SK280251B6 - Splice head for insulated telecommunication wires - Google Patents

Abstract

A splice head for aiding to splice insulated wires including an accommodation means (14) for supporting the connector, a row of spaced separating fingers (20) on one side of the accommodation means (14), and a length of coil spring (22) on the opposite side of the accommodation means (14), and retaining means (24) for supporting the coil spring (22) so the coil spring (22) is loosely and axially movably arranged on the accommodation means (14).

Description

Technical field

The invention relates to an insulated conductor head of the type used in the telecommunications industry.

BACKGROUND OF THE INVENTION

Known are connectors for the telecommunications industry where a number of insulated conductors are connected by electrical contacts. It is known from German patent DE 39 20 362 to provide a support body with a plurality of insulating sliding contact elements, wherein the conductors engage with the contact elements by means of a pressing body, so that the contact elements cooperate with the associated conductors when penetrating through their insulation. The pressing body comprises recesses or holes in which the free ends of the cutting contact elements are placed. In addition, cutting elements are provided in the support body that interrupt the connecting ends of the insulated conductors to be connected.

DE 2748298 discloses a device for fastening a connector to a wire harness, which has a base with a station for inserting a connector with an inlet and an outlet side. The device further has a connector housing and at least one ridge-shaped device at the inlet side for receiving and arranging the pairs of conductors. Further provided on the pedestal is a device for lifting the connector insertion station relative to the pedestal. The apparatus is further provided with an arm to pivot about the pedestal axis from a horizontal position to a position immediately above the connector insertion station and a fixed stop for seating the connector when the connector insertion station is lifted. The disadvantage of this known device is the relatively complicated operation and possible difficulties in fixing wires of different sizes.

The use of a coupling head has also become known for aligning insulated conductors with respect to a support body. The coupling head comprises a receiving means for the connector, that is, at least one support body and at least one pressure body. It also includes a series of spatially separating fingers on one side of the storage means. Such a coupling head is connected to the end of the cable harness or wire harness, to the individual exposed cores or wires. The wires are located in the grooves between the fingers and aligned with the individual insulated sliding contacts of the support body. The ends of the insulated conductors protruding on the other side of the displacement means are fastened appropriately unless all the conductors are inserted into the connector. Then, the pressing body is pressed against the supporting body, preferably by a suitable tool, to bring the simultaneously insulated conductors into contact with the insulating sliding contacts.

It is known to use a coil spring to fasten the free ends of the conductors in the coupling head. The insulated conductors are inserted between the coils or coils of the spring and remain there under the action of elastic forces. It is known to use a simple coil spring which is mounted on the projection of the coupling head. The retaining rod extends through the inside of the spring and is attached at both ends to the coupling head. The known springs have a diameter of approximately 10 mm, with the threads therefrom leaving a predetermined distance therebetween. The spring has at least one end supported radially to secure the spring at one end against axial movement. If, during the joining operation, a plurality of conductors are introduced between the coils of the spring, their free end is axially spaced from their stationary first end.

When such connections are made, the diameter of the insulated conductors may be within a wide range. Especially with known coupling heads, coil springs are not suitable for effectively fastening conductors of different diameters. For this reason, it is necessary to replace the springs for wires with different diameters. The spring is fixed at one end, so the coupling must always start at that end of the spring.

It is also known with respect to the coupling heads to use two parallel coil springs having different spiral distances to efficiently fix wires of different diameters. However, if during the joining operation the conductors are to be inserted into a spring having a different diameter, it is necessary to release the retaining means for both coil springs and rotate the springs by about 180 ° and then tighten the retaining means. This measure is relatively time consuming. Incidentally, both springs are fixed at both ends. In the case of tolerances in the distance between the spring attachment points, the distance between the individual coils may be changed. Furthermore, known springs are not suitable for placing more than one conductor between adjacent coils. This is disadvantageous if, in the connector arrangement, a plurality of conductor layers are to be connected by the connector arrangement.

SUMMARY OF THE INVENTION

The object of the invention is a splice head for insulated conductors, in particular for telecommunications, intended to work with and hold conductors of different diameters.

In the coupling head according to the invention, the coil spring is loosely placed on the rod and can be displaced axially. By freely selecting the starting point on the spring for the joining operation and by freely selecting the position of the spring on the rod, conductors of different sizes can be fastened by the threads of the spring. In addition, joining can be initiated simultaneously on both sides of the spring.

According to an embodiment of the invention, the rod may have a circular cross-section so that the spring can easily slide back and forth.

According to another embodiment of the invention, the bearing surface is located below the bar and is spaced from it a short distance, the bearing surface being provided on the support of the spring circumference while being held internally by the bar. The distance between the bearing surface and the rod is slightly wider than the diameter or thickness of the wire forming the coil spring. This measure allows a maximum distance to accommodate the insulated conductors so that two or more wires can be inserted between adjacent threads. This can be further improved if, according to another embodiment of the invention, the diameter of the coil spring is greater than 12 mm, preferably 15 mm.

To effectively support the coil spring and the most efficient cross-sectional area for fastening the conductors, the abutment surface is provided and the space relative to the bar is provided such that in the operational position of the coil the bar abuts the coil approximately in the plane of the longitudinal axis of the spring. Preferably, the bearing surface extends partially circularly around the rod.

The bar may be retained by a U-shaped retaining member that integrally includes a bearing surface according to an embodiment of the invention.

When using the coupling head according to the invention, the coil spring need not be replaced in order to fasten wires of different diameter sizes. Since the coil spring is loosely placed on the rod, radial bends at the ends of the spring can be omitted. This facilitates the production of the coil spring.

The invention will be further illustrated by way of example with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a schematic view of a coupling head according to the invention.

Figures 2 to 4 show the helical spring of the coupling head of Figure 1 in various operating positions.

Figure 5 is a section through the coil spring of Figure 2 taken along line 5-5.

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1, the coupling head 10 is shown attached by a gripping means 12 adapted to be manually held or fixed by known fastening means. The coupling head 10 comprises a receiving means 14 carrying a connector (not shown) which is adapted to receive a plurality of insulated conductors. Such a connector is described, for example, in DE 39 20 367. The bearing means 14 consists of a support plate 16 and two lateral guide elements 18 for holding a connector therebetween, which comprises at least a body and a pressure body. Two rows of fingers 20 are located on one side of the receiving means 14. The insulated conductors may be stretched between them and separated from one another. A coil spring 22 is disposed on the opposite side of the mounting plate 16. The coil spring 22 is retained by the retaining means 24. Details of the retaining means and the coil spring are shown in Figures 2 to 5.

The retaining means 24 comprises a U-shaped retaining member 26, the arms of which retain a rod 28 with a circular cross-section. The bar 28 is embedded in openings in the arms placing said bar or in a groove in the retaining means 24 and the arms. As can be seen, the coil spring 22 has a length less than the distance between the arms or the length of the bar 28. Therefore, the coil spring 22 can be freely displaced along the bar 28. For example, the diameter of the spring 22 is 15 mm and the thickness or diameter of the wire forming For example, the coil spring 22 is 1.5 mm. The individual coils 30 or coils of the coil spring 22 have a predetermined distance therebetween. As can be seen from Figures 2 to 4, the ends of the wire forming the coil spring are simply cut off and are not deformed in a particular way.

FIG. 5, an arcuate bearing surface 34 having a circular cross-section is formed in the arm 32 of the U-shaped retaining member.

The narrowest space between the rod 28 and the bearing surface 34 is slightly wider than the thickness of the spring wire. Thus, the annular abutment 34 extends into or joins with the upper planar surface 36 that would extend parallel to the plane through the axis of the coil spring 22. The normal distance between the surface 36 and the rod 28 is greater than the distance between the abutment surface 34 and the rod. As can be seen further, the abutment surface 34 is formed and positioned relative to the rod 28 such that the rod 28 engages the spring 22 approximately in the plane of the longitudinal axis of the spring 22 when the spring 22 is in its operating position.

2 to 5, it is shown how conductors 40 and 40, respectively, are shown. 40 ’respectively. 40 ”inserted into the spring 22 and fixed by it. Figures 2 to 4 illustrate that the start of the joining operation can be selected arbitrarily in that the spring 22 can occupy any position between the arms of the U-shaped retaining member 26 at the beginning of the joining operation.

It will be apparent from Figure 5 that, irrespective of the diameter of the rod 28, the largest portion of the cross-section of the spring 22 can be used to fix the wire 40 and the wire 40 respectively. 40 ’respectively. 40 ”, so that two or more conductors can also be inserted between adjacent helical coils or threads 30.

Claims (11)

PATENT CLAIMS An insulated conductor connecting head (40, 40 ', 40 ") comprising a receptacle (14) for a connector adapted to be coupled to said conductors, a series of distal separating fingers (20) on one side of said receptacle (14), a piece of spiral a spring (22) on the opposite side of the receiving means (14), with coils (30) of the coil spring (22) allowing insertion and fixation of the wires therebetween, and a retaining means (26) on the coil spring (22); 28) passing through the coil spring (22) and the rod (28) is fixed at both ends, characterized in that the coil spring (22) is freely and axially movably mounted on the rod (28). Coupling head according to claim 1, characterized in that the rod (28) has a circular cross-section. Coupling head according to claim 1, characterized in that a bearing surface (34) is spaced from said rod (28) below the rod (28), with an outer surface of the coil spring (22) supported by said bearing surface (34), being held internally by the rod (28). Coupling head according to claim 3, characterized in that the bearing surface (34) is arranged at such a distance from the rod (28) that in the operational position of the coil spring (22) the rod (28) contacts the coil spring (22) in the coil spring. level of the longitudinal axis of the coil spring (22). Coupling head according to claim 3 or 4, characterized in that the bearing surface (34) is concave and extends partially around the outer periphery of the coil spring (22). Coupling head according to claim 5, characterized in that the bearing surface (34) extends into the upper planar surface (36), the normal distance of the planar surface (36) from the rod (28) being greater than the normal distance of the bearing surface (34). Coupling head according to claim 1, characterized in that the rod (28) is attached to the arms of the U-shaped retaining member (26). Coupling head according to claim 5, characterized in that the bearing surface is integrally formed on the arm (32) of the U-shaped retaining member (26). Coupling head according to claim 1, characterized in that the diameter of the coil spring (22) is greater than 12 mm. Coupling head according to claim 1, characterized in that the thickness of the spring wire forming the coil spring is greater than 1.2 mm. Coupling head according to claim 3, characterized in that the coils (30) of the coil spring (22) have a predetermined distance from one another for insertion of the conductors.