JP2005209352A - Connector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connector preventing contact failure. <P>SOLUTION: An insulating film 3 having a conductor pattern 32 corresponding to a conductor pattern 92 of a connector 1 is fixed, and a plurality of pressing parts 42 pressing the conductor pattern 32 to a contact part 93a of the conductor pattern 92 are installed in an elastic member 4 to be installed in an insulator 2. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a connector, and more particularly to a connector using a conductor pattern of a flexible wiring board as a contact.

  Conventionally, this type of connector is disclosed in Japanese Patent No. 2774394.

  This connector is a receptacle connector, and includes a housing, a leaf spring member, a flexible wiring board, and a holding member as main components.

  The housing is formed of an insulating material and has a receiving space for receiving a plug protrusion of a plug connector which is a mating connector.

  The leaf spring member is formed by bending one metal plate having elasticity into a substantially U shape. The leaf spring member is accommodated in the receiving space of the housing.

  The flexible wiring board is formed by forming a conductor pattern on an insulating film. The flexible wiring board is accommodated in the receiving space of the housing so as to enter the U-shaped space of the leaf spring member and cover the left and right side walls of the leaf spring member.

  The holding member is attached to the lower surface of the housing when the leaf spring member and the flexible wiring board are accommodated in the receiving space.

  When the receptacle connector and the plug connector are fitted to each other, the plug protrusion of the plug connector enters the receiving space of the housing of the receptacle connector. At this time, the plug protrusions of the plug connector push the left and right side walls of the leaf spring member, and enter the U-shaped space of the leaf spring member.

When the left and right side walls of the leaf spring member are elastically deformed, each conductive path of the flexible wiring board on the receptacle connector side is pressed against each conductive path of the flexible wiring board on the plug connector side by the restoring force. And contact force can be obtained.
Japanese Patent No. 2774394

  However, when the processing accuracy of the leaf spring member or the plug protrusion of the plug connector is low (for example, when the pressing protrusion of the leaf spring member or the plug protrusion of the plug connector is uneven), the position of the conductor pattern in the contact direction of the conductive path Since there is a large deviation, contact failure may occur.

  This invention is made | formed in view of such a situation, The subject is providing the connector which can prevent a contact failure.

  In order to solve the above-mentioned problems, the connector of the invention of claim 1 is provided in an insulator that fits into a mating connector, an insulating film having a conductor pattern corresponding to a plurality of contacts of the mating connector, and the insulator. The connector includes an elastic member to which the insulating film is fixed, wherein the elastic member has a plurality of pressing portions that press the conductor pattern against contact portions of the plurality of contacts.

  As described above, since the elastic member has a plurality of pressing portions that press the conductor pattern against the contact portions of the plurality of contacts, even if the contact direction positions of the contact portions of the plurality of contacts of the counterpart connector are shifted, the conductor The pattern is surely pressed against the contact portions of the plurality of contacts.

  According to a second aspect of the present invention, in the connector according to the first aspect, the conductor pattern includes a plurality of conductive paths extending in the same direction, and a slit is formed between the conductive paths of the insulating film. And

  As described above, since the slits are formed between the conductive paths of the insulating film, each conductive path can move in the contact direction independently, and the conductive path more reliably contacts the contact portions of the contacts of the mating connector. Contact.

  According to a third aspect of the present invention, in the connector according to the first or second aspect, the elastic member has a plurality of press-fitting portions that are press-fitted into the insulator, and the plurality of pressing portions and the plurality of contacts are the same number. And the number of the plurality of press-fitting parts is smaller than the number of the plurality of pressing parts.

  As described above, the number of the pressing parts and the number of contacts are the same, and the number of the plurality of press-fitting parts is smaller than the number of the plurality of pressing parts. The strength of a part of the insulator to be increased.

  The invention according to claim 4 is the connector according to claim 1, 2, or 3, wherein when the mating connector is fitted to the insulator, the mating connector is engaged with the mating connector. A lock member to be maintained is provided in the insulator.

  Since the lock member is provided in the insulator as described above, the fitting state with the mating connector is reliably maintained.

  The invention of claim 5 is a mating connector mated with the connector according to any one of claims 1 to 4, and has a mating conductor pattern that functions as a plurality of contacts corresponding to the conductor pattern. An insulating film and a support member that supports the insulating film are provided.

  By adopting the above-described insulating film, it is possible to further reduce the contact pitch.

  As described above, according to the connector of the first aspect of the present invention, contact failure can be prevented.

  According to the connector of the invention of claim 2, contact failure can be prevented more reliably.

  According to the connector of the third aspect of the present invention, it is possible to prevent damage to the insulator that may be caused by press-fitting the press-fitting portion into the insulator.

  According to the connector of the invention of claim 4, the fitting state with the mating connector can be reliably maintained.

  According to the connector of the invention of claim 5, it is possible to achieve a further narrow pitch by adopting the insulating film.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a perspective view of a receptacle connector according to an embodiment of the present invention and a part of a plug connector which is a mating connector thereof, FIG. 2 is an exploded perspective view of the receptacle connector shown in FIG. 1, and FIG. It is a disassembled perspective view of the plug connector shown in FIG.

  As shown in FIG. 1, the receptacle connector 1 includes an insulator 2, two insulating films 3, two elastic members 4, and a plurality of lock members 5.

  As shown in FIG. 2, the insulator 2 has a substantially frame shape and receives a plug connector 6 that is a mating connector of the receptacle connector 1. The insulator 2 has a pair of elastic member mounting portions 21 and 21, a pair of coupling portions 23 and 23, and one lock member mounting portion 25.

  The elastic member mounting portion 21 is substantially columnar, and a housing recess 21 a is formed on the surface of the elastic member mounting portion 21 that faces the plug connector 6. The housing recess 21 a extends along the longitudinal direction of the elastic member mounting portion 21. A pressing portion 42 of the elastic member 4 described later is accommodated in the accommodating recess 21a.

  A plurality of press-fitting grooves 21b are formed at regular intervals on the outer surface of the elastic member mounting portion 21 (the surface opposite to the surface facing the plug connector 6). The press-fitting groove 21 b extends in the thickness direction of the insulator 2.

  The coupling parts 23, 23 couple a pair of elastic member mounting parts 21, 21 parallel to each other.

  The lock member mounting portion 25 is employed for mounting the lock member 5, and has a plate-like portion 25a and a prismatic portion 25b. The plate-like portion 25a is stretched over the central portion of the pair of coupling portions 23, 23 that are parallel to each other. The prismatic portion 25b is coupled to the upper surface of the plate portion 25a. The length of the prismatic portion 25b is shorter than the length of the plate-like portion 25a. There is a space 27 between the prismatic portion 25 b and the coupling portion 23. This space 27 is a space for receiving a side wall portion 73 of the insulator 7 described later. The lock member mounting portion 25 is formed with an accommodating portion 25c and a hole portion 25d. The accommodating portion 25c opens to the side surface of the prismatic portion 25b and the bottom surface of the plate portion 25a. The accommodating portion 25c accommodates a portion other than the press-fit portion 52 of the lock member 5 described later. The hole portion 25d communicates with the accommodating portion 25c. A press-fit portion 52 of the lock member 5 is press-fitted into the hole portion 25d.

  The insulating film 3 is affixed to the elastic member 4 with an adhesive, a double-sided tape or a heat welding tape (not shown). The insulating film 3 has a film body 31 and a conductor pattern 32 formed on the surface of the film body 31. The film main body 31 has insulation and flexibility, and its unfolded shape is rectangular. The conductor pattern 32 is composed of a plurality of conductive paths 33. Each of the plurality of conductive paths 33 is a metal thin film, and functions as a plurality of contacts corresponding to a plurality of conductive paths 93 of the plug connector 6 described later. Each of the plurality of conductive paths 33 is substantially strip-shaped, parallel to each other, and arranged at a constant pitch. The plurality of conductive paths 33 extend from one side edge of the film body 31 to the other side edge. The film body 31 is formed with slits 31 a that are located between the conductive paths 33 and extend in parallel with the conductive paths 33. Accordingly, each conductive path 33 can faithfully follow the movement of the pressing portion 42. For example, even if one of the plurality of conductive paths 33 moves, the conductive path 33 adjacent to the conductive path 33 is not moved.

  The elastic member 4 is formed by punching a metal plate having elasticity and bending it. The elastic member 4 includes a base portion 41, a plurality of pressing portions 42, and a plurality of press-fit portions 43. The base 41 is substantially band-shaped. The plurality of pressing portions 42 are coupled to one side edge of the base portion 41 and are each bent into an approximately S shape. The pressing portion 42 presses the conductive path 33 toward the lock member mounting portion 25. The number of pressing parts 42 is the same as the number of conductive paths 33. The plurality of press-fit portions 43 are coupled to the other side edge of the base portion 41. The number of press-fitting parts 43 is smaller than the number of pressing parts 42. By press-fitting the press-fit portion 43 into the press-fit groove 21 b of the elastic member mounting portion 21, the elastic member 4 is fixed to the insulator 2 and the pressing portion 42 is received in the receiving recess 21 a of the elastic member mounting portion 21.

  A portion of the conductive path 33 located at the tip of the pressing portion 42 is a contact portion 33a. The contact portion 33a contacts a contact portion 93a of a conductive path 93 of the plug connector 6 described later. A portion of the conductive path 33 located on the lower surface of the trunk portion 33 is a terminal portion 33b. The terminal portion 33b is soldered to the pad 101a of the printed board 101 (see FIG. 4) on which the receptacle connector 1 is mounted.

  The lock member 5 includes a pair of lock portions 51, a press-fit portion 52, a coupling portion 53, and a soldering portion 54. When the receptacle connector 1 and the plug connector 6 are fitted to each other, the lock portion 51 is engaged with a hole 81a of the cover 8 of the plug connector 6 to be described later, and the receptacle connector 1 and the plug connector 6 are kept in a fitted state. The press-fit portion 52 is press-fitted into the hole portion 25 d of the lock member mounting portion 25. The coupling portion 53 couples the pair of lock portions 51 and the press-fit portion 52. The soldering portion 54 is formed on the lower surface of the coupling portion 53. By press-fitting the press-fit portion 52 into the hole portion 25d, the lock member 5 is fixed to the lock member mounting portion 25, and the pair of lock portions 51 are accommodated in the accommodating portion 25c of the lock member mounting portion 25. Further, the receptacle connector 1 is fixed to the printed circuit board 101 by soldering the soldering portion 54 to the pad 101 b of the printed circuit board 101.

  Next, the plug connector 6 will be described.

  As shown in FIG. 3, the plug connector 6 includes an insulator 7, a cover 8, and an insulating film 9. The insulator 7 and the cover 8 constitute a support member that supports the insulating film 9.

  The insulator 7 has a pair of sandwiching portions 71, one connecting portion 72, and a pair of side wall portions 73. The clamping part 71 is substantially rod-shaped and has a recess 71a. The recess 71a faces the accommodating portion 25c of the lock member mounting portion 25 when the receptacle connector 1 and the plug connector 6 are fitted to each other. The connection part 72 is substantially plate-shaped, and couples the pair of clamping parts 71. The coupling portion 72 has a hole 72a and a positioning pin 72b. The hole 72a communicates with the recess 71a. The positioning pins 72b are formed at regular intervals in the center of the connecting portion 72. The pair of side wall portions 73 are substantially block-shaped and are coupled to both end surfaces of the sandwiching portion 71 and the connecting portion 72. The side wall 73 is inserted into the space 27 (see FIG. 2).

  The cover 8 is formed by punching a metal plate and bending it. The cover 8 has a pair of holding portions 81, 81 and one coupling portion 82. The holding portion 81 covers and holds the sandwiching piece 71 of the insulator 7. A hole 81 a is formed in the holding portion 81. The hole 81 a communicates with the concave portion 71 a of the sandwiching portion 71. The hole 81 a receives the distal end portion of the lock portion 51 of the lock member 5 and engages with the lock member 5.

  The coupling portion 82 has a plate shape, and couples the pair of holding portions 81 and 81 together. The coupling portion 82 is formed with a rectangular hole 82a and a circular hole 82b. The hole 82a communicates with the hole 72a. Positioning pins 72b are inserted into the holes 82b.

  The insulating film 9 is affixed to the cover 8 with an adhesive, a double-sided tape or a heat welding tape (not shown). The insulating film 9 has a film main body 91 and a conductor pattern 92 formed on the surface of the film main body 91. The film main body 91 has insulation and flexibility, and its unfolded shape is rectangular. The film body 91 has a hole 91a. The insulating film 9 is positioned with respect to the insulator 7 by inserting the positioning pins 72b of the insulator 7 into the holes 91a. The conductor pattern 92 includes a plurality of conductive paths 93. Each of the plurality of conductive paths 93 is a metal thin film, and functions as a plurality of contacts corresponding to the plurality of conductive paths 33 of the receptacle connector 1. The plurality of conductive paths 93 are each substantially strip-shaped, parallel to each other, and arranged at a constant pitch. The plurality of conductive paths 93 extend from both side edges of the film body 91 toward the center of the film body 91.

  A portion located on the holding portion 81 of the conductive path 93 is a contact portion 93a. The distance between one holding part 81 and the other holding part 81 (the distance in the front-rear direction D) is the distance between the pressing part 42 of one elastic member 4 and the pressing part 42 of the other elastic member 4 (the distance in the front-rear direction D). ) Wider than. Therefore, when the receptacle connector 1 and the plug connector 6 are fitted to each other, the pressing portion 42 presses the contact portion 33a of the conductive path 33 against the contact portion 93a of the conductive path 93 (see FIG. 5).

  A portion of the conductive path 93 positioned on the coupling portion 82 is a terminal portion 93b. The terminal portion 93b is soldered to the pad 106a of the printed board 106 (see FIG. 4) on which the plug connector 6 is mounted.

  4 is a cross-sectional view showing a state before the receptacle connector and the plug connector shown in FIG. 1 are fitted together, and FIG. 5 is a cross-sectional view showing a state where the receptacle connector and the plug connector shown in FIG. 1 are fitted together.

  When the plug connector 6 is pushed into the insulator 2 from the state shown in FIG. 4, the pressing portions 42 and 42 of the elastic member 4 are compressed as shown in FIG. As a result, an elastic force is generated in the pressing portion 42, and the contact portion 33 a of the conductive path 33 of the receptacle connector 1 is pressed against the contact portion 93 a of the conductive path 93 of the plug connector 6 by the elastic force of the pressing portion 42.

  Even if the processing accuracy of the cover 8 is low and the surface of the holding portion 81 is distorted, each pressing portion 42 is elastically deformed according to the distortion of the holding portion 81 and absorbs the displacement in the contact direction of the contact portion 93a. Therefore, each contact part 33a contacts the corresponding contact part 93a reliably.

  When the receptacle connector 1 and the plug connector 6 are fitted, the lock portion 51 of the lock member 5 enters the hole 81a of the cover 8 as shown in FIG. As a result, the plug connector 6 is locked to the receptacle connector 1, and the plug connector 6 is not easily detached from the receptacle connector 1.

  As described above, according to the receptacle connector 1 of this embodiment, the plurality of pressing portions 42 of the elastic member 4 are individually elastically deformed in accordance with the distortion of the holding portion 81 of the cover 8 of the plug connector 6, so that the contact portion 93a. Even if the positions in the contact direction vary, the contact portions 33a of the plurality of conductive paths 33 can be reliably pressed against the contact portions 93a of the plurality of conductive paths 93. Therefore, contact failure can be prevented.

  Further, since the slits 31a are formed between the conductive paths 33 of the insulating film 3, each conductive path 33 can be faithfully followed by the movement of each pressing portion 42, and the contact portion 33a of the conductive path 33 is more reliably connected to the conductive path. The contact part 93a of 93 is contacted. Therefore, in this embodiment, contact failure can be prevented more reliably.

  Moreover, since the number of the press-fit portions 43 is smaller than the number of the press portions 42, the interval between the press-fit grooves 21b of the insulator 2 can be widened to increase the strength of the peripheral portion of the press-fit grooves 21b. For this reason, damage to the insulator 2 that can be caused by press-fitting the press-fitting portion 43 into the insulator 2 can be prevented.

  Furthermore, since the lock member 5 is provided in the insulator 2, the fitting state with the plug connector 6 can be reliably maintained.

  Further, since the plug connector 6 includes the insulating film 9, it is possible to further reduce the contact pitch.

  In this embodiment, the present invention is applied to the receptacle connector 1, but the present invention can also be applied to a plug connector.

  In this embodiment, the slit 31a is formed in the insulating film 3, but the slit 31a is not necessarily formed.

  In this embodiment, the number of the pressing portions 42 of the elastic member 4 is made equal to the number of the conductive paths 33 of the insulating film 3. There is no problem even if it is slightly less than the number.

  Moreover, although the support member of the insulating film 9 of the plug connector 6 is composed of the insulator 7 and the covers 8 and 9, the support member may be composed of only the insulator 7 or the elastic member. In the case where the support member is composed only of an elastic member, the conductor pattern 92 of the insulating film 9 may be pressed against the conductor pattern 32 of the insulating film 3 of the receptacle connector 1 by the elastic member. In this example, it is preferable that a slit is made in the elastic member and the insulating film 9 so that the contact portion 93a of the conductor pattern 9 can move independently.

FIG. 1 is a perspective view of a receptacle connector according to an embodiment of the present invention and a part of a plug connector which is a mating connector of the receptacle connector. 2 is an exploded perspective view of the receptacle connector shown in FIG. FIG. 3 is an exploded perspective view of the plug connector shown in FIG. 4 is a cross-sectional view showing a state before the receptacle connector and the plug connector shown in FIG. 1 are fitted together. FIG. 5 is a cross-sectional view showing a state in which the receptacle connector and the plug connector shown in FIG. 1 are fitted.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Receptacle connector 2 Insulator 3 Insulating film 32 Conductor pattern 33 Conductive path 33a Contact part 4 Elastic member 42 Pressing part 43 Press-fit part 5 Lock member 6 Plug connector 8 Cover 9 Insulating film 92 Conductor pattern 93 Conductive path 93a Contact part

Claims (5)

An insulator that mates with the mating connector;
An insulating film having a conductor pattern corresponding to a plurality of contacts of the mating connector;
In the connector provided on the insulator and provided with an elastic member to which the insulating film is fixed,
The said elastic member has a some press part which presses the said conductor pattern to the contact part of a said some contact. The connector characterized by the above-mentioned.   The connector according to claim 1, wherein the conductor pattern includes a plurality of conductive paths extending in the same direction, and a slit is formed between the conductive paths of the insulating film. The elastic member has a plurality of press-fitting parts press-fitted into the insulator,
The plurality of pressing portions and the plurality of contacts are the same number,
3. The connector according to claim 1, wherein the number of the plurality of press-fitting portions is smaller than the number of the plurality of pressing portions.   The insulator is provided with a lock member that engages with the mating connector and maintains the mating state with the mating connector when the mating connector is fitted into the insulator. Item 4. The connector according to item 1, 2 or 3. A mating connector mated with the connector according to any one of claims 1 to 4,
An insulating film having a mating conductor pattern that functions as a plurality of contacts corresponding to the conductor pattern;
And a support member for supporting the insulating film.

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