ELECTRIC PLATE CONNECTION CONNECTOR

专利摘要:
The state of connection of contact elements (13) with respect to a wiring board can easily be checked visually by a simple configuration. A shield wall portion (12) comprising an electrically conductive member opposed to contact connection portions (platinum connection portions) of a plurality of contact elements (13) arranged in multipole form is provided; each of the ground connection portions (12d) provided in the shield wall portion (12) is disposed at the portion between the contact connection portions which are adjacent to each other; a lateral verification window (12e) including a gap which allows visual verification of the contact connection portions is formed in the gap area in which ground connection portions (12d) are adjacent to each other .
公开号:FR3039715A1
申请号:FR1657005
申请日:2016-07-22
公开日:2017-02-03
发明作者:Kosuke Ozeki
申请人:Dai Ichi Seiko Co Ltd；
IPC主号:

专利说明:

The present invention relates to mutually connected platinum electrical connectors in a state in which they are mounted on wiring plates.
In general, in various electrical devices, platinum connection electrical connector devices called stacking connectors, etc. are widely used. In the electrical connector platen connection device, for example, above a first electrical connector (receptacle connector) connected to a first wiring board, a second electrical connector (plug connector) connected to a second board the second electrical connector in the upper side is depressed so as to be lowered towards the first electrical connector in the lower side from such a vertically opposite state. and the two electrical connectors are therefore brought into a state of mutual correspondence, thus electrically connecting the first and second wiring boards to each other.
Such an electrical connector platinum connection must implement so-called electromagnetic interference measures in particular with the recent increase in frequencies of transmission signals. For example, in the Japanese Patent Application Laid-Open No. 2014-192102 described below, an electromagnetic shield with respect to the signal transmission passages of the contact elements is made by surrounding the outer periphery of the connector. electrical (receptacle connector) with a shielding wall (blocking wall).
However, if such a shielding wall is provided, the part at which the contact elements are soldered to the wiring board is configured to be covered from the outer side by the shielding wall, and therefore, the state of connection (solder jointing state) of the contact elements and wiring boards and the state of assembly of the connectors can not be verified visually. In other words, it becomes difficult to carry out tests to verify, visually or with images, the presence / absence of deformation of the connectors (housings) before mounting and the mounting state such as the presence / absence of lifting of the contact elements with respect to the wiring board after mounting, and a problem in reliability may occur.
The present application sets forth below a patent document as prior art to the present invention.
[Patent Document 1] Japanese Patent Application Laid-open No. 2014-192102 [0006] Therefore, it is an object of the present invention to provide an electrical connector for platinum connection which allows easy visual checks of the connection status, etc. contact elements with respect to the wiring board thanks to a simple configuration.
The invention according to a first aspect to achieve the purpose described above uses a configuration of an electrical connector having a plurality of contact elements fixed on an insulating housing, the contact elements being arranged so as to form a multipolar shape in a longitudinal connector direction, and a contact connecting portion provided in each of the contact members to extend in a connector width direction and electrically connected to a wiring board side; the electrical connector having: a shielding wall portion including an electrically conductive member opposed to the contact splicing portion in the connector width direction, the shielding wall portion being provided to extend along the longitudinal direction of connector; a plurality of earth connection portions electrically connected to the wiring board and formed in the shield wall portion along the longitudinal connector direction, each of the ground connection portions being disposed in a portion between portions of contact connections adjacent to each other in the longitudinal connector direction; and a side check window including a gap for visually checking the contact splice portion in the connector width direction, the side check window being formed in a gap area in which the ground splice portions are adjacent to each other in the longitudinal connector direction.
According to the present invention provided with such a configuration, the electromagnetic shielding function with respect to the contact connection parts is obtained, and, at the same time, the connection state, etc. contact connection portions with respect to the wiring board can be visually verified through the lateral check window provided in the shield wall portion.
Similarly, in the present invention, it is desired that the shield wall portion is formed by a plate-shaped member extending along the longitudinal connector direction; each of the ground connection portions is formed by a plate-shaped protrusion protruding from an edge portion of the shield wall portion to the wiring board side; and the plate-shaped protruding member constituting each of the ground connection portions extends in a plate thickness of the plate-shaped member constituting each of the shield wall portions. The plate-shaped projection may have a flat surface on the shield wall portion.
According to the present invention provided with such a configuration, the ground connection portion is disposed in a state in which it is in the range of the plate thickness of the shielding wall portion and does not bulge. to the outer side of the shield wall portion. Therefore, the entire connector can be reduced.
Furthermore, it is desired that the shield wall portion is provided with a fastener locking piece extending to be folded from a longitudinal direction end connector portion of the wall portion of the shielding towards the connector width direction; and the fastener locking member is embedded in a longitudinal directional edge portion of the connector of the insulating housing.
According to the present invention provided with such a configuration, the shielding wall portion is disposed in a state in which it is in the range of the total length of the insulating housing and does not bulge towards the outer side of the housing. insulating. Therefore, the entire connector can be reduced.
Furthermore, it is desired that the shield wall portion of the present invention is provided with a flat cover partially covering, in a manner approximately parallel to the wiring board, a surface of the insulating housing.
According to the present invention provided with such a configuration, the electromagnetic shielding function with respect to the contact connection parts is further improved by the plane cover.
Similarly, it is desired that a plurality of hood coupling parts connected to the insulating housing is provided in the plane cover of the present invention along the longitudinal connector direction; each of the hood coupling portions is disposed in a portion between adjacent contact connection portions in the longitudinal connector direction; and a planar check window including a gap for visually verifying a contact connection portion in a direction perpendicular to the wiring board is formed in a gap area in which the hood coupling portions are adjacent to one another in the longitudinal direction of the connector.
According to the present invention provided with such a configuration, the state of connection of the contact connection parts with respect to the wiring board can be checked visually through the plane inspection window provided in the plane cover.
Furthermore, it is desired that the shield wall portion or the planar cover of the present invention be formed integrally with a contact piece having a leaf spring shape coming into elastic contact with a corresponding associated portion. .
According to the present invention provided with such a configuration, since the electrical connection is established through the contact piece, the ground resistance is reduced, and shielding characteristics are also improved.
Furthermore, in the present invention, it is desired that the plane cover is formed by a plate-shaped member extending along the longitudinal direction of the connector; each of the hood coupling portions is formed to protrude from an edge portion of the flat hood to a connector center side; and each of the hood coupling portions extends in a plate thickness of the flat hood so as to have a flat surface on the plane hood and in continuity thereof.
[0020] According to the present invention provided with such a configuration, the hood coupling portion is disposed in the state in which it is in the range of the flat hood plate thickness and does not bulge to the side. outside the plane hood. As a result, the size of the entire connector may be reduced.
As described above, in the platinum electrical connection connector according to the present invention, the shielding wall portion composed of the electrically conductive member opposed to the contact connecting portions, which are provided in the contact elements in the connector width direction are provided to extend along the longitudinal connector direction; each of the plurality of ground connection portions provided in the shield wall portion is disposed in the portion between the contact connection portions, which are adjacent to each other in the longitudinal connector direction; and the lateral verification window composed of a space which allows visual verification of the contact connection parts in the connector width direction is formed in the gap area in which the ground connection portions are adjacent to the one to the other in the longitudinal direction of connector. Therefore, the electromagnetic shielding function with respect to the contact connection parts is achieved by the shield wall portion, and at the same time the connection state, etc. contact connection portions with respect to the wiring board can be visually verified through the lateral check window provided in the shield wall portion. Therefore, the connection state, etc. Compared to the wiring board can easily be checked visually, and the reliability of the electrical connection platinum connector can be significantly increased at low cost.
Fig. 1 is an explanatory external perspective view showing, from an upper side, a first electrical connector (receptacle connector) according to an embodiment of the present invention;
Fig. 2 is an explanatory external perspective view showing, from a lower side, the first electrical connector (receptacle connector) according to the embodiment of the present invention shown in Fig. 1;
Fig. 3 is an explanatory plan view showing the first electrical connector (receptacle connector) according to the embodiment of the present invention shown in Fig. 1 and Fig. 2;
Fig. 4 is an explanatory front view showing the first electrical connector (receptacle connector) according to the embodiment of the present invention shown in Fig. 1 in Fig. 3;
Fig. 5 is an explanatory side view showing the first electrical connector (receptacle connector) according to the embodiment of the present invention shown in Fig. 1 in Fig. 4;
Fig. 6 is an enlarged explanatory cross-sectional view taken along a line VI-VI in Fig. 3;
Fig. 7 is an enlarged explanatory cross-sectional view taken along a line VII-VII in Fig. 3;
Fig. 8 is an explanatory cross sectional view taken along a line VIII-VIII in Fig. 3;
Fig. 9 is an explanatory external perspective view showing the first electrical connector (receptacle connector) according to the embodiment of the present invention shown in Fig. 1 in Fig. 8 in an exploded manner;
Fig. 10 is an explanatory external perspective view showing, from the upper side, a second electrical connector (plug connector) according to the embodiment of the present invention to be mapped to the first electrical connector (receptacle connector). shown in Figure 1 in Figure 9;
Fig. 11 is an explanatory external perspective view showing, from the bottom side, the second electrical connector (plug connector) according to the embodiment of the present invention shown in Fig. 10;
Fig. 12 is an explanatory plan view showing the second electrical connector (plug connector) according to the embodiment of the present invention shown in Fig. 10 and Fig. 11;
Fig. 13 is an explanatory front view showing the second electrical connector (plug connector) according to the embodiment of the present invention shown in Fig. 10 in Fig. 12;
Fig. 14 is an explanatory side view showing the second electrical connector (plug connector) according to the embodiment of the present invention shown in Fig. 10 in Fig. 13;
Fig. 15 is an enlarged explanatory cross-sectional view taken along a line XV-XV in Fig. 12;
Fig. 16 is an enlarged explanatory cross-sectional view taken along line XVI-XVI in Fig. 12;
Fig. 17 is an explanatory cross sectional view taken along line XVII-XVII in Fig. 12;
Fig. 18 is an explanatory external perspective view showing the second electrical connector (plug connector) according to the embodiment of the present invention shown in Fig. 10 in Fig. 17 in an exploded manner;
Fig. 19 is an explanatory external perspective view showing, from the upper side, a state in which the first and second electrical connectors according to the embodiment of the present invention are in correspondence with each other;
Fig. 20 is an explanatory external perspective view showing, from the lower side, the state of mutual correspondence of the first and second electrical connectors shown in Fig. 19;
Fig. 21 is an explanatory plan view showing the state of mutual correspondence of the first and second electrical connectors shown in Fig. 19 and Fig. 20;
Fig. 22 is an explanatory front view showing the state of mutual correspondence of the first and second electrical connectors shown in Fig. 19 and Fig. 20;
Fig. 23 is an explanatory side view showing the state of mutual correspondence of the first and second electrical connectors shown in Fig. 19 and Fig. 20;
Fig. 24 is an enlarged explanatory cross-sectional view shown with wiring boards along a line XXIV-XXIV in Fig. 21;
Fig. 25 is an enlarged explanatory sectional view shown with the wiring board along a line XXV-XXV in Fig. 21;
Fig. 26 is an explanatory cross-sectional view shown with the wiring boards along a line XXVI-XXVI in Fig. 21;
Fig. 27 is an explanatory external perspective view showing a state positioned for mutual correspondence of the first and second electrical connectors according to the embodiment of the present invention;
Fig. 28 is an explanatory front view showing the state positioned for mutual correspondence of the first and second electrical connectors according to the embodiment of the present invention;
Fig. 29 is an explanatory side view showing the state positioned for mutual correspondence of the first and second electrical connectors according to the embodiment of the present invention;
Fig. 30 is an explanatory external perspective view showing an exemplary structure of a printed circuit board on which the first electrical connector (receptacle connector) is to be mounted; and
Fig. 31 is an explanatory external perspective view showing an exemplary structure of a printed circuit board on which the second electrical connector (plug connector) is to be mounted.
An embodiment to which the present invention is applied will be described in detail hereinafter on the basis of the drawings.
[Overall structure of the electrical connector device]
A platinum plug electrical connector device according to the embodiment of the present invention shown in the drawings is used to, for example, electrically connect to each other wiring boards, which are disposed in an electrical device. of different types such as a mobile phone, a "smartphone" type telephone, or a tablet-type computer, and comprises a receptacle connector 10 serving as the first electrical connector shown in FIG. 1 in FIG. 9 and a connector of FIG. plug 20 serving as the second electrical connector shown in Fig. 10 in Fig. 18. The receptacle connector (first electrical connector) 10 is mounted on a first wiring board P1 shown, for example, in Fig. 30; the plug connector (second electrical connector) 20 is mounted on a second wiring board P2 shown, for example, in Fig. 31; and when the two electrical connectors 10 and 20, which are in this mounted state, are arranged to oppose each other and are subjected to a matching operation, the first and second wiring boards described above P1 and P2 are electrically connected to each other.
In the description below, the matching direction of the receptacle connector (first electrical connector) 10 and the plug connector (second electrical connector) 20 is assumed to be the "up-down direction". The plug connector 20 is disposed in a position above the receptacle connector 10, which is disposed in a lower position in the up-down direction; in this opposite state in the up-down direction, a positioning operation is performed in a state in which the two electrical connectors 10 and 20 are in contact with each other as shown in Fig. 27 in the figure 29; when positioned in correspondence positions, the plug connector 20 is depressed in a downward direction; and as a result, the two electrical connectors 10 and 20 are made to be in a state of mutual correspondence as shown in Fig. 19 in Fig. 26.
Similarly, when the plug connector (second electrical connector) is pulled upward to the upper side with a suitable force from the correspondence state described above, the plug connector 20 is removed. from the receptacle connector on the lower side (first electrical connector) to the upper side.
[0027] The operations of matching / removing the plug connector (second electrical connector) 20 with / from the receptacle connector (first electrical connector) 10 in this manner are not limited to one embodiment by the one or more hands of an operator, but can be automatically performed by a template or a predetermined machine.
[0028] It should be noted that when the matching / removing of the two electrical connectors 10 and 20 with each other is to be performed, the plug connector (second electrical connector) 20 disposed in the side upper is in a vertically inverted state and is arranged to be opposed to the receptacle connector (first electrical connector) disposed in the lower side. However, in the description of the single plug connector, the description will be made in the state before inversion, in other words, in the state in which the plug connector 20 is mounted from the upper side to the second one. P2 wiring board arranged in the lower side.
The receptacle connector (first electrical connector) 10 and the plug connector (second electrical connector) 20, which constitute the platinum electrical connection connector device, respectively have insulative housings 11 and 21 extending in long, thin shapes. The insulating housings 11 and 21 have undergone, for example, a molding formation using a resin such as a plastic material, and a plurality of signal contact elements 13 and 23 are arranged along the longitudinal direction of the insulating housings 11 and 21 so as to form multipolar shapes at predetermined steps. The longitudinal direction of the insulating housings 11 and 21, which is the direction of arrangement of the signal contact elements 13 and 23, is hereinafter referred to as "longitudinal connector direction", and the short side direction perpendicular to the "direction" longitudinal "connector" and the "up-down direction" is referred to as "connector width direction".
As shown particularly in FIG. 9 and FIG. 18, each of these insulating housings 11 and 21 has base end portions 11a and 11a or 21a and 21a at the two end portions of the insulating housing. 11 or 21 in the longitudinal direction (longitudinal direction of connector). A central projecting portion 11b is provided for integrally bridging the connector width directional center portions of the base end portions 11a and 11a to each other in the longitudinal connector direction, and a central recessed portion 21b is provided for integrally bridging the connector width directional center portions of the base end portions 21a and 21a to each other in the longitudinal connector direction. In this manner, the base end portions 11a, 11a and 21a, 21a of the insulating housings 11 and 21 are in arrangement relationships in which the base end portions are opposed to each other in the longitudinal connector direction through the central projection 11b and the central recessed portion 21b, and electrically conductive shells 12 and 22 are attached to bridge the base end portions 11a and 11a to each other; The other and the base end portions 21a and 21a to each other.
The electrically conductive shells 12 and 22 constitute shield wall portions for the signal contact elements 13 and 14 described later, are formed by curved structures of electrically conductive elements formed by shaped metal members. of thin plate or equivalent, and are fixed to surround the outer peripheral portions of the insulating housings 11 and 21 described above and to clamp them on both sides in the longitudinal connector direction and the connector width direction. Here, the electrically conductive shells (shield wall portions) 12 attached to the receptacle connector side 10 (first electrical connector) are attached by press mounting from the upper side relative to the insulating housing 11; and, on the other hand, the electrically conductive hulls (shield wall portions) 22 attached to the plug connector side 20 (second electrical connector) are fixed by the insert molding relative to the insulating housing 21.
Similarly, at the central projecting portion 11b and the central recessed portion 21b of the insulating housings 11 and 21 described above, contact fixing grooves 11c and 21c, which form recessed grooves, are provided. in a recessed manner so as to be juxtaposed at constant intervals along the longitudinal connector direction, and the signal contact elements 13 and 23 and the power contact elements 14 and 24 are attached to the grooves of the connector. contact fixing 11c and 21c by press fitting and insert molding, respectively. The signal contact elements 13 and 23 therebetween are arranged at constant intervals so as to form multipolar shapes along the longitudinal connector direction, and the power contact elements 14 and 24 are arranged in positions external on both sides of the signal contact elements 13 and 23 in the multipole arrangement direction (longitudinal connector direction).
The overall configuration of the receptacle connector (first electrical connector) 10 and the plug connector (second electrical connector) 20 is similar to that described above, and the configuration and the detailed layout relationship of each part will be described below.
First of all, each of the signal contact elements 13, which are fixed on the insulating housing 11 of the receptacle connector (first electrical connector) 10 by press fitting, and signal contact elements 23, attached to the insulative housing 21 of the plug connector (second electrical connector) 20 by insert molding, has an arrangement relation in which two electrode rows extend approximately parallel along the longitudinal direction of Connectors are formed for the electrical connector 10 or 20. The signal contact elements 13 and 13 or the signal contact elements 23 and 23 constituting the two electrode rows have a relation of arrangement so as to be symmetrically opposite one another. one to the other in the direction of connector width. The description below describes the signal contact elements 13 and 13 and the signal contact elements 23 and 23, which have these symmetrical disposition relationships, in the same manner without distinguishing them.
[0035] [Receptacle connector contact elements]
More specifically, first of all, particularly as shown in FIG. 7, at the central protruding portion 11b of the insulating housing 11 on which the signal contacting elements 13 on the receptacle connector side 10 (first connector electrical) are fixed, a separator plate 11d that protrudes from a bottom surface plate to the upper side is provided in the portion between the two electrode rows described above, in other words, at the level of a center portion of connector width direction so as to form a strip-shaped plate and extend along the longitudinal connector direction. This dividing plate 11d forms the groove bottom portions of the contact fixing grooves 11c described above, and in the spatial portions between the dividing plate 11d and the longitudinal sidewall portions 11c and 11c, which are provided to stand in the connector width direction on both sides of the partition plate 11d, the pair of signal contact elements 13 and 13 constituting the electrode rows in both sides is arranged in a positional relationship in they are opposed to each other so as to form symmetrical shapes in the connector width direction.
Each of these signal contact elements 13 is formed by a strip-shaped member made of metal which is folded to extend to form a curved shape from the connector center side to the outer side in the connector width direction, and the signal contact element 13 is fixed to the contact fixing groove 11c described above by press fitting from the lower side. The signal contact element 13 is formed such that a recessed portion of correspondence 13a, which is bent and shaped to extend into an approximately forme-shaped shape, is recessed so as to form a recessed shape at level of a central connector side portion near the partition plate 11d described above; and a part of the signal contact element 23 of the plug connector (second electrical connector) 20, which is a corresponding associated part, is configured to be inserted into and received by the interior space of the recessed matching portion 13a from the upper side.
More specifically, the recessed portion 13a of correspondence of the signal contact element 13 extending to form the approximately U-shaped shape as described above has an outer rising side portion 13c and a rising side portion. 13d, which rise to the upper side of both sides of a lower side portion 13b extending in the connector width direction. Of the rising side portions of the two inner / outer sides 13c and 13d, the outer rising side portion 13c, which is disposed in the outer side in the connector width direction, is made to be in a fixed state by press fitting. from the lower side into the contact fixing groove 11c, which is recessed in the longitudinal side wall portion lie described above. The lower side portion 13b described above extends in a cantilevered form from the outer rising side portion 13c, which is in the stationary state, towards the central connector side (inner side), and the The inner rising side portion 13d also extends into a cantilevered shape through the lower side portion 13b. The inner rising side portion 13d is arranged to be close to the dividing plate 11d in the connector center side and is configured to be resiliently movable in the connector width direction relative to the outer rising side portion. 13c, which is in the fixed state as described above.
The upper end portion of the inner rising side portion 13d, which is disposed in the central connector side, has been folded to extend to form a curved shape towards the interior space of the portion recessed recess 13a described above, and a projection-shaped contact portion 13e is formed at a portion of the curved folded portion which bulges to the interior space of the recessed recess portion 13a. The protruding contact portion 13e is configured to have a relationship in which, when a portion of the signal contact element 23 of the plug connector (second electrical connector) 20 is inserted into the interior space of the portion With the recess 13a in the manner described above, the protruding contact portion 13e contacts and is electrically connected to the portion of the signal contact member 23. This point will be described in detail later.
On the other hand, the outer rising side portion 13c, which is disposed in the outer connector side, is caused to be in an isolated state in which the outer rising side portion 13c is inserted and embedded in the wall portion. Longitudinal lateral connection as described above. In other words, as shown in FIG. 25, without being electrically in contact with the signal contact element 23 of the plug connector (second electrical connector) 20, which is a corresponding associated part, the inner surface The longitudinal sidewall portion 11c is configured to engage and press against a portion of the signal contact member 23, which is inserted into the interior space of the recessed portion 13a of correspondence.
In this way, the signal contact elements 13 of the receptacle connector (first electrical connector) 10 are configured such that the protruding contact portion 13e in each location is provided for each of the recessed portions of corresponding 13a of the signal contact elements 13, and a signal transmission with respect to the signal contact element 23 of the plug connector (second electrical connector) 20 is configured to be effected via the contact portion in the form of projection 13e, which is provided in each location for each of the signal contact elements 13.
Likewise, the outer rising side portion 13c of the signal contact element 13 like this is raised from the lower side portion 13b described above to the upper surface position of the receptacle connector (FIG. first electrical connector) 10, bulges to the connector outer side, is then inverted U-shaped folded to be reversed to the lower side, and, in the lower surface position of the receptacle connector 10, is folded to again approximately at right angles to the connector outer side and formed into a platen connection leg portion (contact connection portion) 13f. The platen connecting leg portion 13f extends approximately horizontally toward the outer side in the connector width direction and is configured to be soldered to an electrically conductive signal transmission path (signal pad) Pla on the first wiring board PI as shown particularly in Fig. 30 when the receptacle connector 10 is mounted on the first wiring board Pl. The solder connection of the platen connecting leg portions 13f is collectively performed to all platen connection leg portions 13f using a weld material having a long form.
In addition, in each of the outer positions of the two sides in the arrangement direction of the multipolar form of the above-described plurality of signal contact elements 13 and 13, and so on, the pair of Feed contact elements 14 and 14 are attached to the contact fixing grooves 11c of the central projecting portion 11b. The feed contact elements 14 and 14 basically have similar configurations to the signal contact elements 13 described above with the exception of the structures of the contact portions and have an arrangement relation in which the contact elements of 14 and 14 are opposed to each other so as to form symmetrical shapes in the connector width direction in both sides enclosing the partition plate 11d.
Each of these feed contact members 14 is also formed by a strip-shaped member made of metal which is folded to form a curved shape and extend from the width direction connector center side. to the outer side, and, as shown particularly in FIG. 9, a plate width size W1 of the supply contact element (or the ground contact element) 14 is established to have a size which is several times a plate width size W2 of the signal contact element 13 described above or above (W1> W2).
Likewise in the feed contact element 14 such as this, at a central connector side portion near the separating plate 11d described above as shown in FIG. 6, a recessed recess portion 14a recessed to form a recessed shape is bent and shaped to extend in an approximately U-shaped shape, and a portion of the supply contact member 24 of the plug connector (second electrical connector 20), which is a corresponding associated portion, is configured to be received to be inserted from the upper side into the interior of the recessed recess portion 14a.
More specifically, the recessed portion 14a of the feed contact member 14 extending to form the approximately U-shaped shape as described above has an outer rising side portion 14c and a side portion thereof. inner riser 14d, which rise towards the upper side of both sides of a lower side portion 14b extending in the connector width direction. Of the rising side portions of the two inner / outer sides 14c and 14d, the outer rising side portion 14c, which is disposed in the outer side in the width direction of the connector, is made to be in a fixed state by press fitting. from the lower side into the contact fixing groove 11c, which is recessed in the longitudinal side wall portion lie described above. Likewise, the inner rising side portion 14d extends in a cantilevered form from the outer rising side portion 14c, which is in this fixed state, through the lower side portion 14b described above. . The inner riser 14d is arranged to be close to the separator plate 11d in the connector center side and is configured to be resiliently movable in the connector width direction relative to the outer riser 14c which is in the fixed state as described above.
The upper end portion of the inner rising side portion 14d, which is disposed in the central connector side, has been bent so as to extend to form a curved shape towards the interior space of the recessed portion of correspondence 14a described above, and a projection-shaped contact portion 14e is formed at a portion of the folded portion of curved shape which bulges to the interior space of the recessed recess portion 14a . The protruding contact portion 14e is configured to have a relationship in which, when a portion of the supply contact element 24 of the plug connector (second electrical connector) 20, which is a corresponding associated portion, is inserted in the interior space of the recessed abutment portion 14a in the manner described above, the protruding contact portion 14e contacts and is electrically connected to the portion of the supply contact member 24 This point will be described in detail later.
On the other hand, a recessed-shaped contact portion 14f is formed in an intermediate position of the portion in which the outer rising side portion 14c, which is disposed in the outer connector side, extends into the up-down direction. The recessed-shaped contact portion 14f is configured to contact and be electrically connected to a portion of the supply contact member 24 when the portion of the supply contact member 24 of the plug connector ( second electrical connector) 20, which is a corresponding associated part, is inserted into the interior space of the recessed recess portion 14a in the manner described above. This point will also be described in detail later.
In this manner, the feed contact element 14 of the receptacle connector (first electrical connector) 10 is configured to be provided with the contact portions in two locations comprising the protruding contact portion 14e and the a recessed contact portion 14f for the recessed recess portion 14a of each of the supply contact elements 14, and the supply of supply currents is configured to be made with respect to the supply contact element 24 of the plug connector (second electrical connector) 20, which is a corresponding associated part, through the contact portions 14e and 14f in both locations.
Similarly, the outer rising side portion 14c of the feed contact element 14 described above is raised to the upper surface position of the receptacle connector (first electrical connector) 10, is then folded to be reversed to the lower side while bulging to the connector outer side, and, in the lower surface position of the receptacle connector 10, is bent at approximately right angles to the connector outer side and formed into a platinum connection bracket part (contact connection part) 14g. The platen connector lug portion 14g extends approximately horizontally toward the outer side in the connector width direction and is configured to be soldered to an electrically conductive power supply (signal pad) Pib on the first wiring board PI in a case of mounting of the receptacle connector 10. The soldering junction of the platen connection leg portions 14g is collectively performed for all the platen connection leg portions 14g using a solder material having a long form.
[0050] [Plug connector contact elements]
Then, the central recessed portion 21b of the insulative housing 21 of the plug connector (second electrical connector) 20 has a pair of longitudinal sidewall portions 21d and 21d extending approximately parallel along the longitudinal connector direction (direction d). multipolar shape arrangement), and the signal contact elements 23 and the supply contact elements 24 are attached to the contact fixing grooves 21c having recessed groove shapes, which are arranged at constant intervals along the the longitudinal connector direction of the longitudinal side wall portions 21d, by insert molding so as to form two rows of electrode. The signal contact elements 23 and the power contact elements 24 constituting the two electrode rows are in an arrangement relationship in which they are symmetrically opposed to each other in the connector width direction.
More specifically, at the central recessed portion 21b of the insulating housing 21 on which the signal contact elements 23 and the feed contact elements 24 are fixed, particularly as shown in FIG. 15 and FIG. 16, the portion between the two electrode rows described above, in other words, the portion between the longitudinal side wall portions 21d and 21d on both sides is formed into a recess-like space extending in the longitudinal connector direction, and the signal contact elements 23 and the feed contact elements 24 are fixed so as to be wound around the outer peripheral side of the longitudinal side wall portions 21d. Each pair of the signal contact elements 23 and 23 and each pair of the power contact elements 24 and 24 constituting the electrode rows on both sides are disposed in a positional relationship in which they are opposed to one to one. other so as to form symmetrical shapes in the connector width direction.
Each of the signal contacting elements 23 and the power contacting elements 24 is formed by a strip-shaped element made of metal which is bent to form an inverted U-shaped curved shape and is extending to cover top edge portions of the longitudinal side wall portions 21d described above, and particularly as shown in Fig. 18, the plate width size W3 of the contact member of The power supply 24 is set to have a size that is several times the plate width size W4 of the signal contact element 23 or more (W3> W4).
In this embodiment, in the present embodiment, the W1 or W3 width size of the strip-shaped elements constituting the feed contact element 14 or 24 is formed to be larger than the width size. W2 or W4 of the strip-shaped element constituting the signal contact element 13 or 23 (W1, W3> W2, W4). Therefore, the match holding force by the feed contact element 14 or 24 is configured to be higher compared to the signal contact element 13 or 23.
In particular, in the present embodiment, since the supply contact elements 14 and 24 having the large correspondence retaining force compared to the signal contact elements 13 and 23 are configured to be disposed at the four corners. in a plan view of the electrical connector device, the supply contact elements 14 and 24 have functions of simple locking mechanisms with respect to the correspondence of the two electrical connectors 10 and 20.
In each of the signal contact elements 23 and the feed contact elements 24, the portion which forms an inverted U-shape and protrudes towards the upper side is formed into a matching projection portion 23a or a portion thereof. projection of correspondence 24a. Matching projection portions 23a and matching projection portions 24a are configured to be inserted from the top side into the recessed recess portions 13a and the recessed recess portions 14a, which are provided in the signal contact members 13a. and the supply contact elements 14 of the receptacle connector (first electrical connector) 10, which is a corresponding associated part, and to be received when the signal contact elements 13 and the supply contact elements 14 are moved. in an elastic way.
Here, corresponding projection portions 23a and the corresponding projection portions 24a, which form the inverted U-shaped shapes in the signal contact elements 23 and the feed contact elements 24 described above have inner wall surfaces of the connector center side and outer wall surfaces of the connector outer side extending approximately parallel in the up-down direction; and, of the two inner / outer connector wall surfaces, on each of the inner wall surfaces of the mating projection portions 23a, a recess-shaped contact portion 23b is formed. The recess-shaped contact portions 23b on the plug connector side 20 are configured to come into elastic contact and to be electrically connected to the protruding contact portions 13e on the receptacle connector side 10 when the two electrical connectors 10 and 20 are in correspondence with each other, the corresponding projection portions 23a and 24a of the signal contact elements 23 and the power contact elements 24 provided in the plug connector (second electrical connector) 20 being inserted into the interior spaces of the recessed matching portions 13a and 14a of the signal contacting elements 13 and supply contacting elements 14 provided in the receptacle connector (first electrical connector) 10 described above.
On the other hand, the outer wall surface of the matching projection portion 23a provided in the signal contact member 23 extends to form a flat surface shape. As shown in Fig. 25, the outer wall surface of the matching projection portion 23a, which is provided to form the flat surface shape in the side of the plug connector 20, is configured to be fed into a state in which it comes into contact and is pressed against the inner wall surface of the longitudinal side wall portion lie, which is provided in the insulating housing 11 in the receptacle connector (first electrical connector) side 10 described above. above, from the central connector side, thereby obtaining an isolated state in which an electrical connection is not established when the two electrical connectors 10 and 20 are in correspondence with each other, the corresponding projection portion 23a of the signal contact element 23 provided in the plug connector (second electrical connector) 20 being inserted into the interior space of the connector part 13a of the signal contact element 13, which is provided in the receptacle connector (first electrical connector) 10 described above.
In this way, in the present embodiment, when the two electrical connectors 10 and 20 are in correspondence with each other, the protruding contact portion 13e of the signal contact element 13 is configured to be pressed against the recess-shaped contact portion 23b on the plug connector side 20, which is a corresponding associated portion, by a portion of the insulative housing 11 in which the signal contact member 13 of the connector receptacle (first electrical connector) 10 is tightened. As a result, the electrical connectivity of the contact portion is improved, and impedance matching of the signal transmission using the dielectric property of the insulating housing 11 can be achieved.
Furthermore, the signal contact elements 13 and 23 provided in the two electrical connectors 10 and 20 described above are configured to be electrically connected to each other only by the contact portion in a single a location comprising the protruding contact portion 13e and the recess-shaped contact portion 23b disposed in the connector center side, and a signal transmission is configured to be effected through the contact portion in 1 unique location.
On the other hand, a projection-shaped contact portion 24c is formed in an intermediate position of the up-down directional extension of the connector outer sidewall surface of the matching projection portion 24a provided. in the supply contact element 24. The protruding contact portion 24c on the plug connector side 20 is configured to be in a relationship in which it contacts and is electrically connected to the contact portion recess shape 14f provided in the supply contact element 14 on the receptacle connector side 10 (first electrical connector) when the two electrical connectors 10 and 20 are in correspondence with each other, and the result is that the corresponding projection portion 23a of the signal contact element 23 provided in the plug connector (second electrical connector) 20 is inserted into the interior space of the Corresponding recessed tie 13a of the signal contact element 13 provided in the receptacle connector (the first electrical connector) 10 described above.
In this way, the supply contact elements 14 and 24 respectively provided in the two electrical connectors 10 and 20 are configured to be electrically connected to one another via the contact portions in two location s comprising the contact portion of the inner side, which comprises the projection-shaped contact portion 14e and the flat surface portion disposed in the connector center side, and the outer-side contact portion, which comprises the in the form of a recess 14f and the projection-shaped contact portion 24c disposed in the connector outer side, and supply currents are configured to be delivered through the contact portions at both locations.
According to the present embodiment as described above, a signal transmission is performed by the protruding contact portion 13e and the recess-shaped contact portion 23b, which are provided in a location for the recessed matching portion 13a and the matching projection portion 23a of the signal contact elements 13 and 23. Therefore, interference in the high frequency transmission is more particularly reduced, and good transmission characteristics are obtained. On the other hand, the protruding contact portion 14e and the flat surface portion provided in the recessed recess portion 14a and the matching protrusion portion 24a of the supply contact elements (or contact contacts of FIG. 14 and 24 are brought into a mutually contacting state, and the protruding contact portion 24c and the recess-shaped contact portion 14f are brought into a mutually contacting state, and, therefore, a force sufficient correspondence hold is obtained.
Furthermore, the lower end portions of the inner wall surfaces of the corresponding projection portions 23a and 24a provided in the signal contact member 23 and the feed contact member (or the ground contact contacts 24 described above are folded approximately at right angles in the lower surface position of the plug connector 20 towards the connector outer side and are formed of platinum connection leg portions (contact connection parts). ) 23c and 24d. The platen connection leg portions 23c and 24d extend approximately horizontally toward the connector width direction outer side and are configured to be soldered to electrically conductive signal transmission paths (studs). signal) P2a and electrically conductive feed passages (feed pads) P2b on the second wiring board P2 as shown particularly in Fig. 31 in a case of mounting the plug connector 20. The solder joint platen connecting leg portions 23c and 24d are collectively made with respect to all platen connecting leg portions 23c and 24d using a long form solder material.
[0064] [Electrically conductive receptacle connector shells]
Then, the electrically conductive shells 12 provided as shielding wall portions in the receptacle connector side 10 (first electrical connector) are formed by a frame-like structure divided into two bodies and are attached to the insulative housing 11 in a state in which they are arranged to be opposed so as to face each other. More specifically, each shell of the pair of electrically conductive shells (shield wall portions) 12 and 12 is formed by a thin plate-shaped metal folded member which forms an approximately L-shaped shape in a plan view, the plate longitudinal sidewall portion 12a constituting the long side portion of the shape which is approximately L-shaped in a plane in the electrically conductive shell 12 is arranged to extend along the longitudinal connector direction, and the plate the short side sidewall portion 12b constituting the short side portion of the shape which is approximately L-shaped in one plane is arranged to extend along the connector width direction. The longitudinal side wall plates 12a and 12a and the short side side wall plates 12b and 12b constituting the pair of electrically conductive shells 12 and 12 are disposed in a state in which they are opposed to each other approximately in parallel, and as a result of this opposite arrangement relationship, the frame structure which forms an approximately rectangular shape as an overall shape in a plan view is formed.
Here, on an upper edge portion of the short side side wall plate 12b of the electrically conductive shell (shield wall portion) 12, a pair of fastening locking pieces 12c and 12c is provided with a predetermined interval between them. Each of the attachment lock pieces 12c constitutes an auxiliary hood as will be described later, is folded so as to bulge from the upper edge portion of the short side side wall plate 12b to the center connector side (side interior), and is then formed into an inverted U-shaped bent curved shape, which is inverted to the lower side. When the two attachment locking pieces 12c and 12c are press-fitted from the upper side relative to the base end portion 11a of the insulating housing 11 described above, the entire electrically conductive shell 12 is brought into a fixed state with respect to the insulating housing 11.
On the other hand, on the lower edge portions of the longitudinal side wall plates 12a and the short side side wall plates 12b of the electrically conductive shells (shield wall portions) 12, a plurality of connection portions 12d ground mass comprising plate-shaped projections protruding towards the lower side towards the surface of the first wiring board P1 is formed. The plate-shaped projections constituting the ground connection portions 12d are formed so as to be continuous to have the surfaces which are flat on the longitudinal side wall plate 12a or the short side side wall plate 12b and extend in the plate thickness of the longitudinal side wall plate 12a or the short side side wall plate 12b.
In this way, in the receptacle connector (first electrical connector) 10 according to the present embodiment, the ground connection portions (plate-shaped protruding parts) 12d of the electrically conductive shells (shielding wall portions 12 are arranged in a state in which they are in the range of the plate thickness of the electrically conductive shells 12 and are configured not to bulge towards the outer side of the electrically conductive shells 12. The entire connector may therefore be reduced.
It should be noted that the lower end portions of the ground connection portions 12d described above are electrically connected to the electrically conductive ground-massing passages Pic, which are provided on the surface of the first PI wiring board, by solder connection therewith, and the solder joint of the ground connection parts 12d in this case is collectively performed for all the ground connection parts 12d using a solder material having a long form.
Since the electrically conductive shells (shield wall portions) 12 composed of frame structures having an approximately rectangular shape in the plane are formed so as to surround the entire outer periphery of the insulative housing 11, an electromagnetic shield with respect to signal contact elements 13 fixed on the insulating housing 11 is made.
In particular, there is an arrangement relation such that, in the positions having predetermined intervals in the connector width direction, the platen connection leg portions (contact connection portions) 13f of the contact elements 13, described above, the longitudinal side wall plates 12a of the electrically conductive shells (shield wall portions) 12 are provided to stand on the surface of the first wiring board P1. longitudinal sidewall 12a of the electrically conductive shells 12 are opposed to the outer end surfaces of the platen connecting leg portions 13f of the signal contacting elements 13 and extend in the longitudinal connector direction (shape arrangement direction multipolar), the electromagnetic shielding with respect to the entire signal contact elements 13 The platen connector lug portions 13f are configured to be made in a state in which impedance matching is suitably accomplished through the spatial portions between the platen connector lug portions 13f described herein. and longitudinal side wall plates 12a of electrically conductive shells 12.
[Lateral Verification Window]
On the other hand, the plurality of ground connection portions (plate shaped projections) 12d provided on the longitudinal side wall plates 12a of the electrically conductive shells (shield wall portions) 12 described above are arranged at intervals. constant in the longitudinal connector direction (multipole-shaped layout direction), and, in the region of the gap between the pair of ground connection portions 12d and 12d, which are adjacent to each other in the the longitudinal connector direction, a lateral verification window 12e comprising the space which allows a visual verification of the platen connection leg portions (contact connection portions) 13f of the signal contact element 13 in the direction of connector width is formed.
More specifically, the earth connection portions 12d provided in the electrically conductive shells (shield wall portions) 12 are in an arrangement relation in which the installation positions thereof in the longitudinal connector direction. are offset with respect to the platen connection leg portions (contact connection portions) 13f of the signal contact elements 13, and there is a relationship such that the ground connection portion 12d is disposed in the portion between the platen connection leg portions 13f and 13f which are adjacent to each other in the longitudinal connector direction. In the portion between the pair of ground connection portions 12d and 12d which are adjacent to one another in the longitudinal connector direction, a laterally long spatial portion formed by the ground connection portions 12d and 12d and the The lower edge portion of the longitudinal sidewall plate 12a of the electrically conductive shell 12 is formed, and the laterally long spatial portion is formed as the side verification window 12e described above.
The longitudinal connector length direction of the lateral verification window 12e according to the present embodiment is formed to correspond to the length in which the plurality (three) of platinum connecting leg portions (connection portions of contact) 13f is juxtaposed. In a case in which a mounting operator performs a visual check towards the connector width direction through the side check window 12e, the end faces of the plurality (three) of platen connector leg portions 13f are configured to be visually verified in the interior area of the side check window 12e.
[Bonnot plan]
On the other hand, a planar hood 12f, which extends approximately horizontally, is in continuity with the upper edge portion of the longitudinal side wall plate 12a of the electrically conductive shell (shield wall portion) 12 described herein. -above . The planar hood 12f is formed to be bent approximately at right angles from the upper edge portion of the longitudinal side wall plate 12a to the connector center side (interior side) and extends approximately horizontally so as to covering, from the upper side, the spatial portion which is formed from the longitudinal side wall plate 12a to the vicinity of the distal ends of the platen connecting leg portions (contact connecting portions) 13f of the signal contact elements 13.
In this way, according to the present embodiment, the electromagnetic shielding function with respect to the platen connection leg portions (contact connection portions) 13f of the signal contact elements 13 is perfectly obtained by the shells. In particular, since the electrically conductive shells 12 of the receptacle connector (first electrical connector) 10 according to the present embodiment are provided with planar hoods 12f, which cover the upper surface of the housing. insulator 11 approximately parallel to the first wiring board PI, the electromagnetic shielding function with respect to platen connection leg portions 13f is further enhanced by the planar hoods 12f.
The pair of planar hoods 12f are disposed in both sides clamping the central projecting portion 11b of the insulating housing 11 in the connector width direction so that they are opposed to each other, and a plurality of Cover coupling portions 12g are provided on the inner edge portion of the central connector side of each of the planar hoods 12f so as to have constant gaps in the longitudinal connector direction. Each of the hood coupling portions 12g is formed by a plate-shaped protruding piece which protrudes approximately horizontally towards the central connector side, and the hood coupling portions 12g are supported so as to be placed on parts of the housing. receiving 11f, which are formed to form frame shapes on the longitudinal sidewall portions 11b of the central projecting portion 11b from the upper side. Since the hood coupling portions 12g like these are provided, a reinforcement in an insertion / removal case of the receptacle connector (first electrical connector) 10 and the plug connector (second electrical connector) 20 is provided.
The plate-shaped projections constituting the hood coupling portions 12g are formed so as to have the surfaces flat on the planar covers 12f and in the continuity thereof and extend in the thickness of flat cover plate 12f. In this manner, the hood coupling portions 12g provided at the planar hoods 12f in this manner are disposed in the state in which they are in the range of the plate thickness of the flat hoods 12f and do not bulge towards the outer side of 12f flat covers. As a result, the height of the entire connector can be reduced.
Furthermore, the plurality of hood coupling portions 12g provided at the plane cover 12f is arranged at constant intervals in the longitudinal connector direction as described above, and in the area of 1 '. a gap between the pair of hood coupling portions 12g and 12g which are adjacent to each other in the longitudinal connector direction, a planar test window comprising the space which allows visual verification of the connecting leg portions platinum (contact connection portions) 13f of the signal contact elements 13 in the downward direction is formed.
More specifically, the hood coupling portions 12g provided in the electrically conductive shells (shield wall portions) 12 described above are in a layout relationship in which the installation positions thereof in the longitudinal connector direction are offset with respect to the platen connection leg portions (contact connection portions) 13f of the signal contact elements 13, and there is a relationship such that the hood coupling portion 12g is disposed in the portion between the platen connection leg portions 13f and 13f, which are adjacent to each other in the longitudinal connector direction. In the portion between the pair of hood coupling portions 12g and 12g, which are adjacent to each other in the longitudinal connector direction, a laterally long spatial portion formed by the hood coupling portions 12g and 12g and the inner edge portion of the planar bonnet 12f of the electrically conductive shell 12 is formed, and the laterally long spatial portion is formed as the 12h planar inspection window described above.
The longitudinal guide length of connector 12h of the planar check window according to the present embodiment is formed to correspond to the length in which the plurality (three) of platinum connecting leg portions (parts of contact connection) 13f is juxtaposed. In a case in which a mounting operator performs a visual check downwardly through the plane check window 12h, the end surfaces of the plurality (three) of platen connector leg portions 13f are configured. to be visually verified in the inner area of the 12h flat check window.
In this embodiment, in the present embodiment, thanks to the lateral verification windows 12e and the flat verification windows 12h provided in the electrically conductive shells 12, the connection state of the platinum connection leg portions (FIG. contact connection portions) 13f with respect to the electrically conductive signal transmission passages (signal pads) Pla of the first wiring board P1 and the connection state of the connectors are configured to be visually verified from the lateral side and the upper side.
[Contacting matter]
Furthermore, on the plane cover 12f of the electrically conductive shell 12 described above and the part folded and extending downwardly from the plane cover 12f to the longitudinal side wall plate 12a, contact parts made of The spring leaf form 12i, which resiliently engage the corresponding associated portion, is integrally formed so as to be cut and lifted. The plurality of contact pieces 12i are formed at constant intervals in the longitudinal connector direction, the base portions of the leaf spring members constituting the contact pieces 12i are provided in the planar hood side 12f, and the parts Distal end portions of the leaf spring members are formed to obliquely bulge toward the connector width direction outer side from the outer surface of the longitudinal side wall plate 12a.
There is a relation of arrangement such that, when the plug connector (second electrical connector) 20 is in correspondence with the receptacle connector (first electrical connector) 10 from the upper side, the distal end portions of the 12i contact parts described above are in elastic contact with the electrically conductive shells of the plug connector 20 (described later) from the inner side. This point will be described in detail later.
It should be noted that each of the contact pieces 12i described above is disposed at the portion between the pair of hood coupling portions 12g and 12g, which are adjacent to each other in the longitudinal direction of connector. Since the contact pieces 12i are in the arrangement relation in which the contact pieces 12i are staggered in position in the longitudinal connector direction relative to the cover coupling portions 12g in this manner, the pressure force applied to the pieces contact 12i does not act directly on the hood coupling portions 12g, and as a result, the resistance of the hood coupling portions 12g is maintained.
On the other hand, the surface of the planar hood 12f provided at the level of the longitudinal side wall plate 12a of the electrically conductive shell (shield wall portion) 12 in the manner described above. is formed into a sliding guide surface which allows mutual contact movement when the two electrical connectors 10 and 20 are to be in correspondence with each other. In addition, with respect to the surface of the plane cover 12f formed on the sliding guide surface in this manner, the upper surfaces of the fixing locking pieces 12c and 12c in continuity with the upper edge portion of the side wall plate the short side 12b of the electrically conductive shell 12 are arranged to be approximately the same height as the surface of the planar hood 12f, and the upper surfaces of the fixing lock pieces 12c are also formed as sliding guide surfaces when the two electrical connectors 10 and 20 must be in correspondence with each other. In this way, the fastening locking pieces 12c provided in the electrically conductive shell 12 are provided with the configuration such as the auxiliary cover with respect to the plane cover 12f, and the plane cover 12f and the auxiliary cover 12c constitute a guide surface. sliding.
The electrically conductive hull surfaces 22 described later of the plug connector (second electrical connector) 20 are configured to contact, from the upper side, and slide on the planar covers 12f and the auxiliary covers (the parts). 12c constituting the sliding guide surface, and guiding to a predetermined matching position is performed. This point will also be described in detail later.
[0087] [Electrically conductive hulls of the plug connector] On the other hand, the electrically conductive shells 22 provided as shield wall portions in the plug connector side (second electrical connector) 20 are also formed by a shaped structure. The frame is divided into two bodies and is fixed to the insulating housing 21 in a state in which they are arranged to face each other so as to face each other. More specifically, each shell of the pair of electrically conductive shells (shield wall portions) 22 and 22 is formed by a thin plate shaped metal member approximately forming a U shape in a plan view, and the plate Longitudinal sidewall portion 22a constituting the long side portion of the approximately planar shape of each of the electrically conductive shells 22 is arranged to extend along the longitudinal connector direction.
Moreover, at the portions of the two longitudinal longitudinal connector ends of the longitudinal side wall plate 22a described above, the fastening locking pieces 22b and 22b, which are folded approximately at right angles to the electrically conductive shell 22 on the other side arranged to be opposed thereto, are in one piece in continuity with it. The fastener locking pieces 22b and 22b of each of the electrically conductive shells 22 extend in the connector width direction and are embedded in the base end portions 21a and 21a, which constitute the longitudinal direction edge portions. connector 21 of the insulating housing, by insert molding, thereby causing the entire electrically conductive shell 22 to be in a state fixed to the insulating housing 21.
Here, engagement holes 22f for positioning relative to the insulative housing 21 and increasing an attachment locking force are formed to penetrate through the fastening locking pieces 22b of each of the electrically conductive shells 22 described. above, and locking projections 21e provided on the base end portions 21a of the insulating housing 21 are molded to be in a state in which they penetrate through the engagement holes 22f of the electrically conductive shells 22 when the insert molding as described above is performed.
The longitudinal side wall plates 22a and 22a constituting the pair of electrically conductive shells (shield wall portions) 22 and 22 described above are arranged to be opposed to each other approximately in parallel, and the fastening locking pieces 22b and 22b constituting the short-side side wall plates are arranged to face each other in the connector width direction, thus constituting the frame structure which forms an approximately rectangular shape as an overall shape in a plan view.
In this way, in the plug connector side (second electrical connector) 20, the frame structure in which the pair of electrically conductive shells (shield wall portions) 22 and 22 form an approximately U-shaped a plane are arranged to be opposite each other is formed. On the other hand, in the receptacle connector (first electrical connector) side 10 described above, the frame structure in which the pair of electrically conductive shells (shield wall portions) 12 and 12 form an approximately L in a plane is arranged is formed. Therefore, in a state in which the two electrical connectors 10 and 20 are in correspondence with each other, the spaces generated by disposing the electrically conductive shells 12 and 12 of the receptacle connector side 10 to be opposed 1 ' each is covered by the electrically conductive shells 22 on the plug connector side 20 from the outer side, and the spaces generated by arranging the electrically conductive shells 22 and 22 on the plug connector side 20 to be opposed to each other. each other is covered by the electrically conductive shells 12 on the receptacle connector side 10 from the inner side. As a result, a state in which the entire periphery of the electrical connector device is completely covered by the shield wall portions is obtained so that an extremely good shield function is obtained.
On the other hand, a plurality of ground connection portions 22c, which consist of plate-shaped protruding pieces protruding on the lower side towards the surface of the second wiring board P2, is formed on the parts. lower edge edge of the longitudinal side wall plates 22a and the fastening locking pieces (short side side wall plates) 22b of the electrically conductive shells (shield wall portions) 22. The plate-shaped protruding piece constituting each of the mass connecting portions 22c are formed to have the surface flat on the longitudinal side wall plate 22a or the fixing lock piece (short side side wall plate) 22b and in continuity, and the protruding piece in the form of a plate extends in the plate thickness of the longitudinal side wall plate 22a or the fixing locking piece (wall plate). short side ateal) 22b.
In the plug connector (second electrical connector) 20 according to the present embodiment, the fastening locking pieces (short side side wall plates) 22b provided at the portions of the two ends of the side wall plates. longitudinal 22a electrically conductive hulls (shield wall portions) 22 are subjected to insert molding so as to be embedded in the base end portions 21a of the insulating housing 11. Therefore, the electrically conductive shells 22 arranged in the state in which the electrically conductive shells 22 are housed in the range of the total length of the insulating housing 21 do not bulge towards the outer side of the insulating housing 21 so that the entire connector is decreased in the longitudinal direction of connector. In addition, in the present embodiment, the ground connection portions (plate-shaped protrusions) 22c of the electrically conductive shells (shield wall portions) 22 are disposed in the state in which they are in the range. Accordingly, the ground connection portions 22c do not bulge toward the outer side of the electrically conductive shells such that the entire connector is further reduced in size also in the direction of the electrically conductive hulls 22. of connector width.
It should be noted that the lower end portions of the ground connection parts 22c described above are electrically connected when they are connected by welding with the electrically conductive grounding passages (ground pads) P2c provided on the the surface of the second wiring board P2, and the solder joint of the ground connection parts 22c in this case is collectively made with respect to all the ground connection portions 22c using a long-form solder material. .
Since the electrically conductive hulls (shield wall portions) 22 including the frame structure having the approximately rectangular planar shape are formed to surround the entire outer periphery of the insulating housing 21, an electromagnetic shield with respect to the elements of the signal contact 23 fixed on the insulating housing 21 is made.
In particular, the longitudinal side wall plate 22a of the electrically conductive shell (shield wall portion) 22 is in an arrangement relationship in which the longitudinal side wall plate 22a is on the surface of the second platen. in a position which has a predetermined interval in the connector width direction of the platinum connector leg portions (contact connection portions) 23c of the signal contact elements 23 described above. More specifically, since the longitudinal side wall plate 22a of the electrically conductive shell 22 is opposed to the outer end surfaces of the platen coupling leg portions 23c of the signal contact elements 23 and extends in the longitudinal direction of connector (multipole-shaped layout direction), the electromagnetic shield with respect to the entire signal contact elements 23 comprising the platen connection leg portions 23c is configured to be perfectly realized in a state in which a match impedance is realized suitably through the space portion between the platen coupling flange portions 23c described above and the longitudinal side wall plate 22a of the electrically conductive shell 22.
As described above, in the present embodiment, in each of the receptacle connector (first electrical connector) 10 and the plug connector (second electrical connector) 20, the electromagnetic shielding function relative to to the platen connection leg portions (contact connection portions) 13f or 23c are configured to be obtained by the electrically conductive shells 12 or 22 provided as shield wall portions. When the two electrical connectors 10 and 20 are in correspondence with each other, the electrically conductive shells 12 and 22 are arranged doubly inside / out, and the space formed between the wall portion of the the shield formed by one of the electrically conductive hulls 12 and 22 and one of the wiring boards PI and P2 is partially covered by the shielding wall portion formed by the other of the electrically conductive hulls 12 and 22. Therefore, a shielding function extremely good is obtained for the electrical connector device. In particular, since the gaps between the electrically conductive shells 12 and 22 and the first and second wiring boards P1 and P2 can be effectively blocked, sufficient measured electromagnetic interference can be obtained.
[Lateral Verification Window]
On the other hand, the plurality of ground connection portions (plate-shaped protrusions) 22c provided on the longitudinal side wall plate 22a of the electrically conductive shell (shield wall portion) 22 described above is disposed at constant intervals in the longitudinal connector direction (multipole-shaped layout direction), and, in the region of the gap between the pair of earth connection portions 22c and 22c adjoining each other in the longitudinal connector direction, a side check window 22d including the gap which allows visual verification of the platen connection tab portions (contact connection portions) 23c of the signal contact elements 23 towards the connector width direction is formed.
More specifically, each of the ground connection portions 22c provided in the electrically conductive shell described above (shield wall portion) 22 is in an arrangement relation in which the installation position in the longitudinal direction of connector is offset with respect to the platen connection leg portions (contact connection portions) 23c of the signal contact elements 23, and there is a relationship such that the ground connection portion 22c is disposed in the portion between platen connection leg portions 23c and 23c, which are adjacent to each other in the longitudinal connector direction. In the portion between the pair of ground connecting portions 22c and 22c adjacent to each other in the longitudinal connector direction, a laterally long spatial portion formed by the ground connecting portions 22c and 22c and the The bottom edge of the longitudinal side wall plate 22a of the electrically conductive shell 22 is formed, and the laterally long spatial portion is formed as the side verification window 22d described above.
The length of the side check window 22d according to the present embodiment in the longitudinal connector direction is shaped to correspond to the length in which the plurality (three) of platinum connecting leg portions (parts 23c is juxtaposed so that when the mounting operator makes a visual check towards the connector width direction through the side check window 22d, the end surfaces of the plurality (three) platen connection leg portions 23c can be visually verified in the interior area of the side check window 22d.
In this way, in the plug connector (second electrical connector) 20 according to this embodiment also, the state of connection of the platen connection leg portions (contact connection portions) 23c with respect to electrically conductive signal transmission passages (signal pads) P2a of the second wiring board P2 and the assembly state of the connectors can be visually verified from the side side through the side inspection windows 22d provided in the shells electrically. Conductors 22.
On the other hand, when the two electrical connectors 10 and 20 are in correspondence with each other, the electrically conductive shells (shield wall portions) 22 provided in the plug connector (second electrical connector) 20 are arranged to cover the entire outer periphery of the receptacle connector (first electrical connector) from the outer side. In this process, there is an arrangement relation such that the inner wall surfaces of the electrically conductive shells 22 of the plug connector 20 are in resilient contact with the distal end portions of the contact pieces 12i, which are provided in the electrically conductive shells 12 of the receptacle connector 10 described above, from the outer side. As a result, the two electrically conductive shells 12 and 22 are made to be in a state of electrical ground connection.
More specifically, in the present embodiment, when the two electrical connectors 10 and 20 are in correspondence with each other, an electrical ground connection is established via the contact pieces 12i provided in FIG. the electrically conductive shells (shield wall portions) 12 of the receptacle connector (first electrical connector) 10. As a result, a ground resistance is reduced, and correspondingly shielding characteristics are improved.
On the other hand, the upper edge portions of the longitudinal side wall plates 22a of the electrically conductive shells (shield wall portions) 22 described above are formed as sliding guide surfaces. which allow mutual contact movement when the two electrical connectors 10 and 20 are in correspondence with each other. The longitudinal side wall plates 22a serving as sliding guide surfaces are in an arrangement relation in which they can contact the top covers of the planar hoods 12f, which are provided so as to form in a manner. Similarly, sliding guide surfaces on the electrically conductive shells 12 of the receptacle connector (first electrical connector) 10 described above. As shown in Fig. 27 in Fig. 29, positioning relative to the predetermined matching positions is configured to be achieved by bringing the longitudinal side wall plates 22a of the electrically conductive shells 22 of the plug connector head down (second electrical connector) 20 to be in a state in which they are arranged to contact, from the upper side, with the flat covers 12f of the electrically conductive shells 12 of the receptacle connector (first electrical connector) 10 disposed in the lower side and making relative sliding in the state in which the contact arrangement is maintained.
Here, in the corner areas at the four corners of the electrically conductive hulls (shield wall portions) 22 provided in the plug connector (second electrical connector) 20, in other words, at the parts where the longitudinal side wall plates 22a and fastening locking pieces 22b constituting the short side side wall plates are coupled, in total, four positioning portions 22e which regulate the two electrical connectors 10 and 20 in the matching positions are provided . Each of the positioning portions 22e is formed by a support-shaped protruding portion protruding from the upper edges of the longitudinal side wall plate 22a and the securing locking piece (short-side side wall plate) 22b for forming a step, and the positioning portion is formed to extend in the longitudinal connector direction and the connector width direction along the coupling shape of the longitudinal side wall plate 22a and the workpiece securing latch (short side side wall plate) 22b and forming an approximately L shape in a plane.
When a relative sliding is carried out in the state in which the longitudinal side wall plates 22a of the electrically conductive shells 22 of the plug connector (second electrical connector) 20 are arranged to make contact with, from the upper side, the planar covers 12f of the electrically conductive shells 12 of the receptacle connector (first electrical connector) 10 arranged in the lower side as described above to reach the predeterminable matching positions, the positioning parts 22e provided on the electrically conductive shells 22 in the side of the plug connector 20 are mounted in the four corner portions of the electrically conductive shells 12 on the receptacle connector side 10 from the outer side, and a positioning of the matching positions is configured to be realized thereby.
It should be noted that, in the state in which the two electrical connectors 10 and 20 are in correspondence with each other, the positioning parts 22e provided on the electrically conductive shells 22 of the plug connector (FIG. second electrical connector) 20 are arranged to oppose the surface of the first wiring board Pl on which the receptacle connector (first electrical connector) 10 is mounted, no electrically conductive passage, etc. being formed on the surface of the first wiring board Pl on which the positioning parts 22e are arranged to oppose them. Therefore, even when the heights of the two electrical connectors 10 and 20 are reduced, a situation in which the positioning parts 22 e come into contact with the surface of the first wiring board P 1 during coupling is avoided.
In this way, in the present embodiment, when the two electrical connectors 10 and 20 are to be in correspondence with each other, they are moved in a relative manner while the sliding surfaces 12f and 22a of the electrically conductive shells 12 and 22 of the two electrical connectors 10 and 20 are in mutual contact. Therefore, a relative movement of the electrical connectors 10 and 20 is perfectly achieved in a state of low friction.
When the relative movement between the electrical connectors 10 and 20 as described above is realized, the sliding guide surfaces 12f and 22a comprising electrically conductive elements such as metal are brought into a state mutually into position. contact. Therefore, compared with the contact state of other materials such as resin, problems in terms of service life such as erosion and breakage do not arise easily.
In addition, when a movement to the final matching positions is achieved, the positions are regulated by the positioning portions 22e provided on the electrically conductive shells (shield wall portions). matching is done smoothly.
[0111] The invention has been described in detail above based on the embodiment. However, the present invention is not limited to the embodiment described above, and it goes without saying that different modifications can be made in a range that does not deviate substantially from it.
For example, the leaf spring elements constituting the contact pieces 12i in the embodiment described above can be configured to provide the bottom end base end portions on the wall plates. longitudinal side 12a and to provide the distal end portions of the contact pieces 12i in the plane hood side 12f. In addition, the associated connection portions of the contact pieces 12i are not limited to the associated connector, and, for example, a configuration in which they are connected to an electrically conductive chassis of a device can also be used.
In addition, the power contact elements 14 and 24 in the embodiment described above can serve as contact elements for grounding.
Furthermore, the recess / protrusion correspondence relations between the contact elements 12 and 22 in the embodiment described above can be arranged in reverse relationships between the receptacle connector 10 and the plug connector 20.
As described above, the present invention can be widely applied to various platinum electrical connector connectors used in various electronic / electrical devices.

权利要求:
Claims (8)
[1" id="c-fr-0001]
An electrical platinum connection connector (10; 20) having a plurality of contact elements (13; 23) fixed to an insulating housing (11; 21), the contact elements (13; 23) being arranged forming a multipolar shape in a longitudinal connector direction, and a contact connecting portion (13f; 23c) provided in each of the contact members (13; 23) so as to extend in a connector width direction and electrically connected to a wiring board side; characterized by: a shielding wall portion (12; 22) including an electrically conductive member opposed to the contact connecting portion (13f; 23c) in the connector width direction, the shielding wall portion (12; 22) being provided to extend along the longitudinal connector direction; a plurality of ground connection portions (12d; 22c) electrically connected to the wiring board and formed in the shield wall portion (12; 22) along the longitudinal connector direction, each of the ground connection portions (12d; 22c) being disposed in a portion between adjoining contact connecting portions to each other in the longitudinal connector direction; and a lateral check window (12e) including a gap for visually checking the contact splice portion (13f; 23c) in the connector width direction, the side check window (12e) being formed in an area of an interval in which the ground connection portions (12d; 22c) are adjacent to each other in the longitudinal connector direction.
[2" id="c-fr-0002]
An electrical platinum connection connector (10; 20) according to claim 1, characterized in that the shield wall portion (12; 22) is formed by a plate-like member extending along the direction longitudinal connector; each of the ground connection portions (12d; 22c) is formed by a plate-shaped projection protruding from an edge portion of the shield wall portion (12; 22) toward the wiring board side; and the plate-shaped protruding member constituting each of the ground connection portions extends in a plate thickness of the plate-shaped member constituting the shield wall portion (12; 22).
[3" id="c-fr-0003]
An electrical platinum connection connector (10; 20) according to claim 2, characterized in that the plate-shaped projection has a flat surface on the shield wall portion (12; 22).
[4" id="c-fr-0004]
An electrical platinum connection connector (10; 20) according to any one of claims 1 to 3, characterized in that the shield wall portion (12; 22) is provided with a fixing locking piece ( 22b) extending to be bent from a longitudinal direction end connector portion of the shield wall portion (12; 22) to the connector width direction; and the fastening locking piece (22b) is embedded in a longitudinal direction-leading edge portion of the insulating housing (11; 21).
[5" id="c-fr-0005]
An electrical platinum connector (10; 20) according to any one of claims 1 to 4, characterized in that the shield wall portion (12; 22) is provided with a plane cover (12f) which partially covers, approximately parallel to the wiring board, a surface of the insulating housing (11; 21).
[6" id="c-fr-0006]
An electrical platinum connection connector (10; 20) according to claim 5, characterized in that a plurality of hood coupling portions (12g) connected to the insulating housing (11; 21) are provided in the plane cover (12f). ) along the longitudinal connector direction; each of the hood coupling portions (12g) is disposed in a portion between contact connecting portions (13f; 23c) adjacent to each other in the longitudinal connector direction; and a planar check window (12h) including a space for visually checking a contact connection portion (13f; 23c) in a direction perpendicular to the wiring board is formed in a gap area in which the portions bonnet coupling (12g) are adjacent to each other in the longitudinal connector direction.
[7" id="c-fr-0007]
An electrical platinum connection connector (10; 20) according to claim 5 or 6, characterized in that the shield wall portion (12; 22) or the plane cover (12 f) is integrally formed. with a contact piece (12i) having a leaf spring shape in resilient contact with a corresponding associated portion.
[8" id="c-fr-0008]
An electrical platinum connection connector (10; 20) according to claim 6 or 7, characterized in that the plane cover (12f) is formed by a plate-shaped member extending along the longitudinal connector direction. ; each of the hood coupling portions (12g) is formed to protrude from an edge portion of the flat cover to a central connector side; and each of the hood coupling portions (12g) extends in a plate thickness of the planar hood so as to have a flat surface on the planar hood and in continuity therewith.

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同族专利:

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公开号 | 公开日

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US9755372B2|2017-09-05|

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CN106410456B|2020-02-21|

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US20170033510A1|2017-02-02|

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DE102016112982A1|2017-02-02|

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TW201711309A|2017-03-16|

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JP6179564B2|2017-08-16|

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KR20170015125A|2017-02-08|

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TWI624119B|2018-05-11|

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KR101816410B1|2018-01-08|

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JP2017033654A|2017-02-09|

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CN205882212U|2017-01-11|

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CN106410456A|2017-02-15|

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法律状态:
2017-06-09| PLFP| Fee payment|Year of fee payment: 2 |

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2018-06-01| PLFP| Fee payment|Year of fee payment: 3 |

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2018-09-21| PLSC| Search report ready|Effective date: 20180921 |

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2020-04-10| RX| Complete rejection|Effective date: 20200305 |

优先权:

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申请号 | 申请日 | 专利标题

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JP2015149547A|JP6179564B2|2015-07-29|2015-07-29|Electrical connector for board connection|

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