JP2018116825A - connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connector capable of more surely preventing a contact from being brought into contact with a wiring pattern on a circuit board.SOLUTION: A contact 300 comprises a pressed-on part 308, a first held part 304, a second held part 312 and a coupling part 306. The pressed-on part 308 and the first held part 304 are separated in a horizontal direction. The coupling part 306 couples the pressed-on part 308 and the first held part 304 and is partially positioned at a lower side of the pressed-on part 308. First and second holding parts 112 and 224 of a stationary housing 100 hold the first and second held parts 304 and 312 of the contact 300, respectively. A receiving plane 226 of a movable housing 200 is positioned right under the pressed-on part 308. An insulation part 228 is positioned at a lower side of the receiving plane 226 and extends closer to the first held part 112 in the horizontal direction in relative to the receiving plane 226. In a case where a connector 10 is viewed from a lower side, the insulation part 228 partially hides the coupling part 306.SELECTED DRAWING: Figure 14

Description

  The present invention relates to a connector, and more particularly to a connector having a so-called floating structure.

  Patent Document 1 and Patent Document 2 disclose so-called floating structure connectors, respectively.

  Referring to FIG. 25, the receptacle connector 80 disclosed in Patent Document 1 includes a fixed housing 810, a movable housing 820, and a plurality of contacts 830. Each contact 830 includes a first press-fit locking portion 832, a second press-fit locking portion 834, a lead portion 836, a contact portion 838, and a flexible portion 840. The first press-fit locking portion 832 is held by the fixed housing 810, and the second press-fit locking portion 834 is held by the movable housing 820. The flexible portion 840 can be elastically deformed in the left-right direction. When the flexible portion 840 is elastically deformed, the movable housing 820 can move relative to the fixed housing 810 in the left-right direction. Thereby, even if the center of the plug connector (not shown) does not coincide with the center of the receptacle connector 80 in the left-right direction, the plug connector can be fitted to the receptacle connector 80.

  Referring to FIG. 26, the connector 90 disclosed in Patent Document 2 has a retaining portion 912 that prevents the movable housing 910 from being detached from the fixed housing 920. The retaining portion 912 is located between the third extending portion 932 of the plug terminal 930 and the board 95 on which the connector 90 is mounted.

JP 2007-220327 A Japanese Patent No. 5993475

  When the receptacle connector 80 of Patent Document 1 is mounted on a circuit board, the lower end of the second press-fit locking portion 834 of the contact 830 and the boundary portion between the second press-fit locking portion 834 and the flexible portion 840 face the circuit board. . In the receptacle connector 80 having such a structure, for example, when an unintended force is applied to the movable housing 820, a part of the contact 830 may come into contact with the circuit board. In order to avoid such a short circuit due to the contact of the contact 830, a wiring pattern cannot be formed in a region immediately below the contact 830 on the circuit board.

  On the other hand, the connector 90 described in Patent Document 2 has a retaining portion 912 between the plug terminal 930 and the substrate 95 when mounted on the substrate 95. Therefore, it is possible to form a wiring pattern in a region immediately below the plug terminal 930 of the substrate 95.

  An object of the present invention is to provide a connector that is mounted on a circuit board and that can more reliably prevent contacts from contacting a wiring pattern on the circuit board than the connector disclosed in Patent Document 2.

The present invention is a connector comprising a fixed housing, a movable housing, and a plurality of contacts as a first connector,
Each of the contacts has a pressed part, a first held part, a second held part, and a connecting part,
The pressed portion and the first held portion are separated in the horizontal direction,
The connecting portion connects the pressed portion and the first held portion,
The connecting portion has at least partially springiness,
The connecting portion is partially located below the pressed portion in the vertical direction perpendicular to the horizontal direction,
The fixed housing has a plurality of first holding portions,
The first holding portion corresponds to each of the contacts,
Each of the first holding portions holds the first held portion of the corresponding contact,
The movable housing has a plurality of second holding portions, an insulating portion, and a receiving surface,
The second holding portions correspond to the contacts, respectively.
Each of the second holding portions holds the second held portion of the corresponding contact,
The receiving surface is located immediately below the pressed portion in the vertical direction,
The insulating portion is positioned below the receiving surface and away from the receiving surface in the vertical direction,
The insulating portion extends in the horizontal direction toward the first held portion as compared to the receiving surface.
When the connector is viewed from below, the insulating portion provides a connector that at least partially hides the connecting portion.

Moreover, this invention is a 1st connector as a 2nd connector,
The connecting portion has a lowermost end portion located on the lowermost side of the connecting portion in the vertical direction,
The insulating portion is located below the lowermost end in the vertical direction, and provides a connector that at least hides the lowermost end when the connector is viewed from the lower side.

Moreover, this invention is a 2nd connector as a 3rd connector,
The pressed portion has an end in the horizontal direction,
The connecting portion has a vertical portion,
The vertical portion extends from the end portion of the pressed portion to the lowest end portion along the vertical direction,
The second held portion provides a connector that is a part of the vertical portion.

Moreover, this invention is a 1st or 2nd connector as a 4th connector,
The second held portion provides a connector that is a part of the connecting portion.

Further, the present invention is any one of the first to fourth connectors as the fifth connector,
Each of the first holding portions is a first groove extending in the vertical direction,
The first groove is open at least at its upper end;
The first held portion is formed with a first press-fit protrusion that protrudes in a pitch direction perpendicular to both the horizontal direction and the vertical direction.
The first press-fit protrusions bite into the corresponding wall of the first groove in the pitch direction;
Each of the second holding portions is a second groove extending in the vertical direction,
The second groove is open at least at its upper end;
The second held portion is formed with a second press-fit protrusion protruding in the pitch direction,
The second press-fitting protrusion provides a connector that bites into a corresponding wall of the second groove in the pitch direction.

Further, the present invention is any one of the first to fifth connectors as the sixth connector,
The fixed housing has a main body and a cover,
The first holding part is provided in the main body,
The cover is attached to the body;
The said cover provides the connector which comprises the accommodating part which accommodates the said connection part partially.

Moreover, this invention is a 6th connector as a 7th connector,
The cover is provided with a protective part that partially defines the housing part,
The protection part provides a connector positioned between the housing part and the movable housing in the horizontal direction when viewed along the vertical direction.

Further, the present invention is any one of the first to seventh connectors as the eighth connector,
The fixed housing has a first burr,
The movable housing has a second burr,
The first burr and the second burr provide a connector facing each other in the horizontal direction.

Furthermore, the present invention is an eighth connector as the ninth connector,
The fixed housing is provided with a first recess recessed in the horizontal direction,
The first burr is located in the first recess;
The movable housing is provided with a second recess recessed in the horizontal direction,
The second burr provides a connector located in the second recess.

Furthermore, the present invention is the first to ninth connectors as the tenth connector,
The said to-be-pressed part provides the connector located in a line on the single surface.

  In the case of the connector of Patent Document 2, the retaining portion may be damaged when the plug terminal is press-fitted. On the other hand, in the present invention, the receiving surface to which force is applied during press-fitting and the insulating portion are separated. For this reason, it is possible to make the insulating portion thinner while increasing the thickness of the portion immediately below the receiving surface. If the insulating portion is made thinner, the contact connecting portion can be lengthened accordingly, and the spring property of the connecting portion can be increased. As described above, according to the present invention, it is possible to reliably prevent the contact from coming into contact with the wiring pattern on the circuit board and to ensure high spring property of the contact.

It is a perspective view which shows the connector by one embodiment of this invention. It is a disassembled perspective view which shows the connector of FIG. However, the fixed housing main body and the movable housing are in the middle of manufacture and are connected to each other by connection. FIG. 3 is a plan view showing a fixed housing body and a movable housing included in the connector of FIG. 2. It is a bottom view which shows the fixed housing main body and movable housing of FIG. FIG. 4 is a perspective sectional view showing a part of the fixed housing main body and the movable housing of FIG. 3. It is another perspective sectional view which shows a part of fixed housing main body and movable housing of FIG. It is a top view which shows the fixed housing main body and movable housing which are contained in the connector of FIG. The fixed housing body and the movable housing are separated from each other. It is a disassembled perspective view which shows the fixed housing main body and movable housing of FIG. It is a perspective view which shows the contact contained in the connector of FIG. FIG. 2 is a perspective sectional view showing a cover included in the connector of FIG. 1. It is a perspective view which shows the reinforcement member contained in the connector of FIG. It is a perspective view which shows the state in which the contact was attached to the stationary housing main body and movable housing which are contained in the connector of FIG. It is a side view which shows the connector of FIG. In the horizontal direction, the center of the movable housing coincides with the center of the stationary housing body. It is AA sectional view taken on the line which shows the connector of FIG. It is a BB sectional view showing the connector of Drawing 13. It is another side view which shows the connector of FIG. In the horizontal direction, the center of the movable housing does not coincide with the center of the fixed housing. It is CC sectional view taken on the line which shows the connector of FIG. FIG. 17 is a cross-sectional view taken along line DD showing the connector of FIG. 16. It is a perspective view which shows the connector assembly which consists of a connector and the other party connector of FIG. The connector and the mating connector are not yet fitted together. FIG. 20 is another perspective view showing the connector assembly of FIG. 19. The connector and the mating connector are fitted to each other. In the horizontal direction, the center of the mating connector coincides with the center of the fixed housing. It is the EE sectional view taken on the line which shows the connector assembly of FIG. FIG. 20 is still another perspective view showing the connector assembly of FIG. 19. The connector and the mating connector are fitted to each other. In the horizontal direction, the center of the mating connector does not coincide with the center of the fixed housing. FIG. 23 is a cross-sectional view of the connector assembly of FIG. 22 taken along the line FF. It is a perspective view which shows the connector by other embodiment of this invention. It is a perspective sectional view showing the connector indicated in patent documents 1. It is sectional drawing which shows the connector described in patent document 2.

  Referring to FIGS. 1 and 2, a connector 10 according to an embodiment of the present invention includes a fixed housing body (main body) 100, a movable housing 200, and a plurality of contacts 300. The connector 10 includes a cover 400 and four reinforcing members 500. In the present embodiment, the fixed housing body 100 and the cover 400 are combined with each other to form a fixed housing. In other words, the fixed housing has the fixed housing main body 100 and the cover 400.

  As shown in FIGS. 3 to 6, the fixed housing main body 100 and the movable housing 200 are connected to each other by a joint 600 at the beginning of molding. In other words, the fixed housing body 100 and the movable housing 200 are integrally formed. Specifically, the fixed housing main body 100 and the movable housing 200 are integrally formed using an insulating resin. The connection 600 is cut or removed during the manufacturing process of the connector 10 as will be described later. As shown in FIGS. 7 and 8, the fixed housing body 100 and the movable housing 200 are separated from each other by cutting or removing the joint 600.

  As shown in FIGS. 7 and 8, the fixed housing main body 100 has a substantially rectangular frame shape. Specifically, the fixed housing main body 100 has a pair of crosspieces 110 and a pair of connection parts 120. The crosspieces 110 extend in the pitch direction and are spaced apart from each other in the horizontal direction. The connection part 120 has an angular C-shape when viewed along the vertical direction, and connects the ends of the crosspiece part 110. In the present embodiment, the pitch direction is the X direction, the horizontal direction is the Y direction, and the vertical direction is the Z direction. Therefore, the vertical direction is orthogonal to the horizontal direction, and the pitch direction is orthogonal to both the horizontal direction and the vertical direction.

  As shown in FIGS. 3 to 8, the fixed housing main body 100 includes a plurality of first contact holding portions (first holding portions) 112. Specifically, each of the crosspieces 110 of the fixed housing body 100 is provided with a plurality of first contact holding parts 112. The first contact holding portions 112 correspond to the contacts 300, respectively. The first contact holding portions 112 are provided on the outer side in the horizontal direction of the crosspiece 110, and are arranged at predetermined intervals along the pitch direction. The first contact holding portions 112 are grooves (first grooves) that are recessed inward in the horizontal direction and extend in the vertical direction. Each first contact holding portion 112 is defined by a pair of side walls 114. The first contact holding portion 112 opens upward at least at the upper end thereof. In the present embodiment, the upper and lower ends open upward and downward, respectively. However, the present invention is not limited to this, and the lower end of the first contact holding part 112 may be closed.

  3 to 8, each of the connection portions 120 of the fixed housing main body 100 has a pair of cover fixing portions 122 and a pair of reinforcing member fixing portions 124 on the outer side in the horizontal direction. As can be understood from FIGS. 5 and 8, the cover fixing portion 122 is a protrusion protruding outward in the horizontal direction. Further, the reinforcing member fixing portion 124 is a groove that is recessed inward in the horizontal direction and extends along the upward direction.

  As shown in FIGS. 3 to 8, the movable housing 200 includes a plug portion 210 and a pair of guide portions 250 disposed at both ends of the plug portion 210 in the pitch direction. As understood from FIGS. 5 and 6, the plug part 210 includes a base part 220 and a wall part 230 protruding upward from the base part 220. In the horizontal direction, the size of the base portion 220 is larger than the size of the plug portion 210. As shown in FIGS. 3 and 5 to 8, a plurality of contact receiving grooves 232 are formed at predetermined intervals on each of the two surfaces of the wall portion 230. The contact receiving grooves 232 correspond to the contacts 300, respectively. Each of the contact receiving grooves 232 is a groove that is recessed inward in the horizontal direction, extends along the vertical direction, and opens upward. A plurality of contact receiving portions 222 and a plurality of second contact holding portions (second holding portions) 224 are formed on the base portion 220. The contact receiving portions 222 correspond to the contact receiving grooves 232, respectively. Further, the contact receiving portion 222 corresponds to the second contact holding portion 224, respectively. Therefore, the contact receiving portion 222 and the second contact holding portion 224 also correspond to the contact 300, respectively. Each of the contact receiving portions 222 is a groove that is recessed downward and extends along the horizontal direction. One end of the contact receiving portion 222 continues to the corresponding contact receiving groove 232. The other end of the contact receiving portion 222 is open outward in the horizontal direction. The bottom surface 226 of the contact receiving portion 222 functions as a receiving surface that receives the pressed portion 308 of the contact 300 as will be described later. The second contact holding portion 224 is a groove (second groove) that is recessed inward in the horizontal direction and extends in the vertical direction. The second contact holding part 224 is open at least at the upper end thereof. In the present embodiment, the second contact holding portion 224 is open at the upper end, and the lower end is closed by the insulating portion 228. Each second contact holding portion 224 continues to the corresponding contact receiving portion 222. As described above, the movable housing 200 in the present embodiment has the plurality of second contact holding portions 224, the insulating portion 228, and the receiving surface (bottom surface 226). In the vertical direction, the thickness of the base portion 220 at a position corresponding to the bottom surface 226 is larger than the thickness of the insulating portion 228. As understood from FIG. 14, in the present embodiment, the thickness of the base portion 220 at a position corresponding to the bottom surface 226 is four times or more the thickness of the insulating portion 228.

  As understood from FIGS. 5, 7, and 8, the guide part 250 is formed integrally with the base part 220 and partially surrounds the plug part 210. Between the guide part 250 and the plug part 210, the accommodating part 252 which accommodates the other party connector 20 (refer FIG. 19) partially is formed. A tapered portion 254 that guides the mating connector 20 is formed on a part of the upper end portion of the guide portion 250. Further, a stopper receiving portion 256 is formed on the other part of the upper end portion of the guide portion 250.

  As can be understood from FIG. 2, the plurality of contacts 300 are arranged in two rows at predetermined intervals along the X direction. One row of contacts 300 and the other row of contacts 300 are arranged in mirror symmetry with respect to the XZ plane. All the contacts 300 have the same shape. Referring to FIG. 9, each contact 300 includes a connected portion 302, a first held portion 304, a connecting portion 306, a pressed portion 308, and a contacted portion 310. In the present embodiment, the connecting portion 306 has an additional pressed portion 314, a spring portion 316, and a vertical portion 318. In the present embodiment, a part of the vertical portion 318 constitutes a second held portion 312. In other words, the contact 300 has the second held portion 312 formed as a part of the vertical portion 318. However, the present invention is not limited to this. The second held portion 312 may be formed as a part of the contacted portion 310. Further, the contact 300 may have an inclined portion instead of the vertical portion 318. In that case, the second held portion 312 may be formed as a part of the inclined portion or the connecting portion 306, or may be formed as a part of the contacted portion 310.

  The contact 300 can be obtained by punching and bending a metal plate. As shown in FIG. 9, the connected portion 302, the first held portion 304, the connecting portion 306, the pressed portion 308, and the contacted portion 310 are continuous in this order. Specifically, the connected portion 302 extends from one end to the other end inward in the horizontal direction. The first held portion 304 extends upward from the other end of the connected portion 302. The first held portion 304 is formed with a pair of first press-fit protrusions 320 that protrude outward in the pitch direction. One end of the connecting portion 306, that is, one end of the additional pressed portion 314 is continuous with the upper end of the first held portion 304. The additional pressed portion 314 extends from one end to the other end inward in the horizontal direction. One end of the spring portion 316 is continuous with the other end of the additional pressed portion 314. The spring portion 316 extends upward from one end thereof, and then extends downward and inward in the horizontal direction toward the other end. One end of the vertical portion 318 is continuous with the other end of the spring portion 316. The vertical portion 318 extends upward from one end to the other end. In other words, the vertical portion 318 extends upward from the other end of the spring portion 316. The vertical portion 318 is formed with a pair of second press-fitting protrusions 322 that protrude outward in the pitch direction. Due to the presence of the second press-fit projection 322, a part of the vertical portion 318 functions as the second held portion 312. One end (end portion) of the pressed portion 308 is continuous with the upper end of the vertical portion 318. The pressed portion 308 extends inward in the horizontal direction from one end to the other end. The contacted portion 310 extends upward from the other end of the pressed portion 308, that is, the other end of the connecting portion 306. In this configuration, the first held portion 304 and the pressed portion 308 are separated from each other in the horizontal direction. The connecting portion 306 connects the first held portion 304 and the pressed portion 308. The connecting portion 306 includes a spring portion 316 and has at least a part of spring property. As shown in FIG. 14, the connecting portion 306 is partially located below the pressed portion 308 in the vertical direction. Specifically, the vertical portion 318 and a part of the spring portion 316 are located below the pressed portion 308 in the vertical direction. The connecting portion 306 has a lowermost end portion 324 positioned at the lowest side in the vertical direction, and the vertical portion 318 extends along the vertical direction from one end of the pressed portion 308 to the lowermost end portion 324. .

  2 and 10, the cover 400 has a substantially rectangular frame shape. Specifically, the cover 400 has a pair of crosspieces 410 and a pair of connection parts 430. The cover 400 is made of an insulating resin. The raw material of the cover 400 and the raw material of the fixed housing body 100 may be the same or different. The cover 400 is attached to the fixed housing body 100. As shown in FIG. 10, a fixed portion 412 is formed on the cover 400. The fixed portion 412 is a protrusion that is formed near both ends in the longitudinal direction of the crosspiece 410 and protrudes inward in the horizontal direction. The fixed portion 412 engages with the cover fixing portion 122 (see FIG. 2) of the fixed housing main body 100 when the cover 400 is attached to the fixed housing main body 100, and the cover 400 is removed from the fixed housing main body 100. To prevent. As understood from FIGS. 2 and 10, the cover 400 constitutes an accommodating portion 420 that partially accommodates the contact 300 when attached to the fixed housing body 100. Specifically, the crosspiece portion 410 of the cover 400 includes a long wall 422, a short wall 424, and an upper wall 426 that define at least a part of the accommodating portion 420. Further, as shown in FIGS. 2 and 10, a protective portion 428 that partially defines the accommodating portion 420 is provided at the inner end in the horizontal direction of the upper wall 426. In addition, the connection portion 430 is provided with a stopper 432 that protrudes downward in the vertical direction.

  As understood from FIG. 11, the reinforcing member 500 has an L-shape when viewed along the pitch direction. The reinforcing member 500 can be obtained by punching and bending a metal plate. The reinforcing member 500 has a pair of third press-fit protrusions 502 that protrude outward in the pitch direction. The reinforcing member 500 is provided with a screw hole 504. As shown in FIG. 12, the reinforcing member 500 is partially inserted into the reinforcing member fixing portion 124 (see FIG. 8) of the fixed housing main body 100 and held by the fixed housing main body 100. The reinforcing member 500 is screwed to the circuit board when the fixed housing body 100 is mounted on the circuit board (not shown).

  Next, the assembly process of the connector 10 will be described. As described above, the fixed housing body 100 and the movable housing 200 are initially formed integrally. The contact 300 is attached to both the fixed housing body 100 and the movable housing 200 at the same time. In other words, the attachment of the contact 300 to the fixed housing body 100 and the movable housing 200 is completed in one step. Specifically, as can be understood from FIGS. 2 and 12, the contact 300 is pushed down from the upper side in the vertical direction toward the fixed housing body 100 and the movable housing 200. At this time, the pressed portion 308 and the additional pressed portion 314 of the contact 300 are simultaneously pressed down using a jig (not shown). As a result, the first held portion 304 of the contact 300 is press-fitted into the first contact holding portion 112 of the fixed housing body 100, and the second held portion 312 of the contact 300 is press-fitted into the second contact holding portion 224 of the movable housing 200. Is done. In this state, the first press-fit protrusion 320 of the first held portion 304 bites into the wall of the corresponding first contact holding portion 112 in the pitch direction. Similarly, the second press-fitting protrusion 322 of the second held portion 312 bites into the wall of the corresponding second contact holding portion 224 in the pitch direction. Thus, each of the first contact holding portions 112 holds the first held portion 304 of the corresponding contact 300, and each of the second contact holding portions 224 holds the second held portion 312 of the corresponding contact 300. To do. In the present embodiment, the pressed portions 308 of the contacts 300 arranged in the pitch direction are arranged on a single plane (plane). Similarly, the additional pressed portions 314 of the contacts 300 arranged in the pitch direction are also arranged on a single plane (plane). Therefore, the structure of the jig used for attaching the contact 300 can be simplified, and the cost can be reduced.

  As shown in FIG. 14, in a state where the contact 300 is attached to the movable housing 200, the bottom surface 226 of the contact receiving portion 222 is located immediately below the pressed portion 308. In this state, the pressed portion 308 may be in contact with the bottom surface 226 or may be separated from the bottom surface 226. The bottom surface 226 of the contact receiving portion 222 (see FIG. 8) functions as a receiving surface that receives the pressed portion 308 when the contact 300 is attached to the movable housing 200. When the pressed portion 308 of the contact 300 abuts against the bottom surface 226, it is possible to detect the completion of attachment of the contact 300 to the movable housing 200. Further, in the present embodiment, the bottom surface 226 receives the pressed portion 308, thereby preventing the lowest end portion 324 of the connecting portion 306 of the contact 300 from abutting against the insulating portion 228. In other words, in the present embodiment, the lowermost end portion 324 and the insulating portion 228 are separated from each other when the pressed portion 308 is in contact with the bottom surface 226. Here, as described above, the thickness of the base portion 220 at the position corresponding to the bottom surface 226 in the vertical direction is larger than the thickness of the insulating portion 228. Therefore, the movable housing 200 can ensure sufficient strength to resist the external force required to attach the contact 300 to the movable housing 200.

  Referring to FIG. 14, the insulating portion 228 is located below the bottom surface 226 of the contact receiving portion 222 in the vertical direction and is separated from the bottom surface 226. Thus, unlike the configuration disclosed in Patent Document 2, the length of the spring portion 316 can be set to a predetermined length without increasing the height of the connector 10 in the vertical direction. In the configuration disclosed in Patent Document 2, when the thickness of the retaining portion is increased in order to obtain strength, the lengths of the first and second extension portions (spring portions) are not increased unless the height of the connector is increased. It becomes shorter than the predetermined length. In the present embodiment, since it is not necessary to increase the height of the connector 10, a reduction in height can be realized. Further, the insulating portion 228 extends toward the first held portion 304 in the horizontal direction as compared with the bottom surface 226. In addition, the insulating portion 228 is located below the lowermost end portion 324 in the up-down direction. As a result, the insulating portion 228 hides the connecting portion 306 at least partially when viewed from below along the vertical direction. Specifically, the insulating portion 228 hides at least the lowermost end portion 324 when viewed from below along the vertical direction. Thereby, even if the contact 300 is elastically deformed, contact between the contact 300 and a circuit board (not shown) can be avoided. On the other hand, in the connector disclosed in Patent Document 2, when the plug terminal 3 is attached to the movable housing 8, the retaining portion 8b directly receives the third extending portion 3c5 of the plug terminal 3. If it is attempted to detect the completion of the attachment of the plug terminal 3 to the movable housing 8 with this configuration, the plug terminal 3 may break the retaining portion 8b, and the third extension 3c5 of the plug terminal 3 may contact the substrate P2. is there.

  Next, as understood from FIG. 12, the reinforcing member 500 is press-fitted into the reinforcing member fixing portion 124 of the fixed housing body 100. Thereby, the third press-fitting protrusion 502 of the reinforcing member 500 bites into the wall of the reinforcing member fixing portion 124, and the reinforcing member 500 is fixed to the reinforcing member fixing portion 124.

  Next, as described with reference to FIGS. 7 and 8, the connection 600 is cut, and the fixed housing body 100 and the movable housing 200 are separated from each other. At this time, the fixed housing body 100 and the movable housing 200 are connected to each other via the contact 300. Here, it is desirable that the joint 600 is completely removed by cutting. However, it is difficult to remove the joint 600 completely. Therefore, as shown by a broken line in FIG. 8, a part (burr) of the joint 600 remains in the fixed housing main body 100 and the movable housing 200. Specifically, the fixed housing body 100 has a first burr 610, and the movable housing 200 has a second burr 620. In an unloaded state, that is, in an initial state where the movable housing 200 is not moved relative to the fixed housing body 100, the first burr 610 and the second burr 620 are opposed to each other in the horizontal direction. In order to prevent the presence of the first burr 610 and the second burr 620 from hindering the subsequent movement of the movable housing 200, the fixed housing main body 100 and the movable housing 200 have a first recess 130 and a second recess recessed in the horizontal direction. Two recesses 260 are respectively provided. That is, the first burr 610 is located in the first recess 130, and the second burr 620 is located in the second recess 260.

  Finally, as shown in FIGS. 13 to 15, the cover 400 is attached to the fixed housing body 100. At this time, as shown in FIG. 15, the stopper 432 is located at least partially within the stopper receiving portion 256. As shown in FIG. 14, the cover 400 accommodates a part of the contact 300 in the accommodating portion 420 while being attached to the fixed housing main body 100. As understood from the drawings from FIG. 13 to FIG. 18, the accommodating portion 420 allows the elastic deformation of the spring portion 316 within a predetermined range. Thereby, the movable housing 200 is movable relative to the fixed housing, that is, the fixed housing main body 100 and the cover 400 at least in the horizontal direction.

  As can be understood from FIGS. 19 and 20, the connector 10 can be fitted to the mating connector 20 in the vertical direction (fitting direction). As shown in FIG. 21, the contact 24 of the mating contact 22 contacts the contacted portion 310 of the contact 300 in a state where the connector 10 and the mating connector 20 are fitted. Further, as understood from the drawings from FIG. 20 to FIG. 24, even if the mating connector 20 is slightly displaced in the horizontal direction with respect to the connector 10, the connector 10 can be fitted to the mating connector 20. This is because the movable housing 200 can move relative to the fixed housing in the horizontal direction. When the mating connector 20 is inclined with respect to the connector 10, the protection unit 428 protects the contact 300 from the mating connector 20. At the same time, the protection unit 428 guides the mating connector 20 so as to correct the inclination. In order to enable such protection and guide, the protection part 428 is positioned between the housing part 420 and the movable housing 200 in the horizontal direction when viewed in the vertical direction.

  As described above, in the connector 10 according to this embodiment, the bottom surface 226 of the contact receiving portion 222 receives the pressed portion 308 of the contact 300 when the contact 300 is attached to the movable housing 200. Here, in the vertical direction, the thickness of the base 220 at a position corresponding to the bottom surface 226 is relatively thick. Therefore, the movable housing 200 can have sufficient strength to receive the external force required for attaching the contact 300. Therefore, when the contact 300 is attached to the movable housing 200, the movable housing 200 is prevented from being destroyed. In addition, the lowermost end 324 of the connecting portion 306 is hidden by the insulating portion 228 when viewed from below along the vertical direction. This prevents the contact 300 from contacting the circuit board. On the other hand, the lowermost end 324 is located below the bottom surface 226. Therefore, the length of the spring part 316 in the vertical direction can be made relatively long. Thereby, the relative movement of the movable housing 200 with respect to the fixed housing main body 100 can be facilitated.

  As described above, the present invention has been specifically described with reference to some embodiments. However, the present invention is not limited to these, and various modifications and changes can be made. For example, in the above embodiment, the cover 400 is made of an insulating resin, but the cover 400 may be made of metal. However, when the cover 400 is made of metal, the contact 300 covers not only in the initial state but also when the connector 10 is fitted with the mating connector 20 and when the connector 10 is fitted with the mating connector 20. It is necessary to design the cover 400 so that it does not contact 400. Also, as shown in FIG. 24, the metal cover 400A may also serve as the reinforcing member 500A. Such a metal cover 400A can be manufactured by punching and bending a metal plate. The metal cover 400A partially covers the contact 300 and exhibits an electromagnetic shielding effect.

  Further, in the above embodiment, the contacts 300 are arranged in two rows, but the contacts 300 may be arranged in one row.

10, 10A connector (plug connector)
20 Mating side connector (receptacle connector)
22 Mating contact 24 Contact 100 Fixed housing body 110 Crosspiece 112 First contact holding portion (first holding portion)
114 Side wall 120 Connection portion 122 Cover fixing portion 124 Reinforcing member fixing portion 130 First recess 200 Movable housing 210 Plug portion 220 Base portion 222 Contact receiving portion 224 Second contact holding portion (second holding portion)
226 Bottom (receiving surface)
228 Insulating portion 230 Wall portion 232 Contact receiving groove 250 Guide portion 252 Housing portion 254 Taper portion 256 Stopper receiving portion 260 Second recess 300 Contact 302 Connected portion 304 First held portion 306 Connecting portion 308 Pressed portion 310 Touched Portion 312 Second held portion 314 Additional pressed portion 316 Spring portion 318 Vertical portion 320 First press-fit protrusion 322 Second press-fit protrusion 324 Lowermost end portion 400, 400A Cover 410 Crosspiece portion 412 Fixed portion 420 Storage portion 422 Long wall 424 Short wall 426 Upper wall 428 Protection portion 430 Connection portion 432 Stopper 500, 500A Reinforcing member 502 Third press-fit projection 504 Hole 600 Connection 610 First burr 620 Second burr

Claims (10)

A connector comprising a fixed housing, a movable housing, and a plurality of contacts,
Each of the contacts has a pressed part, a first held part, a second held part, and a connecting part,
The pressed portion and the first held portion are separated in the horizontal direction,
The connecting portion connects the pressed portion and the first held portion,
The connecting portion has at least partially springiness,
The connecting portion is partially located below the pressed portion in the vertical direction perpendicular to the horizontal direction,
The fixed housing has a plurality of first holding portions,
The first holding portion corresponds to each of the contacts,
Each of the first holding portions holds the first held portion of the corresponding contact,
The movable housing has a plurality of second holding portions, an insulating portion, and a receiving surface,
The second holding portions correspond to the contacts, respectively.
Each of the second holding portions holds the second held portion of the corresponding contact,
The receiving surface is located immediately below the pressed portion in the vertical direction,
The insulating portion is positioned below the receiving surface and away from the receiving surface in the vertical direction,
The insulating portion extends in the horizontal direction toward the first held portion as compared to the receiving surface.
When the connector is viewed from below, the insulating portion is a connector that at least partially hides the connecting portion. The connector according to claim 1,
The connecting portion has a lowermost end portion located on the lowermost side of the connecting portion in the vertical direction,
The said insulation part is a connector which is located in the said up-down direction below the said lowest end part, and is hiding at least the said lowest end part when the said connector is seen from the lower side. The connector according to claim 2,
The pressed portion has an end in the horizontal direction,
The connecting portion has a vertical portion,
The vertical portion extends from the end portion of the pressed portion to the lowest end portion along the vertical direction,
The second held portion is a connector that is a part of the vertical portion. The connector of claim 1 or claim 2, wherein
The second held portion is a connector that is a part of a connecting portion. The connector according to any one of claims 1 to 4, wherein
Each of the first holding portions is a first groove extending in the vertical direction,
The first groove is open at least at its upper end;
The first held portion is formed with a first press-fit protrusion that protrudes in a pitch direction perpendicular to both the horizontal direction and the vertical direction.
The first press-fit protrusions bite into the corresponding wall of the first groove in the pitch direction;
Each of the second holding portions is a second groove extending in the vertical direction,
The second groove is open at least at its upper end;
The second held portion is formed with a second press-fit protrusion protruding in the pitch direction,
The second press-fitting protrusion is a connector that bites into a wall of the corresponding second groove in the pitch direction. The connector according to any one of claims 1 to 5,
The fixed housing has a main body and a cover,
The first holding part is provided in the main body,
The cover is attached to the body;
The said cover is the connector which comprises the accommodating part which accommodates the said connection part partially. The connector according to claim 6,
The cover is provided with a protective part that partially defines the housing part,
The said protection part is a connector located between the said accommodating part and the said movable housing in the said horizontal direction when it sees along the said up-down direction. The connector according to any one of claims 1 to 7,
The fixed housing has a first burr,
The movable housing has a second burr,
The first burr and the second burr are connectors facing each other in the horizontal direction. The connector according to claim 8, wherein
The fixed housing is provided with a first recess recessed in the horizontal direction,
The first burr is located in the first recess;
The movable housing is provided with a second recess recessed in the horizontal direction,
The second burr is a connector located in the second recess. The connector according to claim 1, wherein:
The plurality of pressed parts are connectors arranged on a single surface.

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