FI82789C - Method and apparatus for joining and shielding telecommunications - Google Patents

Description

Method and apparatus for joining and shielding telecommunications channels

TECHNICAL FIELD The present invention relates to a method and apparatus for joining electrical ducts in a duct system for wiring different types of telecommunication cables to provide electrical connection and shielding of the joint between the duct pieces, which are made of metal or electrical profiles. conductive materials with metallic surface layers or elements. The channels are made up of channel pieces, in which joints between; for example, the bottom chute and cover comprise shielding seals of known kind, for example, consisting of an elastic sealing strip, which is covered with a metal tree.

background Technology

Channels intended for wiring cables, such as tele-cables, are generally known. It is also known to shield such channels from, for example, radio frequencies and electromagnetic pulses. A disadvantage of the devices known to date for shielding the channels is that these devices are comparatively complicated to use and. time-consuming to apply. In particular, when disassembling and re-installing ducts, it is important that the covers on the duct pieces contained in the duct can be easily removed and re-assembled in a safe manner.

Description of the invention

The object of the present invention is to provide a method and apparatus for joining and shielding channels intended for routing various types of telecommunication cables, to external magnetic fields, such as radio frequencies and electromagnetic pulses, which do not exhibit the necks associated with known channels. moieties. The object has been achieved by the method and arrangement according to the invention, which preferably relates to joining channels made in the form of metal profiles and having a rectangular cross-section. The features of the invention are characterized by the features set out in the following claims.

A duct system consists of one or more straight duct pieces which may be joined by T-pieces, X-pieces or connectors. T-pieces and X-pieces are used for branching in the duct system, while connection pieces are used, for example, to connect appliance cups to the duct system. All duct pieces have a bottom section or bottom chute and a lid. A shielding seal is provided along each joint in the various sections of the duct system, that is, between the bottom channel and the lid in respective straight pieces, between the bottom part and the lid in the T-piece, X-piece or the connection piece.

The shielding seal contained in each joint is constituted by a known sealing strip, preferably consisting of a resilient plastic core, which is covered with metal trees. The shield seal may have both circular and rectangular cross sections and may also be provided with a protruding tab for its attachment.

At the connection of the duct system to an appliance cabinet, a gap arises which is shielded by means of a bellows-shaped screen made up of a metal tree netting which hangs from the underside of the appliance cabinet and surrounds a cable opening in the lid of the connection piece. The lower edge of the bellows shield is preferably connected to a metal frame whose abutment surface against the lid of the connector is provided with a shield seal as above.

Two adjacent channel pieces are preferably joined together with at least one joint fitting, which extends on both sides of the joint between the channel pieces. Further, preferably at least one contact means is provided between the respective channel piece and the joint fitting 1! 3 82789 on each side of the joint between the duct pieces. The splice fitting is a prerequisite for the various pieces of the duct system to be able to be poured together with each other during tensile stresses in the longitudinal directions of the ducts. The contact member, which preferably consists of a plate, which has resilient means projecting from the plane through the contact plate, ensures the electrical contact between the joint fittings and the two adjacent chisel pieces. This is especially important when the duct pieces are made of aluminum: 2.0 alloys and earth currents pass through the duct walls.

'In the case of screw joints in the joints, the constriction resistance arises: · which means that the earth currents must pass through a small area. In this way, local heat generation increases, whereby: · the aluminum due to its larger coefficient of thermal expansion is expanded more than the iron screws which are usually used in the joints. During the pressure increase that increases in the dressing, the softer aluminum flows away. When the current passage ceases and the junction cools down, due to the aluminum's flow, contact pressure has decreased with lower contact and increased contact; ·; 20 resistance as a result. At each current flow, the process is repeated and the contact formation deteriorates. The process is accelerated by the increasingly high temperature in the contact • site providing an oxidation that further increases the contact resistance. Soon the canal will cease to function as 25 earth conductors. Therefore, in many known duct systems, a separate earthing cable has been introduced, which is usually located freely in the duct system. The method according to the invention eliminates the need for a separate grounding cable.

The invention has thus provided a 3Q method for both joining and shielding of the duct pieces and which also permits an earthing of, for example, apparatus cupboards to the duct system and further to a grounding outlet.

DESCRIPTION OF THE FIGURES The invention is described below in the form of an embodiment in conjunction with the accompanying figures.

4 82789

Figure 1 shows schematically in the form of a so-called blast-kiss parts of a duct system connected to an appliance cabinet, which cabinet is shown dash-dotted in the figure.

Figure 2 shows a view along the line A-A in Figure 1, 5 in which a leg stand for the appliance cabinet is also inserted.

Figure 3 shows in more detail a cross-section through a channel along line B-B in Figure 1.

Figure 4 shows a cross section along line C-C in Figure 3.

Figure 5 shows an enlarged detail at arrow D in Figure 1.

Figures 6 and 7 show an enlarged contact plate according to Figures 3 and 5.

Preferred Embodiment The portions of a duct system shown in Fig. 1 are comprised of two straight duct pieces 1, which consist of a bottom chute 2 and a lid 3, one of which is joined by a T-piece 4 and the other is separated from the T-section. piece 4. The T-piece 4 further comprises a bottom part 5 and a lid 6, which is shown raised from the bottom part 5. The T-piece 4 is further connected with a connection piece 7, which consists of a bottom part 8 and a lid 9. The lid 9 of the connection piece 7 shows an opening 10 for inserting cables into an appliance cabinet 11, shown dash-dotted in Figure 1. The two straight duct pieces 1, the T-piece 4 and the connection piece 7 are joined to the respective adjacent channel pieces by means of splice fittings 12. An off-screen seal 13 is arranged along each joint in the different pieces of the duct system, ie between the bottom channel 2 and the lid 3 in respective straight piece 1, between the bottom part 5 and the lid 6 in the T-piece 4 and between on the bottom part 8 and the lid 9 in the connection piece 7.

Each joint between two adjacent duct pieces is shielded by means of a clamp openable for mounting, which in the exemplary embodiment is in the form of two joint-couplings with seals with seals. Thus, two shielding seals 26 are provided in a lower joint 14, which covers the joint on the underside of the channel and in an upper joint 15 connected to this lower joint 5, which covers the joint on the upper side of the channel. The two shield seals 26 extend mutually parallel around the joint and p on each side thereof.

The shielding seals 13, 26 in the duct pieces and joints are suitably a known type of sealing strip, for example the side consisting of an elastic core of plastic, which is covered with metal wire, for example made of monel metal, aluminum or stainless steel.

Respective shielding seals 13, 26 in this example are provided with a circular cross-sectional section.

The duct system connection piece 7 starts in connection with the appliance ship 11 via a bellows shield 16 according to figure 2. The bellows shield 16 consists of a metal wire mesh which hangs down from the underside of the appliance ship 11 and surrounds: the cable opening 10 in the lid 9 on the connection piece 7.

The lower edge of the bellows screen 16 is connected to a metal frame 17, where the abutment surface of the cover 9 p in the connection piece "·· 7 is provided with a shield seal.

Figure 3 shows a cross-section of a straight channel piece: according to line B-B in Figure 1, of which cross-section as well: the design of the bottom channel 2 and the lid 3, which the parts used for the splicing of two chancel pieces show in more detail. The joint is suitably made by means of two fittings 12 of which only one is shown. The fittings 12 are applied in T-bars 18 located opposite each other on the vertical wall of the respective 3Q channel pieces. The location of the fittings 12 is schematically also shown in Figure 1. The respective joint fittings 12 are clamped in two opposite T-bars 18 by means of screws which extend. through the splice bracket 12 in threaded hilts and which is caused to press the splice bracket 12 into the T-bar 18. A plate 19 is placed in a space arranged in a mold 6 82789 in a bracket 12 between the bracket and the respective channel piece on each side of the joint. The contact sheet 19, enlarged as shown in Figures 6 and 7, consists of a thin plate of bronze, in which resilient contact elements 20 are punched and twisted so that they are at an angle to the plane through the contact sheet 19. As a result of the contact sheet 19 19 design and placement, any dimensional changes caused by heat generation at current passing through the contact points are absorbed by torsional suspension in contact blades and the otherwise commonly encountered deformation and oxidation at the contact points has been eliminated.

The shielding of the joint between the channel pieces according to FIGS. 3 and 4 is achieved with the lower joint 14 connected to the upper joint 15 by a hook 21 and one 22 at one side of the joint 14 and 15 and a clamping member. 23 at the other side of the joints 14, 15. A cross-sectional section of the lower joint bracket 14 is shown in Figure 4. It is evident from the figure that shield seals 26 are provided on each side of the joint between the channel pieces. Furthermore, a U-shaped ax 24 protrudes from the lower joint bracket 14 between the channel pieces and prevents the joined joint brackets 14, 15 from being displaced along the channel. By making the joints with a certain width, it is possible to conclude that the end faces of the channel pieces do not run completely parallel to each other.

Il

Claims (4)

A method of connecting duct pieces together in a duct system for pulling different types of telecommunication cables 5 to provide an electrical connection between duct pieces (1, 4, 7) and splice protection duct pieces made of profiles of metal or non-conductive material with an inner layer that the channel pieces (1, 4, 7) are fitted against their end faces and joined together by at least one extension fitting (12) extending on both sides of the joint and screwed or otherwise pressed against the corresponding channel piece (1, 4, 7), whereby at least one contact member (19) ensuring electrical contact is arranged in the space between the corresponding duct piece (1, 4, 7) and the splice fitting (12), and in that the splice point is surrounded by an electrically conductive pressing member (14, 15) which can be opened for installation. asenn in its preferred position 20 shows a protective seal (26) running around the at least one channel. Apparatus for carrying out the method according to claim 1 by connecting duct pieces in a duct system for pulling different types of telecommunication cables to provide a splice protection between duct pieces (1, 4, 7), which duct pieces are made of profiles of metal or non-conductive material with metal top layer or inner cladding, wherein the channel pieces (1, 4, 7) are arranged against each other at their end faces and connected together by means of extension fittings (12), characterized in that it comprises one openable pressing member (14, 15) for surrounding the extension point, which in its installed position encloses at least one protective seal (26) 35 passing around the duct. 10 82789 Device according to Claim 2, characterized in that the clamping element consists of two interconnectable arcs (14, 15) with grooves arranged along the edges of the arcs for receiving the protective seals (26). Device according to Claim 3, characterized in that at least the second extension arc (14, 15) has a ridge (24) which, in the installed position of the arc, protrudes between the channel pieces. of