EP0654855B1

EP0654855B1 - Electrical connector with improved terminal retention means

Info

Publication number: EP0654855B1
Application number: EP19930117133
Authority: EP
Inventors: Uwe Schwarz
Original assignee: Molex LLC
Current assignee: Molex LLC
Priority date: 1993-10-22
Filing date: 1993-10-22
Publication date: 1998-05-27
Anticipated expiration: 2013-10-22
Also published as: EP0654855A1; DE69318840D1; DE69318840T2

Description

This invention relates to an electrical connector according to the preamble of claims 1, 7 and 12 as well as to a method of assembling such an electrical connector according to claim 9.

A wide variety of electrical connectors include dielectric housings within which are secured a plurality of metallic contact terminals by mechanical means. A number of years ago, terminals usually were retained within connector housings by molding the housing around the terminals, potting the terminals within the housing or force fitting the terminals in passageways for permanent retention. With the development of more sophisticated electronics, and with the ever-increasing miniaturization of electrical circuitry, small terminals most often have been stamped and formed from thin sheet metal material, with the terminals including locking lances or fingers which protrude at an appropriate angle laterally to engage behind stop surfaces within the housing passageway to secure the terminals against withdrawal. The locking fingers are resilient and deflect inwardly toward the terminal during insertion of the terminal into a passageway in the connector housing, and then the locking fingers spring back and engage behind the stop surfaces.

Another typical terminal retention means employs locking fingers on the plastic housing extending into the terminal-receiving passageway. The locking fingers on the housing initially are deflected by the terminal during insertion and then spring back and engage behind stop surface means on the terminal upon full insertion.

Problems have been encountered in using terminal retention means or systems which incorporate resilient locking fingers either on the terminals or in the housing passageways, when those systems are used in high vibration applications or environments. Automotive applications are but one example. In particular, the locking fingers inherently have a degree of play or looseness in relation to their stop surfaces, whether the locking fingers are on the terminals or on the inside of the housing passageways. This play simply occurs because of normal manufacturing tolerances. It would be substantially cost prohibitive to manufacture such terminals and/or housings with sufficiently close tolerances to eliminate the play or looseness in the terminals. In vibrating applications, the looseness can become greater because of the vibrations involved. In addition, the vibrations can cause a "rattling" affect which is highly undesirable in automotive applications.

US-A-3 500 299 avoids these problems by an electrical connecting device which comprises a plug casting having a hole for receiving a stamped metal pin structure. In order to lock the pin structure to the plug casting against longitudinal displacement the pin structure comprises fixed shoulder means on one end and a bendable locking lug on the opposite end which is bendable onto a shoulder of the plug casting.

An object, therefore, of this invention is to provide an improved terminal retention means or system wherein conventional stamped and formed terminals are very simply secured tightly within their connector housing passageways by deformable locking fingers.

This problem is solved by the features of claims 1, 7, 9 and 12, respectively. Preferred embodiments are set forth in the dependent claims.

In the exemplary embodiment of the invention, an electrical connector is disclosed with a dielectric housing having at least one terminal-receiving passageway defining a terminal-insertion axis. The housing includes at least a pair of latch shoulders in the passageway. A terminal is insertable along the axis into the passageway. The terminal includes at least a pair of latch arms for latching behind the latch shoulders to prevent removal of the terminal from the passageway.

The invention contemplates that the latch arms of the terminal be a deformable member which are permanently deformable from a first, insertion position to a second, latching position. In the insertion position, the latch arms are juxtaposed along the terminal to permit insertion of the terminal into the passageway. In the latching position, the latch arms are deformed transversely from the first position into engagement with the latch shoulders to prevent removal of the terminal from the passageway.

As disclosed herein, the terminal is stamped and formed from sheet metal material and includes a mating end, a terminating end and an intermediate body portion therebetween. The body portion is generally box-shaped as defined by a plurality of side walls. The latch arms are on one of the side walls and are generally planar portions of the terminal. The latch arms are deformable in a direction generally parallel to the plane of the arms.

The invention also contemplates a method of assembling an electrical connector which includes terminals having latch arms permanently deformable into engagement with latch shoulders within terminal-receiving passageways of the connector housing to prevent removal of the terminals from the passageways.

Other objects, features and advantages of the invention will be apparent from the following detailed description taken in connection with the accompanying drawings.

Brief Description of the Drawings

The features of this invention which are believed to be novel are set forth with particularity in the appended claims. The invention, together with its objects and the advantages thereof, may be best understood by reference to the following description taken in conjunction with the accompanying drawings, in which like reference numerals identify like elements in the figures and in which:

FIGURE 1 is a perspective view of a terminal embodying the concepts of the invention;

FIGURE 2 is a fragmented axial section through a passageway in a connector housing for receiving the terminal of Figure 1;

FIGURE 3 is a fragmented section taken generally along line 3-3 of Figure 2;

FIGURE 4 is a fragmented section taken generally along line 4-4 of Figure 2;

FIGURE 5 is a view similar to that of Figure 2, with a terminal in the terminal-receiving passageway, along with an insertion tool;

FIGURE 6 is a section taken generally along line 6-6 of Figure 5, with the terminal having been inserted into the terminal-receiving passage by the insertion tool; and

FIGURE 7 is a view similar to that of Figure 6, with the tool having spread apart and deformed the latch arms of the terminal into engagement with the latch shoulders of the housing.

Detailed Description of the Preferred Embodiment

Referring to the drawings in greater detail, and first to Figure 1, a terminal, generally designated 10, is shown to incorporate the concepts of the invention. The terminal includes a mating end, generally designated 12, a terminating end, generally designated 14, and an intermediate body portion, generally designated 16, between the ends.

Mating end 12 of terminal 10 is a female mating end for receiving a male terminal blade. Specifically, the mating end includes a pair of bifurcated terminal arms 12a which are flared apart to define an entry mouth 12b into which a flat terminal blade is insertable. The blade is of a thickness to spread terminal arms 12a and establish good contact with the arms in a contacting area 12c.

Terminating end 14 of terminal 10 includes a pair of contact arms 14a which can be spread apart, as at 14b, to provide some relative flexibility therebetween. Terminating arms 14a are adapted to form solder tails for insertion into an appropriate hole in a printed circuit board for soldered electrical connection to circuit trace means on the board and/or in the hole.

Intermediate body portion 16 of terminal 10 is box-shaped as defined by opposite pairs of side walls 16a and 16b. The box-shaped body portion defines a generally rectangular cavity therewithin and can be used as a contact in e.g. a fuse box for an automotive application. Of course, it should be understood that the precise configuration and use of terminal 10 is not intended to be limiting, because the broader concepts of the invention have applicability for a wide range of terminal shapes or configurations.

Specifically, the invention contemplates that terminal 10 include at least one pair of latch arms 20 which are permanently deformable into latching condition within a connector housing, as described hereinafter. As seen in Figure 1, a pair of latch arms 20 are stamped and formed out of one or both walls 16a on one or both opposite sides of body portion 16 of terminal 10. The latch arms have necked-down base areas 20a about which the arms primarily are deformed. With this configuration, the latch arms comprise generally planar portions generally coplanar with side walls 16a. As will be described in greater detail hereinafter, the latch arms are permanently deformable in a direction generally parallel to the planes of the arms, as indicated by arrows "A" in Figure 1.

In other words, most latch arms or locking fingers of previous stamped and formed metal terminals have been flexible or resilient about the bases or roots of the arms in a direction generally perpendicular to the planes of the arms. Therefore, the arms flex in one direction and spring back to their initial or latching positions. This is in contrast to the concepts of the invention wherein latch arms 20 are intended to be deformed 'permanently". In other words, it is not intended for the latch arms to spring back to any initial or insertion positions.

Referring to Figures 2-4, the invention contemplates an electrical connector which includes a dielectric housing, generally designated 22, having at least one terminal-receiving passageway 24 defining a terminal-insertion axis 26 (Fig. 3). Although the dielectric housing may include a plurality of terminal-receiving passages 24, the following description will refer to the one illustrated passageway 24 in conjunction with one of the terminals 10.

More particularly, each passageway 24 includes a pair of stop shoulders 28 on one or both opposite sides of the passageway, latch shoulders 30 on opposite sides of the passageway and tool-receiving recesses 32 on opposite sides of the passageway, all for purposes described below. Briefly, stop shoulders 28 engage ledges 34 (Fig. 1) of terminal 10, latch shoulders 30 engage the distal ends of latch arms 20, and recesses 32 provide adequate accommodation for an insertion and deforming tool as will be described below in relation to Figures 6 and 7.

Referring to Figures 5 and 6, terminal 10 in inserted into passageway 24 in the direction of arrows "B". The terminals are inserted by an insertion and deforming tool 40 which has a triangulated end as seen best at 42 in Figure 6. The tool also has a central recessed area 44 as seen best in Figure 5. The terminal is engaged by triangulated end 42 of the tool as seen in Figure 6, whereby the terminal is inserted in the direction of arrows "B" until ledges 34 on the terminal engage stop shoulders 28 within the housing passageway as seen best in Figure 5. This defines the fully inserted position of the terminal.

Tool 40 then is forced further against latch arms 20 in the direction of arrow "C" as illustrated in Figure 7. The triangulated configuration at end 42 of the tool is effective to permanently deform the latch arms by spreading the latch arms apart in the direction of arrows "D". The latch arms are deformed outwardly such that the distal ends of the latch arms seat tightly against latch shoulders 30 of housing 22 within passageway 24. When the tool is moved to deform latch arms 20, recess 44 (Fig. 5) within the end of the tool accommodates terminating arms 14a of the terminal. In addition, recesses 32 on opposite sides of passageway 24 accommodate the full width of tool 40 to ensure that there is adequate area on the triangulated end portions of the tool to engage and deform the thin metal latch arms 20 of the terminal. When the tool is removed, the latch arms remain permanently deformed in engagement with latch shoulders 30.

It will be understood that the invention may be embodied in other specific forms. The present examples and embodiments, therefore, are to be considered in all respects as illustrative and not restrictive.

Claims

An electrical connector including a dielectric housing (22) having a terminal-receiving passageway (24) defining a terminal-insertion axis (26), the housing including a latch shoulder (30) in the passageway, a terminal (10) insertable along said axis into the passageway, and the terminal including latch means (20) which are permanently deformable from a first, insertion position to permit insertion of the terminal (10) into the passageway (24) and to a second, latching position in which the latching means (20) are deformed transversely of the axis (26) from the first position into engagement with the latch shoulder (30) to prevent removal of the terminal from the passageway,
characterized in that
the dielectric housing (22) has at least a pair of said latch shoulders (30) generally on opposite sides of the passageway (24), and the latch means (20) include at least a pair of deformable latch arms spreadable into latching engagement with the respective pair of said latch shoulders (30).
An electrical connector as set forth in claim 1, wherein said terminal (10) is a stamped and formed member of sheet metal material, said latch arm (20) being a generally planar portion of the terminal and being deformable in a direction generally parallel to the plane of the arm.
An electrical connector as set forth in claim 1, wherein said terminal (10) includes a mating end (12), a terminating end (14) and an intermediate body portion (16) therebetween, the latch arm being on the body portion.
An electrical connector as set forth in claim 4, wherein said body portion (16) is generally box-shaped as defined by a pluarality of side walls (16a, 16b), the latch arm being on one of the side walls (16a).
An electrical connector as set forth in claim 1, wherein said terminal (10) is a stamped member of sheet metal material, said latch arm (20) being a generally planar cantilevered component deformable in a direction generally parallel to the plane of the arm.
An electrical connector as set forth in claim 1, including complementary interengaging stop means (28, 34) between the latch arm (20) and the housing (22) within the passageway (24) to define a fully inserted position of the terminal.
An electrical connector, comprising:

a dielectric housing (22) including a terminal-receiving passageway (24) defining a terminal-insertion axis (26), the housing including stop shoulder means (28) within the passageway and a latch shoulder (30) and

a terminal (10) insertable along said axis into the passageway, the terminal being stamped and formed of sheet metal material and including a mating end (12), a terminating end (14) and an intermediate body portion (16) between the ends,

characterized in that
the dielectric housing (22) has at least a pair of said latch shoulders (30) on opposite sides of the passageway (24), the body portion is generally box-shaped as defined by a pluarality of side walls (16a, 16b), at least one of the side walls (16a) include a pair of latch arms (20) which are permanently deformable from first, insertion positions to permit insertion of the terminal into the passageway to second latch positions in which the latch arms (20) are deformed transversely of the axis from the first positions into engagement with the respective latch shoulders (30) to prevent removal of the terminal (10) from the passageway (24), the terminal include ledge means (34) engageable with said stop shoulder means (28) to define a fully inserted position of the terminal.
An electrical connector as set forth in claim 7 wherein said latch arms (20) are generally planar portions of the terminal and are deformable in directions generally parallel to the respective planes of the arms.
A method of assembling an electrical connector, comprising the steps of:

providing a dielectric housing (22) with a terminal-receiving passageway (24) and at least a pair of latch shoulders (30) generally on opposite sides of the passageway (24);

providing a terminal (lo) insertable into the passageway (24) and including at least a pair of deformable latch arms (20);

inserting the terminal (10) into the terminal-receiving passageway (24); and

permanently deforming the latch arms (20) into engagement with the respective latch shoulders (30) to prevent removal of the terminal from the passageway.
The method of claim 9, wherein the step of permanently deforming the latch arms (20) comprises the steps of:
forcing deforming means (40) which have a triangulated end (42) against each pair of latch arms (20) to permanently deform the latch arms (20) by spreading the latch arms (20) into latching engagement with the respective pair of said latch shoulders (30).
The method of claim 10 or 9, including stamping and forming said terminal (10) from sheet metal material with said latch arm (20) being a generally planar portion of the terminal, and said deforming step comprises deforming the latch arm in a direction generally parallel to the plane of the arm.
An electrical connector including a dielectric housing (22) having a terminal-receiving passageway (24), the housing including latch surfaces means (30) in the passageway, a terminal (10) insertable into the passageway, and the terminal including latch means (20) which are permanently deformable into engagement with the latch surface means (30) to prevent removal of the terminal (10) from the passageway (24),_characterized in that
the dielectric housing (22) has at least a pair of said latch surfaces means (30) generally on opposite sides of the passageway (24), and the latch means include at least a pair of deformable latch arms (20) spreadable into latching engagement with the respective pair of said latch surfaces means (30).
An electrical connector as set forth in claim 12, wherein said terminal (10) is a stamped and formed member of sheet metal material, said latch arm (20) being a generally planar portion of the terminal and being deformable in a direction generally parallel to the plane of the arm.