NO133167B - - Google Patents

Description

The invention relates to an electrical clamping device for interconnecting conductive core wire in two insulated wires and comprises an insulating sheath with a bottom section defining a cavity to accommodate a plurality of wires, an opening providing access to the cavity and an integral closing element hinged to the bottom section for closing this opening, with a complementary locking device placed on the bottom section and the closing element, control means for bringing the closing element directly over the opening on closing, an exit opening for each wire, a metal plate arranged in the wire receiving cavity upright from the bottom section, a plurality wire receiving slots formed in the plate directed perpendicularly away from the bottom section and opening into an edge of the plate at said access opening to define openings through which the wires, on

across their longitudinal axes, can be pressed into the slots when the closing element is moved to the closed position, so that the slot edges penetrate the wire insulation and form electrical contact with the wire core.

A clamping device of this kind is known from U.S. Pat. patent no. 3,576,518. Another example of prior art is found in U.S. Pat. patent No. 3,290,430.

As the closing element is in one piece with the bottom section, the necessity of stocking and handling a separate closing element which, with small dimensions, can easily be lost is avoided. This closing element partly provides the electrical connection and partly a seal against the surroundings with just one action from the installer's side. However, this clamping device has the disadvantage that by the curvilinear movement of the closing element for engagement with the bottom section, the wires are not subjected to a pressure which drives them perpendicularly down into the slots. The resulting insertion press has undesirable transverse or axial components which not only cause an increase in the necessary force for the insertion, but can also cause a permanent deformation of the slit metal sheet.

In another clamping device known from U.S. patent no. 3 012 219, the closing element is not designed in one piece with the bottom section, and it must be flush with this prior to taking up a wire, and this must be introduced through a channel in the bottom section, as the access opening is blocked by the closing element .

It is the purpose of the invention to provide instructions for a clamping device of the type in question where these disadvantages are avoided.

With this in mind, a clamping device according to the invention is characterized in that the closure element comprises first and second closure parts which are independently hinged to opposite sides of the bottom section by means of respective flexible steps for interdependent movement to conform to and away from the closed position for each press an associated wire perpendicularly into and to permit its removal from an associated slot independently of the other wire, and that a separately releasable locking device is provided for each closure.

In this way, the wires can be removed one by one from the clamping device without affecting the connection of other wires with it. Another advantage is that the mantle can be cast in one piece.

It is also preferred that the said control devices comprise one or more protrusions which are upright from the bottom section and arranged to be engaged in sliding engagement in a corresponding channel when the closing element parts are brought to close the access opening.

The invention is explained in more detail below with reference to the schematic figures, where: Fig. 1 is a perspective view of an embodiment of the clamping device according to the invention with open closing elements,

Fig. 2 this device seen from one end,

Fig. 3 a section along the line 3-3 in fig. 1,

Fig. 4 a side view of the device with the closing elements placed above the bottom section before final compression, and

Fig. 5 the device on fig. 2 after interlocking and contact formation between two wires.

In fig. 1 shows an electrical clamping device 10 with a first and a second closing element 50,52 which are both joined in one piece with a bottom section 12 by means of flexible steps 58. The bottom 12 is designed with a first and second wire receiving groove 14 ,16, which has an essentially semi-circular cross-section and a diameter that is somewhat larger than the diameter of ordinary insulated wires so that wires 42, 44 whose diameters vary within certain limits can be accommodated. E.g. can the diameter in the grooves 14,16 be sufficiently large that these can accommodate single or multi-wire conductors with vinyl or polyethylene insulation with diameters from approx. 1.5 - 3.25 mm. Naturally, the diameters in the tracks can be larger or smaller corresponding to the wires used.

The grooves 14, 16 are delimited by a central rib 18 with side ribs 20, 22 formed as parts of the bottom section 12. Two opposite projections 38, 40 are formed which extend up from the ribs 20, 22, respectively in one piece with them.

A slot 26 extends across the base 12 adapted to receive a clamp 24. This is preferably made of conventional electrical clamp metal, e.g. phosphor bronze plate or cartridge brass plate, with a thickness of approx. 0.8 mm.

Such metals are characterized by having good conductivity in combination with good mechanical strength and good suspension properties. The clamp 24 is designed with wire engagement slots 34,36, which open into the upper edge of this (fig. 3) and is delimited between a central plate part 28 and two resilient fingers 30,32 which are designed in one piece with this at a distance from its opposite edges.

The slot 26 extends into the protrusions 38,40, and the effective width of the slot 26 is greater at the free end of these than at the bottom of the root. Due to this design, there is sufficient clearance so that the fingers 30,32 can be bent out from the plate part 28 of the conductive core in wires which are inserted into the slots 34,36 without deformation of the projections 38,40 or the lower part of the bottom section 12.

The closing elements 50,52 for the large upward-facing mounting, or 'access opening to the bottom sex ion 12,' are identically designed and each comprise a main part 54 with a wire receiving groove 56.; ..The part 54 has essentially the same shape as one or the other half of the base 12, and the grooves 56 have essentially the same diameter as the matching grooves in the bottom: 1'2. Dé' flexible step 58 has a part 60 which has. reduced thickness and acts as a hinge.

Both closed elements 50,52 have a channel 66 in the section

54 soiti eir is arranged to be slidable for the nearest of the projections 38,40 when the closing elements are introduced over the bottom 12. In addition, the closing elements have a locking device in the form of an elastic ring-shaped part 68 which is arranged to engage over 'locking cams' 62,64 on the outer side of the protrusions 38, 40 in engagement with the flat lower surface 70 of the lugs to attach the closing elements to the base 12.

Both elements 50,52 also have: a lateral recess 72 which extends across the grooves 56 and is arranged to receive an upper part of the clamp 24 when the elements 50,52 are placed over the bottom '12.' A rib 74 extends across the middle of the recesses 72, which fits into the nearest slot 34, 36 and acts to press appropriately placed wires deeper into them to increase the electrical contact.

<;>'" The locking device opposite the described mantle is designed

in one piece using a conventional injection molding technique and from a tough, springy, flexible insulation material, e.g. polypropylene, nylon, polycarbonate or an appropriate plastic material. Different types of additives can be included in the polymeric material to provide different desirable properties. For example, a flame retardant substance can be added, or different pigment types can be added for identification purposes.

Prior to connection, the clamping device is open as shown in fig. 1 "and 2. A wire 42 or" 44 ~f is then smelled with the mouth of one of the slots 34, 36 and the corresponding groove 14 or 16. The wire can then be forced into the slot across its axial direction by directly applying a press,' eg.' by means of a suitable tool, which causes the edges of the slot to cut through the wire insulation 48 and form a direct metal-to-metal contact with the conductive core 46. Upon insertion, the fingers 30,32 bend outward/- but when they which is taken up in the upper extended area of the slot 26, no distortion occurs on the sides of the bottom section 12.

In another method of inserting the wire, it is aligned with a slit mouth, and the corresponding closing element is then brought into a partially closed position (fig. 4) so that it is placed over the wire. The steps 58 bend precisely around the hinges 60, and they are sufficiently long and flexible that the nearest projection 38,40 is engaged exactly in the channel 66 and brings the closing element flush with the bottom section. The clamping device is then pressed together, e.g. by means of pliers, so that the rib 74 forces the cord perpendicularly into the slot in the clamp 24 and holds it there, while the ring 68 snaps in over the nearest knob 62;64. Of course, two wires can be connected to the clamping device at the same time, but the separate closing elements result in greater versatility than if there was only one closing element, as a first wire can be arranged in place at one time, while a second wire can be added later .

If it is desired to; exchange, one of the connected wires, it is also possible to only independently open one of the closing elements, whereby the risk of the other wire being negligently released from. the clamping device is prevented.

These self-regulating properties are particularly advantageous if the clamping device is used where there is limited space, or where it is not visible to the fitter during installation. Under these circumstances, the assembly time is greatly reduced, as the fitter can place the closing elements quickly and precisely without seeing them..... • The clamping device can be used for both X- and T-connections between insulated wires. When making the X connection, two wires that pass completely through the clamping device are brought into electrical contact with each other between the wire ends. When making a T-connection, one wire extends only slightly beyond the clamp 24. Both wires will be held firmly in position by the closing elements.

Claims (2)

1. Electrical clamping device for interconnecting conductive core wire in two insulated wires and comprising an insulating sheath with a bottom section defining a cavity to accommodate a plurality of wires, an opening providing access to the cavity and an integral closure element hinged to the bottom six ion for closing this opening, with a complementary locking device placed on the bottom section and the closing element, control means for bringing the closing element directly over the opening on closing, an exit opening for each wire, a metal plate arranged in the wire receiving cavity upright from the bottom section, a plurality wire receiving slots formed in the plate directed perpendicularly away from the bottom section and opening into an edge of the plate at said access opening to define openings through which the wires, transverse to their longitudinal axes, can be pressed into the slots when the closing member is moved to the closed position , so that the slit edges penetrate the ledni the insulation and forms electrical contact with the wire core, characterized in that the closing element (50,52) comprises first and second closing parts (50,52) which are independently hinged to opposite sides (20,22) of the bottom section (12) by means of respective flexible steps (60) for mutually independent movement into compliance with and away from the closed position each to press an associated wire (42, 44) perpendicularly into and to permit its removal from an associated slot (34, 36 ) independently of the other wire, and that a separately releaseable locking device (68, 70) is arranged for each closing part. 2. Electrical clamping device according to claim 1, characterized in that the aforementioned control devices (38, 40, 66) comprise one or more projections (38, 40) which are upright from the bottom section (12) and arranged to be engaged in sliding engagement in a corresponding channel (66) when the closing element part is brought to close the access opening.