 Second division (one division)
8A 2nd bowl-shaped part (electric wire holding part)
8B Second fastening part (fastening part)
85 reinforcement

Claims (4)

Terminal fittings,
A housing for housing the terminal fitting;
A shield member that electrically shields an electric wire connected to the terminal fitting, and a shield connector comprising:
The shield member is configured to include a pair of divided portions that hold the electric wire in between.
Each of the pair of divided portions is provided with an electric wire holding portion for holding the electric wire, and a fastening portion for bolting the electric wire holding portions by penetrating each other,
In at least one of the pair of divided portions, the fastening portion is provided so as to protrude in a direction in which the bolt penetrates more than the wire holding portion, and protrudes in the same direction as the fastening portion from the wire holding portion. And a reinforcing portion that is formed continuously from a portion of the fastening portion that protrudes from the wire holding portion and reinforces the wire holding portion. The electric wire holding portion holds a plurality of the electric wires side by side,
The shield connector according to claim 1, wherein the reinforcing portion is provided to extend to the electric wire farthest from the fastening portion among the plurality of electric wires.   The shield connector according to claim 1, wherein the reinforcing portion is formed so as to be inclined in a direction approaching the electric wire holding portion as it is separated from the fastening portion. The shield member is provided with an attachment portion for attaching the pair of divided portions to the attachment portion,
The mounting portion is provided to protrude from the pair of divided portions to one side in the radial direction of the electric wire,
The said fastening part protrudes and is provided in the other side of the radial direction of the said electric wire which is the other side of the said attachment part on both sides of the said electric wire holding part, The any one of Claim 1 thru | or 3 characterized by the above-mentioned. The shield connector according to claim 1.

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