JP2005268128A - connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a highly reliable connector that prevents solder from rising at the time of solder connection.
A contact 11 includes a holding portion 12, contact portions 14 and 16, and a terminal portion 18 that is solder-connected to a connection object 30. The holding portion 12 includes a terminal portion 18 extending from one side of the holding portion 12. A protrusion 12a protruding in a direction orthogonal to the first direction A is formed, the protrusion 12a is held by being press-fitted into the insulator 20, and the surface of the holding part 12 including the protrusion 12a A low wettability region 12b having low wettability with respect to the solder is formed in a direction orthogonal to the first direction A so as to prevent the solder from creeping up by a cooperative action with the protrusion 12a. Has been.
[Selection] Figure 1

Description

  The present invention is a connector mainly used for connection between a mating connector and a printed wiring board, and more specifically, a contact that is press-fitted in an insulator and mounted and connected to the printed wiring board by soldering. The present invention relates to a connector having a structure that prevents the solder from creeping up.

Conventionally, as a well-known technique related to prevention of solder rising to a contact provided in this type of connector,
A press-fit portion on one end side that can be brought into contact with the other-side contact provided in the mating connector is press-fitted in the insulator, and is provided for connection between the mating connector and the wiring board, and the other end side. A connector having a plurality of contacts each of which is mounted and connected to a wiring board by soldering is disclosed (for example, see Patent Document 1).

  In such a connector, finish plating is applied to the front and back surfaces of the contact to form a high wettability region having high wettability with respect to the solder, and the finish plating on the front and back surfaces of the contact is removed in a strip shape to reduce wettability. A region portion is formed to prevent solder from creeping from the contact terminal portion to the contact portion.

JP 2003-45530 A

  However, in the connector of Patent Document 1, after applying finish plating on the front and back surfaces of the contact to form a high wettability region portion, the finish plating on the front and back surfaces of the contact is removed in a strip shape to form a low wettability region portion. Therefore, when the contact is press-fitted and held in the insulator, the solder may crawl from the plate thickness surface of the contact beyond the low wettability region, and the contact portion low wettability region There is a problem that it may not play a role in preventing creeping up.

  Therefore, an object of the present invention is to provide a highly reliable connector that can obtain an effect of preventing solder rise when a contact is soldered.

  The present invention includes a conductive contact and an insulator holding the contact, and the contact includes a holding portion held by the insulator, a contact portion extending from the holding portion in a first direction, and the holding A terminal portion extending in a direction opposite to the first direction and extending to the outside of the insulator and connected to an object to be mounted on which the insulator is mounted by solder, and the insulator includes the contact In the connector having an accommodating portion for accommodating the protrusion, a protrusion protruding from one side of the holding portion in a direction orthogonal to the first direction is formed on the holding portion, and the protruding portion is the accommodating portion. The solder is press-fitted into the insulator and is held on the front and back surfaces of the holding part including the protrusion by the cooperative action with the protrusion. The main feature is that the connector is characterized in that a low wettability region having low wettability with respect to the solder is formed in a direction orthogonal to the first direction so as to prevent scooping up. To do.

  According to the connector of the present invention, the press-fitted protrusion is formed in the holding part, and the protrusion is press-fitted into the insulator, and the solder crawls up from the terminal part to the contact part by the cooperative action with the low wettability region. Therefore, there is an advantage that a highly reliable connector can be obtained.

  The connector of the present invention includes a conductive contact and an insulator that holds the contact, and the contact includes a holding portion that is held by the insulator, and a contact portion that extends from the holding portion in a first direction; A terminal portion extending from the holding portion in a direction opposite to the first direction and extending to the outside of the insulator and connected to an object to be mounted on which the insulator is mounted by solder, the insulator, In the connector having the accommodating portion for accommodating the contact, the holding portion is formed with a protrusion protruding in a direction orthogonal to the first direction from one side of the holding portion. Is held by being press-fitted into the insulator by the accommodating portion, and the front and back surfaces of the holding portion including the protrusion are in cooperation with the protrusion. Ri was achieved by low-wettability region with low wettability is formed for the solder in the direction perpendicular to the first direction so as to prevent the solder wicking.

  FIG. 1 shows a first embodiment of a connector according to the present invention. FIG. 2 shows the contact shown in FIG.

  Referring to FIGS. 1 and 2, the connector 1 includes a conductive contact 11 and an insulator 20 that holds the contact 11. The contact 11 includes a holding portion 12 held by the insulator 20, a pair of contact portions 14 and 16 extending from the holding portion 12 in the first direction A, and the holding portion 12 opposite to the first direction A. And a terminal portion 18 extending in the second direction B, which is a direction.

  The holding portion 12 is formed with a protruding portion 12a that protrudes from one side 11a of one direction C orthogonal to the first direction A. The protrusion 12 a is a portion that is press-fitted into the insulator 20 and partially retained by the insulator 20 when the contact portions 14 and 16 of the contact 11 are forward and accommodated in the insulator 20 in the first direction A. The terminal portion 18 extends outside the insulator 20 on the second direction B side, and is connected to a circuit pattern 33 on a printed wiring board (connection object) 31 on which the insulator 20 is mounted by solder. The contact 11 is made by punching a thin conductive plate with a press.

  The insulator 20 is substantially composed of a bottom plate portion 22, a top plate portion 24 facing the bottom plate portion 22, and a pair of side plate portions (not shown) connecting the bottom plate portion 22 and the top plate portion 24 to each other. It is made in a box shape. The insulator 20 includes a bottom plate portion 22, a top plate portion 24, a portion surrounded by a pair of side plate portions, a holding portion 12 excluding the terminal portion 28 of the contact 11, and a receiving portion 28 that holds the contact portions 14 and 16 It has become.

  A front portion of the accommodating portion 28 in the first direction A is opened, and a mating contact of a mating connector (not shown) is inserted in a detachable manner. The counterpart contact is inserted and contacted between the pair of contact portions 14 and 16 accommodated in the accommodating portion 28. Further, the portion of the accommodating portion 28 on the second direction B side is opened, and the terminal portion 18 extends from the holding portion 12 side to the lower side. The insulator 20 is made by molding a resin material.

  The entire contact 11 includes the holding portion 12 and the terminal portion 18 and has a high wettability region portion by finish plating (however, the high wettability here indicates a state in which the solder can be satisfactorily as described below. ) And a low wettability region portion in which the finish plating is removed on the front and back surfaces including the protrusions 12a of the holding portion 12 (however, the low wettability here is the same as below) 12b is shown, which shows a poor soldering condition).

  That is, the front and back surfaces of the holding portion 12 including the protrusion 12a are prevented from creeping up by the cooperative action of the low wettability region 12b having low wettability with respect to the solder and the protrusion 12a. The wettability region 12b is formed between the sides parallel to each other in the direction C orthogonal to the first direction A and the direction D opposite to the direction orthogonal to the front and back surfaces of the holding unit 12 including the protrusion 12a. It is formed in a band shape.

  When manufacturing the contact 11 in such a connector 1, after the contact 11 press-punches a conductive plate, a finish plating process is performed and a high wettability area | region part is formed. Furthermore, the contact 11 having the low wettability region portion 12b is obtained by removing the finish plating in a band shape to form the low wettability region portion 12b in the holding portion 12. Next, the contact 11 is inserted into the accommodating portion 28 of the insulator 20 in the first direction A, so that the protrusion 12a is press-fitted into the wall portion of the top plate portion 24 of the insulator 20, whereby the contact 11 is insulated. Retained.

  The connector 1 is mounted on the printed wiring board 30 and the circuit pattern 33 provided on the printed wiring board 30 and the terminal portion 18 are connected by solder. At this time, when the solder crawls up from the terminal portion 18 side, the flow of solder to the contact portions 14 and 16 side is blocked by the low wettability region portion 12b. Further, when the solder crawls up along the side 11 a between the side 11 a of the holding portion 12 and the top plate portion 24, the protrusion 12 a is pressed into the wall portion of the top plate portion 24 of the insulator 20. Therefore, the flow of solder to the contact portions 14 and 16 side is prevented.

  Incidentally, when the low wettability region portion 12b is formed on the second direction B side with respect to the protrusion 12a, the solder extends along the side 11a between the side 11a of the holding portion 12 and the top plate portion 24. As a result, the solder enters the space between the protrusion 12a and the low wettability region 12b and the solder flows from the holding portion 12 to the contact portions 14 and 16, so that the holding portion 12 including the protrusion 12a is low wetted. It is a necessary condition to form the conductive region portion 12b.

  In the step of forming the low wettability region portion 12b, as a technique for removing the finish plating into a strip shape, mechanical cutting, polishing, electric discharge machining, electron beam machining, laser machining, and the like can be mentioned. In addition, the processing position accuracy can be satisfactorily performed.

  Furthermore, in the present embodiment, the case where the protrusion 12a is formed on the one direction C side orthogonal to the first direction A has been described. However, the protrusion 12a may be formed on the opposite direction D side, or the one direction C side. And in the opposite direction D.

  The present invention can also be applied to applications in which terminal portions of electronic components are connected to circuits on a printed wiring board by soldering.

It is side surface sectional drawing which showed the basic composition of the connector which concerns on Example 1 of this invention. It is a side view of the contact shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Contact 11a One side of holding | maintenance part 12 Holding part 12a Protrusion part 12b Low wettability area | region 14,16 Contact part 18 Terminal part 20 Insulator 28 Accommodating part 30 Printed wiring board 33 Circuit pattern A 1st direction B 2nd direction

Claims (2)

A conductive contact; and an insulator holding the contact, wherein the contact includes a holding portion held by the insulator, a contact portion extending in a first direction from the holding portion, and the first portion from the holding portion. A terminal portion that extends in a direction opposite to the direction of 1 and extends to the outside of the insulator and is connected to an object to be mounted on which the insulator is mounted by solder, and the insulator accommodates the contact. In the connector having a part,
The holding portion is formed with a protrusion protruding from one side of the holding portion in a direction perpendicular to the first direction,
The protrusion is held by being press-fitted into the insulator at the housing portion,
The front and back surfaces of the holding part including the protrusions have low wettability with respect to the solder in a direction perpendicular to the first direction so as to prevent the solder from creeping up by cooperation with the protrusions. A connector characterized in that a low wettability region is formed. The connector according to claim 1, wherein the low wettability region is formed in a band shape in a direction orthogonal to the first direction on the front and back surfaces of the holding portion including the protrusion.

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