NL9400554A - Method for soldering and insulating two ends of cables and the like to be connected. - Google Patents

Description

METHOD FOR SOLDERING AND INSULATING TWO CONNECTED CABLES AND THE LIKE

The present invention relates to a method for soldering and simultaneously insulating two ends to be joined, for example cables, tubes, pipes and the like.

Connecting two or more ends of cables, tubes, pipes and the like frequently occurs in various fields. The insulation is of particular importance when connecting cables, such as electric cables. In addition to establishing a connection by soldering, the connection must also be insulated.

According to the prior art, this insulation can be achieved in various ways. The most conventional way uses a soldering iron with which the connection of the ends is first established, after which, for example, insulating tape is wound around the established connection.

Also known is a heat shrink tube which is provided on its inside with solder and glue rings impregnated with flux or flux. When the heat shrink tubing is heated, the solder is heated at the same time and the soldering therefore also takes place.

However, the known prior art has a number of drawbacks. The conventional way of soldering and subsequently applying insulating tape requires a number of separate actions. First of all, the ends should be kept together while soldered. Then it is necessary to wait until the connection has been properly established, after which the insulating tape can only be wrapped around it.

The known shrink sleeve has the drawback that during heating, in particular the flux, which is intended to first clean the ends to be connected and to ensure a good distribution of the solder, flows away from the ends to be connected before the solder has melted. Flux tends to flow to the heat source. Since it is located on the outside of the heat shrink tube, the flux will flow out of the connection to be made. A good connection can then no longer be obtained.

The use of the known heat-shrink tubing results in a percentage of so-called "dry joints" of about 30%. Such dry compounds are rejected. Naturally, this entails unnecessarily high costs.

The object of the invention is to provide a method for soldering and simultaneously insulating two ends of cables, tubes, pipes and the like to be joined, which avoids the above drawbacks.

This is achieved by the invention in that the insulation is accomplished prior to soldering.

Although it is not obvious in view of the prior art to first insulate before proceeding to soldering, it has now been found that by first insulating not only the ends of the cables to be connected and the like are more easily held together. , but that both the flux and the solder can no longer escape from the insulating element. The connection established will therefore essentially always be good.

The method according to the invention relates to a number of specific embodiments. For example, after applying a soldering element around or near the ends to be joined, the insulation can be effected by arranging an insulation element around the end to be joined and heating it. This sequence is particularly interesting when a double-walled heat shrink tubing is used as the insulating element. However, it is also conceivable to apply a heat-resistant tape around the ends to be joined around or on which a soldering element is applied and, after heating, to effect the soldering. A standard polyolefin pipe can also be used as an insulating element.

There are also a number of options for the soldering elements to be used. For example, a piece of flux-impregnated solder can simply be wrapped or laid over the ends to be joined. A flux-impregnated solder wire can also be used.

The present invention will be further elucidated with reference to the accompanying drawings, in which like reference numerals refer to like parts and in which: figure 1 shows the application of the flux; figure 2 the application of the solder and the insulating element; figure 3 heating the insulating element; and Figure 4 shows an alternative embodiment using a solder wire.

The method according to the invention is illustrated by soldering an earth wire 1 on a cable 2. Firstly, 3 flux 4 is applied to the ends to be connected using a brush. A soldering element 5 is then placed on the flux 4, after which an insulating element 6, in the case shown a heat shrink tubing, is applied. The heat shrink tubing is shrunk around the connection by means of a heat source 7 (see figure 3). Only when the heat shrink tubing has made contact with the connection will the heat also be transferred to the solder and the soldering will take place.

In an alternative embodiment of figure 4, it is visible how the end of an earth wire 1 is fastened to a cable 2 by means of a solder wire 8 wound around it. Shrink sleeve 6 is again placed around the solder wire 8. The insulation is created by shrinking the sleeve 6, after which the soldering takes place.

The present invention provides a method by which connections in which insulation is required can be safely and securely established.

The first application of the insulation has the advantage that it is no longer possible to run off the flux and the solder.

Claims (7)

1. A method of soldering and simultaneously insulating two ends of cables, tubes, pipes and the like to be joined by effecting the insulation prior to soldering. Method according to claim 1, characterized in that after applying a soldering element around or near the ends to be joined, the insulation is effected by applying an insulating element around the ends to be joined and heating it. Method according to claim 2, characterized in that the soldering element is formed by a strip of solder impregnated with or without flux. Method according to claim 2, characterized in that the soldering element is formed by a solder wire impregnated with or without flux, which is wound around the ends to be joined. Method according to any one of claims 2-4, characterized in that the insulating element is a double-walled heat shrink tubing. A method according to any one of claims 2-4, characterized in that the insulating element is a tape. A method according to any one of claims 2-4, characterized in that the insulating element is a standard plastic pipe with or without shape memory.