NO141733B - CONTACT DEVICE INCLUDING A FIRST AND ANOTHER METAL PLATE ORGANIZED CLOSELY AND PARALLEL AND WITH PARTICULARLY CIRCUIT WIRING RECORDING SLACKS - Google Patents

Description

This invention relates to contact devices or clamps for the electrical connection of two conductors, e.g. in electrical wiring..

A known device of this kind comprises a first and a second metal plate^arranged close to each other and parallel facing each other as well as arranged for limited relative lateral movement in their planes and provided with a first and a second wire-receiving slot extending from respective mouths in the at least partially flush with each other, where the walls of the first slot are laterally displaced in relation to the walls of the second slot, so that a conductor inserted into the slots will be gripped between opposite walls of the two plates with lateral movement of the slot walls further to mutual arrangement with each other.

A disadvantage of such a contact device is that the insertion of a second or subsequent conductor in the slots tends to reduce the gripping force on the first conductor, with consequent reduced reliability and efficiency in the electrical connection.

According to this invention, each of the slots comprises a first and a second wire receiving section spaced from the mouths, that the walls of the first slot in the first section are offset in a first lateral direction from the walls of the second slot in the first section, that the walls of the first slot in the second section are displaced in a different lateral direction from the walls of the second slot in the second section, the second direction being opposite to the first direction, so that a conductor inserted in the first sections is gripped between a first wall of the first slot and a second, opposite wall of the second slot, and a conductor inserted in the second slot sections is gripped between another wall of the first slot and a first, opposite wall of the second slot.

Introduction of the second conductor in the first slit sections will seek to increase the grip force on the first conductor previously introduced in the second slit sections, whereby the electrical connection becomes more efficient and reliable.

Concrete examples according to the invention shall be described in the following with reference to the drawings, where:

Figure 1 is a perspective view of a wire interconnecting part

of a first embodiment of a contact device or clamp according to the invention. Figure 2 shows a front view of the device in Figure 1.

Figures A to 5 show schematic front views of the device on

figure 1 in various stages of wire insertion. Figures 6 and 7 are partial perspective views of a first and a second contact device comprising clamps similar to the one in Figure 1.

Figure 8 is a perspective view of a wire interconnecting part

in another embodiment according to the invention.

Figure 9 is a perspective view similar to Figure 8 and shows

a third embodiment.

Figure 10 shows a fourth and fifth embodiment example.

Figure 11 shows a sixth embodiment example.

Figure 12 shows a seventh exemplary embodiment according to op invention, figures 13 and 14 are partial views showing modifications of slits the walls of the clamp or contact device. Figure 15 is a front view of the wire connection part in an eighth embodiment of a contact device according to the invention. Figure 16 is a front view of the device in Figure 15 with a

wire introduced in a transition area.

Figure 17 is an enlarged front view of the wiring interconnect the part in figure 16. Figure 18 is a partial and cut away perspective view of a wire interconnection part in a ninth embodiment

example according to the invention, and

Figure 19 is a schematic diagram of a tenth embodiment

on a contact device or clamp according to this invention.

In the first example shown, a clamp 11 is punched out and formed from a single piece of metal plate and comprises a first and a second metal plate 12 and 13, which are connected to each other at one end through a bay portion 14, so that they extend close to each other in parallel and facing each other. The plates have respectively first and second slots 15 and 16, which extend from the other end, and the second plate is connected at the other end through two strips 18 to a third plate 19 which is provided with a third slot 20 flush with the said first and second slit. The plate 19 extends from one end of a main part 21 which is connected at its other end to a contact part (not shown) and is provided with a locking tongue 22 for retaining the clamp in a housing.

The first and second slits extend in the same direction and partially flush with each other from adjacent mouths and comprise first and second wire receiving sections 23, 24 and 25,26 which successively have increasing distances from the mouths, a first and a second wall 27 and 28 in the first slot 15 are displaced in a first lateral direction from the first and second walls 29 and 30 in the second slot 16 in the first sections 23, 24 and the first and second walls of the first slot are displaced from the first and second walls of the second slot in another lateral direction opposite to the first lateral direction, in the second sections 25, 26. The first and second sections are connected through transition areas which are shown in more detail in Figures 15 to 17.

In use, a first insulated wire is inserted perpendicular to its axis through the mouths and the first slot sections into the second slot sections. During this advance through the first slot sections (Fig. 3) the wire is gripped between the first wall 27 of the first slot and the second, opposite wall 30 of the second slot during penetration of the insulation and relative lateral swing movement of the first and the different plate in its planes and in one direction. Movement of the first wire through the transition area into the second slot sections (Fig. 4) causes relative swing movement of the plates in the opposite direction and the wire is caught between the second wall 28 of the first slot and the first, opposite wall 29 of the second slit. Subsequent introduction of another, similar line in the first slot sections (Fig. 5) causes relative pivoting movement of the plates into alignment with each other by the influence of the second line and the first wall 27 in the second slot and the second wall 30 in the second slot, which reinforces the gripping power of the first wire.

According to the above, an increasing gripping force is thus imparted on the wire core or conductor during the stages illustrated in figures 3 to 5, which is especially effected by the insertion of the second wire in the first slit sections. The presence of the first wire in the second slit sections also increases the gripping force on the second wire core in the first slit sections. Consequently, the gripping force on a wire core is greater when two wires are present in the respective slot-six ions than when only one wire is inserted. The bay portion 14 maintains the gripping force.

The third slot can grip the wires to provide strain relief. If desired, the separation or the mutual distance between the first wall 24 in the first slot and the second wall 30 in the second slot can be greater than the mutual distance between the second wall 28 in the first slot and the first, opposite wall in the second slot in the second slot section.

The device in Figure 6 comprises an insulating housing 40 mounted in

an opening in a panel 41 as two rows of opposite contact devices or clamps 11 are mounted in the housing. Each clamp has a bent spring contact portion 42 which extends from the main body 21 and is provided with ears 43 at its free end for locking behind shoulders 44 on the housing so that the clamps are retained in the housing with the contact portions 42 bent toward each other in a biased condition in order to grasp a printed circuit board or contact pins between them.

In the contact device in Figure 7, the clamps 11 are essentially modified in that the main parts 46 extend perpendicularly to the plates with the slits so that the wires can be inserted into the slits in a direction parallel to the panel 41 instead of in a direction perpendicular to it.

In the second example of a contact device or clamp 50 shown in Figure 8, the slit mouths 51 are open through a bay portion 52 which integrally connects a first and a second plate 53 and 54 to each other. Because of the split bay portion, the wire connection part of the clamp can be produced in a single punching step, while the first embodiment of the clamp requires two punching steps because the first and second slots are separated from each other by the material forming the bay portion 14.

The third example of a clamp 60, as shown in Figure 9, differs from the first example in that three respective slot sections are arranged. The first and third sections are placed flush with each other, but are laterally offset relative to the second slot section 62 in a similar manner as in the first example. The mutual distance between interacting walls in the sections can be different from section to section if desired.

The wire interconnecting parts in the fourth and fifth examples of clamps 66 and 67 as shown in Figure 10 are provided with pins 68 which extend from one plate 69 and which are anchored in a plastic substrate 70. In one clamp 66, wire the interconnecting portion of separate slot plates joined only through the plastic substrate 70.

In the sixth example 71 as shown in Figure 11, is a first

and another slotted plate 72 and 73 connected to one another along one edge through a bay section 74 which runs parallel to the slots, the slots being designed and arranged in a similar way to the slots in the first example. Contact pins 75 and 76 extend from adjacent sides of the other plates. Optionally, shrink sleeves or other connecting parts can be arranged instead of these contact pins.

In the seventh example as shown in Figure 12, two wire receiving parts 78 and 79 are placed, each corresponding to the first example, these parts being placed side by side in a single piece of metal, which allows the recording of 4 wires in a single clamp or contact device.

As shown in figure 13, the edges of cooperating slot walls 81 and 82 can be chamfered on opposite sides for contact with a wire so that the wire runs more approximately in a plane perpendicular to the longitudinal axis of the wire than when such chamfers are not present. This reduces the torque that is locally exerted on the wires by these edges. As shown in Figure 14, the edges 83 and <0>84 may also be bent towards each other to bring the planes of contact with a wire inserted between them, more perpendicular to the wire axis. Edges 85 and 86 of non-engaging slot walls can be bent away from edges 83 and 84 to allow lateral movement of these edges away from each other during wire insertion.

In the eighth example 87 as shown in Figures 15 to 17, the first and second slit sections are separated from each other in the longitudinal direction by means of a transition area 88 of length x, so that a passage is formed which makes it possible to pass a conductor between the slot sections without pinching between transition edges 89 and 90 in the slot walls 91 and 92. The magnitude of the lateral displacement of the walls in the first and second slots together with the inclination of the transition edges and the length x can be chosen so as to provide a passage with maximum and constant width for a conductor during its movement along and between the two slit sections.

As shown in more detail in Figure 17, the angle A between the transition edges 93 and 94 and the longitudinal slot edges 95 and 96 is preferably 30° to form a passage of approximately minimal resistance for a conductor passing through the transition area, while the angle B between a line joining the upper ends of opposite transition edges 93 and 89 on the same plate should be between 12 and 20° to provide a passage of the same width to both the first and second slit sections.

In the ninth example of a clamp 98 as shown in fig. 18, is

the above-mentioned transition area incorporated and a wire stopper 99 is punched out of the third plate 101 to limit the insertion depth of a wire in the second slot section.

In Figure 19, a tenth example 102 is shown, where hatched, non-cooperating, opposing wall portions 103 and 104 in the first slot section such that only one slot wall in each plate is required to provide the first wire gripping section. The widths of the slots in the first sections can be greater than in the second sections and the lateral displacement dimensions between the slot walls in the first and second plates can be chosen to produce another resulting wire gripping section 110 of less width than the upper section 111 for gripping a smaller diameter conductor.

Insertion edges 112 and 113 on the first and second plates 105 and 106, respectively, can have different lengths and angles so that a wire comes into contact with corners 114 and 115 at different times so that there is less resistance to the insertion of the wire. '

Claims (7)

1. Contact device comprising a first and a second metal plate arranged close to each other and parallel facing each other as well as arranged for limited relative lateral movement in their planes and provided with a first and a second wire-receiving slot extending from respective mouths at least partially flush with each other, where the walls of the first slot are laterally displaced in relation to the walls of the second slot, so that a conductor introduced into the slots will be gripped between opposite walls in the two plates with lateral movement of the slot walls further towards each other arrangement with each other, characterized in that for recording two conductors each of the slots (15, 16) comprises. a first and a second wire receiving section (23, 24 and 25, 26) at a distance from the mouths, that the walls (27, 28) of the first slot (15) in the first section (23) are displaced in a first lateral direction from the walls (29, 30) of the second slot (16) in the first section (24), that the walls (27, 28) in the first slot (15) in the second section (25) are displaced in a different lateral direction from the walls in the second slot (16) in the second section (26), the other direction is opposite to the first direction, so that a conductor inserted in the first sections (23 and 24) is gripped between a first wall (27) in the first slot (15) and another, opposite wall (30) in the second slot (16), and a conductor inserted in the second slot sections (25 and 26) is gripped between another wall (28) in the first slot (15) and a first, opposite wall (29) in the second slot (16) ). 2. Device according to claim 1, characterized in that the first and second slot sections (23, 24 and 25, 26) have successive distances from adjacent mouths and are connected by means of a transition area (88) which allows a conductor to be passed along the slits from the first (23, 24) to the second (25, 26) slit sections. 3. Device according to claim 1 or 2, characterized in that the plates (53 and 54) hang together as one piece at the edges by means of a bay part (52) into which the mouths extend. 4. Device according to claim 1 or 2, characterized in that the plates (72 and 73) hang together in one piece at the edges by means of a bay part (74) which extends essentially parallel to the slits. 5. Device according to claim 1 or 2, characterized in that the plates (12 and 13) hang together in one piece by means of a bay part (14) at edges at a distance from the mouth. 6. Device according to claim 2, characterized in that the transition area (88) forms a passage of essentially the same width for separation of the conductor gripping walls (27 and 30; 28 and 29) during the advancement of a conductor between slot sections {23 and 25? 24 and 26). 7. Device according to one of claims 1 to 5*characterized in that the separation of the first wall (27) in the first slot (15) and the second opposite wall (30) in the second slot (16) in the first slots sections (23, 24) are larger than the separation of the second wall (28) in the first slot (15) and the first facing wall (29) in the second slot (16) in the second slot section (25, 26 ).