DE1952503A1 - Method and device for stripping electrical conductors, especially those insulated with synthetic resin lacquer - Google Patents

Description

Method and device for stripping insulation, in particular those insulated with synthetic resin lacquer Electrical conductors The invention relates to a method and an apparatus for stripping insulated electrical conductors, in particular electrical conductors telecommunications technology, which have an insulating layer made of synthetic resin paint.

Telecommunications managers must be soldered or welded on be stripped. For stripping electrical insulation that is surrounded by an insulating jacket Various methods are known for ladders. For example, it is customary for the ends to be electrical Only use mechanical means such as pliers or knives to strip conductors. the The insulating layer is then separated or cut, and then the same separated part of the insulating layer stripped from the conductor. -For electrical conductors with a very small cross-section, it is known to apply the paint layer with the aid to remove from chemical agents. The stripping by means of the to exercise the Process required devices is labor intensive, with stripping there is also the risk of contamination with chemical agents. Applying this Procedure in automatically operating wiring systems is due to the Spacious arrangement of the tools and their drives, difficult. Furthermore a method for stripping conductor ends is known in which the insulating layer of the conductor burned and the oxidation of the conductor due to subsequent treatment is prevented with an inert gas. However, such a method has the disadvantage that combustion residues accumulate on the conductor and during soldering or Welding lead to disturbances in the structure of the connection.

Furthermore, it has already been proposed (DAS 1 004 257 and 1 289 898), electrical Head of telecommunication technology by means of one that acts on the end to be stripped stripping the heated gas stream. The gas stream has a temperature here of approximately 1200C. Under the action of the heated gas stream, it shrinks the conductor applied insulating material, so that the end acted upon by the gas flow is freed from its isolation. The device used to carry out the procedure has a relatively simple structure and consists only of a gas nozzle and a device for heating the wire emerging from the nozzle and the wire acting gas flow. This known method is, however, for stripping with a thin layer of synthetic resin lacquer and with a small cross-section electrical conductors not suitable. The synthetic resin lacquer layer adheres firmly to the Conductor and does not shrink under the action of the gas stream heated in this way.

The invention is based on the object of a method and a device to carry out the procedure to create a safe and flawless one Allow stripping of electrical conductors covered with a synthetic resin lacquer layer. The structure of the device should be simple and easy to use. Outgoing of a method for stripping electrical conductors, in particular electrical ones Telecommunications technology ladders, by means of one that acts on the end to be stripped heated gas stream consists of the inventive method that one over 3000C heated, oxygen-free gas flow around the conductor part to be stripped leads and evaporates the insulating layer.

The method working according to the invention allows a quick one and in particular a perfect stripping of insulation with a synthetic resin lacquer layer surrounding electrical conductors. Under the influence of the highly heated gas and the gas flow around the conductor vaporizes the often very thin insulating layer very quickly, with the vapor being carried away by the gas flow.

As is known, the device for carrying out the method has a gas nozzle and a device for heating the emerging from the nozzle and the stripped conductor acting gas and is according to the invention in that the gas nozzle cooperates with a baffle, the baffle the exiting from the DUse gas beam at least partially reflected and to or to direct the electrical conductor to be stripped. As a gas for stripping of the conductor, nitrogen in particular has proven its worth. Through the baffle is the gas in a certain way around the wire, a that the insulating layer on all sides is acted upon by the highly heated gas. The stripped surface is instant solderable.

The guide plate is preferably designed in the shape of a channel and towards the nozzle open. The wire to be stripped is held over the channel in such a way that the The gas flow reflected by the channel hits the insulating sheath of the wire.

Electrical conductors, preferably formed from copper, are also good Heat conductor. So that the insulating layer by applying a highly heated Gas stream evaporates only at the desired point and damages neighboring ones Insulating layers avoided by conduction is after an additional Feature of the process provided that one can determine the duration of the influencing of the isolated electrical conductor dimensioned with a highly heated gas to less than a second. The one to carry out the procedure serving device possesses therefore a solenoid valve located in the gas supply line to the nozzle, which is operated by a The timer can be switched, with a flow meter connected upstream of the solenoid valve is. After switching on the gas supply, a measured in the time unit flows Amount of gas through the pipe cross-section, whereby the timer is called at the same time, which closes the Megnetventil in the aforementioned interval. It is best to use the to arrange electrical heating of the gas required for stripping in the gas nozzle, so that the heat dissipation resp.

Heat losses are kept within reasonable limits.

Further details of the invention can be seen from the drawings, in which, as an example, two different embodiments of the Process serving device are shown schematically and based on which the Procedure is explained in more detail.

As can be seen in particular from Figures 1 and 2, is under the Gas nozzle 1 arranged a baffle, wherein the exiting from the nozzle, of oxygen free gas jet 3 acts on a conductor 4 sheathed, for example, with a thin layer of lacquer. The gas jet is reflected by the baffle and hits, as indicated by arrow 5, the insulating layer of the conductor on the lower surface facing away from the nozzle.

In the nozzle 1 not shown heating elements are arranged which are connected to the network 7 via a transformer 6. That from a gas bottle or line originating gas, preferably nitrogen, flows when the solenoid valve is open 8 to the DUse 1. A flow meter 9 is upstream of the solenoid valve, which When the solenoid valve is open, an amount of gas measured in the time unit enters the line 10 smuggled in.

A timer ii opens when the operating switch 12 is closed Valve 8, the timer automatically activating the solenoid valve within one second where their closes. The operation switch 12 can be in the Kind of a so-called wiper switch.

As can further be seen from Figure 3, it is by means of the device shown also possible, a lacquer-insulated wire if necessary also one with a thermoplastic layer 13 provided electrical conductor within the conductor lug 13 ', as shown at 14, stripping. During the stripping process evaporates under the influence of the a temperature of preferably 330 to 3800C of the heated gas on the conductor applied synthetic resin enamel insulation 13 instantly.

This temperature is sufficiently high, e.g. also one off thermoplastic material existing coating layer to evaporate quickly. Should exceptionally, the wire is provided with a particularly strong thermoplastic layer there is the option of pressing the operating switch twice 12 to evaporate the thermoplastic layer and / or the synthetic resin lacquer insulation.

Figures 4 and 5 show another embodiment of the baffle and the nozzle for stripping an electrical conductor. The baffle 15 is here wound in the form of a spiral, the nozzle 1 'having a rectangular cross-sectional shape and opens into the spiral passage of the baffle housing. How in particular can be seen from Figure 5, the Leitbiech housing has a rod-shaped at its end Stop 16, where, however, the opposite end 17 has a hole 18 for Having introduction of the conductor. The baffle housing has an outlet 19 in Connection through which the heated gas together with the stripping of the conductor resulting steam flows off. When the valve 8 is opened, the heated gas flows around it in the direction of arrow 20 annularly the conductor and is then through the outlet port 19 discharged. The device enables a good and uniform application the insulating layer of the conductor with heated gas and prevents on the other hand, there is also an ingress of oxygen during the stripping process. The attack 16 allows a constant length of the wire end to be stripped.

The device can be modified in many ways within the framework of the features shown and be trained. For example, it is possible to have several such devices to be arranged side by side in such a way that conductors connected in a block can be stripped in one operation.

B claims 5 figures

Claims (8)

Method for stripping isolated electrical Conductors, in particular electrical conductors in telecommunications technology, by means of one that The end of the heated gas flow to be stripped, thereby g e k e n n z e i c h n e t 0 that one is heated to over 300 C, oxygen-free gas current leads around the conductor part to be stripped and the insulating layer evaporates in the process. Method according to claim 1, characterized in that g e k e n n z e i c h -n e t, that the duration of the influence of the insulated electrical conductor by highly heated Gas measured to less than a second. Device for performing the method, consisting of a gas nozzle and a door device for heating one emerging from a gas nozzle to be stripped Head of pressurizing gas, thereby indicated that the gas nozzle (1) works together with a guide plate (2) 1 whereby the reading plate emits the gas nozzle exiting gas jet (3) to or around the conductor (4) to be stripped. Device according to Claim 3, characterized in that it is not that the guide plate (2) has a channel-shaped, open to the nozzle (1) shape. Device according to Claims 3 and 4, characterized in that there are g e k e n n -z e i c h n e t that in the gas supply line (10,10 ') to the nozzle (1) a timer (11) switchable solenoid valve (8) and a flow meter for the solenoid valve (9) is connected upstream. 6. Device according to claims 3 to 5, characterized in that g e k e n n -z e 1 c h n e t that the gas nozzle (i) includes an electric heater. 7. Device according to claims 3, 5 and 6, characterized g e -k e n n z e i c h n e t t that the guide plate is formed in the form of a spiral housing (15), into which the gas nozzle (1 '?) which has a rectangular nozzle outlet opens and the gas introduced into the volute flows out through an outlet port (19). 8. Apparatus according to claim 7, characterized in that g e k e n n z e i c h -n e t that the spiral-shaped baffle housing (15) has a stop (16) for owns the conductor (4) to be stripped.