DE1062783B - Insulated electrical connector - Google Patents

Description

The invention relates to insulated electrical connection terminals of the type associated with a electrical conductors can be pressed on cold.

Electrical connection terminals of this type are known. One embodiment has a plastic one Insulating sleeve, e.g. B. made of vinyl chloride or nylon, which by means of an adhesive coating on the metal clamp is attached. A metal sleeve is also provided over the insulating sleeve.

For low temperatures, these earlier connectors were satisfactory. A will, however If higher temperatures are required, plastic materials can no longer suffice.

To avoid this disadvantage, an insulated electrical connection terminal is proposed, according to the invention an inner metallic ferrule with an uneven outer surface, one made of fiber material existing, refractory insulating sleeve, which tightly encloses the ferrule, and an outer metallic sleeve, which surrounds the insulating sleeve. Here, the outer metal sleeve has a smaller diameter than the original outer diameter of the insulating sleeve, so that it fits tightly around the insulating sleeve and the insulating sleeve between the uneven outer surface of the ferrule and the inner surface of the outer sleeve is secured.

The use of a mechanical toothing instead of an adhesive makes the use of a Insulation possible, which can withstand a high temperature.

Further features of the invention can be found in the drawing and the description of an exemplary embodiment refer to the invention.

Fig. 1 is a plan view of the connector with the insulating sleeve thereon;

FIG. 2 shows a view of the end face of the connecting terminal shown in FIG. 1; FIG.

Fig. 3 shows a longitudinal section along the line III-III of Fig. 1;

Fig. 4 is a perspective view similar to Fig. 3 with a modified form of the connecting terminal; and

Fig. 5 shows a partial view of an insulating coating applied to a connecting terminal; in which a flat thread or a type of serration are used.

In the connection terminal shown in FIGS. 1 to 3, a metallic clamp 10 is shown, one end 11 of which is internally designed like a funnel in order to be able to accommodate the stripped end of an electrical conductor. The opposite end of the ferrule 10 carries a tongue 22 which can be connected to a connecting cable terminal by means of the bore 23.

Insulated electrical connector

Applicant:
AMP Incorporated,
Harrisburg, Pa. (V. St. A.)

Representative: Dr.-Ing. H. Ruschke, Berlin-Friedenau.

“II

and Dipl.-Ing. K. Grentzenberg,
Munich 27, Pienzenauerstr. 2, patent attorneys

Claimed priority: V. St. v. America August 30, 1955

Michael Francis O'Keefe, Mechanicsburg _r Pa.,
and Carl Baldwin Hamlin, Harrisburg, Pa. (V. St. A.) have been named as inventors

As FIG. 3 shows, a grooved surface 18 is provided on the outside of the metallic clamp 10. An insulating sleeve 12 made of a fibrous material is applied to the ferrule 10 by a friction fit, which sleeve surrounds the ferrule and extends backwards in order to ensure complete insulation. The fiber material has good dielectric properties. The preferred refractory material is asbestos. Examples of other suitable materials are fiberglass, fibrous or braided materials with good insulating properties and high temperature resistance. The insulating sleeve can be flush with the outer metal sleeve, as shown in FIG. 4, but can also extend backwards beyond this, as can be seen from FIG. 3.

As can be seen from the drawing, the inner surface of the shape of the insulation sleeve 12 increases the outer surface of the ferrule 10 on, so formed on the inner surface of the sleeve 12 corresponding grooves 20. The grooves 20, the gear-like manner in the grooves 18 on the

4-5 clamp 10 engage, in this way create a mechanical safety and a firm connection between the clamp and the sleeve. As FIG. 3 shows, the insulating sleeve 12 is surrounded on the outside by a metallic sleeve 14 that firmly encloses it, so that the metallic sleeve, the ferrule 10 and the insulating sleeve 12 are concentric to one another. The outer metallic sleeve 14 is constricted in its part 16, in particular in the area of the inner sleeve part of the clamp 10 . The insulating sleeve can be

909 580/294

Claims (5)

Leren end face of the metal sleeve 14 end or extend beyond this end face. As can be seen from FIG. 3, as a result of its constriction on the insulating sleeve, the outer metallic sleeve produces two shoulder-shaped shoulders 24 and 26 which hold the insulating sleeve 12 in place. At the same time, the constricted part presses against the inner sleeve-shaped metallic part of the ferrule, whereby the insulating sleeve 12 is compressed and the insulating sleeve is clamped even more firmly in its position relative to the outer and inner sleeves 10 and 14. In addition to this holding effect of the outer sleeve, the pressure of the outer sleeve on the insulating sleeve 12 also has the effect that the serrations 20 push themselves into the surface of the insulating sleeve 12 with greater force, whereby the retaining bond between the sleeve 12 and that of the ferrule 10 is further funded. During the process of pressing the outer metallic sleeve 14 together, it absorbs the direct main pressure exerted by the pressing jaws. This protects the insulating sleeve 12 from the action of the press beams and prevents the sleeve 12 from being torn during the compression process. Without this metal sleeve, a refractory fibrous material such as asbestos or fiberglass, for example, tends to be punctured by the jaws or die during the compression process, resulting in failure of the mutual insulation. The use of the outer metal sleeve also means that an insulating sleeve can be used without the use of a holding or binding agent. The metal sleeve secures the insulating sleeve on the clamp before and during compression. It also prevents the insulating sleeve from losing its shape when the terminal is used in cases where the temperatures are above the temperature at which hot deformation takes place by itself. FIG. 4 shows an embodiment modified in relation to FIGS. 1 to 3. Here, too, the same parts are denoted by the same reference numerals, but with a prime index. As can be seen from Fig. 4, the tongue 22 'is offset from the part 10', according to the thickness of the insulating material, which can be desirable for systems in which the terminal is to be connected to a terminal block by bolts. The outer metal sleeve and the insulating sleeve can extend backwards with respect to the wire insertion point beyond the insulation of the conductor, on the one hand to protect the insulation and on the other hand to cause an electrical flashover between the conductor and the outer sleeve at this point prevent. The insulating sleeve can either terminate with the outer metallic sleeve (FIG. 4) or, as FIG. 3 shows, extend beyond this. FIG. 5 shows another modified embodiment in which the same parts are again provided with the same reference numerals, but these have an index with two prime marks. As can be seen from this FIG. 5, flat threads or serrations are used here, which give the advantage of a particularly strong mechanical connection between the inner sleeve part of the ferrule and the insulating sleeve. The end edge side of the outer metal sleeve 14 (14 ', 14 ") can be flush with the end face of the inner sleeve part of the ferrule, while the insulating sleeve extends forward beyond the outer sleeve, creating an electrical flashover between the end ring surface of the sleeve part of the ferrule and the metallic outer sleeve is prevented. Patk ντ a xspbγ c η ε: 1. Insulated electrical connection terminal which can be cold-pressed onto a conductor, characterized by an inner metallic ferrule (10) with an uneven outer surface (18), a refractory insulating sleeve (12) made of fiber, which tightly encloses the ferrule, and an outer metallic sleeve (14) surrounding the insulating sleeve and having an inner diameter which is smaller than the original outer diameter of the insulating sleeve so that it fits snugly around the insulating sleeve and the insulating sleeve between the uneven outer surface of the ferrule and the inner surface the outer sleeve is secured. 2. Connection terminal according to claim 1, characterized in that the insulating sleeve (12) consists of asbestos. 3. Connecting terminal according to claim 1 or 2, characterized in that the uneven surface is formed by serrations. 4. Connecting terminal according to one or the other of claims 1 to 3, characterized in that the insulating sleeve (12) extends over both ends of the clamp (10) . 5. Connecting clamp according to one or the other of claims 1 to 4, characterized in that at one end of the clamp (10 ') a clamp connecting part (22') is provided which is offset with respect to the clamp axis. Considered publications:
U.S. Patent No. 2,654,873. 1 sheet of drawings