DE1925781A1 - Flameproof cable bushing for devices protected from explosion and firedamp - Google Patents

Description

"Flameproof cable bushing for explosion-proof (firedamp-proof Devices The invention relates to a pressure-resistant cable bushing for explosion and firedamp-proof devices with cast resin in the cable bushing molded and held cable.

Feedthroughs are known for connecting lines in pressure-tight spaces, in which a bolt is cast, to which the lines are connected on both sides so that a complete seal is given. With a large number of ladders this implementation is expensive in terms of space and only. It was therefore proposed insulated individual conductors to be inserted through the cable bushing and covered with cast resin to be shed, so that the individual lines are held and there are no gaps in it (Stahl - Industriemesse Hannover 1969).

In this respect, this embodiment has uncertainties and can do not easily meet the high requirements for such bushings, since uncontrolled air gaps can form, for example if the insulation breaks of the individual conductor directly at the lead-through.

In particular in the case of a stranded conductor, a gap is then formed between the braid and the insulation.

The object of the invention is to eliminate such uncertainties, i.e. a pressure-resistant cast resin cast Cable entry to create, in the case of the formation of a gap between the conductor and its insulation as is also prevented between the insulation and the casting resin To solve this According to the invention, the object is an insulated line within the cast resin body stripped on part of the length.

In the case of a stranded cable, the strands and the associated opportunities to come into contact with neighboring ladders are avoided, that the stranded wire is soldered. For the same purpose, a spacer can be used at the critical points be provided that the individual conductors at the required distance from each other holds. Since the cast resin is firmly bonded to the conductor, the Implementation must be kept completely tight. To be on the safe side, the stripped Area made so long that even if a narrow gap is formed between the Cast resin and the conductor, the gap length still meets the regulations.

To avoid a break in the cable at the point of entry into the implementation The cast resin can also be trumpet-shaped to prevent frequent movement or vibration or be drawn in like a funnel.

The cable bushing can be on one side through a connection cap be completed with soldered or screwed connections, on the one hand with the encapsulated Cables are connected. The connection cap can be designed so that it through the resin is held.

This design is particularly likely when implementing a multi-core Cable would be an advantage. With-one such Cables become the single wires expediently spread apart within the cast resin body. With a connection cap these can be connected directly to the connection elements, whereby the insulation is a little removed in front of the connections. the multi-core cable is passed through directly, the individual conductor of the cable spread within the cast resin body can be a section be stripped.

An embodiment of the invention is shown in the drawing in Figures 1 to 3 shown. It shows i "ig. -1 a cable bushing with insulated Individual conductors, FIG. 2 a view of the lines passed through, FIG. 9 a Implementation with a connection cap.

The cable feed-through never consists of the cable feed-through sleeve 1, which is screwed into a device. Through this Iülße 1 are the individual conductors 2 out, which are stripped a portion 9 within he sleeve 1. One touch the individual conductors 2 among one another are prevented by means of a spacer 4. These elements are fixed by means of casting resin with which the cable bushing sleeve is made 1 is poured out. The casting resin 5 is trumpet-shaped on the cable entry posts 6 drawn in so that the individual conductors 2 are insensitive to bending and vibrations.

In Fig. 3, the line bushing is on one side with a connection cap 7 provided; the individual conductors 2 are connected to the terminal elements 8, the one Can be soldered or screwed connection.

T) d-s given example does not of course represent the scope of the invention. So instead of several individual conductors, a single conductor be provided. A multi-core cable can be inserted into the bushing, in it priced up and the individual conductor stripped.

The multiple cable can be led out again as such or his individual conductors can be connected to the connection elements of the connection cap.

Claims (6)

Claims 1. Flameproof cable bushing for explosion-proof and firedamp-proof Devices with cast resin cast and held in the cable bushing Lines, characterized in that the insulated lines within the cast resin body are stripped over part of the length (3). 2. Pressure-resistant line bushing according to claim 1, characterized in that that a cable strand is soldered in the stripped area. 3. Pressure-resistant line bushing according to claim 1 and 2, characterized characterized in that several lines within the cast resin body are kept at a distance by means of a spacer. 4. Pressure-resistant line bushing according to claim 1 to 3, characterized characterized in that the casting resin at the entry and exit points of a line or a cable is drawn in like a trumpet. 5. Pressure-resistant line bushing according to claim 1 to 4, characterized marked that the cable lead-through has a connection cap on one side with soldering or has screw connections - which are connected on the one hand to the encapsulated cables are and that the connection cap is held by the casting resin. 6. Pressure-tight line bushing according to claim 1 to 5, characterized characterized that a multi-core cable within the cast resin body apart is priced. ' L e r s e i t e