JP4911712B2 - Electrical connector assembly - Google Patents

Description

  The present invention relates to an electrical connector assembly that electrically connects a printed wiring board and an electric wire, and more particularly to an electrical connector assembly that is compact and press-fits an electric wire.

The electrical connector assembly electrically connects the printed wiring board and the electric wire by fitting the wiring board side connector fixed to the printed wiring board and the electric wire side connector to which the electric wire is connected.
Here, in the electric wire side connector, the electric wire is connected to the contact held by the housing. Crimping and pressure welding are frequently used as methods for connecting the wires to the contacts.

  The press-contact of the electric wire to the contact is performed by a press-contacting machine in a state where the contact is mounted on the housing in order to press-contact a plurality of electric wires collectively to the contact. In order to do this, first, a housing with contacts is placed on the pressure contact table of the pressure welding machine. Next, the electric wire is set at the position of the slot of the contact. In this state, the stuffer (pressure contact blade) of the pressure welding machine is operated, and the electric wire on the slot is pressed from the direction substantially perpendicular to the axis. Then, a part of the covering of the electric wire is cut by the slot, and the core wire in the covering is electrically connected to the slot.

  The electric wire side connector in which the electric wire is pressed against the contact is fitted to the wiring board side connector. The electric wire side connector and the wiring board side connector are engaged with each other by an engaging claw or the like to prevent disconnection.

  In order to press the electric wire with the stuffer of the pressure welding machine, the pressing force by the stuffer is applied to the surface on the side facing the pressure contact table of the pressure welding machine in the housing in which the contact is mounted (the surface opposite to the side where the electric wire is pressed) : This will be referred to as the back side below). However, when the engaging claw is formed on the back surface of the housing, the engaging claw cannot receive the pressing force by the stuffer. Therefore, a method of receiving a pressing force by a stuffer at a portion other than the engaging claws on the back surface of the housing has been proposed (for example, see Patent Document 1).

JP 2001-283951 A

In recent years, electrical connector assemblies have been required to be miniaturized. An engagement claw cannot be provided in a portion of the rear surface of the housing that receives the pressing force of the stuffer, that is, in a region corresponding to the contact slot. This is because when the pressing force of the stuffer acts on the engaging claw, the engaging claw is deformed, and the pressing force cannot be effectively applied to the electric wire and the slot. Therefore, also in the method shown in Patent Document 1, the engaging claw is provided at a position shifted from the region corresponding to the slot of the contact on the back surface of the housing. As a result, the housing must be enlarged. This counters the demand for miniaturization of the electrical connector assembly.
The present invention has been made based on such a technical problem, and an object of the present invention is to provide an electrical connector assembly that can reliably press-contact electric wires while reducing the size of the housing.

  The present invention made for this purpose is an electrical connector assembly for electrically connecting a printed wiring board and an electric wire, and includes a first housing fixed to the printed wiring board, and a first housing. A first contact held and electrically connected to the printed wiring board; a second housing fitted into the first housing; and a second contact held by the second housing to electrically connect the first contact and the electric wire. A second contact that is connected to the other. The second contact has a slot in which the electric wire is pressed by pressing the electric wire in a direction perpendicular to the insertion / extraction direction of the second housing with respect to the first housing. Such an electrical connector assembly includes a restraining member provided separately from the first housing and the second housing. The restraining member engages with the first housing and the second housing, respectively, and restrains the fitting state between the first housing and the second housing. Thereby, the second housing itself does not need to include a mechanism for restraining the fitting state between the second housing and the first housing.

The second housing has a block shape, a holding groove for holding the second contact is formed on the first side surface of the second housing, and the second contact slot is formed on the second side surface opposite to the first side surface. A region corresponding to is substantially flat. When the electric wire is pressed into the slot of the second contact, the electric wire is pressed from the first side surface toward the second side surface. At this time, the second housing is set on the press contact base in a state where the second side face is directed to the press contact base of the press contact machine. The reaction force due to the pressurizing force for press-contacting the electric wire acts on the second side surface of the second housing from the press-contact base. The region corresponding to the slot of the second contact on the second side surface of the second housing is a substantially flat surface, so that the second housing does not play, tilt, or deform in this region. Can fully support the reaction force. As a result, it is not necessary to unnecessarily enlarge the second side surface, and the second housing can be reduced in size.

Here, the constraining member is disposed along the first side surface of the second housing, and the constraining member covers the slot of the second contact located in the holding groove . Thereby, it becomes possible to prevent the electric wire from coming out of the slot by the restraining member.

  The restraint member may be held by the second housing so as to be movable along the insertion / extraction direction. In that case, the restraining member restricts the movement of the restraining member in a direction approaching the first housing by abutting against the second housing when the second housing is fitted to the first housing. And an engaging portion that engages with the first housing and restrains the fitting state of the first housing and the second housing. By thus holding the restraining member movably in the second housing, the second housing and the restraining member can be unitized. As a result, it is not necessary to attach a restraining member separately after fitting the second housing to the first housing. After fitting the second housing to the first housing, if the engaging member is engaged with the first housing by operating the restraining member movably held by the second housing, The fitting state of the first housing and the second housing can be restricted. Thus, the fitting operation of the first housing and the second housing can be easily performed.

When the fitting between the first housing and the second housing is incomplete, the restraining member slides the restraining member toward the first housing along the insertion / removal direction. Can be pressed. Thereby, a 1st housing and a 2nd housing can be completely fitted.
In this case, the first housing and the second housing are fitted by a two-step action of fitting the second housing and sliding the restraining member. It can also be set as the structure fixed to a housing. In that case, simultaneously with the insertion of the second housing, the fitting between the second housing and the first housing can be performed in one step.

  According to the present invention, a restraining member for restraining the fitting state between the first housing and the second housing is provided separately from the second contact having the slot to which the electric wire is press-contacted. Thereby, the second housing does not need to be provided with a mechanism for restraining the fitting state between the second housing and the first housing. As a result, the side surface of the second housing can be smoothed, and the second housing can be miniaturized. Moreover, the fitting state of the first housing and the second housing can be restricted by the restraining member. In this way, it is possible to reliably perform the pressure contact of the wires while reducing the size of the housing.

  Also, if the second housing has a block shape and a holding groove for holding the second contact is formed on the first side, it corresponds to the slot of the second contact on the second side facing the first side. This area can be a substantially flat surface. Thereby, the reaction force by the applied pressure for press-contacting the electric wire can be sufficiently supported by the second side surface. As a result, it is not necessary to unnecessarily enlarge the second side surface, and the second housing can be reduced in size.

  Further, the restraining member can be arranged at a position covering the slot of the second contact located in the holding groove with respect to the second housing. The restraining member can prevent the electric wire from coming out of the slot, and the restraining member can function as a so-called retainer.

  The second housing and the restraining member can be unitized by holding the restraining member in the second housing so as to be movable along the insertion / extraction direction. As a result, the first housing and the second housing can be easily fitted.

  Further, when the fitting between the first housing and the second housing is incomplete, the restraining member can be slid toward the first housing to press the second housing. As a result, the first housing and the second housing can be reliably fitted.

  FIG. 1 is a diagram showing a configuration of a connector in the present embodiment, and is a cross-sectional view showing a state in which a plug connector and a slide member are fitted to a receptacle connector. FIG. 2 is a diagram illustrating a connection of the plug connector to the receptacle connector. FIG. 3 is a perspective view showing a state before the slide member is set on the plug connector, FIG. 4 is a perspective view showing the plug housing, and FIG. 5 is a pressure contact type contact. FIG. 6 is a perspective view showing a plug connector with a contact attached thereto, FIG. 7 is a sectional view showing a state in which an electric wire is pressed against the contact, FIG. 8 is a perspective view showing a slide member, and FIG. FIG. 10 is a perspective view showing a recess for slidably holding the slide member in the connector, and FIG. 10 shows the upward movement to the slide member by the plug connector. Won a perspective view showing a state that, FIG. 11 is a sectional view showing a state in which fitting the plug connector to the receptacle connector.

  As shown in FIG. 1, the electrical connector assembly 10 includes a receptacle connector 20 fixed to the printed wiring board 11 side and a plug connector 30 that can be coupled to the receptacle connector 20. In the following description, the printed wiring board 11 side of the receptacle connector 20 will be described below, and the plug connector 30 side will be described upward.

  The receptacle connector 20 includes a resin-made receptacle housing (first housing) 21 and contacts (first contacts) 22 formed of a conductive material such as a copper-based material.

As shown in FIG. 2, the receptacle housing 21 is fixed to the printed wiring board 11 by pegs 21a provided on the outer peripheral surface thereof.
A recess 23 for inserting the plug connector 30 is formed on the upper surface side of the receptacle housing 21. A plurality of grooves 23 a for holding the contacts 22 are formed on the inner peripheral surface of the recess 23 at intervals. By holding each contact 22 in the groove 23 a, the plurality of contacts 22 are arranged in the recess 23 with a space therebetween.

As shown in FIG. 1, the contact 22 is formed by stamping a thin plate made of a conductive material such as a copper alloy.
The contact 22 is substantially U-shaped, and a pair of contact beams 22a and 22b facing each other at a predetermined interval are formed upward from the base portion 22c. A connection portion 22d for electrically connecting the contact 22 to a conductive pattern portion (not shown) of the printed wiring board 11 is formed on one end side of the base portion 22c. The connecting portion 22d protrudes substantially in the same plane as the lower surface of the receptacle housing 21 or below the lower surface of the receptacle housing 21 in a state where the contacts 22 are mounted on the receptacle housing 21, and the conductive pattern portion (illustrated) of the printed wiring board 11 is illustrated. Soldered in contact with (None).

  Protrusions 22e and 22f to be inserted into the fixing recess 25 of the receptacle housing 21 are formed on the base portion 22c outside the contact beams 22a and 22b facing each other. The contact 22 is fixed to the receptacle housing 21 by the protrusions 22 e and 22 f being press-fitted into the fixing recess 25. In this state, the contact 22 is configured such that contact beams 22 a and 22 b protrude into the recess 23 from the lower side of the plug connector 30.

As shown in FIGS. 1 and 3, the plug connector 30 includes a resin plug housing (second housing) 31 that fits into the receptacle housing 21, and a contact made of a conductive material such as a copper alloy (second housing). Contact) 32.
As shown in FIGS. 1, 3, and 4, a convex portion 33 that fits into the concave portion 23 of the receptacle housing 21 is formed on the lower surface side of the plug housing 31. The plug housing 31 has a block shape, and a plurality of holding grooves 34 for holding a plurality of contacts 32 are formed on one side surface (first side surface) 31a. Each holding groove 34 is formed so as to extend along the vertical direction of the plug housing 31 (insertion / extraction direction with respect to the receptacle housing 21). By being held in these holding grooves 34, the plurality of contacts 32 are arranged at intervals from each other corresponding to the plurality of contacts 22 of the receptacle connector 20.

  As shown in FIG. 5, the contact 32 includes a contact portion 32 a formed in a cylindrical shape having a square cross section, and a substantially V-shaped slot 32 b to which the electric wire 100 is pressed. As shown in FIG. 6, the contact 32 is held in the holding groove 34 with the contact portion 32 a exposed at the side surface 31 a of the plug housing 31. As a result, as shown in FIG. 1, the contact portion 32 a of the contact 32 is electrically connected to the contact beam 22 a of the contact 22 disposed in the recess 23 when the projection 33 is fitted into the recess 23 of the receptacle housing 21. Connected.

With respect to such a plug connector 30, the electric wire 100 is press-contacted to the contact 32 with the axis line aligned in the vertical direction of the plug housing 31.
As shown in FIG. 7, when the electric wire 100 is pressed against the contact 32, the side surface (second side surface) 31 b facing the side surface 31 a where the holding groove 34 is formed in the plug housing 31 is placed on the pressure contact table 200 of the pressure welding machine. Put it on. Then, the electric wire 100 is pressed against the slot 32 b of the contact 32 held in the holding groove 34. In this state, the electric wire 100 is pressed into the slot 32b by pressing the electric wire 100 with a stuffer of a pressure welding machine from a direction substantially orthogonal to the axis. When the electric wire 100 is press-fitted into the slot 32b, a part of the covering of the electric wire 100 is cut by the slot 32b, and the core wire in the covering is electrically connected to the slot 32b.
The region A corresponding to the slot 32b on the side surface 31b of the plug housing 31 receives the reaction force of the pressing force when the wire 100 is pressed by the stuffer of the pressure welding machine from the pressure welding table 200. In order to prevent deformation and the like, it is preferable to have a substantially flat surface. That is, the region A may have a recess or the like as long as the region A is a substantially flat surface that does not cause backlash, inclination, deformation, or the like of the plug housing 31.

In order to restrain the fitting state between the plug housing 31 and the receptacle housing 21, the electrical connector assembly 10 includes a slide member (restraint member) 60 as shown in FIGS. 1 and 3.
As shown in FIG. 8, the slide member 60 includes a base part (movement restriction part) 61, a pair of columnar guide parts 62, a support part 63, and a plate part 64. The base portion 61, the pair of columnar guide portions 62, the support portion 63, and the plate portion 64 are integrally formed. The slide member 60 is held so as to be slidable in the vertical direction with respect to the plug housing 31.
As shown in FIGS. 3 and 8, the guide portion 62 is formed to extend downward from the base portion 61. The support portion 63 is formed so as to protrude laterally from the base portion 61 (in a direction of being separated from the side surface 31 a of the plug housing 31 while being held by the plug housing 31). The plate part 64 is formed extending vertically from the support part 63. The base member 61, the guide part 62, the support part 63, and the plate part 64 form the slide member 60 in an approximately H shape in a side sectional view. Both end portions 61 a and 61 a of the base portion 61 are formed so as to protrude in the direction along the side surface 31 a of the plug housing 31 with respect to the guide portion 62.

As shown in FIG. 9, a pair of guide posts 53 are provided at both ends of the side surface 31 a of the plug housing 31 in order to hold the slide member 60. Each guide post 53 is held at a position spaced in the direction orthogonal to the side surface 31a by a support portion 52 extending in the direction orthogonal to the side surface 31a of the plug housing 31. The support portion 52 has a recess 54 for holding a pair of columnar guide portions 62.
The pair of columnar guide portions 62 are held by the recesses 54 so as to be slidable along the insertion / extraction direction of the plug housing 31 with respect to the receptacle housing 21 (in other words, in the vertical direction). That is, as a result, the slide member 60 is supported by the plug housing 31 so as to be slidable in the vertical direction. At this time, as shown in FIG. 2, the downward movement of the slide member 60 is restricted when both end portions 61 a and 61 a of the base portion 61 abut against the upper surface of the support portion 52. Further, as shown in FIG. 10, the upward movement of the slide member 60 is restricted by the protrusions 65 formed on both sides of the plate portion 64 abutting against the lower surface of the guide post 53 of the plug housing 31.
The guide portion 62 of the slide member 60 is inserted into the hole 43 formed in the receptacle housing 21 shown in FIG. 2 with the plug housing 31 fitted to the receptacle housing 21.

The plate portion 64 of the slide member 60 can be elastically displaced in a direction in which the lower end portion of the plate portion 64 is separated from or approached the plug housing 31. Both end portions 64a and 64a in the width direction of the plate portion 64 are formed to protrude downward from the central portion 64b. As shown in FIG. 1, engaging claws (engaging portions) 66 are formed on both surfaces 64 a and 64 a of the plate portion 64 on the surface facing the plug housing 31 in a state of being mounted on the plug housing 31. .
As shown in FIGS. 1 and 2, a projection 44 is formed on the receptacle housing 21 side corresponding to the engaging claw 66. As shown in FIG. 1, the protrusion 44 is in a state in which the plug housing 31 is fitted into the receptacle housing 21 and both end portions 61 a and 61 a of the base portion 61 of the slide member 60 are in contact with the upper surface of the support portion 52. The engagement claw 66 is engaged. Thereby, the slide member 60 restrains the fitting state between the plug housing 31 and the receptacle housing 21.

  The base portion 61 of the slide member 60 has a portion where the slot 32b of the contact 32 held in the holding groove 34 of the plug housing 31 is formed in a state where the engaging claw 66 and the protrusion 44 of the receptacle housing 21 are engaged. It is arranged to cover. Thereby, the base part 61 can also function as a retainer that suppresses the electric wire 100 pressed against the contact 32.

As shown in FIG. 11, when the plug housing 31 is fitted into the receptacle housing 21, the convex portion 33 of the plug housing 31 is pushed into the concave portion 23 of the receptacle housing 21, and the contact portion 32 a of the contact 32 is inserted into the contact beam of the contact 22. 22a is electrically connected. At this time, the slide member 60 is in a state of being lifted from the plug housing 31 with the engaging claw 66 riding on the protrusion 44 of the receptacle housing 21.
Thereafter, by pushing the slide member 60, as shown in FIG. 1, the engagement claw 66 of the slide member 60 and the protrusion 44 of the receptacle housing 21 are engaged, and the plug housing 31 and the receptacle housing 21 are engaged. Restrain the mating state.
By the way, the downward movement of the slide member 60 is restricted when both end portions 61 a and 61 a of the base portion 61 abut against the support portion 52 of the plug housing 31. At this time, it is preferable that both end portions 61 a and 61 a of the base portion 61 abut against the support portion 52 almost simultaneously with the engagement claw 66 of the slide member 60 engaging the protrusion 44. Thereby, the plug housing 31 can be pushed down by pushing down the slide member 60. As a result, the plug housing 31 can be reliably pressed and fitted into the receptacle housing 21, and the plug connector 30 and the receptacle connector 20 are locked in the fitted state.

  In order to release the fitting between the plug housing 31 and the receptacle housing 21 from the state in which the plug member 31 is restrained by the slide member 60, the upper end portion 64c of the plate portion 64 of the slide member 60 is pressed toward the plug housing 31 side. Then, the support portion 63 is elastically deformed, and the lower end portion of the plate portion 64 is displaced away from the receptacle housing 21 so that the engagement between the engagement claw 66 and the protrusion 44 is released. In this state, the plug housing 31 is pulled out in a direction away from the receptacle housing 21. As a result, the plug housing 31 and the slide member 60 can be removed from the receptacle housing 21, and the fitting between the plug connector 30 and the receptacle connector 20 can be released.

  As described above, in the electrical connector assembly 10 of the type in which the electric wire 100 is pressed against the contact 32 of the plug connector 30, the fitting between the plug housing 31 and the receptacle housing 21 is constrained by the separate slide member 60. did. Thereby, in the plug connector 30, it is not necessary to provide a lock member or the like for restricting the fitting state between the plug housing 31 and the receptacle housing 21 on the side surface 31b, and the side surface 31b can be made substantially flat. it can. Thereby, even if the plug housing 31 is small, it is possible to secure a sufficient area for receiving the reaction force of the pressing force when the electric wire 100 is pressed against the contact 32 by the pressure welding machine. In this manner, the electrical connector assembly 10 that can securely press the electric wire 100 and reliably restrain the fitting between the plug housing 31 and the receptacle housing 21 while miniaturizing the plug housing 31 is realized. it can.

  Further, when the plug connector 30 and the receptacle connector 20 are fitted, the plug housing 31 is pushed into the receptacle housing 21 and then the slide member 60 is pushed in. The plug member 30 and the receptacle connector 20 are thus fitted in a reliable manner. The fitting state of the connector 30 and the receptacle connector 20 can be reliably locked.

In the above-described embodiment, the configuration of each part of the electrical connector assembly 10 has been described. However, the present invention is not limited to the above-described configuration and may have any other shape and configuration as long as the present invention is applicable. May be. For example, the contact 32 of the plug connector 30 may have any other shape as long as the wire 100 is pressed.
Moreover, in the said embodiment, although it was set as the structure which arrange | positions the electric wire 100 so that it may extend in the up-down direction of the plug housing 31 with respect to the some contact 32 hold | maintained at the plug housing 31, it is not restricted to this, An electric wire 100 may be arranged so as to extend in the left-right direction (left-right direction in FIG. 2) with respect to the plug housing 31.

In addition, the receptacle housing 21 is a female housing having a recess 23 and the plug housing 31 is a male housing having a projection 33. However, the present invention is not limited to this, and the receptacle housing 21 is replaced with a male housing. Can be a male housing having a convex portion, and the plug housing 31 can be a female housing having a concave portion. Similarly, the contact 22 of the receptacle connector 20 is a female contact, and the contact 32 of the plug connector 30 is a male contact. However, the male contact and the female contact are interchanged, and the contact 22 of the receptacle connector 20 is a male contact and a plug connector. The 30 contacts 32 may be female contacts.
In addition to this, as long as it does not depart from the gist of the present invention, the configuration described in the above embodiment can be selected or changed to another configuration as appropriate.

It is a figure which shows the structure of the connector in this Embodiment, and is sectional drawing which shows the state which made the plug connector and the slide member fit to the receptacle connector. It is a perspective view which shows the state before connecting a plug connector with respect to a receptacle connector. It is a perspective view which shows the state before setting a slide member with respect to a plug connector. It is a perspective view which shows a plug connector. It is a perspective view which shows a press-contact type contact. It is a perspective view which shows the plug connector which attached the contact. It is sectional drawing which shows the state which press-contacts an electric wire to a contact. It is a perspective view which shows a slide member. In a plug connector, it is a perspective view which shows the recessed part for hold | maintaining a slide member slidably. It is a perspective view which shows the state which has controlled the upward movement to a slide member with a plug connector. It is sectional drawing which shows the state which made the plug connector fit to the receptacle connector.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Electrical connector assembly, 11 ... Printed wiring board, 20 ... Receptacle connector, 21 ... Receptacle housing (first housing), 22 ... Contact (first contact), 23 ... Recess, 30 ... Plug connector, 31 ... Plug housing (second housing), 31a ... side face (first side face), 31b ... side face (second side face), 32 ... contact (second contact), 32b ... slot, 33 ... convex part, 34 ... Holding groove, 44 ... protrusion, 52 ... support portion, 60 ... sliding member (restraining member), 61 ... base portion (movement restricting portion), 65 ... projection, 66 ... engaging claw (engaging portion), 100 ... electric wire

Claims (3)

An electrical connector assembly for electrically connecting a printed wiring board and an electric wire,
A first housing fixed to the printed wiring board;
A first contact held in the first housing and electrically connected to the printed wiring board;
A second housing fitted to the first housing;
The second housing is held and electrically connected to the first contact, and the electric wire is pressed in a direction perpendicular to the insertion / extraction direction of the second housing with respect to the first housing. A second contact having a slot to which the wire is pressed,
The first housing and the second housing are provided separately from each other, and engage with the first housing and the second housing, respectively, so that the first housing and the second housing A restraining member that restrains the fitting state ;
The second housing is in a block shape, and a holding groove for holding the second contact is formed on the first side surface of the second housing, and on the second side surface facing the first side surface, A region corresponding to the slot of the second contact is substantially flat;
The said restraining member is arrange | positioned along said 1st side surface, and covers the said slot of the said 2nd contact located in the said holding groove, The electrical connector assembly characterized by the above-mentioned . The restraining member is held by the second housing so as to be movable along the insertion / extraction direction,
A movement restricting portion for restricting movement of the restraining member in a direction approaching the first housing by abutting against the second housing when the second housing is fitted to the first housing; ,
An engaging portion that engages with the first housing and restrains the fitting state of the first housing and the second housing;
The electrical connector assembly according to claim 1 , further comprising: When the fitting between the first housing and the second housing is incomplete, the second housing is moved by sliding the restraining member toward the first housing along the insertion / extraction direction. The electrical connector assembly according to claim 1 or 2 , wherein the first housing and the second housing are completely fitted by pressing.

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