SK278460B6 - Protective inlet terminal for connecting and disconnecting bars of telecommunication and data technics - Google Patents

Abstract

The protective inlet terminal consists of the plastic flat element (1) with the hollows (2) used for placing of the overvoltage wires (3) and of the cage (5) put on the plastic element (1), while the cage (5) consists of more holders (6) having a shape of the letter U, the front arms (11) of which are pressing to one electrode (13) of overvoltage leakage (3), and the rear arms of which (14) are sealing on the plastic element (1). The overthrust contact (7) is flooded in the protective inlet, creating the contact element (8). Between the contact element (8) and the second electrode (16) of the overvoltage leakage (3), there is the melting element (4) located. The prolongation of the rear arm (14) of the holder (6) having the shape of the letter U is crated as the contact spring (15) infringing to the hollow (2) used for placing of the overvoltage wire (3) .

Description

Technical field

The present invention relates to a protective connection for connection and disconnection strips of telecommunication and data technology.

BACKGROUND OF THE INVENTION

A protective connection of this kind is known from DE 27 38 851 C3. By means of the fusing element located between the contact element and the surge arrester, the free end of the rear arm of the U-shaped bracket to the associated electrode of the surge arrester has a distance which, in the case of a longer surge causing a current surge to the surge arrester, melting the fusible element.

Such a fail safe protective inlet is known that there is no melting of the fusible element at short-term overvoltages that produce a slight current flow through the overvoltage protector. The overvoltage is diverted to the ground by means of a surge arrester and a U-shaped holder. Only a longer surge and its conversion to power in the surge arrester creates a heating of the arrester, which brings the fusible element into a plastic state. When the melting element melts, the arrester is moved against the contact element. As a result of the overvoltage protector being pressed against the contact element and the free rear end of the U-shaped holder, the contact which electrically bypasses the overvoltage protector is closed.

Closing the contact will reduce the power generated in the protective lead, which results in cooling and re-solidification of the remaining portion of the melting element. The thermal contact can be formed using a different pair of materials. The different extensibility of the individual parts then affects the quality of the contact. As a result, the short-circuit contact is not ensured in any case, so that the protective function of the protective connection must be available again. This new protection function does not meet the required insulation conditions, i. j. the necessary distance between the free rear end (electrode) of the U-shaped bracket and the downcomer associated with it. Although this distance is available, but is less than desired and before the predetermined softening of the fusing element occurs, the protective inlet must not be used, as the arrester characteristics will change. As a rule, the arrester and the fusible element should be replaced after each thermal protection.

SUMMARY OF THE INVENTION

It is therefore an object of the invention to provide a permanent short-circuit after the first activation of the thermal protection (Fail Safe).

This object is solved by the invention in such a way that the extension of the rear arm of the U-shaped holder is designed as a contact spring extending into the recess in the surge arrester.

According to the features of claim 2, the contact spring is formed as a leaf spring, the inner side of which bears more closely against the corresponding electrode of the surge arrester than the inner side of the contact element forming the sliding contact on which the fusing element abuts. This ensures that the electrode of the overvoltage protector comes into contact with the contact spring formed as a leaf spring and avoids it already when the fusing element is not completely removed or is pressed into the recess of the overvoltage protector formed in the form of a button.

According to the features of claim 3, it is ensured that the contact point of the contact spring on the rear side of the plastic body 5 is higher, that the contact spring is made of U-shaped holder material, but still ensures support of the elastic element on the rear arm.

According to the features of claim 4, it is achieved that the individual elastic arms on the front side of the U-shaped holder are formed elastically almost independently of each other, so that a greater elastic path is obtained to support the front elastic arm.

The features of claim 5 provide that the cage consisting of a plurality of U-shaped holders is easily assembled, with the front free ends of the individual holders sliding over the associated yokes when sliding on the plastic body and then sliding onto the downcomers which are located immediately. at the end of the calipers.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be further elucidated by way of example of the rotation of the protective plug of the connection and disconnection strips of the telecommunications and data technology shown in the drawings.

In FIG. 1 is a cross-sectional view of a protective conduit formed from a flat plastic body with a cage 30 of U-shaped brackets, surge arresters, and solder rings on an enlarged scale.

In FIG. 2 is a front view of a cage formed from a plurality of U-shaped holders in actual size.

In FIG. 3 is an enlarged rear view of the cage.

In FIG. 4 is a top view of the cage of FIG. Third

In FIG. 5 is an enlarged cross-sectional view of the cage.

In FIG. 6 is a top plan view of a flat plastic body in actual size.

In FIG. 7 is a cross-sectional view of a plastic body at a larger scale.

In FIG. 8 is a cross-sectional view of the protective conduit of FIG. 1 after the fusing element has been softened and pressed.

DETAILED DESCRIPTION OF THE INVENTION

The protective connection of the telecommunication and data technology connecting and disconnecting strips consists of a flat plastic body 1 with ten recesses 2 for 55 each receiving one overvoltage protector 3 and one fusing element 4. It also consists of a cage 5 of ten U-shaped holders 6 For example, the U-shaped holders 6 are each associated with one surge arrester 3.

In the plastic body 1 shown in FIG. 6 in a front view and FIG. 7 in cross-section, at the bottom of each recess 2 there is a contact element 8 forming a plug-in contact 7, the end of which, opposite to the plug-in contact 7, terminates in the region of the recess 2 and forms the base of the recess. In FIG. 7, the upper part of the flat plastic body 1 is provided on the front

276 shorter and longer shackles 9, 10, which are arranged alternately and are each assigned to one recess 2 (fig. 6) ·

The cage 5 formed entirely from the ten U-shaped holders 6 extends beyond the free end of the plastic body 1 as shown in FIG. 1 and 8. Each U-shaped holder 6 comprises a front arm 11 which is terminated by an arcuate resilient element 12 which acts on the front electrode 13 of the button-shaped surge protector 3 as shown in FIG. 1 and 8. The rear arm 14 of each U-shaped holder 6 abuts the back of the plastic body 1 as shown in FIG. 1 and 8. Each bracket 6 forms a narrow contact spring 15 as an extension of its rear arm 14, as shown in particular in FIG. 3, which is designed as a leaf spring and whose inner side has a smaller distance to the rear electrode 16 of the surge protector 3 than the inner side of the contact element 8 forming the slip-on contact 7. The offset of said inner sides is obtained. The support point 18 of each front arm 11 lies approximately at a distance from the recess 2, which is equal to the radius of the surge protector 3, the back of the plastic body 1 having a recess 17. Each contact spring 15 forms a contact which is realized by a resilient element. This is so dimensioned that when the melting element 4 is melted by the surge arrester 3, the resilient element 12 is held tensioned by the surge arrester 3 and thus forms a reliable contact. The design of the resilient elements 12 is such that they operate almost independently of the contact spring 15.

Between the inner side of the contact element 8 forming the plug-in contact 7 and the rear electrode 16 of the surge protector 3, there is a horseshoe-shaped fusing element 4 shown in FIG. 1. This melting element 4 keeps the respective electrode 16 at a distance from the contact spring 15 of the respective U-shaped holder 6.

The function of the protective connection is as follows.

Two resilient elements are provided for each surge arrester 3 from the resilient material of the cage 5 with a thickness of approximately 0.4 mm or the material forming the U-shaped holder 6. On the front side, the elastic element 12 formed from the front arm 11 and on the back the contact spring 15 forming the extension of the rear arm 14. The two spring elements are arranged on one component, on a U-shaped holder 6 or on a cage 5 and work in the overall construction. almost independently of one another. The front resilient element 12 pushes the overvoltage protector 3 onto a horseshoe-shaped melting element 4, which again rests on the inside of the contact element 8. In the event of a higher-power overvoltage, heating results in softening or crushing. plasticity of the fusing element 4. The resilient force of the resilient element 12 acting on the front side of the overvoltage protector 3 causes the overvoltage protector 3 to be displaced against the contact element 8, thereby contacting the associated electrode 16 of the overvoltage protector 3 with the contact spring 15 earth. There is a short circuit.

Closing the contact connection between the contact element 8 and the contact spring 15 via the associated electrode 16 of the surge protector 3 will reduce the power generated on the protective lead, resulting in cooling and re-solidification of the remaining remainder of the fusing element. Due to the formation of the contact spring 15 on the rear arm 14 of the cage 5 as a spring element, there is no effect on the quality of the contact, so that a reliable contact connection is ensured.

To separate each other and to provide a small elastic constant of the individual elastic elements 12 of the front arms 11 of each U-shaped bracket 6, a notch 20 is formed up to the base 19 of the U-shaped bracket 6 as shown in FIG. 4. FIG. 5 shows the different lengths of the front arms 11, side-by-side holders 6, one alternating long and one short spring element 12 being alternately assigned to the surge arresters 3 arranged in two rows and offset from one another.

Each recess 2 for the surge protector 3 is assigned in the plastic body 1 a yoke 9, 10 which has an increasing height from the upper edge 21 of the plastic body 1 towards the recess 2, as can be seen in FIG. 7. These brackets 9, 10 allow for easy insertion of the U-shaped front legs 11 of the U-shaped bracket 6 onto the surge arresters 3 when mounting the protective lead with the surge arresters 3 and the solder ring 4 fitted. The brackets 9, 10, which thereby have an increasing inclination, automatically tension the elastic elements 12 formed from the front arms 11 of the U-shaped brackets 6 during assembly.

Claims (5)

1. Protective inlet for telecommunication and data technology connecting and disconnecting strips, consisting of a flat plastic housing with at least one recess for accommodating a surge arrester, with a U-shaped holder slid onto a plastic body, whose front arms press against the surge arrester electrode, and wherein the rear arm abuts the rear of the plastic body and extends at its end into a recess, a sliding contact formed by the contact element and a fusing element disposed between the contact element and the second electrode of the surge arrester, characterized in that the extension of the rear arm (14) The U-shaped (6) is formed as a contact spring (15) extending into the recess (2) for receiving the surge protector (3). Protective feeder according to claim 1, characterized in that the contact spring (15) is designed as a leaf spring, the inner side of which has a smaller distance to the rear electrode (16) of the surge protector (3) than the inner side of the contact element (8). forming a plug-in contact (7). Protective sleeve according to claim 1 or 2, characterized in that the support point (18) of the contact spring (15) lies at a distance to the outer circumference of the surge protector (3), which approximately corresponds to its diameter. Protective inlet according to one of Claims 1 to 3, with a plurality of offset surge arresters, preferably arranged in two parallel rows and with one cage-shaped holder, characterized in that the front legs (11) are provided with slits (20) extending up to the base (19) of the U-shaped brackets (6). Protective sleeve according to claim 4, characterized in that the plastic body (1) has for each holder (6) a yoke (9, 10) with increasing height from the upper edge (21) of the plastic body (1).