DE19516541A1 - Group of wires into which lamp contact pins are plugged - Google Patents

Abstract

A group of wires (2) is used to supply a lamp having at least two contact pins 4. The insulating sheath (3) for the wires is made from heat-resistant material. The contact pins are pushed through the sheath to touch the wires . The lamp is held in contact with the wires only by the friction forces of the material upon the pins. The sheath has wedge-shaped slots (5) for the pins which run parallel to the wires for the whole length of the block. The sheath is essentially square in cross-section and may have an additional carbon or kevlar fibre (7) as a support. There may also be an additional metal wire that is plastically deformable.

Description

The invention relates to a core group for supplying current or voltage of pin base lamps, with at least two, current or live, consisting of a large number of thin individual wires Strands.

Systems for the current or voltage supply of pin base lamps, so rule Moderate low voltage halogen lamps are in a variety of designs today known shapes (cf. CONRAD ELECTRONIC, "ELECTRONIC WELT ′94", pages 112 to 126). The present invention is based on those generally known as rope systems me designated wire groups, for those for the current or voltage supply the pin base lamps generally two parallel, current or live strands consisting of a large number of thin individual wires are stretched in the ceiling area. The current or voltage supply of the Pin base lamps are used with these cable systems via different ge designed connecting elements between core group and pin base lamp for example in the form of rods, spirals, etc. The known rope systems white sen in particular the advantages that the core groups are relatively simple bring that the distances between the pin base lamps arbitrarily can be selected and that the core groups can be manufactured inexpensively. Problema Among other things, the table with the known rope systems is that they are system-dependent can just be excited that they are not ready for assembly immediately suitable for a ceiling or wall or for concealed installation and that the connecting elements are relatively complex and therefore expensive. In addition, the assembly of the connecting elements on the core groups in the generally takes a relatively long time.

Other known systems for supplying current or voltage to pin bases lamps, for example rod systems or rail systems, are technically essential Lich more complex and also require complex connecting elements between between the rod or rail systems and the pin base lamps.

The invention is therefore based on the object of being flexible and simple positioning and easy to assemble system for current or voltage ver supply of pin base lamps.

According to the invention, the above-stated object is achieved in that at least one insulating sheath ( 3 ) enveloping the strands ( 2 ) and made of heat-resistant material is provided in that the contact pins ( 4 ) are a pin base lamp ( 1 ) (or a holder for one Pin base lamp ( 1 )) through the sheath ( 3 ) and in contact with the individual wires of the strands ( 2 ) can be plugged in and that the pin base lamp ( 1 ) on the core group can only be caused by the static friction between the sheath ( 3 ) and the individual wires of Lit. zen ( 2 ) on the one hand and the contact pins ( 4 ) on the other hand. According to the invention, a system for supplying current or voltage to pin base lamps is thus created, in which the socket base lamp socket is formed by the core group itself, namely essentially by its sheath. The invention makes use of the knowledge that, with the correct dimensioning and correct choice of the material of the sheathing, the adhesive friction to the contact pins is sufficient to hold the pin base lamp securely on the core group. The core group according to the invention can be produced very simply and inexpensively and can be assembled very flexibly and easily.

In detail, there are now a variety of possibilities that fiction to design and develop the appropriate core group. Please refer to this on the one hand to the claims subordinate to claim 1, on the other hand to the description of the preferred embodiment in Connection with the drawing. Show in the drawing

Fig. 1 shows a first embodiment of a wire according to the invention with a group according to the invention arranged pin lamp,

Enlarged FIG. 2, the core group of FIG. 1 and in section,

Fig. 3 is a sectional group, a second embodiment of the conductor according to the invention,

Fig. 4 in cross-section group, a third embodiment of the core according to the invention,

Fig. 5 in the cut-set, a fourth embodiment of the core according to the invention,

Fig. 6 in section group a fifth embodiment of the core according to the invention,

Fig. 7 in section a sixth embodiment of the core group according to the invention and

Fig. 8 shows another embodiment with a reflector pin base lamp.

Fig. 1 shows a first embodiment of the core group according to the invention for the current or voltage supply of a pin base lamp 1 , with two, next to each other, current or voltage-carrying, consisting of a plurality of thin individual wires strands 2 and with one covering the strands 2 together , insulating jacket 3 made of heat-resistant material. In Fig. 1 it is indicated that the contact pins 4 of the pin base lamp 1 through the casing 3 and in contact with the individual wires of the strands 2 can be inserted. After inserting the contact pins 4 of the pin base lamp 1 through the casing 3 until they come into contact with the individual wires of the strands 2 , the static friction between the casing 3 or the individual wires of the strands 2 and the contact pins 4 ensures that the pin base lamp 1 is held securely on the Core group. By secure hold is meant here that the pin base lamp 1 can not actively detach itself from the core group by its own weight in any orientation, that is to say in particular also hanging.

In Fig. 1, the case illustrated is that the pin-base lamp 1 with its contact pins 4 in the casing 3 and the wires 2 inserted directly. In order to enable different radiation angles between the light cone of the pin base lamp 1 and the mounting plane of the core group, it is also possible to attach the pin base lamp 1 to the core group via a correspondingly angled socket. If such a solution has the contact pins 4 of the pin base lamp 1 corresponding own contact pins, these contact pins can be inserted in the same manner according to the invention through the casing 3 into contact with the individual wires of the strands 2 .

In the core group according to the invention, the distance between two adjacent strands via which the pin base lamp 1 is supplied with current or voltage corresponds at most to the distance between the contact pins 4 of the pin base lamp 1 , since otherwise there is no electrical contact between the contact pins 4 and the strands 2 could be made. A shorter distance between two adjacent strands 2 is harmless, however, since the pin base lamp 1 can also be inserted obliquely into the casing 3 . With such a measure, the space requirement of the core group according to the invention can be further reduced.

Furthermore, the core group according to the invention is particularly advantageously designed in that slot-shaped or wedge-slot-shaped depressions 5 , 6 corresponding to the strands 2 are provided in the casing 3 , as shown in FIGS . 2 and 3. Through these recesses 5 , 6 , the insertion of the contact pins 4 of the pin base lamp 1 is facilitated, on the one hand, since the thickness of the sheath 3 to be penetrated in the insertion regions formed in this way is smaller, and on the other hand, more secure, since the contact pins 4 through the slot-shaped recesses 5 , 6 are guided so that they penetrate securely between the individual wires of the strands 2 , so that they are not missed, and thus a safe electrical contact is guaranteed.

You can provide the recesses 5 , 6 continuously over the entire length of the casing 3 or alternatively in sections in the casing 3 . In the first case, the distances between the individual pin base lamps 1 can be varied as desired. In the second case, a grid is provided by regularly provided recesses 5 , 6 , which ensures that uniform distances between the pin base lamps 1 can be easily maintained.

As in the embodiments shown in FIGS . 1 to 7, the core group according to the invention is particularly advantageous in that at least two strands 2 are covered by a common sheath 3 , that is to say form a cable. Such an embodiment of the core group according to the invention is particularly expedient if the radii of curvature of the core group do not fall below certain values, since below certain radii of curvature the tensions within the strands 2 covered by a common sheath 3 are too great. However, if such narrow radii of curvature are not to be expected, a particularly simple assembly is ensured by a common covering 3 of the strands 2 . The cable according to the invention can be laid very flexibly and easily forms the attachment points of the pin base lamps 1 .

The core group according to the invention, in which the strands 2 are encased by a common sheath 3 , experiences a particularly advantageous embodiment in that recesses or depressions are provided in the sheath 3 between the strands 2 - not shown in the figures. These recesses or depressions between the strands 2 serve as guides for fasteners with the aid of which the core group is assembled. The simplest examples are only nails or screws.

There are now a multitude of possibilities for designing the core group according to the invention, in which at least two strands 2 are covered by a common sheath 3 . Some exemplary embodiments are shown in FIGS. 2 to 7 of the drawing.

In Figs. 2 to 6 show various embodiments are shown, which are jointly ge characterized in that the profile of sheath 3 in sentlichen we rectangular shaped. FIG. 2 shows an embodiment in which slot-shaped depressions 5 corresponding to two strands 2 are provided in the casing 3 . In Fig. 3, an embodiment is Darge provides, in the wedge-shaped recesses 6 corresponding to the rend to two strands 2 are provided in the casing. Wedge-shaped recesses are preferable in terms of production technology, since demolding of the mold is easier. In Fig. 4 an embodiment is shown in which the pin base lamps 1 with their contact pins 4 from two sides through the Umman telung 3 through in contact with the individual wires of the strands 2 are plug bar. In Fig. 5, an embodiment is shown in which, in contrast to the previously shown embodiments, three strands 2 are covered by the common sheath 3 . This results in appropriate wiring of the strands 2, the possibility of supplying two pin base lamps independently of one another with current or voltage. Of course, more than three strands 2 can also be covered by a common sheath 3 , as is shown, for example, in FIG. 6. This results in expanded operating options, for example for running light operation. In the embodiment shown in FIG. 6, however, the two middle strands 2 are arranged at an increased distance, so that no pin base lamp 1 can be brought into contact with both middle strands 2 . Such an arrangement ensures that two independent systems are implemented (multi-channel technology) and incorrect contacts are not possible.

Finally, the core group according to the invention, in which at least two strands 2 are sheathed by a common sheathing 3 , is particularly further developed before that the profile of the sheathing 3 is essentially triangular, as shown in FIG. 7. This measure ensures that radiation angles of the pin base lamp deviating from the surface normal of the contact surface of the core group are possible without special sockets. The embodiment shown in FIG. 7 is of course also chosen only by way of example, and here too there are a multitude of configuration options for the teaching in the case of a triangular profile of the casing 3 . One could also imagine a "doubling" of the triangle, that is, the formation of a second system.

The design of the core group according to the invention in that in order to sheath 3 in addition to the strands 2 at least one, preferably made of carbon fibers or Kevlar fibers, the supporting rope 7 is provided, links the advantages of a cable system with those of the core group according to the invention. Of course, the strands 2 themselves can also be used as suspension cables. However, the problem arises that the strands 2 , which are generally made of copper, expand under tension, so that warping can occur between the strands 2 and the sheath 3 . This is prevented by the fact that, as already known, Kevlar threads are provided within the strands 2 or by the fact that, as in FIGS . 2, 4, 5 Darge, in addition to the strands 2 at least one, preferably from which not stretching carbon fibers or Kevlar fibers existing rope 7 is provided.

A further advantageous embodiment of the core group according to the invention can be experienced in that, in addition to the strands 2, at least one plastically deformable metal wire is provided within the casing 3 . This plastically deformable metal wire can be provided instead of the carrying cable 7 shown in FIGS . 2, 4, 5. Such a design of the core group according to the invention ensures that the core group can be brought permanently into almost any shape, as is known for example in the case of flexible curve rulers. This allows particularly interesting decorative effects.

In the embodiment of the core group shown in FIG. 8, it is first realized that each strand 2 has its own sheathing 3 . The profile of the casing 3 is adapted to the profile of a profile system 8 . This is realized in Fig. 8 in that projections 9 are provided within the recesses for the strands 2 surrounded by the sheathing 3 on two opposite sides, to which corresponding recesses 10 in the casing 3 correspond. This ensures a secure hold of the sheathing 3 with the covered strands 2 in the profile system 8 . A reflector pin base lamp 1 is therefore shown, which because of its own weight is only used in special cases.

The heat resistance of the material of the casing 3 is necessary because the contact pins 4 (and possibly the mounting base 11 ) of the pin base 1 pe heat up strongly in continuous operation. For the operation of the core group according to the invention outdoors weather resistance of the material for the sheath 3 is required. Silicone rubber has proven to be a particularly suitable material for the casing 3 . In many areas, silicone is heat-resistant, weather-resistant and can also be colored, the latter facilitating the visual design of the core group.

Overall, the system is particularly suitable for standard G 4 pin base lamps with a lamp cable from 1 to 5 W. The strands 2 have typical cross sections from 2.5 mm² to 4 mm².

Claims (15)

1. core group for the current or voltage supply of pin base lamps ( 1 ), with at least two, side by side, current or voltage lead, consisting of a plurality of thin individual wires strands ( 2 ), characterized in that at least one of the strands ( 2 ) enveloping, insulating casing ( 3 ) made of heat-resistant material is provided that the con tact pins ( 4 ) of a pin base lamp ( 1 ) (or a socket for a pin base lamp ( 1 )) through the jacket ( 3 ) and in contact with the Individual wires of the strands ( 2 ) can be plugged in and that the pin base lamp ( 1 ) is held on the core group only by the static friction between the sheathing ( 3 ) and the individual wires of the strands ( 2 ) on the one hand and the contact pins ( 4 ) on the other. 2. core group according to the preceding claim, characterized in that the distance between two adjacent strands ( 2 ) corresponds at most to the distance between the contact pins ( 4 ) of the pin base lamp ( 1 ). 3. core group according to one of the preceding claims, characterized in that in the casing ( 3 ) slot-shaped, in particular wedge-slot-shaped depressions ( 5 , 6 ) corresponding to the strands ( 2 ) are provided and insertion areas for the contact pins ( 4 ) of the pin base lamps ( 1 ) are specified with a smaller thickness of the casing ( 3 ). 4. core group according to one of the preceding claims, characterized in that the depressions ( 5 , 6 ) over the entire length of the sheath ( 3 ) are provided pa parallel to the strands ( 2 ). 5. core group according to one of the preceding claims, characterized in that the recesses ( 5 , 6 ) are provided in sections in the casing ( 3 ). 6. core group according to one of the preceding claims, characterized in that at least two strands ( 2 ) are covered by a common sheath ( 3 ) and form a cable. 7. core group according to one of the preceding claims, characterized in that recesses or recesses are provided in the sheath ( 3 ) between the strands ( 2 ). 8. core group according to one of the preceding claims, characterized in that the profile of the sheath ( 3 ) is substantially rectangular. 9. core group according to one of the preceding claims, characterized in that the profile of the sheath ( 3 ) is substantially triangular. 10. core group according to one of the preceding claims, characterized in that in the sheathing ( 3 ) in addition to the strands ( 2 ) at least one, before preferably made of carbon fibers or Kevlar fibers carrying rope ( 7 ) is easily seen. 11. Wire group according to one of the preceding claims, characterized in that in the sheath ( 3 ) in addition to the strands ( 2 ) at least one plastically deformable metal wire is provided. 12. core group according to one of the preceding claims, characterized in that the profile of the sheath ( 3 ) the profile of a profile system ( 8 ) is fitted. 13. core group according to one of the preceding claims, characterized in that the material of the sheath ( 3 ) is weather-resistant. 14. core group according to one of the preceding claims, characterized in that the sheathing ( 3 ) consists of a silicone rubber. 15. core group according to one of the preceding claims, characterized in that on the underside of the sheathing ( 3 ) a provided with a protective cover ver adhesive layer is provided.