DE10103530A1 - Connector for connecting transmitter to power supply cable has insulating cover matching housing shape that forces blade into cable to make electrical connection when pressed onto housing - Google Patents

Abstract

The device has an insulating housing (1) with a guide channel for the cable (EVL), especially with a metal blade element (3), an aperture (5) for a protective device (SI) connected to the blade element and a guide channel (9) for a lead (AL) connected to the protective element. An insulating housing cover (11) matching the housing's shape forces the blade into the cable to make an electrical connection when pressed onto the housing. The device has an insulating housing (1) with a guide channel for the cable (EVL), especially with at least one metal blade element (3), an aperture (5) for a protective device (SI) connected to the blade element and a guide channel (9) for a lead (AL) connected to the protective element. An insulating housing cover (11) matching the housing's shape forces the blade into the cable to make an electrical connection when pressed onto the housing. The cover is fixed in the pressed-on position by attachment elements (12,13).

Description

For the transmission of information in particular is data in the future also a transmission of information about Ener Power supply lines, especially low voltage Power supply lines provided. The transmission of the Information is preferably provided by high-frequency signals - For example in the range between 1.6 and 30 MHz. To the one Coupling or decoupling of such high-frequency signals in a power supply line is a galvanic connection connection with the power supply line is required. The High frequency signals are used, for example, in the transforma gate stations or in the distribution cabinets of the buildings or decoupled. For this, the high-frequency signals leading electrical lines, each with correspond Corresponding transmission facilities are connected to the Power supply line connected. Currently the the lines carrying the high-frequency signals directly to the existing terminals - for example with the help of cable protection hen - the transformer stations or the distribution cabinets in the buildings, d. H. connected in the company or home area. During this connection work, the security of the assembly is persons not guaranteed as the terminals or connections are not safe to touch during assembly and are often Connections with other low voltage connections are open conditions and short circuits. Furthermore is at such a connection of a line to a power supply management the activation or interruption of the Power supply line required, which is an additional Chen high installation effort required.

For the connection of power supply lines to before Existing power supply lines are already piercing Known terminals that have a cable channel in which the  Energy supply line is introduced. With the help of a Cover are cut with the help of screw connections lemente or piercing elements by isolating the ener Power supply line pressed into the metallic conductor. Such clamping devices are on the one hand for the transfer supply of high currents between the power supply lines designed and are accordingly large. Such type terminal clamps are, for example, from the publication , , , known.

The object underlying the invention is one Connection device for coupling in and out of high frequency signals in a power supply line in particular to create them from a safety perspective. The Invention is ge by the features of claim 1 solves.

The essential aspect of the connection device according to the invention is that in an electrically insulating housing, the energy supply line receiving and at least one metal cutting element has guide channel, a recess provided for receiving a fuse element electrically connected to the cutting element, and one with the fuse electrically connected line receiving guide groove is designed. An electrically insulating, matched to the housing shape housing cover ( 11 ) is designed such that when the housing cover is pressed onto the housing, the at least one cutting element penetrates into the power supply line in the sense of an electrical connection, fastening means for fixing the housing cover being pressed on Condition are provided. By integrating the fuse element or the fuse into the connection device, maximum security is ensured during the installation of both the connection terminal and a transmission device connected to the connection terminal via a line, since the integrated fuse element provides an interruption even at low current flows low-voltage power supply line is reached. Due to the low demands on the current carrying capacity of this connection device, which is ensured by the integration of a fuse element, the connection device can be designed or constructed with smaller dimensions. As a result, the economic outlay on the connection terminal can be reduced with maximum security of the installation person both when installing the connection device and when installing the transmission device connected to it via a line.

Further advantageous embodiments of the invention Connection device in particular with regard to the Ausgestal tion of the guide channel, the recess for receiving egg Nes security element and the fasteners for the fixation of the housing cover are the other patent claims.

In the following the invention and its advantages with reference to ei ner perspective representation of a connection device explained in more detail.

The illustration shows a cuboid housing 1 made of electrically non-conductive material, for. B. made of plastic, in which a parallel to a longitudinal edge of the housing 1 erstrec kender, semicircular guide channel 2 is designed for receiving a power supply line EVL. In an end region of the guide channel 2 , for example, three corner-shaped, metallic cutting elements 3 are arranged. For this, the guide channel 2 is provided with a groove, is introduced into the cutting elements 3 together with a the cutting elements 3 holding the metallic holding member 4 - z. B. a pressed - are, the cutting elements 3 on the Haltele element 4 are fastened for example by soldering or screws. The cutting elements 3 are sharpened at the tips facing the guide channel 2 in such a way that they penetrate under pressure through the insulation IS of the energy supply line EVL and penetrate somewhat into the metallic conductor L.

In which the guide passage 2 opposite the region of the Ge häuses 1 is a cuboidal recess 5 is indicated for the SI receiving a fuse and a fuse element SI in the drawing by an arrow designated by SI - designed. The fuse elements SI are usually round miniature fuses that have a metal cap at both ends. In order to electrically connect the metal cap of the securing element SI to the holding element 4 of the cutting elements 3 , a metallic conductor track 6 is attached to the end region of the cuboid recess 5 closest to the holding element 4 . B. glued, which is guided in the housing 1 to the holding element 4 and electrically connected to this - z. B. ge soldered. In order to electrically connect an outward connection line AL to the other cap of the securing element SI, a further metallic conductor track 10 is placed on the end region opposite the end region of the longitudinal surface of the recess 5 facing the guide channel 2 and in the region of a between the Recess 5 and the guide channel 2 designed guide groove 9 out.

The end region opposite the end region with the applied conductor 6 of the recess 5 has a circular opening 7 for receiving a fuse cover 8 . Here, the opening 7 is dimensioned such that the securing element SI can be inserted or removed in the recess 5 . In addition, the opening 7 is designed in such a way - for example a threaded or a Bajo nice closure - that the securing element SI can be fixed in the recess 5 with the aid of the securing cover 8 , the securing element SI being connected to the connecting line AL as well as to the Cutting elements 3 is electrically connected. For this purpose, for example, a counter-thread or a counter-bayonet catch is configured on the securing cover 8 at a circular end, the counter-thread or the counter-bayonet catch being matched to the thread or the bayonet catch of the opening 7 .

The measures provided for guiding the connection cable AL Füh approximately groove 9 is provided between the guide channel 2 and the Ausneh mung 5 meandering shape, wherein the guide groove 9 has approximately a square cross-section. Due to the meandering configuration of the guide groove 9 , a meandering guide is introduced into the guide groove 9 and electrically connected to the further conductor track 10 connected connecting line AL and thus a strain relief of the connecting line AL.

The drawing also shows a rectangular housing cover 11 made of non-electrically conductive material, for. B. plastic, which is matched to the dimensions of the rectangle on the housing 1 . On the two long sides of the rectangular housing cover 11 , two claw-shaped fastening elements 12 are formed. On the two long sides of the parallelepiped-shaped housing 1 , matching fastening elements 13 are designed on the fastening elements 12 in such a way that when the housing cover 11 is placed or pressed on the housing 1, the approximately cuboid-shaped counter-fastening elements 13 in the recesses of the claw-shaped fastening elements 12 click into place and the housing cover 11 is held on the housing 1 . Instead of this type of fastening other fastening types such as screw fastenings or fasteners attached directly to the housing 1 , which are guided through openings in the housing 1 - not shown - are guided and fixed with further fastening means.

When a power supply line EVL is connected, it is inserted into the guide channel 2 and the housing cover 11 is fastened on one side with the two fastening and counter fastening elements 12 , 13 to the housing 1 . Then, by pressing the housing cover 11 in the area of the cutting elements 3 - indicated in the drawing by an arrow denoted by F - the cutting elements 3 are pressed through the insulation IS of the energy supply line EVL, whereupon the cutting elements 3 penetrate somewhat into the metallic conductor L. Rest at the end of the pressing operation, the counter-fastening elements 13 in the fasteners 12 and the housing cover 11 is fixed on the housing 1, since the back pressure effect is maintained by the slight deformation of the Gehäuseabdec. By pressing the housing cover 11 onto the housing 1 , the power supply line EVL is electrically connected to the connecting line AL via the cutting elements 3 , the conductor 6 , the fuse SI, the further conductor 10 .

The connecting line AL can, for example, be connected to a transmission unit (not shown), with the aid of which data or information can be transmitted via energy supply lines EVL. The connection device according to the invention can be used for this purpose, for example, in the distribution box for power supply lines in buildings, but also in the low-voltage transformer stations. The connecting device according to the invention can be used for different Lich shaped power supply lines EVL who, since at least a part of the penetrating in the arrangement of a plurality of cutting elements 3 of these cutting elements 3 in the arbitrary shaped power supply line EVL. The connection device according to the invention ensures maximum protection, in particular when installing connection devices and transmission devices.

Claims (14)

1. Connection device for connecting an electrical line (AL) to a power supply line (EVL),
with an electrically insulating housing (1), in which a power supply line (EVL) receiving and at least a metallic cutting element (3) having Direction guide channel (2), one for receiving a electrically connected to the cutting element (3) Sicherungsele mentes (SI) The provided recess ( 5 ) and a guide groove ( 9 ) receiving the line (AL) which is electrically connected to the securing element (SI) is configured, and
with an electrically insulating, from the housing shape from matched housing cover ( 11 ), designed such that when the housing cover ( 11 ) is pressed onto the housing ( 1 ) the at least one cutting element ( 3 ) in the power supply line (EVL) in the sense of an electrical Ver bond penetrates, wherein fastening means ( 12 , 13 ) for fi xing the housing cover ( 11 ) are provided in the pressed state. 2. Connection device according to claim 1, characterized in that in a cuboid housing ( 1 ) for receiving egg ner differently shaped line (AL) an approximately semicircular guide channel ( 2 ) is provided, in which at least one to the direction of the guide channel ( 2nd ) approximately rectangular extending cutting element ( 3 ) BEFE Stigt. 3. Connection device according to claim 1 or 2, characterized in that at least one triangular shaped metallic Schneideele element (3) in such a manner in the guide channel (2) is attached, that at least a tip in the guide channel (2) extends, wherein the at least one lace so is designed so that when the housing cover ( 11 ) is pressed on, it penetrates the insulation (IS) of the power supply line (EVL) and penetrates into the electrical conductor (L). 4. Connection device according to one of claims 1 to 3, characterized in
that a cuboid recess ( 5 ) is configured in a cuboid housing ( 1 ) for receiving a securing element (SI),
that on the one is arranged with the cutting element (3) elec trically connected first contact element (6) the cutting element (3) nearest the end of the recess (5),
that a second contact element ( 10 ) connected to the line (AL) is arranged in an end region of the square recess ( 5 ) in the side region thereof, the contact elements ( 6 , 10 ) being designed such that an inserted one Fuse element (SI) with the first and second contact element ( 6 , 10 ) is electrically connected,
that the opposite end of the cuboid recess ( 5 ) has an opening ( 7 ) for inserting and removing the securing element (SI),
that in the sense of holding the securing element (SI), an insertable and fixable securing cover ( 8 ) is provided in the opening ( 7 ). 5. Connection device according to claim 4, characterized in that the contact elements ( 6 , 10 ) are designed as metallic strips made in the housing ( 1 ) to the at least one cutting element ( 3 ) or the conductor (AL) and there are electrically connected to the cutting element ( 3 ) or the conductor (AL). 6. Connection device according to claim 4, characterized in that the fuse cover ( 8 ) and the opening ( 7 ) have an adapted screw thread or are designed such that both together form a detachable Bajo nice closure. 7. Connection device according to one of claims 1 to 6, characterized in that the housing cover is tuned (11) to the shape of the housing (1), wherein at least the securing element (3) receiving recess (5) and said cutting elements (3 ) Having area of the housing ( 1 ) is covered by the housing cover ( 11 ), with a rectangular housing ( 1 ) which is matched to the cuboid shape and is provided with a rectangular housing cover ( 11 ). 8. Connection device according to claim 7, characterized in that a rectangular housing cover ( 11 ) on a longitudinal side is not separably connected to the housing. 9. Connection device according to claim 7, characterized in that a rectangular housing cover ( 1 ) is separably connected to the housing ( 1 ), wherein on one longitudinal side of the Ge housing ( 1 ) is designed at least one recesses into which when the housing cover is applied ( 11 ) on the housing ( 1 ) engage at least one hook-shaped fixing element configured on the longitudinal side of the housing cover ( 11 ). 10. Connection device according to one of claims 8 or 9, characterized in that on the opposite longitudinal side of the housing ( 1 ) is designed at least one recess into which at least one at the end of the pressing of the housing cover ( 11 ) on the housing ( 1 ) the opposite long side of the housing ( 11 ) designed hook-shaped fixing element ( 12 ) engages. 11. Connection device according to one of the preceding claims, characterized in that the housing cover ( 11 ) is pressed and fixed by screw elements on the housing ( 1 ), counter-screw elements being provided in the housing ( 1 ) and openings in the housing cover ( 11 ) matched thereto are. 12. Connection device according to one of the preceding claims, characterized in that the housing (1) at least one latching element and the housing cover (11) has at least one matched thereto opening in the side facing the housing cover (11) range, where in the at least latching element and at least one opening are designed such that the at least one latching element at the end of the pressing of the housing cover ( 11 ) onto the housing ( 1 ) engages in the at least one opening. 13. Connection device according to claim 12, characterized ge features, that the latching element and the opening are configured in this way are that the snap can be released. 14. Connection device according to one of the preceding claims, characterized in that on the long sides of the rectangular housing cover ( 11 ) each have at least one claw-shaped fastening element ( 12 ) and on the long sides of the cuboid housing ( 1 ) cuboid counter-fastening elements ( 13 ) are arranged in such a way and are designed such that at the end of the pressing of the housing cover ( 11 ) onto the housing ( 1 ), the counter fastening elements ( 13 ) engage in the claw-shaped fastening element ( 12 ) and the housing cover ( 11 ) is fixed.