DE4124967C2 - - Google Patents

Description

The invention relates to and to be laid in the ground Buildings, drawing boxes or the like connectable, Lei arrangement consisting of several with each other, as well as with the Buildings, drawing boxes or the like mechanically and elec trisch connectable line sections, the individual line section from at least one cable protection tube an insulating material, preferably plastic, and one or more conductors or cables, which or inserted or drawn into the cable protection tube are, the cable protection tube on the outside of an elec trically conductive and lightning current carrying shielding and is surrounded by a conductive protective layer (generic term of claim 1).

Such a line arrangement is out DE-PS 38 12 057 known. In this prior publication for the shielding a lightning current carrying braid, e.g. B. made of copper. It also states that one of the Ends of the cable pipe forming a line section so  is expanded that it is over the other, not expanded End of the adjacent cable protection tube fits. Furthermore, executed that the shield of a cable protection tube Cross-section into the shielding of the other passes over the protective cable and that the shielding not interrupted at such a connection point may be. Further information on the design of this Connections of the cable protection tubes and the shields each line section and also their connection to buildings de, drawing boxes or the like are in the aforementioned Literature not included. To the protective layer it is stated that there is a conductive, corrosion prevent can be at least approximately the conductive layer speed of the surrounding soil.

The object of the invention is in contrast the connection in such a line arrangement the cable protection tubes of a line section to each other the, as well as the connection of such line sections Buildings, drawing boxes or the like in mechanically robust, easy to use and electrically perfect type shape. A continuous, lightning current carrying capacity should Get ge shielding according to the teaching of DE-PS 38 12 057 stay.

To solve this task or problem is out hend from the preamble of claim 1 cited at the beginning, according to the invention initially provided that the shield and the protective layer of each conduit as one Layer of an electrically highly conductive plastic consists, as well as in their dimensions and in their specific electrical conductivity designed to withstand lightning current is that at the ends serving for connection each Cable protection tube part of the aforementioned protective layer in the form of a cylindrical section with a length removed, which is at least about ten times larger than that Wall thickness of the cable protection tube is, and that of the  end of the protective layer-free area Protective layer as a contact surface for the electrical connection to an adjacent cable protection pipe, line section or building, drawing box or the like is used, with means for connection this end region of the protective layer are provided. A such protective layer, which in itself the functions of shield capable of carrying lightning current, of mechanical protection and protection against moisture to the outside and close Lich takes over the function of the conductive earth contact, is with much less effort on cable protection to apply pipe as a separate shield and a separate protective layer. Since the protective layer after the Invention to achieve a corresponding robustness and Strength against external mechanical influences anyway must have a certain thickness, so it has a respect even oversized lightning current carrying capacity Cross section, if - what according to the current status of Technology is possible - it is made of a highly conductive material with the conductivity of copper. This material can be a highly conductive plastic, e.g. B. a corresponding be conductive polyacethylene. Such highly conductive In the professional world plastics are also called "organic metal le ". Another advantage is that also those for the connection of contacts the protective layer is mechanically stable and against damage are insensitive to what is shielded from a exposed braid according to the prior art not the Would be the case. The above advantages are for both Manufacturing than, above all, also for the usually very rough operation during transport or on the construction site important. In addition, the state of the art for Exposing appropriate contact points of the shield first the protection surrounding the respective contact point layer had to be removed, which added an additional ar labor costs. This is necessary in the prior art stripping is not necessary because the protective layer is used for this their outer surface is available. The contactability and current conductivity from protection by the outer circumference  layer formed contact points is flawless. Close Lich creates the arrangement according to the invention with the above. Exposing the cable protection tube at the ends of the line a sufficiently long glide section, which over strikes from the contact surface of the protective layer to the im Cable protection pipe located lines prevented. From The principle is to create such a long glide already the subject of DE-PS 38 12 057, but not in the advantageous structural design according to the Erfin with which the cable protection tube without change its diameter only on the specified length of the protective layer must be exposed.

The features of claim 2 see an advantageous combination nation of electrical connection and mechanical Connection of the contact points in the form of a single By means of e.g. B. a pipe clamp.

The features of claim 3 include an advantageous sleeve-like connection according to the invention between the opposite ends of the cable protection tubes two line sections. In contrast to the initially mentioned execution according to DE-PS 38 12 057, he is enough that the cable protection tubes the same at both ends Chen diameter can have. This is for both Manufacturing, as well as for assembly an essential association simplification and relief. Is also for a continuous, uninterrupted shielding, including mechanically strong and electrically sufficient connections of the protective layers mentioned, the one from the sleeve protruding areas of the protective layer of the sleeve of the contact the corresponding areas of the protective layers of the Cable protection tubes are used. Both the cable protection tubes, as the sleeves are also in the form described from the factory available. Only the ends of the Cable protection pipes inserted into the sleeve and the clamps or the like connecting means laid and moored  will. The sleeve itself has the function of uninterrupted implementation of electrical shielding tion and also causes the necessary stabilization lity of the plug connection from this sleeve and the concerned ends of the cable protection tubes.

An advantageous embodiment of the sleeve according to claim 3 is Subject of claim 4. This is a flawless Positioning the ends, d. H. End faces of the two Given cable protection tubes.

According to the teaching of claim 5, the lengths of the sleeves parts that accommodate the cable protection tube ends, so ge chooses that the required long glide must also be is given mutually.

The teaching of the invention according to one of the claims che 3 to 5, which was explained in detail above, can also in principle to introduce a line cut into a building, a drawing box or the like are used, the sleeve or a corresponding Socket part is provided on the building side.

Further details of the invention are the wide ren subclaims and the following description and the accompanying drawing of exemplary execution possibilities to take. In the drawing shows

Fig. 1 shows schematically an example of a Leitungsanord voltage according to the invention, in connection with buildings and a draw box in a smaller compared to the other figures scale,

Fig. 2 in partial cross-section a Muffenver bond of adjacent Leitungsab cut,

Fig. 3 is a plan view of the sleeve according to Fig. 2, with omission of the terminal clamps and the seals,

Fig. 4 shows the embodiment of an introduction of a line section according to the invention in a building, a drawing box or the like.

Fig. 1 shows the embodiment of a line arrangement consisting of a first building 1 , a second building 2 , a drawing box 3 with a metallic shield 4 , line sections 5 , 6 , 7 and 8 and the soil 9th In building 1 , a room 10 to be protected particularly against electrical overvoltages, interference fields, etc., for. B. a room for receiving a computer 11 , vorgese hen, which has a metallic shield 12 . Further 1 are shown in Fig., Only shown in principle, the electrical connections of the protective layers of the line sections 5 to 8, in the form of a terminal 13 to the shield 12, a terminal 14 to an equipotential equalization rail 15, the connections 16, 17 of the Leitungsab sections 6 , 7 with a sleeve 18 , the electrical connec tions 19 , 20 of the protective layers of the line sections 7 , 8 with the shield 4 of the drawing box 3 , and finally an electrical connection or connection 21 of the protective layer of the line section 8 with the shield or a reinforcement 22 of building 2 .

Fig. 2 shows an advantageous embodiment of the connection between two pipe sections 6 and 7 by means of a sleeve 18. The respective cable protection tube 23 consists of an insulating material, for. B. from a plastic such as PVC, PE, PP, PPO, PA, PC, ABS. The respective shield is formed in the manner of an outer jacket by a protective layer 24 , which consists of a highly conductive plastic and is dimensioned in its cross-section so that it is lightning current-carrying. These can be plastics as stated above.

A plastic, for example, can also be formed by oxidation a so-called dopant to a very high value the conductivity can be increased. So with an ent speaking polyacetylene one and a half times the conductive copper has been achieved. This protective layer causes on the one hand the shield capable of carrying lightning current, as well as the electrical contact of this shield with the surrounding protection against injury from objects in the ground such as sharp-edged stones ne, metal parts and the like and finally a Kor protection against corrosion against earth moisture.

The cable protection tubes 23 each have the same diameter and lie with their end faces 26 at a short distance from each other, whereby according to an advantageous embodiment of the invention, the end faces 26 abut a collar 27 which rotates on the inside of the sleeve made of insulating plastic . Furthermore, the sleeve 18 is provided on the inside with circumferential grooves 28 which each receive a seal 29 as a moisture barrier. It can either be designed as a so-called O-ring or, as shown in the drawing, as a sealing insert with a contact surface 25 . In the former case, the ends of the cable protection tubes are inserted approximately flush into the interior of the sleeve 18 , in the latter case, however, with a small distance due to the dimensions of the seal 28 , 25 . In both cases the respective seal is pressed together. This prevents the penetration of moisture into the sliding path 30 , which is located between the inner surface of the sleeve and the outer surface of the cable protection tube lying against it. This sliding section 30 has a length t which should be at least ten times as large as the thickness d of the wall of the cable protection tubes 23 . In a practical embodiment, the thickness d of the cable protection tube is approximately 3 mm and the distance t is 30 mm. Hereby, this sliding distance t is long enough to prevent any flashovers from the respective contact surface 32 of the protective layer of the protective cable conduit to be laid inside, schematically with 31 indicated conductors or cables. For the rest, reference is also made to the explanations of the electrical conditions of such flashovers in DE-PS 38 12 057.

The advantage is that this distance t is simply ge that the protective layer 24 is removed (stripped) from the cable protection tube 23 from its respective end faces 26 ago over the length t.

The sleeve 18 is provided on the outside with a protective layer 33 . It should be mentioned at this point that both the protective layers 24 and the protective layer 33 are circular in cross section, ie they have the shape of a cylinder which surrounds the respective cable protection tube 23 or the sleeve 18 adjacent to it and extends in the longitudinal direction thereof.

The protective layer 33 is embodied at the front ends of the sleeve 18 and is provided in this area 34 with slots 35 running in the longitudinal direction of the tube and parallel to one another (see in particular FIG. 3), between which sections 36 made of the material of the protective layer 33 are located. This slot makes it possible in a particularly simple manner to shift the end regions of the protective layer 33 projecting from the sleeve so far towards the inside of the cable protection tubes that they come into contact with the contact surfaces 32 of the protective layers 24 of the cable protection tubes, in order to then use them a pipe clamp 37 made of conductive material, preferably copper, to be jammed with the contact surfaces 32 . Instead of such a clamp, a drawstring or the like can also be provided. Thus, a lightning current-carrying, conductive connec tion is created from the protective layer 24 of the line section 6 via the protective layer 33 of the sleeve 18 to the protective layer 24 of the line section 7 , which is also mechanically sufficiently strong. To the respective clamp 37 or an ear 51 of this clamp or an analog clamping means, connecting lines, for. B. to be connected to a potential equalization rail or the like. The sleeve 18 holds the opposite end regions of the cable protection tubes 23 mechanically firmly and torsionally stiff. Overall, a mechanically firm and at the same time a continuous, shielding connection of the line sections 6 , 7 is created. In deviation from the illustration in Fig. 2, the sleeve 18 ' on its outside 18 ' have the same diameter throughout, provided that the seals 28 can be accommodated in the remaining wall thickness of the sleeve (not shown in the drawing).

Fig. 4 shows the introduction of a line section in a housing or the like, for. As in Fig. 1 of the right end of the line section 7 in the draw box 3 or the right end of line section 8 in the housing 2. The numbers from FIG. 2 are chosen for the cable protection tube, etc. In the concrete or masonry 43 of the building or the like there is an opening 44 into which the line section is to be inserted. The sealing of the opening 44 to the outside happens through a Gebäudeeinfüh tion, consisting of two plates 45 , 46 and an intermediate, z. B. rubber seal 47 . The aforementioned parts 45 , 46 and 47 are held together by clamping screws 48 and provided on the inside with a cylindrical opening 49 , in which the protective layer 24 of the relevant line section is inserted with a sealing seat. The protective layer 24 is removed by the length t from the end face 50 of this line section lying inside the building in the direction of the building entrance, so that likewise t is equal to 10d or greater than 10d. This also prevents sliding discharges here. A connecting line 52 to a potential equalization rail 53 is provided on an ear 51 of the clamp 37 . At this can be via a line 54 z. B. the reinforcement 55 of the concrete of a building, or the shield 4 of the drawing box 3 can be connected. Analogously, in FIG. 1, to the left of a potential equalization rail 15 for armoring 55 of this building, there is a connection 54 , while the electrical connection 14 explained there corresponds functionally to the connecting line 52 of the exemplary embodiment according to FIG. 4. During assembly, the procedure is expediently such that, after introducing this end of the line section, the connection 52 is first established and then the building entry 45-48 is brought into the position shown and fixed. Should another line section be connected to the end of the line section shown in FIG. 4 on the right, this can be done with a socket connection of the invention, as shown for example in FIGS. 2, 3 and explained above. It is also within the scope of the invention to perform the introduction shown in FIG. 4 into a building or the like with a sleeve arrangement according to FIGS . 2, 3, only the clamp in the building having to be provided with an ear according to number 51 . In principle, the sleeve can be half of the connecting sleeve from the examples in FIGS. 2, 3.

Instead, part of a line section can also protrude from the building, drawing box or the like and be connected to the adjacent line section via a sleeve according to the invention (see, for example, FIGS. 2, 3).

From the above it follows that with the invention in practicable and functionally perfect way such Line connections from the inside of a building or the like inside one or more other buildings or can relocate the like. Because there are such connections over longer distances, it is important that the invention is as practical as it is functional perfect electrical and mechanical coupling of the Lei sections.

Claims (11)

1. To be laid in the ground and connectable to buildings, drawing boxes or the like line arrangement, which consists of several interconnectable with one another, as well as with the buildings, drawing boxes or the like mechanically and electrically connectable line sections, the individual ne line section consisting of at least one cable protection tube from an insulating Material, preferably plastic, and one or more conductor (s) or cable (s), which or which are introduced or drawn into the cable protection tube, the cable protection tube on the outside of an electrically conductive and lightning current-carrying shielding and from a conductive protective layer vice versa ben, characterized in that the shield and the protective layer ( 24 ) of each cable protection tube ( 23 ) ( 5 to 8 ) as a layer made of a highly conductive plastic, and in its dimensions and in its specific electrical conductivity is designed to carry lightning current that the de r serving ends of each cable protection tube ( 23 ) is a part of the aforementioned protective layer in the form of a cylindrical portion with a length (t) which is at least about ten times greater than the wall thickness (d) of the cable protection tube ( 23 ) and that the the protective layer-free region adjoining end region of the protective layer serves as a contact surface ( 32 ) for the electrical connection to the adjacent cable protection tube, line section or building ( 1 , 2 ), drawing box ( 3 ) or the like, means ( 37 ) for connecting this end region of the protective layer being provided are. 2. Line arrangement according to claim 1, characterized in that the electrical connection means ( 37 ) at the same time as a mechanical connecting means, for. B. are formed in the form of a pipe clamp made of conductive material. 3. Line arrangement according to claim 1 or 2, characterized in that for connecting the ends of two Lei line sections ( 6 , 7 ) whose cable protection tubes ( 23 ) have the same diameter and with their end faces ( 26 ) in the connection position opposite each other that a made of insulating material, hollow cylindrical sleeve ( 18 ) is provided, the inside diameter of which is equal to or larger than the outside diameter of the cable protection tubes such that in the connection position the cable protection tubes are either preferably with a snug fit or via an intermediate sealing insert in the sleeve are inserted that the sleeve is also surrounded on the outside with an electrically conductive and lightning current-carrying protective layer ( 33 ) made of a highly conductive plastic, which is led out from the two ends of the sleeve each with an area ( 34 ) serving for the electrical connection, this Area ( 34 ) the associated En The area of the protective layer of the relevant cable protection tube overlaps and is thus mechanically jammed and is electrically connected. 4. Pipe arrangement according to claim 3, characterized in that the sleeve ( 18 ) on the inside and in its longitudinal direction viewed centrally located a stop, preferably has a circumferential collar ( 27 ) which to stop the end faces ( 26 ) in the sleeve inserted cable protection tubes ( 23 ) is used. 5. Pipe arrangement according to claim 3 or 4, characterized in that half the sleeve length or the distance from the stop ( 27 ) to the outer end face of the sleeve corresponds approximately to the length (t) of the end region of the cable protection tube, from which Shield ( 24 ) and outer jacket ( 25 ) are removed. 6. Pipe arrangement according to one of claims 3 to 5, characterized in that the areas vorra from the sleeve ( 34 ) of the protective layer ( 33 ) are slotted and displaced by a certain amount in the direction of the interior of the cable protection tube and thereby in the longitudinal direction of the Line section running on the contact surface ( 32 ) of the protective layer ( 24 ) of the respective cable protection tube and are thus jammed. 7. Pipe arrangement according to one of claims 3 to 5, characterized in that the areas ( 34 ) of the protective layer ( 33 ) of the sleeve ( 18 ) out of this without Verla gerung inward and with the contact surfaces ( 32 ) of the protective layer ( 24th ) of the respective cable protection tube are jammed conductively. 8. Line arrangement according to one of claims 1 to 7, characterized in that the electrically high conduct the plastics from which the protective layers ( 24 , 33 ) of the cable protection tubes and the sleeve are formed, have approximately the same electrical conductivity. 9. Line arrangement according to one of claims 3 to 8, characterized in that such a sleeve or a part of such a sleeve for introduction and Installation of a line section in a building, a drawing box or the like is provided.   10. Pipe arrangement according to one of claims 1 to 9, characterized in that the protective layers ( 24 ) of cable protection tubes and optionally the protective layer ( 33 ) of a sleeve or part of a sleeve in a building ( 1 , 2 ) or a drawing box ( 3 ) or the like with their shielding or armouring ( 4 , 12 , 22 , 55 ) are connected. 11. Line arrangement according to one of claims 1 to 10, characterized in that only the end of a line section with over a partial area (t) removed protective layer ( 24 ) of the cable protection tube ( 23 ) is inserted into a building, drawing box or the like and sealed to the outside , wherein the section directed towards the relevant end of the line section of the protective layer z. B. via a pipe clamp ( 37 , 51 ) with a potential equalization rail ( 53 ), a reinforcement ( 55 ) or derglei Chen is electrically connected.