HU207181B - Protective terminal for the distribution frame of a telephone equipment - Google Patents

Abstract

PURPOSE: To manufacture a contact member at low costs, and to enable attaching by forming a spring contact part so as to be forked, inserting the free end part of the leg part into a slit-shaped notch formed at an intermediate bottom part, and making the diameter of the notch a little larger than the diameter of a connecting pin. CONSTITUTION: A contact member 4 and a ground plate 3 are formed as a forked spring contact part 9 in the range of a connecting pin 7. The leg part of the spring contact part 9 is manufactured by cutting a plane contact member 4, and it is made rotatable within the plane face of the contact member 4. Moreover, the elastic edge part of the spring contact part 9 is inserted into a slit-shaped notch 10 formed at an intermediate bottom part 11 of a casing 2. This notch 10 is formed as a coherent vertical slit, and the diameter is made a little larger than the diameter of the contact pin 7. Thus, the contact pin 7 can be through guided in a centering hole 13 at the intermediate base part 11 while the side parts are guided between the both leg parts of the spring contact part 9.

Description

BACKGROUND OF THE INVENTION The present invention relates to a protective connection device, in particular to a distribution band for telephone equipment. The longitudinal protective connector has several transverse, side-by-side surge arresters.

Such a protective connector is known, for example, from DE 3 014796 C2. Accordingly, as shown in Figure 3, the terminals of the three-pole surge arresters can be inserted between the U-shaped, spring-shaped terminals of the protective connector for the distribution strip. The spring contacts are open towards the surge arresters and their base is located on the side away from the surge arresters. Between the spring contacts and the surge arresters, there are centering holes for the connection tips. Spring contacts are components of terminals that terminate in contact plugs. These protective plugs can be inserted into a distribution strip with these plugs. The contact portion is exhausted T-shaped and its two lateral sides are bent towards the surge arresters.

It is an object of the present invention to provide low cost manufacture and installation of the contact portions.

According to the present invention, this object is solved by the spring contacts being formed as fork contacts whose elbows flexibly extending from the plane of the material are cut out of a flat material. The free ends of the stems extend into the grooved recesses of an intermediate bottom plate. The grooved recesses are slightly wider than the thickness of the connection tips. The spring arms can be formed in one operation by cutting out the contact portions. The geometry of the spring contact is precisely defined by the cutting stamp so that contact conditions are always the same.

The plugs of the surge arrester are guided sideways in the groove-like recess as they are inserted to secure them between the spring plugs of the spring contact. The simple, flat geometric shape of the spring-loaded contacts makes it easier to insert into the protective connector housing. This is particularly beneficial for the automation of the assembly.

In a preferred embodiment of the invention, the material plane of the spring contacts is disposed in the longitudinal direction of the protective connector and the recesses are formed as longitudinal grooves. As a result, the protective connector can be very narrow. The through-hole is technologically easy to produce. The contact springs are parallel to the plugs. Thus, the contact portions can be produced by rolling or simple bending.

In another preferred embodiment of the invention, the surge arresters are triple-polar, the spring contacts of the central poles of the surge arresters being integrally connected to and extending in a material plane through a longitudinally extending earthing plate.

Such a grounding plate can be cut in one piece together with the spring contacts. No bending is required and can be precisely inserted into the protective connector housing.

The elongated protective connector, preferably in its longitudinal direction, has cylindrical surge arresters transverse to each other, which are inserted in the insertion! can be inserted perpendicular to the side into a receptacle chamber of the protective connector housing and can be inserted into the spring-loaded contacts of the protective connector with the connecting tips extending radially in one direction. The connection tips are axially mounted on the fronts of the surge arresters and curved in a radial direction therefrom. In the longitudinal exterior walls of the receiving chamber, there are grooves open in the direction of the plug, facing the surge arresters, into which the connection tips extend at least partially and which are in the direction of the spring contacts. The front connection ends of the surge arresters can now be aligned with the grooves on the outer edge of the receiving chamber, with accurate visual inspection. Since the connecting tips close to the grooves in an arcuate manner, they are connected to the guide grooves for a sufficient length. Thus, the overvoltage arresters, when inserted, are adapted to the spring contacts with respect to their angular position, and thus the connection tips can be securely inserted between the spring contacts.

The stiffness of the outer walls is only slightly reduced, since the width of the grooves is small, corresponding to the diameter of the thin connecting tips. The outer wall may thus be very thin around the groove. The groove thus simultaneously represents a recess for the connector tip, which allows the total width of the protective connector to be minimized. Since the width of the protective connector also determines the width of the distribution strips, the distribution strips can be arranged in small intervals.

Preferably, the receiving chamber may be closed with a resiliently flexible lid. This cover can be secured to the protective connector on the two front faces and the cover, when fixed, is centered on the protective connector between the two front faces. The cover can be fitted on the operating side of the fuse. The preloading, thickness and spring properties of the cover can be adjusted to fit snugly into the protective connector. Therefore, it is not necessary to fix the lid in the middle. This means that the total width of the protective fitting with cover does not need to be increased to accommodate the longitudinal brackets. This allows the distribution bar to be narrow enough and thus reduces the overall installation width. However, end-to-end mounting solutions do not increase the construction length of the protective connector. Biasing can also be achieved by having a longitudinal convex curvature on the operating side of the circuit breaker.

Because the lid does not require a lot of force to attach, the fasteners are sufficiently thin and easy to release. The fasteners can thus be recessed noses. This facilitates opening and closing the lid. The fasteners may operate in the longitudinal direction of the protective connector. To do this, the bending of the lid can be utilized.

Preferably, the cover is longitudinally directed to the protective connector before being mounted on the protective connector2

EN 207 181 B bent, convex. This means that the top of the fuse can remain straight. Thus, each chamber is one shape and each surge arrester can be replaced under the same geometric conditions. This facilitates handling tasks. The lid can be manufactured in a simple manner, for example in a properly curved injection mold. However, the lid can also be made in a straight injection mold and the curvature can be formed by separate casting steps, such as the injection sites. In addition, the linearly molded lid can be subsequently retrofitted with the required curvature.

Preferably, the lid extends from at least one end face to the outside and is secured behind an outer wall of the protective connector. This makes it easy to snap the cover onto the protective connector. It can also be loosened by pulling it in the middle of the protective connector so that the attachment on the front side is released. The cover can be pulled up with bare fingers so no tools are needed to unlock. This greatly simplifies control and management work.

Preferably, the cover is pivotally secured to the protective connector on the other side. This way the cover cannot be lost and is also guided on the protective connector. The receiving chambers of the surge arresters can be closed again by simply folding the lid.

Here is an example of our invention! Embodiments of the invention will be described in greater detail by means of the following drawings, of which:

Figure 1 is a cross-sectional view of a protective connector according to the invention for distribution strips, with surge arresters, Figure 2 is a longitudinal section of the protective connector shown in Figure 1, taken along line H-II in Figure 3.

Figure 3 is a top view of the protective connector shown in Figure 2, Figure 4 is a side view of a protective connector with a cover, and Figure 5 is a top view of a protective connector with a cover.

Figures 1, 2 and 3 show that the protective connector (1) has a housing (2), a ground plate (3) and has contact parts (4). The housing (2) has receiving chambers (5) for the three-pole surge arresters (6). The surge arresters (6) have radially extending connecting tips (7) which may contact the contact portions (4) and the earth plate (3). The contact portions (4) terminate on the side (8) opposite the receiving chambers (5) and can be inserted into the counter contacts of a distribution strip (not shown). For example, these counter contacts are connected to the subscriber wires. Thus, there is an electrical connection between the subscriber lines and the surge arresters (6).

The surge arresters (6) are arranged side by side in the longitudinal direction of the protective connection (1), transversely. The cylindrical (6) surge arresters always have two ends (7) of the front face contacting the contact portions (4). The central connection tip (7) is connected to the earth plate (3) so that the overcurrent in the subscriber lines can be discharged to the ground.

At the connection tips (7), the contact portions (4) and the earth plate (3) are formed as spring-loaded contacts (9). The legs of the spring contacts (9) are cut out of the flat material of the contact parts (4) and can be flexibly deflected from the plane of the material. The spring ends of the stems extend into the grooves (10) in the intermediate bottom plate (11) of the housing (2). The recesses (10) are formed as continuous longitudinal grooves and are slightly larger than the diameter of the connecting tips (7). Thus, when the connecting tips (7) are inserted through the centering holes in the intermediate bottom plate (11), these connecting tips are guided laterally between the legs of the spring contacts (9).

The base of the strip-shaped grounding plate (3) is inserted in and guided by the forks (12) of the housing (2). The material planes of the contact portions (4) and the earth plate (3) are located substantially in the longitudinal direction of the protective connector (1) so that the protective connector (1) can be narrow accordingly.

The end connection ends (7) are disposed axially on the surge arresters (6) and are bent in the form of an arc in a radial direction. Between the surge arresters (6) and the spring-loaded contacts (9), there are centering holes (13) in the intermediate bottom plate (11) for the connection tips (7). In the outer walls (14) of the receiving chambers (5) there are grooves (15) of rectangular cross-section pointing in the direction of penetration. These grooves are open towards the receiving chamber (5) and towards the insertion side and point towards the spring (9) contacts. The arcuate section of the connecting tips (7) extends into the grooves (15) and the grooves (15) hold the connecting tips (7) in the correct position. Thus, at insertion, the connection tips (7) are directed precisely into the centering holes (13) and thus to the spring contacts (9). Thus, the surge arresters (6) can be easily inserted into the protective connector (1) without any hand tools.

Figures 4 and 5 show that the receiving claws (5) can be closed by a cover (25). The cover (25) protrudes towards the protective connector (1) in a flexible and open position. On the front side of the cover (25), an axis of rotation (26) is mounted which is pivotally mounted in the housing (2) of the protective connection (1). On the other end of the flat, thin cover (25) a protrusion (27) protrudes from the inside, which, when closed, extends beyond the corresponding front wall (28) of the protective connector (1). When the cover (25) is folded down, the cover is in contact with the upper side of the protective connector (1) as a result of negative biasing, so that the receiving chambers (5) can be closed from contact.

Claims (8)

PATENT CLAIMS 1. Protective coupling for telecommunication equipment, in particular for telecommunication equipment distribution strips, which is inserted in the elongated protective coupling (1) between two transverse one-way, spring-loaded contacts (9) of the protective coupling (1). There is a surge arrester (6) with plug-in wire-type connection tips (7); the spring contacts (9) are connected to plug connectors (8) in contact with the counter contacts of the distribution strip; furthermore, the housing (2) has an intermediate bottom plate (11) between the surge arresters (6) and the spring contacts (9), which allow the connection tips (7), characterized in that the spring contacts (9) are designed as fork contacts. having elasticly extending stems of the material cut out of flat material, the free ends of the stem extend into the groove-like recesses (10) of the intermediate bottom plate (11) and the groove-like recesses (10) are wider than the thickness of the connecting tips (7). (Priority: June 28, 1989) Protective connector according to Claim 1, characterized in that the material plane of the spring contacts (9) is in the longitudinal direction of the protective connector (1) and the recesses (10) are formed as longitudinal grooves passing through. (Priority: June 28, 1989) Protective connector according to Claim 1 or 2, characterized in that the surge arresters (6) are triangular and the spring contacts (9) connected to the central connection ends (7) of the surge arresters (6) are integrally connected in one longitudinal direction. with the grounding plate (3) extending in the direction of insertion and in its plane. (Priority: 06/28/1989) 4. A protective connection for the distribution strip of a telecommunication device, in particular a telephone device, which has an elongated protective connection (1) with cylindrical surge arresters (6) extending longitudinally adjacent to each other, which are insertion points! laterally perpendicular to the housing of the protective connector (1) and inserted into the spring contacts (9) of the protective connector (1) with axially extending connector tips (7), whereby the connector tips (7) are axially mounted on the fronts of the surge arresters (6) and from there radiate radially, characterized in that grooves (15) in the longitudinal outer walls (14) of the receiving chamber (5) open towards the surge arresters (6). ), in which the connection tips (7) extend at least partially and point in the direction of the spring contacts (9). (Priority: June 28, 1989) Protective connector according to Claim 4, characterized in that the receiving chamber (5) can be closed by a flexible, flexible cover (25), wherein the cover (25) can be secured on both ends of the protective connector (1) and centrally between the two faces. prestresses to the protective connector (1). (Priority: July 28, 1989) Protective connector according to Claim 5, characterized in that the cover (25) is curved longitudinally in the form of an arc before the contact with the protective connector (1). (Priority: July 28, 1989) Protective connector according to Claim 5 or 6, characterized in that the cover (25) extends from at least one end face, secured behind an outer wall (28) of the protective connector (1). (Priority: July 28, 1989) Protective connector according to Claim 7, characterized in that the cover (25) is pivotally mounted on the other side of the protective connector.