• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A retainer (60) has lock projections (66) extending to side surfaces of a housing (10). An elastic wall (18) defining a mounting hole (17) and having a portion capable of interfering with the locking projection (66) is disposed on the side surface of the housing (10). The elastic wall (18) has a latch receiving portion for latchingly receiving the lock projection (66) by resilient biasing. An incorrect layout identification portion (27) is disposed on an inner surface of the mounting port (17) of the housing (10) to prevent improper arrangement of the retainer (60) in the housing. mounting hole (17). The improper arrangement identification part (27) is a rib-shaped part arranged on the elastic wall (18).
    公开号:FR3052921A1
    申请号:FR1755188
    申请日:2017-06-09
    公开日:2017-12-22
    发明作者:Masahito Matsuura;Toshihiro Ito
    申请人:Sumitomo Wiring Systems Ltd;
    IPC主号:
    专利说明:

    CONNECTOR The invention relates to a connector.
    Unexamined Japanese Patent Publication No. 2000-67980 discloses a connector with a housing for receiving terminal fittings and a retainer for secondary locking of the terminal fittings. A mounting port opens on a lower surface of the housing and communicates with cavities for the terminal connections. The retainer is inserted into the mounting port from the bottom surface of the housing and can be moved between a partial lock position, wherein the terminal fittings can be inserted into the cavities, and a lock position. total in which the terminal fittings are retained in the cavities.
    The housing has a resilient wall that defines a side surface of the mounting hole. The resilient wall has a partial locking port that communicates with the mounting port. A partial locking projection of the retainer is inserted into the partial locking port to maintain the retainer at the partial lock position.
    During movement of the retaining member to the partial locking position, the partial locking projection slides on an inner surface of the elastic wall and the elastic wall is deflected and deformed outwardly. At this stage, front and rear deflection supports of the elastic wall are driven strongly by the partial locking projection and the stresses are concentrated. In the worst case, the elastic wall can break. The invention has been made on the basis of the previous situation and aims to create a connector to ensure a predetermined resistance of a resilient wall defining a mounting hole which has an elastic wall. The invention relates to a connector with a housing having a cavity. A mounting hole communicates with the cavity, opens on a first surface of the housing. A retainer is provided in the mounting hole and has a retaining portion for retaining a terminal connection in the cavity. The retaining member has a locking projection extending toward a surface of the housing intersecting the first surface. A portion of the resilient wall of the mounting port may interfere with the locking projection and is disposed on the intersecting surface of the housing. The resilient wall has a latch-receiving portion for receiving the locking projection so as to provide locking by resilient return of the resilient wall. An improper arrangement identification portion is disposed on an inner surface of the housing mounting hole to prevent improper arrangement of the retainer member in the mounting hole. The incorrect pattern identification portion is a rib on the elastic wall. Thus, the strength of the elastic wall can be improved. The improper arrangement identification portion has a resilient wall reinforcing function in addition to a function of limiting the improper arrangement of the retaining member in the mounting hole. Thus, it is not necessary to create a specific reinforcement part and a structure can thus be substantially simplified.
    The elastic wall may include front and rear deflection supports. The incorrect layout identification portion may be disposed on the side of the first deflection support and a notch may be disposed on the side of the other deflection support. According to this configuration, a driving force of the locking projection can be supported by the incorrect layout identification part on the side of the first deflection support and the influence of the locking projection drive can be removed so as to reduce it by the notch on the side of the other deflection support. The notch may be disposed on the inner surface of the elastic wall. Thus, the resilient wall is deflected satisfactorily when it is deflected and deformed outwardly as it is pressed by the locking projection since tensile stresses act in the opening direction of the notch.
    A release cavity from the locking projection may be disposed on the inner surface of the elastic wall and the incorrect arrangement identification portion may define the cavity. According to this configuration, the locking projection can be released into the cavity, thus avoiding interference between the locking projection and the elastic wall and preventing the rupture of the elastic wall. Thus, a heavy operation of assembling the retaining element with the housing is reduced. In addition, the incorrect layout identification portion defines the cavity, and it is not necessary to provide a specific reinforcing portion, thereby simplifying the structure.
    Fig. 1 is a perspective view showing a state in which a retainer is held at a partial locking position with respect to a housing in a connector according to a first embodiment of the present invention.
    Fig. 2 is a side view showing the state in which the retainer is held at the partially locked position relative to the housing.
    Fig. 3 is a side view showing a state in which the retainer is held at a fully locked position relative to the housing.
    Figure 4 is a section along the line A-A of Figure 2.
    Figure 5 is a section along the line B-B of Figure 3.
    FIG. 6 is a sectional side view corresponding to FIG. 3.
    Figure 7 is a bottom view of the connector.
    Figure 8 is a perspective view of the retainer.
    Figure 9 is a plan view of the retainer.
    Figure 10 is a front view of the retainer.
    Figure 11 is a side view of the retainer.
    Figure 12 is a bottom view of the housing.
    A first embodiment will be described with reference to Figs. 1 to 12. A connector of this embodiment has a housing 10 and a retainer 60 to be mounted in the housing 10. The housing 10 may be coupled to a housing conjugate not shown. It will be appreciated that in the following description, a surface side of the housing 10 facing the conjugate housing at the beginning of the coupling is designated as a front face with respect to a longitudinal direction and a vertical direction is based on all of the figures. with the exception of Figures 7, 9 and 12. A transverse direction is a lateral direction of Figures 4 and 5.
    The housing 10 is made of a synthetic resin and, as shown in FIG. 1, is in the form of a rectangular block. The cavities 11 extend through the housing 10 in the longitudinal direction, as shown in Fig. 12, and a terminal connector 90 (see Figs. 4 and 5) is inserted into each cavity 11 from the rear. A bendable locking blade 12 extends from an inner wall of each cavity 11 and locks the terminal fitting 90 to primarily retain the properly inserted terminal connector 90 in the cavity 11.
    The front surface of the housing 10 is covered by a flat plate-like front mask 13, as shown in FIG. 1. The front mask 13 covers the locking blades 12 from the front to provide protection against foreign matters. The front mask 13 has lug insertion orifices 14 at positions corresponding to the respective cavities 11 in order to receive male tabs of the unrepresented conjugate housing.
    A lever receiving chamber 15 is provided on an upper end portion of the housing 10. The lever receiving chamber 15 is elongated and narrow in the transverse direction and opens out onto the rear housing surface 10. A lever shaped like a Plate 16 is received in the lever receiving chamber 15. The lever 16 is cammed with the conjugate housing and can be rotated to facilitate or cause a coupling operation of the housings.
    As shown in Figures 6 and 12, the housing 10 has a mounting hole 17 in which the retainer 60 is to be inserted. The mounting hole 17 is located behind the locking blades 12 and communicates with all the cavities 11. The mounting hole 17 opens on the lower surface (first surface) of the housing 10 and defines an opening which is long and narrow in the transverse direction.
    The elastic walls 18 are disposed on both transverse sides of the housing 10 and define opposite side surfaces of the mounting hole 17, as shown in FIG. 12. Each elastic wall 18 is a thin plate which can be deformed from elastically with front and rear end portions serving as deflection supports 19F, 19R. An outer surface of the resilient wall 18 defines a flat side surface of the housing 10 and is continuous with a non-bearing side surface portion (see Figures 1 to 3).
    As shown in FIGS. 1 to 3, a side surface of the housing 10 cut to form a first slot 21 and a second slot 22 extending parallel to the longitudinal direction and opens out on the rear end of the housing 10. first slotted groove 21 is located on an upper side, has a vertical groove width smaller than that of the second slotted groove 22 located on a lower side. A depth of each of the first and second split grooves 21, 22 is equal to a plate thickness or wall of the elastic wall 18.
    As shown in Figures 2 and 3, a front portion of the first slotted groove 21 penetrates the resilient wall 18 in the longitudinal direction and defines a locking hole 23 which communicates with the mounting hole 17 in the transverse direction. Similarly, a front portion of the second split groove 22 penetrates through the resilient wall 18 in the longitudinal direction and serves as a partial locking port 24 communicating with the mounting port 17 in the transverse direction. The front end of the locking hole 23 is slightly facing the partial locking hole 24. The lower edge of a front end portion of the locking hole 23 defines a curved curved portion towards the front end.
    Opposite side surfaces of the mounting hole 17 are defined by the resilient walls 18, and the mounting port 17 opens only on the bottom surface of the housing 10. Thus, a resin is satisfactorily diffused to areas of the housing 10 at both the front and rear sides of the mounting hole 17 through the resilient walls 18 during resin molding. As a result, a molding failure occurrence frequency is low. In addition, although the elastic walls 18 are present on both transverse sides of the housing 10, these resilient walls 18 are thin and the retaining element 60 does not extend from the side surface of the housing 10 when It is inserted into the mounting hole 17. Thus, the width of the connector is small and it is possible to satisfy a request for miniaturization of the connector.
    Next, the structure of the inner surface of the elastic wall 18 will be described. As shown in Figures 6 and 12, a downwardly opening cavity 26 is provided on the inner surface of the elastic wall 18. The cavity 26 extends in the vertical direction while having a predetermined width in the longitudinal direction . The width of the cavity 26 in the longitudinal direction is greater than that of the locking projection 66 described later of the retaining element 60 and xme depth of the cavity 26 is equal to or slightly greater than xme dimension protruding from the projection of lock 66.
    A center of the cavity 26 in the longitudinal direction is deflected rearward from the center of the inner surface of the elastic wall 18 in the longitudinal direction. The front end of the cavity 26 is located behind a front end of the elastic wall 18 (the front surface of the mounting hole 17). An area of the inner surface of the resilient wall 18 facing the cavity 26 serves as an incorrectly shaped (rectangular column-like) pattern identification portion 27 extending in the vertical direction. The incorrect arrangement identification portion 27 defines the front end of the cavity 26 and has a lower end located at the bottom surface of the housing 10.
    The cavity 26 is located below the locking orifice 23 and a rib-shaped interference portion 29 extending in the longitudinal direction is interposed between the cavity 26 and the locking orifice 23. The upper surface the interference portion 29 constitutes the lower surface of the locking hole 23 (having the curved portion 25) and is arranged in the transverse direction. As shown in Figures 4 and 5, the lower surface of the interference portion 29 constitutes the upper surface of the cavity 26 and has an inclined plane 31 inclined upwards. As shown in FIG. 12, the inclined plane 31 is shaped to correspond to the locking projection 66 of the retaining element 60.
    As shown in FIG. 12, the front portion of the interference portion 29 intersects the incorrect pattern identification portion 27 and is connected thereto. A rear portion of the interference portion 29 is arranged at a position corresponding to the rear deflection support 19R of the elastic wall 18, and a notch 32 extending in the vertical direction is recessed on this rear end portion. The notch 32 has a recessed cross-section and extends to vertically cut the interference portion 29. It may be noted that the partial locking orifice 24 opens on the rear surface (lower surface) of the cavity 26.
    Next, the structure of the retainer 60 will be described. The retainer 60 is made of a synthetic resin and is in the form of a plate. As shown in Figures 1-3, the retainer 60 is inserted into the mounting hole 17 from below the housing 10 in the direction of the plate thickness aligned with the longitudinal direction. The retaining member 60 can be moved between a partial locking position (see FIGS. 1, 2 and 4) and a total locking position (see FIGS. 3, 5 and 6) located above the partial locking position by 10. The retaining element 60 has through orifices 61 at positions corresponding to the respective cavities 11. As shown in FIGS. 8 and 10, each through orifice 61 has a substantially rectangular cross section and can receive the A retainer portion 62 extends from the bottom surface of each through hole 61, and the retainer portions 62 also extend from the upper end surface of the retainer member 60. The respective retaining portions 62 are retracted downwardly relative to the cavities 11 when the retaining member 60 is at the partial locking position, so that the connections The respective retaining portions 62 enter the cavities 11 and latch the terminal fittings 90 when the retaining member 60 is in the fully latched position so that the connecting pieces 62 are inserted into the recesses 11. terminal 90 can not exit cavities 11.
    A projection 63 extends forwardly on a lower end side of a central transverse portion of the front surface of the retainer 60. As shown in FIG. 7, the protruding piece 63 is arranged in the transverse direction and can be assembled in a projecting piece-receiving part 33 in the form of a shallow cavity on the lower surface of the case 10.
    As shown in FIGS. 8 to 10, raised base portions 64 having flat trapezoidal shapes are formed on lower portions of both side surfaces of the retaining member 60. A receiving portion 65 capable of receiving the portion of the incorrectly arranged pattern identification 27 and having a substantially L-shaped cross section is formed between the front surface of the base portion 64 and an area of each side surface of the retainer 60 on the front of the surface before the base portion 64, as shown in FIG. 7.
    Further, the locking projection 66 and a partial locking projection 67 are arranged vertically side by side on each of the side surfaces of the retaining member 60. The partial locking projection 67 extends from a flat surface of the base portion 64. A projecting end of the partial locking projection 67 is outside of the locking projection 66 in the transverse direction.
    Each of the partial locking projection 67 and the locking projection 66 is in the form of a rib extending in the longitudinal direction, and the partial locking projection 67 is slightly larger than the locking projection 66. front ends of the partial locking projection 67 and the locking projection 67 are substantially at the same position in the longitudinal direction. On the other hand, the rear end of the partial locking projection 67 is behind that of the locking projection 66.
    As shown in Fig. 10, the upper surface of the partial locking projection 67 is inclined downwardly from the projecting tip and the lower surface thereof is substantially horizontal. As shown in FIG. 9, the front surface of the partial locking projection 67 is inclined rearwardly toward the protruding tip and the rear surface is inclined forwards towards the projecting tip.
    As shown in Fig. 10, the upper surface of the locking projection 66 is inclined downwardly toward the protruding tip, and the lower surface is inclined upwardly toward the projecting tip. Tilting angles with respect to the transverse direction are defined so that the lower surface of the locking projection 66 is deeper than the upper surface of the locking projection 66. The projecting projection of the locking projection 66 has a pointed shape extending in the longitudinal direction.
    As shown in Fig. 9, the front surface of the locking projection 66 is substantially vertical. On the other hand, the rear surface of the locking projection 66 forms a release surface 68 inclined with a large portion forwards towards the protruding tip. As shown in Fig. 11, the front end of the release surface 68 is near a center of the locking projection 66 in the longitudinal direction.
    A displacement port 69 penetrates through an area of the retainer 60 inwardly of the locking projection 66 in the transverse direction. The displacement port 69 is elongated in the vertical direction and permits the resilient displacement of the locking projection 66.
    Next, the functions and effects of the connector of this embodiment will be described.
    First, the retainer 60 is inserted into the mounting port 17 of the housing 10 from below. During the inserting operation of the retainer 60, the incorrect arrangement identification portions 27 are inserted into the receiving portions 65 and the locking projections 66 are inserted into the cavities 26 to free, thereby avoiding interference between the locking projections 66 and the resilient walls 18. When the retainer 60 is inserted further, the partial locking projections 67 slide on the rear surfaces of the cavities 26 and the end portions. lower elastic walls 18 are deflected and deformed. When the retaining member 60 is further inserted, the resilient walls 18 are elastically biased and the partial locking projections 67 are assembled in the partial locking holes 24 from the inside, the retaining member 60 being in position. Partial locking position. At this time, as shown in FIGS. 2 and 4, the partial locking projections 67 contact the lower surfaces of the partial locking holes 24 to limit a downward movement of the retainer 60 in a direction away from the mounting hole 27.
    When the retaining member 60 reaches the partial locking position, the locking projections 66 are located on upper ends of the cavities 26 and contact the inclined planes 31 of the interference portions 29 from below, thereby preventing a upward movement of the retainer 60 to the total lock position. On the other hand, if the retaining element 60 is in an incorrect position, such as a position inverted longitudinally with respect to the housing 10, the upper corners of the retaining element 60 come into contact with the lower surfaces of the parts. incorrect arrangement identification means 27 to prevent the insertion of the retaining member 60 into the mounting hole 17. Thus, an incorrect position of the retaining member 60 is detected and an assembly operation of the retainer 60 is performed again.
    Each terminal fitting 90 is inserted into the cavity 11 and retained mainly by the locking blade 12 after the retaining element 60 has been inserted into a correct position in the mounting hole 17 and has reached the partial locking position. . Then, the retainer 60 is pushed to the total lock position. Here, if any of the respective terminal fittings 90 are not inserted at a proper depth into the recess 11, the inserting operation of the retaining member 60 is prevented, thereby indicating that at least 1 one of the terminal connectors 90 is incompletely inserted.
    The upper surfaces of the locking projections 66 slide on the inclined planes 31 of the interference portions 29 and the resilient wall portions 18 corresponding to the interference portions 29 are deflected and deformed outwardly when the retainer 60 moves to the total lock position. At this time, the front and rear deflection supports 19F, 19R of the resilient walls 18 (interference portions 29) are driven by the locking projections 66 and stresses are concentrated thereon. However, the front deflection supports 19F are reinforced by the incorrect rib-shaped arrangement identification parts 27 and can withstand significant tensile stresses exerted by the locking projections 66. In addition, the release surfaces 68 of the locking projections 66 are formed to release from the rear deflection supports 19R to be omitted, the rear deflection supports 19R being firmly driven by the locking projections 66. In addition, since the notches 32 allow elastic displacements of rear deflection 19R, the rear deflection supports 19R are less likely to be affected by the driving of the locking protrusions 66. Thus, even if the elastic walls 18 are deflected and deformed outwardly by being pressed by the projections of locking 66 when the retaining element 60 moves to the total locking position, there is substantially no risk of rupture of the elastic walls 18.
    When the retainer 60 reaches the full locking position, the resilient walls 18 are resiliently biased and the locking projections 66 assemble into the lock holes 23 from the inside. At this time, as shown in Figs. 3 and 5, the locking protrusions 66 contact the lower surfaces of the locking holes 23, thereby preventing a downward movement of the retainer 60 to the position partial locking. Further, the projecting piece 63 is adapted to engage the projecting piece receiving portion 33, thereby preventing a further movement of the retainer 60 upward than the full lock position. At the total locking position, the retaining portions 62 are inserted into the cavities 11 and lock the home connectors 90 in a secondary manner. It may be noted that cables connected to the respective terminal connections 90 are extracted through the rear surface of the housing 10. Next, the connector is connected to the conjugate housing by rotation of the lever 16.
    As previously described, since the incorrect pattern identification portion 27 is a rib-shaped portion disposed on the elastic wall 18, the strength of the elastic wall 18 can be improved. In this case, the improper arrangement identification part 27 has a function of reinforcing the elastic wall 18 in addition to a function preventing an incorrect arrangement (improper assembly) of the retaining element 60 in the Thus, it is not necessary to create a specific reinforcement part and the structure can thus be substantially simplified.
    Further, the improper arrangement identification portion 27 is disposed on the side of the front deflection support 19F of the elastic wall 18 and the notch 32 is disposed on the side of the rear deflection support 19R of the elastic wall 18 Thus, when the elastic wall 18 is deflected and deformed by being squeezed by the locking projection 66, the elastic wall 18 can withstand the driving force of the locking projection 66 by the incorrect arrangement identification portion. 27 at the front deflection support 19F and the influence of the driving of the locking projection 66 can be suppressed or reduced by the notch 32 at the rear deflection support 19R. As a result, a situation is obtained in which the rupture of the elastic wall 18 is not likely to occur. The notch 32 is disposed on the inner surface of the elastic wall 18. Thus, tensile stresses act in an opening direction of the notch 32 and the elastic wall 18 is deflected satisfactorily when the elastic wall 18 is deflected and deformed when pressed by the locking projection 66.
    In addition, the cavity 26 is disposed on the inner surface of the elastic wall 18, and the locking projection 66 is caused to be released into the cavity 26 so that interference with the elastic wall 18 can be avoided until the retaining element 60 has reached the total locking position. Thus, an elastic displacement of the elastic wall 18 is eliminated, the rupture of the elastic wall 18 can be prevented, and a heavy operation of assembly of the retaining element 60 with the housing 10 can be reduced. Further, since the leading end of the cavity 26 is defined by the incorrect layout identifying portion 27 rather than a specific defining portion, the structure can be simplified. Other embodiments of the present invention will be briefly described.
    In the previous embodiment, the locking projections and the partial locking projections may be reversed and the locking projections may be inserted into the partial locking holes so as to be lockable on the housing when the retainer is at the partial lock position.
    The tips of the locking projections are slidable on the rear surfaces of the cavities until the retainer reaches the full lock position.
    The cavity may not be arranged on the inner surface of the elastic wall.
    In contrast to the foregoing embodiment, the improper arrangement identification portion may be disposed at the rear deflection support of the resilient wall and the notch may be disposed at the front deflection support of the resilient wall.
    List of numerical references 10 ... housing 11 ... cavity 17 ... mounting hole 18 ... elastic wall 19F ... deflection support point before 19R ... rear deflection support point 26 .. cavity 27 ... incorrect arrangement identification part 32 ... notch 60 ... retaining element 62 ... retaining part 66 ... locking projection 67 ... partially locking projection 90. .. terminal connection
    权利要求:
    Claims (4)
    [1" id="c-fr-0001]
    A connector, comprising: a housing (10) having a cavity (11) and a mounting port (17) communicating with the cavity and opening on a first surface of the housing (10); and a retaining member (60) for arranging on the mounting port (17) and having a retaining portion for retaining a terminal fitting (90) in the cavity (11), wherein: the element retainer (60) has a locking projection (66) extending to a surface of the housing intersecting the first surface; an elastic wall (18) disposed on the intersection surface of the housing (10) and defining at least a portion of the mounting port (17), the resilient wall (18) having a portion capable of interfering with the locking projection (66); the elastic wall (18) has a latch-receiving portion (23) for latchingly receiving the locking projection (66) by resilient return of the elastic wall (18); an incorrect layout identification portion (27) disposed on an inner surface of the mounting port (17) of the housing (10) to limit an incorrect arrangement of the retainer (60) in the port mounting (17); and the incorrect arrangement identification part (27) is a rib-shaped part arranged on the elastic wall (18).
    [2" id="c-fr-0002]
    The connector according to claim 1, wherein the elastic wall (18) has front and rear deflection supports (19F, 19R), the incorrect arrangement identification portion (27) is disposed on the side of a first deflection support (19F) and a notch (32) is disposed on the side of the other deflection support (19R).
    [3" id="c-fr-0003]
    3. The connector of claim 2, wherein the notch (32) is disposed on an inner surface of the elastic wall (18).
    [4" id="c-fr-0004]
    The connector of any one of claims 1 to 3, wherein an escape cavity (26) of the locking projection (66) is disposed on an inner surface of the elastic wall (18) and the portion of incorrect layout identification (27) defines the cavity.
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    同族专利:
    公开号 | 公开日
    US9887490B2|2018-02-06|
    FR3052921B1|2019-04-19|
    US20170365950A1|2017-12-21|
    JP6548038B2|2019-07-24|
    CN107528153A|2017-12-29|
    JP2017224549A|2017-12-21|
    CN107528153B|2019-04-23|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    JP3928483B2|2002-05-29|2007-06-13|住友電装株式会社|Split connector|
    US7553187B2|2006-01-31|2009-06-30|3M Innovative Properties Company|Electrical connector assembly|
    US7651359B2|2006-09-14|2010-01-26|3M Innovative Properties Company|Electrical connector assembly|
    US7625251B2|2007-09-25|2009-12-01|Tyco Electronics Corporation|Connector with redundant terminal locking|
    US7722394B2|2008-02-21|2010-05-25|3M Innovative Properties Company|Electrical termination device|
    JP2010067469A|2008-09-11|2010-03-25|Sumitomo Wiring Syst Ltd|Connector|
    JP6032164B2|2013-09-18|2016-11-24|住友電装株式会社|Connector for equipment|KR101769258B1|2007-01-18|2017-08-17|가부시키가이샤 니콘|Scanner based optical proximity correction system and method of use|
    WO2016194579A1|2015-05-29|2016-12-08|住友電装株式会社|Connector|
    USD835045S1|2016-08-26|2018-12-04|Amphenol Corporation|Plug|
    US10566728B1|2018-10-30|2020-02-18|Aptiv Technologies Limited|Electrical connector with high vibration resistant locks|
    KR102077011B1|2018-12-20|2020-02-13|주식회사 경신|Connector|
    KR102088899B1|2020-02-04|2020-03-13|주식회사 경신|Connector|
    KR102088900B1|2020-02-04|2020-03-13|주식회사 경신|Connector|
    KR102088898B1|2020-02-04|2020-03-13|주식회사 경신|Connector|
    法律状态:
    2018-05-11| PLFP| Fee payment|Year of fee payment: 2 |
    2018-10-19| PLSC| Publication of the preliminary search report|Effective date: 20181019 |
    2020-05-12| PLFP| Fee payment|Year of fee payment: 4 |
    2021-05-13| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    JP2016120497A|JP6548038B2|2016-06-17|2016-06-17|connector|
    JP2016120497|2016-06-17|
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