EP1017137A2 - Cable clamp - Google Patents

Abstract

The cone segments (9) at the smaller end of the conical component (12) are joined to one another by means of sealing lip (11) provided with a central bore.

Description

The present invention relates to a cable clamp for watertight pull and twist protection of electrical cables according to claim 1.

Such cable clamps are used, for example, when electrical conductors introduced into electrical apparatus should be. Outside of these devices, the electrical conductors in cables. At the transition from Cables in the electrical apparatus are required Secure cables against pulling and twisting, as well as that Ingress of water from outside into the electrical apparatus to prevent.

Known cable clamps consist of several housing parts, that are screwed together. By screwing it together press on the inside of at least one housing part arranged conical elements concentrically towards one the housing parts arranged cone part, in the centric hole the cable is guided. Disadvantage of State of the art cable clamps is the fact that the cone part is made essentially from one piece is. This is when the cone part is compressed from the outside to a high resistance through the cone part itself and it's just a limited narrowing of the centric bore of the cone part possible, but what is to be equated with the limitation of the possibility on the cable guided in the central hole To exert pressure. Furthermore, the cone parts of the Cable clamps ensure tension and torsion protection, that means they must have a high strength in order to to be able to exert the required holding force on the cable. On the other hand, such cone parts must have a certain Have elasticity around the requirement of To meet watertightness and to act as a seal. These two requirements are due to the choice of one single material, like this with cable clamps after State of the art is to be fulfilled only to a limited extent, that is, a cone part designed for optimal traction and Anti-rotation lock is only partially fulfilled Requirement of watertightness and vice versa.

The aim of the invention is therefore a cable clamp of the beginning mentioned type, which is both optimal against water ingress protects as well as with a train and Anti-rotation protection offers optimal security and one larger diameter range of the cables to be clamped than Cover previous cable clamps.

According to the invention, this is characterized by the Features of claim 1 achieved.

As a result, different areas of the cone part are for different tasks. That area of the Cone part, which has the cone segments serves as a pull and anti-rotation, whereas the sealing lip only for Sealing against water ingress serves. Enable further the free spaces between the individual cone segments that the entire cone part is pressed together very strongly can, which is necessary for example with thinner cables, but also for thicker cables can come. It is therefore not necessary different cone parts for different Use cable diameter, as is the case with cable clamps is the case according to the prior art. The connection of the Segments through a sealing lip enable the cover of a much larger diameter range jamming cables than before.

Due to the slight diameter adjustment of the cone part and the high contact pressure that can be achieved on the inside of the cone part on the cable jacket is the invention Cable clamp also insensitive to different Cable jacket designs. So it makes no difference whether the cable sheath made of PVC, rubber or other Materials is made.

The cable is also routed through the cone section very easy because the central bore in unloaded Condition can be very large due to the high deformability the cone segments and the sealing lip, however, none Disadvantage when applying the pressing force to the cable jacket arises.

Due to the features of claim 2, the clamping area the cone part can be extended as desired without the Diameter of the housing must therefore be increased because the outer diameter of the cone part through the Inner diameter of the housing union nut is limited. Through the cylinder segments, the area for the clamping of the cable jacket is extended, but without the outside diameter of the cone part enlarge.

The features of claims 3 and 4 cause that by different material choice of the two sections on Cone part, on the different tasks of the two Sections can be dealt with even better. This is how it is done the coordination to the tasks not only by the different shapes of the two sections of the Cone part but also through the choice of material. While for that section that is used for waterproofing a very elastic, deformable material is responsible, can be chosen that adapts to the cable sheath, so is that section of the cone part that is used for the tension and Anti-rotation is responsible, from firmer, harder Material manufactured to the required holding forces to exercise the cable.

Fig. 1

eine axonometrische Ansicht einer erfindungsgemäßen Kabelklemme in aufgeschraubtem Zustand

Fig. 2

eine Schnittansicht einer erfindungsgemäßen Kabelklemme

Fig. 3

eine axonometrische Ansicht der Gehäuseüberwurfmutter

The following is a detailed description of the invention. Show:

Fig. 1

an axonometric view of a cable clamp according to the invention in the screwed state

Fig. 2

a sectional view of a cable clamp according to the invention

Fig. 3

an axonometric view of the housing nut

In Fig. 1 is a cable 1, in the electrical conductor 2nd are guided in the central bore of a cone part 12 out. The cone part 12 points in the axial direction 13 of the Kegels divided cone segments 9, which in that End region of the cone part 12 with the larger one Change outer diameter into cylinder segments 14. In that End region of the cone part 12 with a smaller one The outer diameter of the cone segments 9 is one Sealing lip 11 connected to each other. The connection takes place on both chemical and mechanical Way in an injection mold in two steps different materials are injected. In Axial direction 13 of the cone part seen on both sides is one with a corrugation 6 and a loss protection 7 (see Fig. 3) provided housing nut 5 and a Basic housing part 4 arranged. Both parts have one self-locking thread 3.16, which connects the allows both parts. The basic housing part 4 can further provided with a coupling plug device 15 be or as a connection to a machine housing (not drawn) are used and points in the area of Thread 3 on the inside a conical inward standing extension 17 (see Fig. 2).

To the waterproof pull and twist protection activate, housing union nuts 5 and Basic housing part 4 screwed together to form a collar 8 Housing union nut 5 with the cylinder segments 14 of the Cone part 12 is brought into contact. By in Axial direction 13 movement is on the Cone part 12, specifically on the cone segments 9 of the Cone part 12 exerted a force by the extension 17, which in addition to the component in the axial direction also a radial one Has component, and the cone segments 9th squeezes so that a holding force on the cable jacket of the guided in the central bore of the cone part 12 Cable 1 is exercised. It also becomes a radial one Force component exerted on sealing lip 11, whereby this, is pressed against the cable jacket and thus the penetration prevented from water in the machine housing.

Claims (4)

Cable clamp for watertight tension and twist protection of electrical cables, with at least two housing parts (4,5) with cable through openings, which are connected to each other by means of a screw lock (3,16) and with a flexible, central bore for cable routing inside the screwed housing Cone part (12) with an essentially conical outer surface is arranged, the outer surface being pressed together by corresponding conical outer extensions (17) arranged on the housing part (5), and the conical part (12) is thus pressed against the cable sheath of the cable guided in the central bore ( 1) is pressed and the cone part (12) has a plurality of cone segments (9) divided in the axial direction (13) of the cone, with free spaces between the individual cone segments, characterized in that the cone segments (9) have the smaller outer diameter at the end the cone part (12) via a a sealing lip (11) having a central bore are connected to one another. Securing element according to claim 1, characterized in that the cone segments (9) at the end of the conical part (12) having the larger outer diameter merge into a section with a cylindrical outer surface. Securing element according to claim 1 and 2, characterized in that the cone segments (9) are made of thermoplastic, preferably reinforced polypropylene. Securing element according to one of claims 1 to 3, characterized in that the sealing lip (11) is made of soft plastic, preferably thermoplastic elastomer.

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