JPS59184476A - Electric connector - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

TECHNICAL FIELD OF THE INVENTION This invention relates to electrical connectors, and more particularly to a two-piece electrical socket contact assembly for use within the connector.

[Prior art]

Generally, electrical connectors include a receptacle and a plug having an insert portion of insulative material with a plurality of apertures for holding pin-and-socket type electrical contacts. To engage the plug into the receptacle, use the bottle-shaped contacts to
It is inserted into a socket-type contact having a plurality of radially flexible spring fingers that engage pin contacts.

Often, when a bottle-shaped contact is inserted into a socket-shaped contact, the contacts are not axially aligned and the pin enters the socket at an angle. In this case, the spring finger is deflected beyond its normal range, reducing its elasticity and the inward force of the spring finger against the pin contact during engagement. This angular entry of the pin contact leaves the spring finger permanently deflected from its original position. To reduce damage to the spring fingers in stamped electrical socket contact assemblies, conventionally the spring fingers have been protected by placing a sleeve around the fingers. Such a device is disclosed in U.S. Pat. No. 4,120, filed October 17, 1978.
, 556, entitled "Electrical Contact Assembly." No. 4,168,878, filed September 25, 1979, entitled "Pin and Socket Type Electrical Terminal," an annular crimp on an outer sleeve engages a spring finger to force the finger against a pin contact. controlling power. However, in this type of device, the annular projection has a fulcrum, which tends to permanently bend the spring fingers of the socket contact.

[Summary of the invention]

The present invention relates to a stamped electrical socket contact assembly adapted to limit deflection of the spring fingers of the socket contact when engaged with a pin contact. The two-piece stamped electrical socket contact assembly of the present invention has an outer sleeve that includes:
It has an annular projection spaced from and extending inwardly from the front half of the spring finger. This protrusion engages the finger when the finger is deflected outwardly by more than a predetermined distance.Thus, the present invention provides a two-piece structure that prevents the spring fingers of the socket contact from deflecting excessively. A stamped electrical socket contact assembly is provided.

Additionally, the present invention can reduce the number of parts required to manufacture a stamped socket contact assembly.

〔Example〕

Embodiments of the present invention will be described below based on the accompanying drawings.

FIG. 1 shows a socket contact assembly consisting of a stamped tubular member 10 and a sleeve 20 mounted concentrically thereon. Tubular member 10 has a wire-receiving rear portion and a front engagement portion. The front engagement portion has a plurality of flexible spring fingers 11 that engage pin-shaped contacts 30. The outer portion of the rear end of the tubular member 10 has a forwardly facing shoulder 12. An outer sleeve 20 of a corrosion-resistant material such as stainless steel includes a rearward portion, an enlarged intermediate portion 25 having a forwardly facing step 26 and a rearwardly facing step 27, and the tubular member 10.
and a forward portion extending beyond the forward end of the spring finger 11. The front end of the outer sleeve 20 has an inwardly extending annular surface 21 defining an opening slightly larger than the opening formed by the end of the spring finger 11 of the tubular member 10. The function of the annular surface 21 is to guide the pin-shaped contact 30 into the opening formed by the end of the spring finger 11. The forward portion of the outer sleeve has an inwardly extending annular projection 22 which serves to limit outward deflection of the spring fingers 11 of the tubular member 10. This projection 22 is preferably provided concentrically with and spaced apart from the spring finger 11 along the front half of the spring finger. The protrusion 22 has a flat portion or is arched so as to engage the spring finger 11 when the spring finger 11 deflects outward, thereby limiting outward movement of the finger. .

FIG. 2 shows a bottle-shaped contact that enters the socket-shaped contact at an angle such that, without the protrusion 22, the spring fingers 11 would be deflected above normal. In this figure, the annular protrusion 22
prevents each spring finger 11 from deflecting further outward, thus minimizing the effect of excessive finger deflection against the elasticity of each finger 11.

FIG. 3 shows the engaged bottle and socket contact in its normal position with the annular projection 22 of the outer sleeve 20 spaced from the outer surface of the finger 11. Although the invention has been described, the invention may be modified in various ways without departing from the spirit of the invention. For example, the enlarged portion of the contact assembly may be formed in either the inner tubular portion 10 or the outer sleeve 20, and still have two protrusions 22 instead of one.

[Brief explanation of the drawing]

1 is a cross-sectional view of a two-piece socket contact assembly embodying the principles of the present invention; FIG. 2 is a cross-sectional view of the socket contact shown in FIG. 1 with a pin contact inserted at an undesirable angle; Figure 3 is a sectional view of the contact acenob 1β of the present invention engaged with a bottle-shaped contact Q10... Tubular member, 11... Spring finger, 1
2-... e shoulder, 21... annular surface, 22...
Yu protruding part, 25... Enlarged middle part, 26.27...
...Stepped portion, 30... Yupin type contact.

Claims (1)

Claims: (1) a tubular member (10) having a front engaging portion and a wire receiving rear portion having a plurality of flexible spring fingers (11); the plurality of spring fingers (11) having a forward portion and a rearward portion extending beyond the ends of the tubular member (11); , in an electrical connector adapted to receive pin-shaped contacts through openings formed in the ends of the fingers (11); said sleeve spaced apart from said spring fingers (11) and concentric with said fingers (11); (20
) at least one inwardly extending annular projection (22) formed on the front portion of the
A predetermined distance (2) is provided by a bottle-shaped contact inserted into an opening formed in the thigh finger. An electrical connector according to claim 1, characterized in that it has a forwardly directed annular shoulder (12) that engages the rear end (23) of the sleeve (20). In,
The outer surface of one of the tubular member (10) and the sleeve (20) has a forward and rearwardly facing step located between the rearward and forward engaging portions of the tubular member (10). An electrical connector characterized by having an enlarged portion. (4) In the connector according to claim 1, the annular protrusion (22) includes a spring finger (11).
An electrical connector characterized by being provided adjacent to the front half of the. (5) In the connector according to claim 1,
The front end of the sleeve has an annular surface (21) extending radially inwardly toward the spring finger (11), forming an opening slightly larger than the opening formed in the end of the spring finger. An electrical connector terminating in said annular surface for guiding a bottle-shaped contact into an aperture formed in said spring finger. (6) #In the connector described in claim 2,
The front end of the sleeve defines an annular surface (21) extending radially inwardly towards the spring finger (11), forming an opening slightly larger than the opening formed in the end of the spring finger. and wherein said annular surface guides a bottle-shaped contact into an opening formed by said spring finger. (7) In the connector according to claim 3,
The front end of the sleeve defines an annular surface (21) extending radially inwardly towards the spring finger (11), forming an opening slightly larger than the opening formed in the end of the spring finger. terminating in a large opening, and the annular surface is formed by the spring finger;
An electrical connector characterized by guiding pin-shaped contacts. (8) The connector according to claim 4 has an opening slightly larger than the opening formed at the end of the spring, and extends radially inward toward the spring finger (11). An electrical connector, characterized in that it terminates in an annular surface (21), said annular surface guiding a pin-shaped contact into an aperture formed in said spring finger. (9) a pin-shaped contact (30) having a front engagement portion and a wire-accommodating rear portion; and a plurality of flexible spring fingers (1) in pressure contact with the front engagement portion of the bottle-shaped contact (30);
1) comprising a tubular member (10) having a front engaging portion and a wire receiving rear portion; a sleeve (20) disposed concentrically on said tubular member (10) and having a rear portion and a front portion; In an electrical connector; comprising at least one inwardly extending annular projection (22) provided in the forward part of the sleeve (20) spaced from and concentric with the spring finger (11); , wherein said protrusion (22) is adapted to engage each spring finger (11) when said spring finger (11) is deflected outwardly. A connector according to claim 9, characterized in that the annular projection (22) is provided adjacent to the front half of the spring finger (11).