FI84002C - LEDNINGSSKENA. - Google Patents

Abstract

The invention relates to a conductor rail (10) comprising a supporting structure (13), an insulator (11) and a conductor or conductors (12) The supporting structure (13) and the insulator (11) of the conductor rail (19) are formed into one and the same uniform profile by means of a pultrusion method.

Description

84002 5

The conductor rail

Ledningsskena

The invention relates to a conductor rail comprising a load-bearing structure, an insulator and a conductor or conductors.

It is already known that in shop windows, restaurant halls, etc. public spaces, as well as in homes, an electric or conductor rail is used, on which electrical devices, e.g. lamps, can be easily installed anywhere on the rail. Such a known rail is made in such a way that a PVC profile with copper conductors runs inside the aluminum profile. In such a previously known rail, the aluminum profile served as a load-bearing structure to which the adapter is easy to attach and the PVC profile acts as an insulator.

A previously known electrical rail, i.e. a busbar, is disclosed in FI-Kuulutus 69730, in which the busbar is formed by a U-shaped metal profile with a cross-section of 20 and two longitudinal current conductors attached to it by means of a plastic retaining strip.

Another previously known conductor rail, i.e. a contact rail, is disclosed in FI patent publication 49658, in which the contact rail comprises a support rail serving as a support structure, which may be e.g. a rod-pressed aluminum rail, and longitudinal insulating strips with .

30 A previously known solution for a busbar is apparent from FI patent publication 66706. In this known solution, the busbar has two facing-like comb-like insulating profiles in which the electrical conductor rails are held in shape. In addition, an earth conductor rail is placed in the busbar profile.

35

A previously known rail solution is apparent from FI patent publication 65874, in which the rail is formed from a duct made of 2 84002, e.g.

The previously known solutions for the conductor rail described above consist of several different parts, whereby the manufacturing steps are increased and thus the manufacture of the conductor rail becomes expensive.

It is an object of the present invention to provide a conductor rail which is manufactured using a pultrusion method.

10

By pultrusion is meant a method of making longitudinally continuous reinforced plastic products, for example, by impregnating continuous reinforcing fibers or reinforcing fiber bonds with a flow-curable resin and drawing the impregnated fibers through a nozzle 15 where the product is shaped and cured.

One previously known solution using the pultrusion method is disclosed in U.S. Patent No. 4,207,129. In this known solution, pultrusion is applied in the manufacture of conductive or semiconducting elements 20.

Another known solution using the pultrusion method is disclosed in EP-A-0274707, in which substrates made by the pultrusion method which contain fine conductive metal conductor elements or the like are electrostatically coated.

The object of the invention is to provide a conductor rail in the manufacture of which the pultrusion method is applied and which conductor rail is formed in one manufacturing step.

30

In order to achieve the above and later objects, the conductor rail according to the invention is mainly characterized in that the load-bearing structure and the insulator are made of the same uniform profile by the pultrusion method and in that the conductor or conductors are positioned during pultrusion.

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In addition to the advantages obtained in the manufacture, the conductor rail according to the invention achieves a colorability advantage compared to, for example, the previously known gray aluminum profile, which is a significant aspect of appearance. In addition, the upper part of the profile of the conductor rail can be formed 5 as a cable tray, for example, whereby the possibilities of using the conductor rail are diversified.

Another advantage of the solution according to the invention is that a product can be easily made from a profile with a plastic body, in which live parts, e.g. conductors, are protected, e.g. behind dead corners, so that it is not possible to receive electric shocks.

The invention will now be described with reference to some preferred embodiments of the invention shown in the accompanying drawing, to the details of which, however, the invention is in no way narrowly limited.

Figure 1 schematically shows a conductor rail structure according to the invention which is rectangular.

20

Figure 2 schematically shows a conductor rail according to the invention which is oval in cross-section.

Figure 3 shows schematically a conductor rail according to the invention with a circular cross-sectional shape.

Figure 4 schematically shows a conductor rail according to the invention, in which the conductors are in the same plane as the supporting structure.

Figure 5 shows schematically a conductor rail according to the invention, in which the conductors are arranged in such a way that they do not cause a risk of electric shock.

Figure 6 shows schematically a conductor rail according to the invention with 35 protective covers.

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Figures 7A-7D schematically show different possibilities for connecting an insulator and a conductor in a conductor rail according to the invention.

As shown in Fig. 1, the conductor rail 10 comprises a load-bearing structure 13 and an insulating structure 11. The conductors 12 are placed in place during the manufacturing step of the conductor rail 10. According to Figure 1, the conductors 12 are located in the grooves of the insulating structure 11.

The conductor rail 10 shown in Fig. 2 has an oval cross-sectional shape 10 and conductors 12 located in the grooves of the insulating part 11 of the load-bearing structure 13.

Figure 3 shows a conductor rail 10 with a circular cross-sectional shape of the supporting structure 13. The insulating structure 11 forms grooves in which the conductors 12 are located.

15

The conductor rail 10 shown in Fig. 4 is shaped so that the surface of the insulating structure 11 corresponds to the surface of the conductors 12. In this case, a current collector (not shown in the figure) placed inside the support structure 13 of the conductor rail 10 can move more freely in the conductor rail 10.

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In Fig. 5, the conductor rail 10 is shaped in cross section so that the insulating structure 11 forms a protective structure in the form of a blind angle, behind which the electrical parts, i.e. the conductors 12, are placed.

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The conductor rail 10 according to Fig. 6 corresponds in structure to the conductor rail 10 shown in Fig. 1, provided with a protective cover 14.

Figures 7A-7D schematically show different possibilities for the connections between the insulating structure 11 and the conductor 12 of the load-bearing structure 13 of the conductor rail 30. In the case shown in Fig. 7A, the insulating structure 11 forms a lip which protects the conductors 12. This insulating structure 11 is flexible in order to get the current collector inside the insulating structure 11.

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In the invention, it has been realized to use the pultrusion method in such a way that the load-bearing structure 13 and the insulator 11 are made of the same uniform profile.

5 In the manufacture of pultrusion products, it is possible to use either thermosets or thermoplastics as raw materials. Polypropylene is preferably used as the raw material for the conductor rail according to the invention, since it is inexpensive. Polyamides and poly-butyl phthalate, for example, are also suitable as raw material for the busbar. Of the thermoplastics 10, polyester is most suitable as the raw material for the conductor rail according to the invention. It is also possible to use e.g. epoxy resins or vinyl esters of thermosets. The second main raw material in the conductor rail according to the invention is fiber and preferably glass fiber.

Due to its raw material and manufacturing method, the conductor rail according to the invention can advantageously be manufactured in the desired shape as shown in Figures 1-6. Although the cross-sections of the conductor rails shown in the figure are mainly symmetrical, the conductor rail can also be made asymmetrical in cross-section, e.g. so that one branch of the rail 20 is stronger than the other. The conductor rail according to the invention can thus advantageously be easily manufactured also in accordance with safety regulations.

In addition, any barrier guards or protective covers that may be required can be easily modified when made of plastic, and the plastic is also automatically an insulator, which provides additional safety.

The invention has been described above only with reference to some of its preferred application examples. However, it is in no way intended to limit the invention to these examples only, but many modifications and variations are possible within the scope of the inventive idea defined by the following claim.

Claims (14)

6 84002 A conductor rail (10) comprising a load-bearing structure (13), an insulator (11) and a conductor or conductors (12), characterized in that the load-bearing structure (13) and the insulator (11) are produced in the same uniform profile by a pultrusion method. and that the conductor or conductors (12) are positioned during pultrusion. Wire rail according to claim 1, characterized in that said profile is made of reinforced plastic. A conductor rail according to claim 2, characterized in that the resin component of said reinforcing plastic is a thermoplastic. 1!) H. Conductor rail according to Claim 3, characterized in that the thermoplastic is polypropylene. A conductor rail according to claim 2, characterized in that the resin component of said reinforcing plastic is a thermosetting plastic. 20 Wire rail according to Claim 5, characterized in that the thermosetting plastic is polyester. A conductor rail according to claim 2, characterized in that the reinforcing component of said reinforcing plastic is glass fiber. Conductor rail according to one of Claims 1 to 7, characterized in that the conductor rail (10) has a substantially rectangular cross section. 30 Conductor rail according to one of Claims 1 to 7, characterized in that the conductor rail (10) has a substantially oval cross-section. 7 84002 Conductor rail according to one of Claims 1 to 7, characterized in that the conductor rail (10) has a substantially circular cross-section. Conductor rail according to one of Claims 1 to 10, characterized in that the conductors (12) are located in grooves formed by the insulating structure (11). Conductor rail according to one of Claims 1 to 10, characterized in that the surface of the insulating structure (11) and the conductors (12) is in the same plane. Conductor rail according to one of Claims 1 to 12, characterized in that the conductors (12) are arranged in such a way that the insulating structure (11) forms a protective structure for them. Conductor rail according to one of Claims 1 to 12, characterized in that the conductor rail (10) is provided with a protective cover (14). 20 8 84002