The Present Application claims priority to prior-filed Japanese Application No. 2009-211771, entitled “Electrical Connector And Connector,” and filed Sep. 14, 2009, the contents of which is fully incorporated in its entirety herein.
The Present Application relates to a connector. In particular, the Present Application relates to an electrical connector for electrically connecting a board to a board.
An electrical connector such as a board-to-board connector has been hitherto known, which electrically connects boards arranged in parallel to each other or perpendicularly to each other. The board-to-board connector is provided with a pair of connectors which are attached to both of the boards to be connected. The respective connectors are electrically connected to the respective boards. One board and the other board are electrically connected to each other by the electric connection brought about between the connectors. The electrical connection between the boards and the connectors and the electrical connection between the connectors are performed by a plurality of contacts or contact terminals (connector terminals) which are provided on the respective connectors. The board and the connector are electrically connected to each other by soldering the contact terminals to the board. The connectors are electrically connected to each other by the elastic contact brought about between the contact terminals soldered to the respective boards. As disclosed in Japanese Patent Application No. 09-180829, the fitting or mating between the connectors is retained by the elastic contact brought about between the contact terminals described above.
Grooves and through-holes, which are used to attach the contact terminals, are formed for a housing of the connector. The housing of the connector is molded, for example, by the injection molding with an insulative material such as synthetic resin or the like.
When the housing, in which the through-holes are formed, is molded by the injection molding, weld lines appear in the vicinity of the through-holes. The weld line is a thin line allowed to appear at a portion at which the flows of the melted resin merge into one in the mold to cause the welding or fusion during the injection molding. The weld line has a weak strength as compared with surrounding portions, and it is feared that any crack or the like may arise. The melted resin, which is injected into the mold, is gradually cooled, and the viscosity thereof is raised. Therefore, the parts of melted resin, which merge into one, are not sufficiently dissolved with each other at the merging portion of the flows. The parts of melted resin are solidified while causing the phase separation. This portion causes the weld line.
The flow of the rein in the mold will be explained with reference to
When the housing 811 having the structure as described above is injection-molded, pins are arranged at portions corresponding to the through-holes 818 in the mold to prevent the inflow of the melted resin. A gate (not shown), from which the melted resin is introduced into the mold of the housing 811, is provided at a portion disposed in the upper-right direction in
Further, as shown in
The Present Application has been made taking the foregoing circumstances into consideration, an object of which is to provide an electrical connector having such a structure that any crack does not appear even when contact terminals are pressed-in, by suppressing the appearance of weld lines in the vicinity of through-holes into which the contact terminals are pressed-in.
According to a first aspect of the Present Application, there is provided an electrical connector 3 including; a first connector 1 having a first housing 11, a second connector 2 which is mated with the first connector 1 to be electrically connected thereto, a plurality of first connector terminals 61a which are attached to the first housing 11, a plurality of through-holes 18a which are formed in the first housing 11 so as to be arranged in a predetermined direction and into which the first connector terminals 61a are inserted; and a recess 21 formed adjacently to the through-holes 18a in the first housing 11.
According to a second aspect of the Present Application, there is provided a connector 1 which is mated with another connector 2 to be electrically connected thereto, the connector 1 comprising: a housing 11, a plurality of connector terminals 61a which are attached to the housing 11, a plurality of through-holes 18a which are formed in the housing 11, so as to be arranged in a predetermined direction and into which the connector terminals 61a are inserted; and a recess 21 formed adjacently to the through-holes 18a in the housing 11.
In the housing of the electrical connector of the Present Application, the range of appearance of the weld lines is limited to the inside of the groove by forming the groove along the arrangement of the through-holes. The range of appearance of the weld lines is reduced as compared with any conventional housing. The weld lines are hardly conspicuous visually as well. As a result, the strength and the durability are improved in the vicinity of the through-holes, and the aesthetics is improved as well. Further, when the contacts (connector terminals) are pressed-in into the through-holes, the appearance of the crack, which would be otherwise caused by the weld line, can be suppressed. The Present Application is also effective when the functional resin such as the liquid crystal resin, with which the molding is difficult, is used.
The organization and manner of the structure and operation of the Present Application, together with further objects and advantages thereof, may best be understood by reference to the following Detailed Description, taken in connection with the accompanying Figures, wherein like reference numerals identify like elements, and in which:
While the Present Application may be susceptible to embodiment in different forms, there is shown in the Figures, and will be described herein in detail, specific embodiments, with the understanding that the disclosure is to be considered an exemplification of the principles of the Present Application, and is not intended to limit the Present Application to that as illustrated.
In the illustrated embodiments, directional representations—i.e., up, down, left, right, front, rear and the like, used for explaining the structure and movement of the various elements of the Present Application, are relative. These representations are appropriate when the elements are in the position shown in the Figures. If the description of the position of the elements changes, however, it is assumed that these representations are to be changed accordingly.
As shown in
The receptacle connector 1 will be explained with reference to
The receptacle connector 1 has a box-shaped housing 11, the plurality of receptacle contacts 61 which are installed to the housing 11, and a pair of receptacle reinforcing fixtures 51 which are installed to the housing 11 from the mating side. The receptacle contacts include two types of contacts, i.e., first receptacle contacts 61a and second receptacle contacts 61b.
At first, the housing 11 of the receptacle connector 1 will be explained with reference to
As shown in
Further, a plurality of through-holes 18b, into which the second receptacle contacts 61b are inserted, are formed through the bottom plate 17 while being arranged in the longitudinal direction. The through-holes 18b are arranged adjacently to the inner surface 12Ib (surface to define the space 13) of the lateral wall 12b. A plurality of longitudinal grooves 20b, which extend in the height direction, are formed while being separated from each other by predetermined spacing distances on the inner surface 12Ib. A plurality of protrusions 19b, which extend in the height direction, are formed between the adjoining longitudinal grooves 20b. The second receptacle contacts 61b are inserted into the longitudinal grooves 20b. The plurality of protrusions 19b interpose and hold the second receptacle contacts 61b. The longitudinal grooves 20b penetrate through the bottom plate 17 to thereby define the through-holes 18b into which the forward ends of the second receptacle contacts 61b are inserted.
As shown in
Protruding portions 22a, 22b are provided on the side surfaces 26Sa, 26Sb of the longitudinal walls. Recesses, in which the protruding portions 22a, 22b are accommodated, are formed for the board 91. When the protruding portions 22a, 22b are inserted into the recesses of the board 91, the receptacle connector 1 can be easily mounted on the board 91. The receptacle connector 1 is not moved as well when the receptacle connector 1 is soldered to the board 91. The receptacle connector 1 can be soldered at the correct position. Here, the two protruding portions 22a, 22b are provided. However, any number of the protruding portion or the protruding portions may be provided. On the contrary, it is also allowable to provide no protruding portion. The design can be appropriately changed. The outer surface 12Eb (surface disposed on the side opposite to the inner surface 12Ib) of the lateral wall 12b and the side surfaces 26Sa, 26Sb of the longitudinal walls are the surfaces to perform the mounting on the board 91.
An explanation will be made below about an actual method for producing the receptacle connector having the structure as described above. The housing 11 of the receptacle connector 1 was molded by the injection molding. A cavity, which corresponded to the contour or outer shape of the housing 11, was formed by an upper mold and a lower mold. Pins were arranged at corresponding positions in the cavity in order to prevent the melted resin from entering the through-holes 18a, 18b. A gate 40, from which the melted resin was introduced into the cavity, was provided at the corresponding position in the mold (see
In the injection molding of the housing 11, the flow of the melted resin is once branched due to the presence of the pin in the vicinity of the through-hole 18a at which the pin is arranged. When the branched flows travel around the pin, the branched flows merge into one again. The weld line 30 appears at the merging portion of the resin. However, the lateral groove 21 is provided. Therefore, it is considered that the weld line 30 appears in only the interior of the lateral groove 21, and the weld line 30 is not spread beyond the lateral groove 21. Therefore, the range, in which the weld lines 30 appear, is reduced as compared with the conventional weld lines 830 shown in
At first, the first receptacle contacts 61a will be explained. As shown in
An explanation will be made with reference to
When the first receptacle contact 61a is pressed-in into the through-hole 18a, and the fixing portion 67a bites into the housing 11, then the stress is applied to the housing 11. On account of this stress, the force, which intends to forcibly widen or spread the weld line 30, acts on the housing 11. However, the weld line 30 is not spread to the outside of the lateral groove 21 even after the first receptacle contact 61a is pressed-in. In other words, the occurrence of the crack 831 shown in
Next, the second receptacle contacts 61b will be explained with reference to
An explanation will be made with reference to
As shown in
The plug connector 2 will be explained with reference to
The plug connector 2 has a housing 111, and the plurality of plug contacts 161 which are installed or attached to the housing 111 from the lower side. The housing 111 is composed of the rectangular prism-shaped base 112, and the rectangular prism-shaped insertion portion 113 which is provided to protrude from the surface of the base 112. The insertion portion 113 is the rectangular prism which is smaller than the base 112 in the longitudinal direction and the transverse direction. When the receptacle connector 1 and the plug connector 2 are fitted or mated to each other, the insertion portion 113 is inserted into the space 13 of the receptacle connector 1.
As shown in
The plug contact 161 is a member formed by stamping a conductive metal plate. The plug contact 161 has a main body 162, a tail 163 which extends from the main body 162, and an arm 164 which extends from the main body 162 in the direction substantially perpendicular to the extending direction of the tail 163. A fixing portion 165, which avoids the disengagement from the housing 111, is provided for the main body. A protruding portion 166, which forms the contact with respect to the receptacle contact 61, is provided at the forward end of an arm 164.
An explanation will be made with reference to
Examples of the sizes of the receptacle connector 1 and the plug connector 2 manufactured are shown below. The housing 11 of the receptacle connector 1 has sizes of longitudinal dimension (X direction): about 3.2 [mm], lateral dimension (Y direction): about 11 [mm], and thickness (Z direction): about 2.7 [mm]. The space 13 has a size of width (X direction): about 1.5 [mm]. The lateral groove 21 formed on the bottom plate 17 had a width (X direction): about 0.1 [mm] and a depth (Z direction): about 0.1 [mm]. The base 112 of the plug connector 2 has sizes of longitudinal dimension (X direction): about 2.6 [mm], lateral dimension (Y direction): about 7.2 [mm], and thickness (Z direction): about 3.3 [mm]. The insertion portion 113 has sizes of longitudinal dimension (X direction): about 1.5 [mm], lateral dimension (Y direction): about 6.6 [mm], and thickness (Z direction): about 8.6 [mm]. Both of the plurality of, i.e., fifteen first receptacle contacts 61a and the plurality of, i.e., fifteen second receptacle contacts 61b, which are provided for the receptacle connector 1, are provided at pitches of about 0.4 [mm]. The same number of the plug contacts 161, which are formed for the plug connector 2, are provided at the same pitches as those of the receptacle connector 1 corresponding thereto. The size of the housing and the pitch and the number of the contacts can be appropriately changed.
In the Present Application, each of the receptacle connector 1 and the plug connector 2 is molded by injection-molding the liquid crystal resin (LCP). LCP has the high orientation, and the melted resin thereof is solidified in a short period of time. Therefore, the weld lines tend to appear with ease. However, the range, in which the weld lines 30 appear, can be limited to the interior of the lateral groove 21 in the vicinity of the through-holes 18a. The high-function resin including, for example, liquid crystal resin, polyamide, and polyphenylene sulfide (PPS), which is excellent in the chemical resistance and the heat resistance, is used for the housing of the electrical connector. In general, the high-function resin as described above is difficult to be molded, wherein the weld lines tend to appear with ease. However, even when such a high-function resin is used, the range, in which the weld lines appear, can be restricted to the interior of the lateral groove 21.
An explanation will be made with reference to
In the Present Application, the lateral groove 21 is formed in the vicinity of the through-holes 18a which are arranged along the inner surface 121a of the lateral wall 12a (surface for defining the space 13). However, it is not necessarily indispensable that the through-holes should be arranged along the wall. For example, even in the case of any through-hole formed on a flat surface having no projection and no recess, there is such a possibility that any weld line may appear in the vicinity thereof. Therefore, when the groove is formed at the position at which the weld line appears in the vicinity of the through-hole, it is possible to provide the effect of the Present Application. The weld line appears during the injection molding at the portion at which the flows of the melted resin merge into one in the mold. Therefore, the position, at which the weld line appears, can be determined experimentally or in accordance with the calculation based on, for example, the shape of the mold and the position of the gate.
In the Present Application, the lateral groove 21 is formed in the vicinity of the through-hole 18a on the upper surface 17U of the bottom plate. However, the lateral groove 21 may be formed in the vicinity of the through-hole 18a on the lower surface 17B of the bottom plate. There is such a possibility that the weld line may appear in the vicinity of the through-hole. Therefore, the formation of the groove on the lower surface of the bottom plate is effective as well. Therefore, even when the groove or grooves is/are formed on the upper surface 17U and/or the lower surface 17B of the bottom plate along another array of the through-holes 18b formed for the bottom plate 17, the effect of the Present Application is also provided.
In the Present Application, the first receptacle contacts 61a are pressed-in via the through-holes 18a into the upper surface 17U of the bottom plate from the lower surface 17B of the bottom plate, and the lateral groove 21 is formed on the upper surface 17U of the bottom plate corresponding to the exit. However, the lateral groove 21 may be formed on the lower surface 17B of the bottom plate corresponding to the entrance. When the contacts are pressed-in into the housing, the force (force directed from the entrance side to the exit side), which is in the direction to strip off the weld lines upwardly, acts on the surface disposed on the exit side. Therefore, the crack tends to appear most easily in the vicinity of the through-hole disposed on the exit side. However, it is also feared that the crack may appear on the entrance side. When the groove is formed on the entrance side, the range, in which the crack appears, can be limited to the interior of the groove.
In the Present Application, the lateral groove 21 is formed as one continuous groove disposed along the arrangement of the through-holes 18a. However, a plurality of discontinuous grooves (recesses) may be formed for the plurality of through-holes 18a individually or for every several through-holes 18a. In the case of one continuous groove, the shape of the mold for molding the housing 11 is simple, which has a merit in view of the production method. However, the effect of the Present Application is also provided even in the case of the plurality of discontinuous grooves.
In the Present Application, the lateral groove 21 is the groove having the rectangular cross section. However, the cross section of the groove may be any shape other than the rectangular shape, including, for example, triangular, trapezoidal, circular, and elliptical shapes.
In the Present Application, the electrical connector 3 is the board-to-board connector. However, it is not necessarily indispensable that the electrical connector 3 should be the board-to-board connector. The effect of the Present Application is also provided in the case of any connector in which the through-holes are formed for the housing, and the contacts (connector terminals) are pressed-in into the through-holes.
In the electrical connector of the Present Application, the range, in which the weld lines appear in the vicinity of the through-holes for inserting the contacts thereinto, is limited in the housing. Therefore, the strength and the durability of the housing are improved in the vicinity of the through-holes. Therefore, the electrical connector of the Present Application can be effectively utilized as the connector to electrically connect the parts such as the boards or the like in the small-sized electronic device.
While a preferred embodiment of the Present Application is shown and described, it is envisioned that those skilled in the art may devise various modifications without departing from the spirit and scope of the foregoing Description and the appended Claims.
Number | Date | Country | Kind |
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2009-211771 | Sep 2009 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/US2010/048767 | 9/14/2010 | WO | 00 | 5/31/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/032146 | 3/17/2011 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5803752 | McHugh | Sep 1998 | A |
6068494 | Tokuwa | May 2000 | A |
7037117 | Goto | May 2006 | B2 |
7833024 | Takeuchi et al. | Nov 2010 | B2 |
20070281519 | Shiroyama | Dec 2007 | A1 |
20070298657 | Ju | Dec 2007 | A1 |
Number | Date | Country |
---|---|---|
09-180829 | Jul 1997 | JP |
H07-337268 | Jul 1997 | JP |
3320366 | Apr 2000 | JP |
2002-262567 | Feb 2004 | JP |
2004-103354 | Apr 2004 | JP |
3966414 | Mar 2005 | JP |
WO 2007016706 | Feb 2007 | WO |
Entry |
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International Search Report for PCT/US2010/048767. |
Number | Date | Country | |
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20130130555 A1 | May 2013 | US |