The present application generally relates to electrical connectors and, more specifically, to surface mount technology (SMT) box receptacle or connector with release tabs used to releasably connect an insulated wire to a component, such as a printed circuit board (PCB).
A number of SMT connectors have been used for forming connections between an insulated wire and electronic components.
One popular and commonly used SMT connector is a box connector stamped from sheet metal and formed into a contact frame provided with a channel formed by two spaced side walls and a base for the purpose of physically securing and providing electrical contact with a conductor. This is achieved by using leaf springs, resilient fingers or contact tines having free edges that form a conductor insertion region that tapers in the direction of a clamping point formed by the free edges. While the leaf springs or spring fingers can be readily spread apart to receive a wire having a diameter greater than the spacing or gap between the free edges of the relaxed spring finger, removal of such clamped wire is sometimes difficult because the free edges of the leaf spring fingers generate a significant amount of friction in the reverse or removal direction that must be overcome to remove the wire from the connector. The greater the biasing forces acting against the wire the greater the force needed to remove the wire. In some instances, the forces are so significant that damage can be caused to the wire itself or to the box connector and even separation of the connector from the PCB to which it is soldered. To address this problem with box connectors, the free ends or edges of the spring fingers are frequently provided with upwardly facing funnel-like receptacles arranged to receive a wedge-shaped member. When the wedge-shaped member is pressed towards the spring fingers it acts on the funnel shaped receptacles and separates the spring fingers from each other and from the seized wire to allow the wire to be withdrawn without damage to the wire or to the connector. Examples of such box connectors are shown in the following U.S. Pat. No. 9,484,639; DE102011015968 B4; U.S. Pat. Nos. 8,968,022 B2; US2017/0033499 A1; 9,472,871 B2; 9,548,564 B2.
In some cases, an integrated wedge push button arrangement is provided or an external tool needs to be used to separate the spring fingers, such as shown in U.S. Pat. No. No. 8,862,703 where a flat screwdriver edge needs to be used to separate the spring fingers or tines. See also KR101617330B1.
In U.S. Pat. No. 9,735,479 a single element wire to board connector terminal is disclosed in which one of the fingers or tines is provided with a portion to assist in the removal of an entrained central conductor. Furthermore, the terminal includes two elastic arm restricting portions that have inner surfaces that are arranged to abut against outer surfaces of the other hanging elastic arm making the hanging elastic arm deform only to a limited predetermined extent. This is done to avoid overstretching the hanging elastic arms beyond the yield point thereof to cause undesirable deformation of the hanging elastic arm. In one disclosed embodiment there is only one hanging elastic arm that has the elastic arm restricting portion while in a further embodiment both hanging elastic arms are formed with elastic arm restricting portions. However, the restricting portions determine the extent to which the hanging elastic arms can move outwardly, this potentially creating a problem in releasing especially larger diameter wires. The lower the gauge or the larger the diameter of the wires that are captured within the contact the less that the elastic arms can be further separated from each other and the more difficult that it is to break contact between the hanging elastic arms and the wire captured thereby. The connector terminal, therefore, has a built inherent limitation on the sizes of the wires that can be received therein and easily or efficiently released.
In order to overcome the drawbacks or disadvantages in known box type SMT receptacles or connectors it is a primary object of the invention to provide an electrical receptacle or connector terminal design that allows for easy and convenient release of a captured wire received therein independently of the diameter or gauge of the wire.
It is another object of the invention to provide a box receptacle as in the previous object that includes release tabs that can be manually actuated, or actuated with any tool such as a tweezer, tong, pincer or plier, to separate the spring fingers or contact tines retaining a captured wire independently of the size or gauge of the wire.
It is still another object of the invention to provide a box receptacle as aforementioned that can be inexpensively manufactured by stamping and coining a sheet metal material.
It is yet another object of the invention to provide receptacle of the type under discussion that is versatile and can be surface mounted on a printed circuit board (PCB) for wire entry both horizontally along the PCB as well as through-the-board or through-the-hole (TTH) entry or from above entry in a direction normal to the PCB.
It is a further object of the invention to provide a box receptacle that can capture wires between two spring fingers or contact tines and be quickly and conveniently released by manual application of squeezing force on the edges of surfaces situated generally above the spring fingers or contact tines that provide unhampered expanding movements of the fingers or tines independently of the diameter or gauge of the wire received within the box receptacle.
It is still a further object of the invention to provide a surface mount box receptacle as in the previous objects with releasing tabs attached to the spring fingers or contact tines that can be freely manually moved from positions proximate to the axis of the connector to positions beyond a receiving envelope of the connector that defines the limiting size of a wire that can be received therein.
In order to achieve the above and other objects that will become evident to those skilled in the art, the surface mount wire receptacle or connector in accordance to the invention comprises a generally elongate flat base suitable for surface mounting on a printed circuit board that defines a connector axis. A generally cylindrical enclosure projects from an upstream end of the base open in directions parallel to the axis and having parallel spaced side wall portions or supports offset from the axis. A pair of resilient spring fingers or contact tines extend from the side wall portions inwardly towards the axis to position free ends of the spring fingers in close proximity to each other at a point downstream of the cylindrical enclosure. An actuating tab is provided on each spring finger to form cantilevers extending across the axis and beyond a cooperating spring finger and having a free edge accessible to a user for application of generally opposing inwardly directed forces towards the axis to separate the free ends of the spring fingers when the actuating tabs are squeezed inwardly towards each other. The resilient spring finger free ends are movable between relaxed positions forming a gap between the free ends and extended positions in which a wire of diameter greater than the dimension of the gap can be frictionally engaged and captured by the free ends. When the tabs are squeezed inwardly this increases the spacing between the free ends a distance greater than the diameter of the captured wire. The actuating tabs are mounted outside a receiving envelope of the cylindrical enclosure and can move independently of the positions of the resilient fingers to clear the resilient fingers relative to any wire having a diameter receivable within the receiving envelope of the box receptacle.
Those skilled in the art will appreciate the improvements and advantages that derive from the present invention upon reading the following detailed description, claims, and drawings, in which:
Referring now specifically to the figures, in which identical or similar parts are designated by the same reference numerals throughout, and first referring to
Receptacle 10 is provided with a generally elongate base 12 extending along an axis A of the receptacle. Insertion of a wire is generally through a first upstream cylindrical enclosure 14. For purposes of this application the term “cylindrical” is defined as any three-dimensional enclosure generally defining an axis and having substantially uniform cross-sections along the axis.
As best shown in
Extending from the side walls 14a, 14b of the downstream enclosure 14 are leaf springs, spring fingers or contact tines 18, 20, respectively, that converge from the side walls 14a, 14b inwardly towards the center of the receptacle 10 to form a gap 34 as is customary with such box connectors. The spring fingers 18, 20 are, therefore, formed as cantilever springs and assume normal or relaxed positions shown in
The spring fingers or contact tines 18, 20 have fixed ends 14f, 14g (
An important feature of the invention is that each of the spring fingers 18, 20 is provided with extensions 18a, 20a, respectively, that extend or project from intermediate points of associated spring fingers 18, 20 between the fixed and free ends thereof (
It is an important feature of the invention that the release tabs 18b, 20b can move freely in response to the application of forces F without restriction irrespective of the diameter of the captured wire. Therefore, even for large diameter wires, approaching the dimensions of the receiving envelope 36, the actuating tabs 18b, 20b can still be actuated to further separate the spring fingers 18, 20 to move them into any desired positions within, coextensively with or beyond the receiving envelope 36 depending on the degree of flexing or extension that the spring fingers need to move to release a captured wire between the ends 30, 32. Thus, even when the captured wire has a diameter equal, for example, to W or H the release levers or tabs 18b, 20b can separate the free ends 26, 28 beyond the receiving envelope 36 to allow release of a captured wire with ease, convenience and without damage to the wire, the box receptacle or the PCB.
In
In
The foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.
Number | Date | Country | |
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62582573 | Nov 2017 | US |