JP2017152310A - connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem that, in a structure of an outer conductor shell of a conventional connector, since a shell mounting part is formed while extending from a sidewall in a flush manner and a portion that is not used as the shell mounting part is removed from the shell, in the case where such a terminal mounting part that multiple terminals included in a terminal group held by a housing are disposed while being laterally arranged in a horizontal direction orthogonal to a fitting direction is provided, a periphery of the terminal mounting part cannot be protected by sufficient covering and high frequency characteristics of the connector may be easily disordered.SOLUTION: The shell mounting part and a protection piece are provided in a sidewall portion protruding in the horizontal direction according to a shape of a terminal protection part protruding outside of the housing, and the protection piece is folded in such a manner that the terminal protection part protruding outsides is rolled in, so that the terminal protection part can be sufficiently protected. A connector is capable of improving a strength around the terminal protection part and reducing influences from the outside upon the high frequency characteristics.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a connector suitable for high-speed transmission of electrical signals. Specifically, it is a conductive outer conductor shell that houses an insulating housing that holds a plurality of terminals provided in a connector, and is configured to reduce disturbances such as impedance matching and obtain desirable high frequency characteristics. It relates to the structure of the outer conductor shell.

  A connector used when transmitting an electrical signal or the like generally includes an insulator that holds a plurality of conductive terminals and an outer conductor shell that houses the insulator. A general board-side connector (receptacle) includes a plurality of shell mounting portions extending from the main body of the outer conductor shell to the board side. The plurality of shell mounting portions are respectively inserted into a plurality of holes formed in the substrate and fixed with solder or the like. For example, a board-side connector described in Japanese Patent Application Laid-Open No. 2004-014350 (Patent Document 1) includes a conductive contact (terminal group), an insulator (insulating housing) that holds the contact, and the insulator. A plurality of shell terminal portions each having a conductive shell to be held and extending from the shell main body are inserted and fixed by, for example, one-to-one press-fitting into a plurality of holes (through holes) formed in the substrate.

JP 2004-014350 A

  In recent years, the capacity of data processing devices mounted on electronic devices such as measuring devices and audio / video (AV) devices has been improved, and vast amounts of data can be processed in electronic devices. Electrical signals are sent and received at high speed via connectors. When transmitting such a high-frequency electrical signal, in order to reduce disturbances such as impedance matching that may occur between a plurality of terminals, and to obtain desirable high-frequency characteristics, an insulating property that holds two terminal groups facing each other In a conventional connector having an outer conductor shell containing a housing, the housing holding a plurality of terminals around the shell mounting portion of the outer conductor shell and the board is covered and protected according to the shape. There is a need.

  However, in order to sufficiently cover and protect the periphery of the mounting portion between the shell mounting portion of the outer conductor shell and the substrate, for example, in a structure like a connector described in Japanese Patent Application Laid-Open No. 2004-014350 (Patent Document 1). Since the shell terminal (shell mounting part) that extends flush from the side wall of the conductive shell (outer conductor shell) is formed and the part that is not used as the shell mounting part is removed from the shell, In the case of a housing shape that has a portion that bulges outside the lateral width of the mating portion, only the shell terminal that is flush with the side wall of the shell covers the portion that bulges outside enough to protect it. Can not do it.

  For example, when a plurality of terminals each having a terminal mounting portion for mounting on a substrate are arranged side by side in a horizontal direction orthogonal to the fitting direction of the connector, the terminal mounting portions are held. Therefore, a portion (terminal holding portion) protruding outward in the horizontal direction is formed on the housing. Since the terminal protection part protrudes outside the lateral width of the mating part with the mating connector, the shell terminal is formed to extend from the side wall of the external conductor shell, as in the conventional connector. If the other portions are removed from the shell, the terminal protection portion protruding outward cannot be covered, and a technical problem that the high frequency characteristics of the connector are likely to be disturbed may occur.

  In order to solve the above-described problems, two terminal groups arranged so as to face each other along the fitting direction of the connector, an insulating housing that holds the terminal groups, and an external housing the housing In a board-side connector comprising a conductor shell, in order to cover the terminal protection part that protrudes outside the housing and holds a plurality of terminals arranged in a horizontal direction orthogonal to the fitting direction, the terminal protection part A terminal projecting outward using a slit or the like in the side wall portion of the outer conductor shell adjacent to, and using one portion as a mounting portion for mounting on a substrate and the other portion as a protective piece A connector that can be sufficiently protected by folding the protective piece so that it encloses the protective part, can increase the strength of the surrounding area, and can reduce the influence on external high-frequency characteristics. To provide.

A connector according to one embodiment of the present invention includes:
An external conductor shell, two terminal groups arranged so as to face each other in the fitting direction of the connector, and an insulating housing that holds the two terminal groups and is accommodated in the external conductor shell A connector,
The plurality of terminals included in the two terminal groups each include a terminal mounting portion, and each of the terminal mounting portions is arranged in a horizontal direction orthogonal to the fitting direction,
The housing includes a terminal protection portion protruding in the horizontal direction that exposes each of the terminal mounting portions arranged side by side in the horizontal direction,
The outer conductor shell includes a shell mounting portion and a protective piece on a side wall portion protruding in the horizontal direction according to the shape of the terminal protection portion,
The protection piece supports a bottom portion of the terminal protection portion protruding in the horizontal direction.

As a preferred embodiment of the connector according to the present invention,
The protective piece is provided on the distal end side of the connector with respect to the shell mounting portion.

As a preferred embodiment of the connector according to the present invention,
The protective piece is provided on the rear end side of the connector with respect to the shell mounting portion.

As a preferred embodiment of the connector according to the present invention,
In the bottom part of the terminal protection part, a part of the plurality of terminals included in the terminal group is held vertically upward from the part in contact with the protection piece,
The said part exists in the position which overlapped with the part which the said protection piece is contacting in the orthogonal | vertical direction.

As a preferred embodiment of the connector according to the present invention,
The protective piece may be a part of the divided portion obtained by dividing the side wall portion protruding in the horizontal direction in accordance with the shape of the terminal protection portion with a slit.

As a preferred embodiment of the connector according to the present invention,
Two or more protective pieces are provided.

As a preferred embodiment of the connector according to the present invention,
Two or more shell mounting portions are provided.

As a preferred embodiment of the connector according to the present invention,
The protective piece is located between the shell mounting portions, or the shell mounting portion is located between the protective pieces.

As a preferred embodiment of the connector according to the present invention,
An end portion of the protection piece that supports a bottom portion of the terminal protection portion is used as a surface mounting portion for mounting on a substrate.

  In the connector according to the present invention, the terminal protection portion of the housing that protrudes outward in the horizontal direction perpendicular to the fitting direction rather than the width of the fitting portion with the mating connector is matched to the shape of the terminal protection portion, A protective piece is provided on the side wall portion protruding in the horizontal direction together with the shell mounting portion, and the portion that bulges outward with the protective piece is bent so that the portion is sufficiently protected, and the strength around the terminal mounting portion is increased. The effect on the high frequency characteristics from the outside can be reduced.

It is a figure which shows the external appearance of a board | substrate side connector and a cable side connector. It is a figure which shows the external appearance of the back where the board | substrate side connector which concerns on one Embodiment of this invention was mounted in the board | substrate. FIG. 3 is a front view, a side view, and a bottom view of the connector shown in FIG. 2. It is a figure which shows the Example different from the Example of the connector shown in FIG. 3 regarding the shell mounting part of the back of a connector. It is the front view and back view of a connector which were displayed by removing the half of the housing accommodated in the external conductor shell. It is the side view and bottom view of the connector which were displayed by removing the half of the housing accommodated in the external conductor shell.

  Embodiments of the present invention will be described below with reference to the drawings. Note that components having the same function are denoted by the same reference symbols throughout the drawings for describing the embodiment, and the repetitive description thereof will be omitted. Moreover, although each embodiment is demonstrated independently, it does not exclude comprising a connector by combining a mutual component.

  FIG. 1 is a diagram illustrating the appearance of a board-side connector and a cable-side connector. The connector fitting direction is the X1-X2 direction (X-axis direction) in the figure. The tip side of the board-side connector 100 is the X2 direction side, and the tip side of the cable-side connector 200 is the X1 direction side. A plane perpendicular to the substrate 300 is an XZ plane, and a plane (parallel plane) to the substrate 300 is an XY plane. The upper and lower sides along the Z-axis direction in the figure are the upper and lower sides of each connector. The above matters are the same in other drawings.

  The board-side connector 100 is a housing 150 molded of an insulating material such as a synthetic resin that holds a plurality of terminals that form the fitting protrusions 104 on the connection side (X2 direction side) with the cable-side connector 200. (Not shown, see FIG. 3C) and the outer conductor shell 106 including the housing 150 therein. The fitting concave portion 102 is a space between the fitting convex portion 104 provided on the fitting side (X2 side) of the outer conductor shell 106 and the inner wall of the outer conductor shell 106. The outer conductor shell 106 includes shell mounting portions 108 a and 108 b for mounting and fixing the outer conductor shell 106 to the substrate 300. The shell mounting portions 108a and 108b are dip terminals that are inserted into holes provided in the substrate 300 and soldered, but may be terminals that can be mounted on the surface of the substrate. The shell mounting portion 108a is provided on the side wall on the distal end side (X2 side) of the connector 100 with respect to the shell mounting portion 108b.

  Further, the outer conductor shell 106 includes a lock hole 110 that engages with the lock protrusion 206 of the connector 200 on the cable side. The lock hole 110 is provided at a position where it can engage with the lock projection 206 of the connector 200 on the cable side. In FIG. 1, the lock holes 110 are provided on the upper and lower (upper and lower sides in the Z-axis direction) side walls of the outer conductor shell 106 of the connector 100. The lock hole 110 may not necessarily be a hole penetrating the outer conductor shell as long as it can be engaged with the lock protrusion 206. As another embodiment, a lock protrusion may be provided in the outer conductor shell of the connector on the board side, and a lock hole may be provided in the outer conductor shell of the connector on the cable side.

  The cable-side connector 200 has a fitting portion 202 on the connection side (X1 direction side) to the board-side connector 100, an external conductor shell 204 in which a housing holding a plurality of terminals is housed, and an external conductor The lock operation button 208 interlocks with the lock protrusion 206 protruding from the hole of the shell 204, and the cover member 210 that covers the connection portion between the outer conductor shell 204 and the cable 400.

  The fitting portion 202 is inserted into the fitting recess 102 when connected to the board-side connector 100. The outer conductor shell 204 has a hole in the side wall for projecting the lock projection 206 from the inside. The lock protrusion 206 is provided at a position where it can engage with the lock hole 110 of the connector 100 on the board side. In FIG. 1, the lock protrusion 206 is provided on the upper and lower (upper and lower sides in the Z-axis direction) side walls of the outer conductor shell 204 of the connector 200. The lock protrusion 206 may have any structure as long as it can engage with the lock hole 110.

  The lock protrusion 206 is connected to the lock operation button 208 inside the outer conductor shell 204, and the lock protrusion 206 is pushed in in conjunction with the depression of the lock operation button 208. When the lock operation button 208 is pushed in when connected to the board-side connector 100, the lock projection 206 is removed from the lock hole 110, and the cable-side connector 200 can be pulled out of the board-side connector 100.

  FIG. 2 shows a rear appearance of a board-side connector (hereinafter simply referred to as “connector”) according to an embodiment of the present invention mounted on the board. FIG. 2 is a perspective view of the connector 100 as viewed from the rear (X1 side) obliquely. The housing 150 (see FIG. 3C) accommodated in the outer conductor shell 106 holds two terminal groups arranged so as to face each other in the fitting direction of the connector 100, and is forward of the fitting direction. A fitting recess 102 (see FIG. 1) is formed on the (X2 side). In the embodiment shown in FIG. 2, one terminal group is composed of two terminal pairs including four terminals.

  The housing 150 can be integrally formed with two terminal groups arranged facing each other along the fitting direction, and can cover at least a part of the plurality of terminals. The plurality of terminals are exposed from the terminal protection portion 156 (see FIGS. 3A and 3B) of the housing 150 behind the external conductor shell 106 (X1 side), and the terminal mounting portions provided on the exposed terminals. 132 is soldered and fixed onto the surface of the substrate 300. The terminal mounting part 132 is provided in each terminal included in the terminal group, and constitutes a group of terminal mounting parts 132 for each terminal group. Each terminal mounting portion 132 is surface-mounted on the substrate 300, but may be configured as a dip terminal so as to be mounted by being inserted into a hole provided in the substrate.

  The ground terminal 114 is formed integrally with the outer conductor shell, is provided on the rear end side of the outer conductor shell along the rear wall portion 112 (X1 side wall) of the housing 150, and also serves as a shell mounting portion. And is mounted on the substrate 300 through the space between the two terminal groups exposed from the terminal protection portion 156 (see FIGS. 3A and 3B) of the housing 150. Specifically, the ground terminal 114 includes a group of terminal mounting portions 132a included in one of the two terminal groups held in the housing 150 accommodated in the outer conductor shell 106, and the other terminal group. Are inserted into holes in the substrate 300 between the group of terminal mounting portions 132b and fixed to the substrate 300 by soldering or the like.

  As shown in FIG. 2, the ground terminal 114 provided on the rear end side of the outer conductor shell 106 serves as a ground electrode for a plurality of terminals included in the two terminal groups, and thus transmits a signal. Even without providing a ground terminal between each of the plurality of terminals, it is possible to maintain the high-frequency characteristics necessary for high-speed transmission of electrical signals. As a result, the number of terminals included in the connector can be reduced, and by reducing the number of terminals (ie, the number of parts), the internal structure of the connector is simplified and the impedance matching can be easily adjusted. Can be.

  FIG. 3 is a diagram showing the appearance of the front, side, and bottom of the connector shown in FIG. 3 (a) is a front view of the connector 100 as viewed from the distal end side (X2 side), and FIG. 3 (b) is a side view of the connector 100 as viewed from the side surface (Y-axis direction). ) Is a bottom view of the connector 100 as viewed from below (downward in the Z-axis direction).

  As shown in FIG. 3A, the housing 150 (see FIG. 3C) accommodated in the outer conductor shell 106 has two terminals arranged so as to face each other along the fitting direction of the connector 100. Holding the group, a fitting recess 102 (see FIG. 1) is formed in the front (X2 side) in the fitting direction. The housing 150 can hold a terminal group including a plurality of terminals, and each of the plurality of terminals includes a contact portion 130 on the distal end side (X2 side) for making contact with the terminal of the mating connector. 130 is exposed from the fitting convex portion 104 of the housing 150. Each of the plurality of terminals includes a terminal mounting portion 132 on the rear end side (X1 side) for mounting on the substrate 300. In the embodiment shown in FIG. 3, one terminal group is composed of two terminal pairs including four terminals.

  As shown in FIG. 3 (b) or (c), the plurality of terminals included in one terminal group held by the housing 150 have their respective contact portions 130 perpendicular to the substrate 300 (Z-axis direction). ), And the terminal mounting portions 132a are bent so as to be arranged in the horizontal direction (Y-axis direction) with respect to the substrate 300, respectively. In the one terminal group and the other terminal group held by the fitting convex portion 104 of the housing 150, the contact portions 130 of the respective terminals are arranged with a half-pitch shift in the arrangement direction (Z-axis direction).

  The outer conductor shell 106 is connected to the terminal protection portion 156 of the housing 150 on the side opposite to the ground terminal 114 side (the side of the connector 100) mounted between the group of terminal mounting portions 132a and 132b. A shell mounting portion 108b and a protective piece 158 are provided on a protruding side wall 152 that is a side wall portion protruding in a horizontal direction (Y direction) orthogonal to the fitting direction. The two groups of terminal mounting portions 132a and 132b are respectively disposed between the ground terminal 114 and the shell mounting portion 108b provided on the side wall on the rear end side (X1 side) of the connector 100.

  The rear portion of the housing 150 exposing the terminal mounting portions 132a and 132b includes a terminal protection portion 156 that protrudes (or swells) outward in the horizontal direction (Y direction) perpendicular to the fitting direction of the connector. The terminal protection part 156 is bent in the horizontal direction (Y-axis direction) of the plurality of terminals, protects the part arranged side by side, and exposes the terminal mounting part 132 from the rear side (X1 side).

  Since the outer conductor shell 106 is formed in accordance with the shape of the terminal protection portion 156 that protrudes outside the lateral width of the fitting portion (fitting recess 102) with the mating connector, it is shown in FIG. As described above, the shell mounting portion 108b provided on the rear end side (X1 side) of the outer conductor shell 106 is more orthogonal to the fitting direction than the shell mounting portion 108a provided on the front end side (X2 side) ( (Y direction) provided on the projecting side wall 152 projecting outside the outer conductor shell 106.

  As shown in FIG. 3 (b), the engagement protrusions 120 provided on both side surfaces of the outer conductor shell 106 are provided on the plate-like portions extending from both side edges of the rear wall portion 112. The housing 150 accommodated in the outer conductor shell 106 is fixed by entering the hole 122 and fixing the rear wall portion 112. Further, the projecting edge 154 of the housing 150 is fixed by being sandwiched between the edge on the rear side (X1 side) of the outer conductor shell 106 and the edge of the rear wall 112.

  The bent piece 124 is provided at the edge of the fitting recess 102 of the connector 100 (that is, the fitting port with the mating connector), and the fitting portion of the external conductor shell 106 of the connector 100 and the mating connector (connector 200). This is a structure for preventing 202 from being fitted in the wrong direction. In the embodiment shown in FIG. 3A, the bent piece 124 extends from the edge of the long side (side wall extending in the Z-axis direction) of the fitting recess 102 of the outer conductor shell 106 and is bent inward. The tip of 124 reaches the edge of the short side (side wall extending in the Y-axis direction) of the fitting recess 102.

  A support protrusion 126 can be provided on the back side (X1 side) of the bent piece 124 as shown in FIG. The support protrusion 126 can support the bent piece 124 from the back side (X1 side) when the bent piece 124 is pushed into the mating connector. The bent piece 124 and the support protrusion 126 are provided at the lower left edge of the fitting recess 102. However, the bent piece 124 and the support protrusion 126 are not limited to this position. If the erroneous fitting with the mating connector can be prevented, the fitting recess 102 is provided. Any position on the edge of

  Further, as shown in FIG. 3C, the outer conductor shell 106 is a protective piece 158 provided on a protruding side wall 152 protruding in a horizontal direction (Y-axis direction) orthogonal to the connector fitting direction. The terminal group held by the terminal protection part 156 of the housing 150 can be protected by bending the terminal protection part 156 so as to be wound.

  In the embodiment shown in FIG. 3, the outer conductor shell 106 is provided with a shell mounting portion 108 b and a protection piece 158 on a protruding side wall 152 protruding in the horizontal direction (Y-axis direction) in accordance with the shape of the terminal protection portion 156. The protective piece 158 is provided on the distal end side (X2 side) of the shell mounting portion 108a, but is not limited to this arrangement, and the positions of the protective piece 158 and the shell mounting portion 108b are switched. Thus, the shell mounting portion 108b may be provided on the distal end side (X2 side) with respect to the protection piece 158.

  The protective piece 158 has a plurality of slits in the vertical direction (Z-axis direction) formed in the protruding side wall 152 of the outer conductor shell 106 that protrudes in the horizontal direction (Y direction) in accordance with the shape of the terminal protective portion 156. The side wall 152 can be divided to use a part of the divided protruding side wall 152, and the remaining part can be used as the shell mounting portion 108b. In the embodiment shown in FIG. 3, one slit is formed in the protruding side wall 152 of the outer conductor shell 106 protruding in the horizontal direction (Y direction), and the protruding side wall 152 is formed by two parts, that is, the shell mounting portion 108 b and the protective piece 158. The protection piece 158 is bent along the shape of the terminal protection part 156 separately.

  In the embodiment shown in FIG. 3, one protective piece 158 and one shell mounting portion 108 b are provided on the side surface portion of the outer conductor shell 106 protruding in the horizontal direction (Y direction), but the number is limited to one. Instead, two or more protective pieces 158 may be provided, two or more shell mounting portions 108b may be provided, and two or more protective pieces 158 and two shell mounting portions 108b may be provided. When two or more protective pieces 158 are provided, the shell mounting portion 108b may be disposed between them, and when two or more shell mounting portions 108b are provided, the protective piece 158 is provided between them. You may arrange.

  The end portion of the protection piece 158 supports the bottom portion of the terminal protection portion 156 (or the housing 150), but can also be used as a surface mounting portion for surface mounting the end portion on the substrate 300.

  FIG. 4 shows an embodiment different from the embodiment of the connector shown in FIG. 3 with respect to the shell mounting portion behind the connector. In the embodiment shown in FIG. 3, the shell mounting portion 108 b is a dip terminal that is inserted into a hole provided in the substrate 300 and soldered, but is not limited thereto, and the surface mounting is performed on the substrate 300. As a surface mounting portion for the purpose, the shell mounting portion 108c bent outward (see FIG. 4A) or the shell mounting portion 108d bent inward (bottom side of the housing 150) (FIG. 4B) Reference).

  FIG. 5 shows the front and back of the connector shown with the half of the housing housed in the outer conductor shell removed, and FIG. 6 shows the side of the connector shown with the half of the housing housed in the outer conductor shell removed. The bottom is shown. As shown in FIG. 5, the contact portion 130 at the tip of a plurality of terminals (four terminals in the embodiment shown in FIG. 5) included in one terminal group is an XZ plane, and the connector is fitted. Along the direction (in the X-axis direction), they are arranged in the vertical direction (Z-axis direction) at regular intervals.

  5 and 6, one terminal group is composed of two terminal pairs including four terminals. The terminal group includes a first bent portion formed by bending a terminal pair extending rearward (X1 side) along the connector fitting direction from the front end to the rear end in the board direction (below the Z axis); A terminal pair extending in the board direction extends in a direction perpendicular to the connector (Y-axis direction) and a second bent portion that is bent outside the connector in a direction orthogonal to the connector fitting direction (Y-axis direction). A third bent portion is provided in this order by bending the terminal pair to the rear side (X1 side) along the fitting direction of the connector. The terminal pair (or a plurality of terminals) constituting the terminal group is bent at the first to third bent portions while maintaining a certain distance from each other, so that the same plane (for example, XZ plane, XY plane) ) In the above arrangement, the change in the interval between the plurality of terminals can be reduced, and the deterioration of the high-frequency characteristics caused by the impedance matching disturbance or the like can be suppressed.

  The terminal mounting portions 132a and 132b are arranged in the vertical direction (Z-axis direction) by changing the extending direction of the plurality of terminals included in the terminal group by the first to third bent portions as described above. The orientation of the fitting portion of the outer conductor shell 106 is changed by 90 degrees with respect to the contact portion 130, and the horizontal direction (Y axis) is larger than the lateral width of the fitting portion of the outer conductor shell 106 (that is, the width from one outer wall to the other outer wall of the fitting recess 102). Direction) are arranged so as to protrude outward.

  As shown in FIG. 6 (b), referring to the portion displayed with the housing 150 removed, a part of the plurality of terminals 134 included in the terminal group is, as viewed from the vertical direction (Z-axis direction), the terminal protection portion 156. It overlaps with the part which the protection piece 158 contacts in the bottom part. That is, a part of the plurality of terminals 134 included in the terminal group is held by the terminal protection unit 156 in the vertical direction (Z-axis direction) upward from the portion where the protection piece 158 contacts at the bottom of the terminal protection unit 156. Yes.

  As described above, the outer conductor shell 106 is held in the horizontal direction (Y-axis direction) so as to surround at least a part of the plurality of terminals held by the terminal protection part 158 where the terminal mounting part 132 (132a, 132b) is exposed. By providing the protective piece 158 and the shell mounting portion 108b on the protruding side wall 152 that is the protruding side wall portion, the portion is sufficiently protected, the strength around the terminal mounting portion 132 is increased, and high frequency characteristics from the outside are improved. The influence can be reduced.

  The connector according to the present invention can be used when connecting devices with cables in order to transmit high-frequency electrical signals by electronic devices such as measuring devices that handle high-frequency signals.

100 connector 102 fitting recess 104, 104a, 104b fitting projection 106 outer conductor shell 108a, 108b, 108c, 108d shell mounting portion 110 lock hole 112 rear wall portion 114 ground terminal (shell mounting portion)
120 engagement protrusion 122 engagement hole 124 bent piece 126 support protrusion 130 contact portion 132, 132a, 132b terminal mounting portion 134 terminal 150 housing 152 protrusion side wall 154 protrusion edge 156 terminal protection portion 158 protection piece 200 connector 202 fitting Joint portion 204 External conductor shell 206 Lock projection 208 Lock operation button 210 Cover member 300 Board 400 Cable

Claims (9)

An external conductor shell, two terminal groups arranged so as to face each other in the fitting direction of the connector, and an insulating housing that holds the two terminal groups and is accommodated in the external conductor shell A connector,
The plurality of terminals included in the two terminal groups each include a terminal mounting portion, and each of the terminal mounting portions is arranged in a horizontal direction orthogonal to the fitting direction,
The housing includes a terminal protection portion protruding in the horizontal direction that exposes each of the terminal mounting portions arranged side by side in the horizontal direction,
The outer conductor shell includes a shell mounting portion and a protective piece on a protruding side wall protruding in the horizontal direction in accordance with the shape of the terminal protection portion,
The said protection piece supported the bottom part of the said terminal protection part protruded in the said horizontal direction, The connector characterized by the above-mentioned.   The connector according to claim 1, wherein the protective piece is provided on a distal end side of the connector with respect to the shell mounting portion.   The connector according to claim 1, wherein the protective piece is provided on a rear end side of the connector with respect to the shell mounting portion. In the bottom part of the terminal protection part, a part of the plurality of terminals included in the terminal group is held vertically upward from the part in contact with the protection piece,
4. The connector according to claim 1, wherein the part is located at a position overlapping with a part in contact with the protective piece in a vertical direction. 5.   2. The protective piece according to claim 1, wherein the protective piece is a part of the divided portion obtained by dividing the protruding side wall protruding in the horizontal direction in accordance with the shape of the terminal protective portion with a slit. The connector according to any one of 1 to 4.   The connector according to any one of claims 1 to 5, wherein two or more protective pieces are provided.   The connector according to claim 1, wherein two or more shell mounting portions are provided.   The connector according to claim 6 or 7, wherein the protective piece is between the shell mounting portions, or the shell mounting portion is between the protective pieces.   The connector is characterized in that an end portion of the protection piece supporting the bottom portion of the terminal protection portion is used as a surface mounting portion for mounting on a substrate.

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