This invention relates to an electrical switch which has at least one insulation displacement connector for making electrical contact with insulated wires attached to the switch.
Insulation displacement connectors (commonly referred to as IDCs) have been known at least as early as 1961, as shown in U.S. Pat. No. 3,012,219. They are widely used for making telephone connections, for example. Such connectors have been used on electrical switches such as, for example, in U.S. Pat. No. 4,754,104. Better ways of implementing and making connections to a switch with an IDC are desirable.
There is, therefore, provided in practice of this invention a switch body including a connector portion with an insulation displacement connector on the connector portion. (A typical insulation displacement connector has two tines with an open slot therebetween for receiving a wire transverse to the slot and sufficiently close together to displace insulation from such a wire pressed into the slot along the length of the slot, and make electrical contact with the wire.) A number of features improve the switch, such as, for example, an insulating flap hinged to the switch body so that the flap has an open position, a catch position beyond the open end of the slot in an IDC, and a latched position with a portion straddling the slot and securing a wire in the slot. Moving the flap from the catch position to the latched position presses the wire along the length of the slot. Preferably the flap is hinged to the switch body with the axis of the hinge being parallel to a wire in the slot.
These and other features and advantages of the invention will be appreciated as the same becomes better understood by reference to the following description when considered in connection with the accompanying drawings wherein:
The switch has a plastic body 10 with a connector portion 11 toward one side of a switch housing or cover 12. The operating mechanism of the switch is between the body and cover and is essentially hidden from view in the drawings. The switch mechanism is immaterial for an understanding of the invention nor how to make or use it. An exemplary switch is a normally-OFF, momentary-ON switch which effectively operates like a doorbell button. When the plunger 13 of the switch is pressed, electrical contact is made, closing the switch, and when the plunger is released, contact is broken. This is merely exemplary, and the switch could be any other of a variety of formats, such as a normally-ON momentary-OFF or an ON-OFF-ON-OFF switch, such as a ratchet switch, which has alternating ON and OFF positions with successive pushes of the plunger. Three pole and other switches may also benefit from use of improved insulation displacement connector arrangements as described hereinafter.
In the illustrated embodiment, the switch includes four places for making external electrical connections. Two of these have conventional troughs 14 for making a crimped connection to a multi-strand wire. In an exemplary use of such a switch, wires connected to a lamp are crimped to these connectors. Such a switch may be delivered by the manufacturer with a lamp already connected or may be sent with empty connectors for the customer to make its own connections.
The other two electrical connections are insulation displacement connectors (IDCs) 16. Each IDC is a metal sheet having a keyhole shaped opening 17 which defines a pair of parallel tines which straddle a slot 18 therebetween. Since this is a keyhole shaped opening, the two tines essentially extend upwardly and around the upper part of the keyhole to meet at the top and find a guide opening in the wire adjacent the open end of the slot.
Thus, to make electrical connection, a wire is placed through the larger opening of the keyhole and is then pressed downwardly along the length of the slot. This displaces insulation from the wire so that the tines make electrical contact with the wire. Such an IDC can be designed with a slot width appropriate for use with either solid wire or multi-strand wire. The slot may have parallel sides or convergence.
The metal pieces for connectors are fastened to the switch body by rivets 19 and 21, two of which 21 also secure the switch housing or cover to the injection molded plastic body.
A flap 22 is attached to the connector portion of the body by a thin hinge 23. The body, hinge and flap are integrally molded of a plastic that is sufficiently flexible to form a hinge. A preferred plastic is nylon (e.g., nylon 6/6), although acetal, polypropylene and other plastics are also suitable.
The flap has three positions relative to the body of the switch. Its open position lies more or less parallel to the connector portion of the switch body as illustrated in
The flap has a second “catch” position when it is rotated around the plastic hinge to lie at an acute angle (e.g., in the range of from about 10 to 20°) from the connector portion, as illustrated in
When the flap is rotated around the hinge to the catch position, the top of each of the IDCs enters a respective narrow slit 27 along the center line of the flap. The flap also has two grooves 28 extending across the flap which align with the respective IDCs when the flap is in the catch position. These transverse grooves provide clearance adjacent to the large upper portion of the keyhole opening in the IDCs so that wires can be inserted through the openings.
The flap has a third latched position where it is rotated further around the hinge so that the flap lies approximately parallel to the connector portion of the switch. When rotated into the latched position, the shoulder 24 on the arm 26 passes through a clearance passage 29 near the end of the flap and engages a second shoulder 31 on the flap to retain the flap in the latched position.
When the flap is rotated from the catch position toward the latched position, the flap (via the transverse grooves 28) engages a wire in the large opening of each IDC and presses the wire along the length of the slot 18, thereby displacing insulation and making electrical contact between the wire and tines. The flap in its latched position holds the wire in place in the IDC.
There is a clearance hole 30 through the connector portion for receiving the hook 25 on the flap when the flap is rotated to the latched position. Latching in this position is by engagement of the mating shoulders on the switch and flap respectively. The hook is not in engagement with anything in the latched position.
If desired, the manufacturer may ship the switch to the customer with the flap already pivoted into the catch position. Then, all the customer has to do is insert the wires into the keyhole shaped openings and press the flap to the latched position to complete the connections.
Although as described and illustrated the open position of the flap lies approximately parallel to the connector portion of the switch, it is found that after once rotating the flap from this parallel position to near the catch position, there is some plastic deformation of the hinge and the flap does not return to the “full open” position. Instead the flap may rest at an acute angle from the catch position. This is still considered to be part of the open position.
A pair of alignment wings 32 extend upwardly from the connector portion of the switch near the flexible hinge. When the flap is rotated toward the catch position, the wings straddle the sides of the flap to keep the axis of the hinge approximately parallel to the wires in the IDCs to assure that the slits 27 properly fit over the ends of the IDCs. There is also a short stud or boss 33 on the switch body which enters a matching hole 34 in the flap when the flap is rotated toward the catch position. There might be variation in location of the hinge axis in the more or less flat portion between the body and flap, and the engagement of the boss and hole assures appropriate positioning in a direction transverse to the hinge axis. That is, side to side alignment of the flap is provided by the wings straddling the flap and longitudinal alignment is assured by reason of the boss and hole.
The flap has the general shape of an elongated trough with the slits being through the bottom of the trough. That is to say, the flap has a generally U-shaped transverse cross-section with the slits being in the bottom of the U. The upstanding ribs 36 along the length of this trough provide the stiffening of the flap to minimize bending and twisting. This is an appropriate way of stiffening while maintaining the thickness of the plastic roughly the same throughout the molded part, which is desirable for injection molding.
There is an extension 37 on the end of the flap beyond the hook and clearance passage 29, which does not directly affect functioning of the flap. The extension provides some additional leverage for pressing the wires into the slots when the flap moves from the catch position to the latched position, which may be desirable if the flap is closed manually. Such an extension may be insignificant when the flap is closed with automated equipment. The extension is more a matter of convenience than necessity.
The alignment features (wings, boss and hole) are desirable since a typical switch of this nature is quite small and good alignment is desirable for proper operation of the IDCs. For example, when the wire being positioned in the IDC has a 50 mil diameter (0.05 inch), the clearance between the slits and metal IDC is about 6 mils on each side.
The switch embodying this invention need not be made exactly as described and illustrated. Modifications and variations will be apparent to those skilled in the art. Thus, for example, such a switch may have one, two, three or more IDCs. A flap may be hinged differently, although an integrally molded flexible hinge is quite economical. Alignment of the flap and switch body may be assured with a different boss and hole arrangement, and the straddling wings may be deleted. Even the IDCs may be changed somewhat. In this embodiment, they are illustrated as having a parallel-sided slot to receive the wire, whereas other embodiments prefer a slightly tapered slot. Thus, it is to be understood that within the scope of the appended claims, this invention may be practiced otherwise than as specifically described and illustrated.
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Number | Date | Country | |
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20050061642 A1 | Mar 2005 | US |