NL1003903C2 - Connection box for a data network - Google Patents

Description

Connection box for a data network

The invention relates to a connection box according to the preamble of claim 1.

Such junction boxes are mounted horizontally, the wall being either a wall of a building or the outer wall of a cable channel. A multi-core data cable is either installed in the wall or in the cable duct or mounted outside on the wall (surface-mounted installation). To install a junction box, the exposed individual wires must be connected to the wire terminals and the data cable shield must also be electrically connected to the earth terminal of the printed circuit board. In preparation for this, the outer insulation is first removed from the end portion of the data cable, so that the shield is exposed. It is then partially removed so that the individual cores can be spread out fan-shaped.

In a certain type of the known junction boxes 20, the exposed shielding is connected directly to a ground surface of the printed circuit board. The location of the connection point and the way in which the individual conductors are guided to the wire terminals compels to control the printed circuit board at least during part of the electrical connection work. Only after the electrical connections have been made and the metal box parts have been assembled can the junction box be mounted on the wall. Usually, a plastic cap is finally slid over the 30 metal parts of the junction box.

It is problematic to ensure that the data cable runs smoothly when the installation is carried out quickly. Also, the data cable is often very sharply bent inside the plastic cap several times, depending on the direction from which the data cable runs to the junction box. Carrying out the 1003903 «2 installation is particularly unfavorable when an oncoming and a further running data cable must be connected.

EP-A-0 592 909 shows in Figs. 1 to 29 variants 5 of a junction box for shielded cables, with the difference that they are not designed for surface mounting but for installation. The data cables are secured by support bases mounted on the bottom of the housing that contact the cable shields. The individual wires are then guided around an outer side of the housing part to a printed circuit board mounted on the housing top part, which is provided on the top with wire terminals. The junction box is held in the hand when connecting the cable and then placed in a wall box in the wall. The cable is pressed with some force into the tight space in the wall box.

Figures 30 and 31 show a variant of a corresponding type of surface-mounting box. The support pedestal here lies 20 laterally at the edge of the printed circuit board in connection thereto and approximately in the same plane as that. As a result of this laterally projecting support base, the box occupies a large area. When a data cable runs from that side of the box, which is turned away from the support base, towards the box, a particularly unfavorable course and mounting of the cable is created.

DE-93 03 921 U shows a flush-mounted box in which the entire edge area of the printed circuit board is provided with wire terminals. The individual cores must therefore be fanned out broadly and distributed over a large part of the circumference of the box. Now to accommodate additional wire terminals, these are located in an intermediate area between the edge and center on the underside of the circuit board. Each wire terminal is located near a recess in the printed circuit board through which a separate wire can be inserted from above to the clamp. Since the clamp is located in an inaccessible area at 10 0 39 03 "3, curved guide walls are provided from the clamp and run through the respective recess to the top of the housing top. The tip of a single core must sliding along the guide wall when retracting it from above, so the box is complicated in construction and connecting the individual cores of a data cable is inconvenient and laborious.

The object of the invention is now to provide a junction box of the type described, which enables a fast, correct and easy-to-perform mounting and guarantees signal-perfect conditions.

This object is achieved by applying the measures according to claim 1.

The end part with the exposed shielding is clamped in electrical contact to the support base of the housing part, which may be attached to the wall for this purpose. The fixing of the end part therefore already takes place in the correct position of the housing part and therefore a correct laying of the data cable is possible, which is not influenced by subsequent measures. The individual cores fanned out after the clamping point can be bent upwards without any problem, so that they pass through the recess of the printed circuit board when it is placed on the housing part. The ends of the individual wires can now be connected to the wire terminals using both hands.

The lengths of the unshielded parts of the individual cores are very short, which minimizes transfer losses and deformations. Finally, the metal housing top part and, as usual, a plastic cap are fitted. Since the end part of the data cable is located under the printed circuit board, the base area of the box can be small and it is no problem to design the box in such a way that a data cable coming from any direction is always simple and without much strain on the cable - 100 39 03 '4 holes can be connected.

In the embodiment according to claim 2, the data cable can be laid sparingly, in particular when it comes out of the wall.

The further elaboration according to claim 3 enables the trouble-free installation of two data cables arriving from one main direction.

The preferred embodiment of claim 4 permits the trouble-free installation of two data cables arriving from opposite principal directions.

The further elaborations according to claims 5 and 6 effect a better alignment and sparing clamping of the end parts of data cables.

The embodiment according to claim 7 allows an easily accessible and stable anchoring of a clamping screw.

The further elaboration according to claim 8 achieves a very short and reliable mass connection.

According to claim 9, the connection of two data cables is taken into account during a short course of the cables.

The measure according to claim 10 extends the application possibilities.

The embodiments according to claim 11 promote a quickly realizable installation.

Further advantages and embodiments of the invention will become apparent from the following description of an exemplary embodiment with reference to the drawing.

In the drawing: Fig. 1 shows a view of the disassembled junction box; Fig. 2 shows a top view of a housing part; Fig. 3 is a cross-sectional view taken along plane 3-3 of Fig. 2.

According to FIG. 1, the junction box comprises a metal housing part 11, a printed circuit board 12 and a metal housing housing part 13. The plastic cover covering the above-mentioned parts is not specially shown here, since it is known per se. The printed circuit board 12 is a multilayer, with two outer conductor surfaces carrying ground potential and insulated conductor tracks therebetween which establish the electrical connection between individual wire terminals 14 and contacts of modular buses 15 in a known manner. It goes without saying that other types of data contact buses can be used instead of the distributed modular buses 15.

According to Figs. 2 and 3, the housing part 11 comprises a bottom 16, with a substantially flat surface 17 and an opposing bottom top 18, as well as two side walls 21, 22 opposite each other with respect to a plane of symmetry. housing part 11 is approximately T-shaped, due to the fact that the printed circuit board 12 to be accommodated therein is slightly wider in the area of the wire terminals 14 than in the area of the modular sleeves 15. The bottom 16 is shown in FIGS. and 3 extended to the right above the side walls 21, 22, in view of the fact that the two holes 23, 24, serving to fix the bottom to a wall (not shown) by means of mounting screws (not shown), have a standardized distance to each other which is greater than the necessary length of the housing part per se.

About a quarter of the length a roof-shaped support base 25 is formed in the bottom 16, the top side 26 of which runs parallel to the plane 17 and perpendicular to the plane of symmetry 19. Two trough-shaped support surfaces 27, 28 are arranged in the support base 25 on one side of the symmetry surface 19, the longitudinal axes of which are aligned in parallel and run parallel to the symmetry surface 35 19. Both support surfaces 27, 28 run from opposite directions from the bottom top 18 below an angle of inclination of 30 "upwards to the common 100 39 0 3 ** 6 top 26. On the other side of the symmetry plane 19, in symmetrical manner, corresponding bearing surfaces 29, 30 are present. Between the a threaded bore 32, the center line of which runs perpendicular to the intermediate surface 31, is disposed in a flat intermediate surface 31 of the symmetry surface 19, opposite bearing surfaces 27 and 52. Between the bearing surfaces opposite to the symmetry surface 19 28, 30 there is also a flat intermediate surface 33 with a further threaded bore 34. In these threaded bores 32, 34 a screw (not two screws), by means of which a clamping bracket 35 (shown in Fig. 1) can be fixed for clamping an end part of a data cable 36.

In Fig. 1, dashed lines schematically indicate the location of a data cable. While the end part exposed up to the shield 37 is clamped to the bearing surface 27 by means of the clamping bracket 35, a further part of the data cable 36 is secured to a finger 38 in a manner not shown in a special way by means of a generally available cable connector. which protrudes upwards hook-like above the bottom top 18. Corresponding fingers 39, 41 and 42 are provided at further locations on the bottom 16, so that a total of four data cables could be correspondingly attached to the housing member 11. In practice, however, up to two data cables are connected, but these can be laid in different directions. Thus, as indicated by arrows 30 in Fig. 1, there is first a principal direction 43 and opposite to it a principal direction 44, each of which runs parallel to the plane of symmetry 19. In addition, a data cable (e.g. 36) can come from the principal direction 43 at one side of the symmetry plane 19 and a second data cable (not shown) can also be secured from the main direction 43, or from the main direction 44, coming at the other side of the symmetry plane 19. Data cables, which are laid from the two main directions 43, 44 to the housing part 11, do not have to be bent until they are fixed to the mounting base 25. Of course, after fixation at one of the 5 fingers 38, 39, 41, 42, a data cable can be bent sideways as desired, whereby the bend can be carried out with a sufficiently large bending radius.

A further possibility for guiding a data cable is shown in Fig. 2, namely in the bottom 16 two zones 45, 46 of approximately circular circumference which can be removed by desired break points are arranged. If desired, holes can be made here in the bottom 16 without special tools, through which a data cable laid in a wall or cable shaft 15 can then be inserted into the interior of the box.

The printed circuit board 12 must be supported on the housing part 11 at a first distance above the bottom top 18, which ensures the necessary free space for the data cable to be fixed on the housing part 11. This distance is defined by spacer elements in the form of edge surfaces 47, 48 of the side walls 21, 22, and an annular surface 49 of a pin 51, which protrudes from the bottom top 18. This pin 51 also contains a thread 52 designed as an internal thread. A metal rib 53 protrudes from the center of the support base 25, slightly above the first distance determined by the spacing elements. When the printed circuit board 12 is then fixed, lying on the spacer elements, the end face 54 of the body 53 presses against a mass plane of the printed circuit board 12, which is exposed in this area, so that it is arched slightly upwards under pretension. This guarantees a direct and reliable ground connection. Guide grooves 55, 56, 57 and 58 are provided in the end regions of the side walls 21, 22. It is possible to insert 35 metal cross plates (not shown) here.

In Fig. 1, some individual wires 59 of the data cable 36 are shown, which run upwards to the printed circuit board 12, are inserted through one of two recesses 61, 62 in the printed circuit board 12 and then electrically connected to the associated wire terminals 14, which are located in the vicinity of the recesses 5, 61, 62 at the top of the printed circuit board 12. Thus, the individual wires 59 are not bent over the printed circuit board edge, but cross the printed circuit board 12 in a more centrally located area. Since the wire terminals 14 are mounted on the top, the individual wires 59 can be connected when the printed circuit board 12, in its predetermined mounting position, rests on the housing member 11, which is screwed to the wall from its side. After the electrical connections have been made, the housing top part 13 is slid onto it and fixed to the housing part 11 by means of a clamping screw not specially shown, the screw being screwed into the screw thread 52 of the pin 51 and the screw head on a supporting surface 63 of the housing part 11. By clamping housing part 11 and housing top part 13 together, the printed circuit board 12 sandwiched therebetween is simultaneously fixed and it is pressed against the body 53 with pretension. It goes without saying that the housing top 13 has recesses 64, 65 through which the insertion openings of the modular buses 15 remain accessible. Finally, at the top of the housing top part 13, there is a threaded sleeve 66, into which a clamping screw for fastening a plastic cap (not shown) can be screwed.

Contrary to the above-described exemplary embodiment, variants can also be realized, for instance in that the bearing surfaces 27, 28, 29, 30 are designed as flat surfaces, whereby they can run roof-shaped inclined or parallel to the standing surface 17.

The roof-shaped slope (as shown in the exemplary embodiment) has, inter alia, the advantage that the axes of the threaded bores 32, 34 run obliquely relative to the plane 17. A clamping screw at an angle to the wall can be adjusted over a larger adjustment area, without touching the wall, so that data cables with larger differences in diameter can be clamped with the same clamping screw.

- conclusions - ^ p n «o« ^ ~

Claims (11)

A data network junction box, with a metal housing part (11), which has a mounting surface (17) arranged for surface mounting on the wall and 5 an opposite bottom-top side (18), with a metal housing top part (13) and a printed circuit board (12) enclosed between the housing part and the housing top part, which runs substantially parallel to the bottom top (18) and which carries at least one data socket 10 (15) and several wire terminals (14) on the bottom-top side (18 ) top surface to which the individual cores (59) of a multi-core data cable (36) can be connected, with a support base (25) on which an end section (37) is arranged on the bottom-top side (18) of the housing part (11) ) of a data cable (36) can be clamped, characterized in that the printed circuit board (12) is arranged at a first distance above the support base (25), that the wire terminals (14) are at least one recess (61,62) in the printed circuit board (12) and that the position of the support base (25) is determined such that the individual cores protruding from an end part of a data cable (36) attached thereto 59) pass through the recess (61, 25 62) located approximately above it to the wire terminals (14). Junction box according to claim 1, characterized in that the support base (25) has a support surface (27) for the end part (37) of a data cable (36), which support surface slopes upwards in the direction from the bottom top (18). from the circuit board (12). Junction box according to Claim 2, characterized in that the housing part (11) is at least approximately mirror-symmetrical with respect to a symmetry plane (19) oriented perpendicular to the stand surface (17), 1 0 0 39 n 3 a bearing surface (27, 29) is provided on each side of the symmetry plane (19). Connection box according to claim 3, characterized in that on each side of the symmetry surface (19) two roof surfaces facing each other (27, 28; 29, 30) are arranged. Junction box according to claim 2, characterized in that the support surface (27) is gutter-shaped. Junction box according to claim 3 or 4, characterized in that the bearing surfaces (27, 28; 29, 30) are formed in the form of a channel, the longitudinal axes of the channels running parallel to the plane of symmetry (19). Junction box according to claim 3 or 4, characterized in that a threaded bore (32, 34) is arranged between two bearing surfaces (27, 29; 28, 30) which are opposite each other with respect to the symmetry plane (19). Junction box according to claim 1, characterized in that a metal rib (53) runs from the support base (25) in the direction of the printed circuit board (12), which is mounted against a mass in the mounted condition of the junction box. surface of the printed circuit board. Junction box according to claim 3 or 4, characterized in that the printed circuit board (12) has two recesses (61, 62) which, when installed, lie on both sides of the symmetry plane (19). Junction box according to claim 1, characterized in that in the bottom (16) of the housing part (11) there is at least one zone (45, 46) which can be removed by desired break points, for optionally realizing a cable lead-through. <Λ 'Λ9Π3 ^ Junction box according to one or more of the preceding claims, characterized in that the bottom (16) of the housing part (11) has holes (23, 24) for fastening screws, with which the housing part (11) 5 rests against a wall lying, can be attached to it; that the housing part (11) has spacing elements (47, 48, 51) against which the printed circuit board (12) can be placed, at the predetermined first distance from the bottom top (18), and that the housing part (11) has a female thread ( 52), into which the threaded shaft of a clamping screw can be screwed, the screw head of which rests on the housing top part (13, 63), for fixing the housing top part to the housing part, while simultaneously fixing the printed circuit board between the two housing parts. 1003903 «·