EP0161486A2 - Separating link for the connection of two coaxial cables terminated by coaxial plug connectors - Google Patents

Abstract

1. Separating link for the connection of two coaxial cables terminated by coaxial plug connectors with galvanic separation of the interior conductors and the cable metal coats which possesses a potlike, electrically conductive exterior cartridge (10), an electrically conductive interior cartridge (13) which is arranged concentrically to it, a first end flange (14), a hollow-cylindrical exterior separating condenser, an insulating washer (16, 54) and an interior separating condenser, characterized by the fact that between the exterior cartridge (10) and the interior cartridge (13), with the end flange (14) which closes the open front side of the exterior cartridge (10), there are accomodated exterior separating condensers (20) with exterior covering (21) and interior covering (22), the exterior and interior coverings (21 and 22) of which are electrically conductive connected with the interior wall of the exterior cartridge (10) and with the exterior wall of the interior cartridge (13) by means of contact mats (18 and 19), that the bottom (11) of the exterior cartridge (10) is electrically separated from the turned-to front side of the interior cartridge (13) and the open front side of the exterior cartridge (10) is electrically separated from the end flange (14) of the interior cartridge (13) by means of circular insulating washers (16, 54), that the interior cartridge (13) possesses an internal thread (15) in the area of the end flange (14), into which a first coaxial plug connector (29) is screwed, the internal contact (31) of which is connected with a carrier plate (37) and with the one connection (42) of the interior separating condenser (41), that the other connection (43) of the interior separating condenser (41) is connected with a socket part (46) which is fixed at the other end of the carrier plate (37), that the bottom (11) of the exterior cartridge is furnished with a thread (12) into which a second coaxial plug connector (21) is screwed and that the internal contact (23) of the second coaxial plug connector (21) is inserted in the socket part (46) of the carrier plate.

Description

The invention relates to a separator for connecting two coaxial cables terminated with coaxial connectors with electrical isolation of the inner conductor and the cable metal sheaths.

Such a separator is e.g. used to connect a coaxial feed line of a broadband cable network with a coaxial house connection line.

The broadband cable network used to transmit messages from a central office has a frequency range that extends up to 400 MHz. If return channels are still provided, the lower band limit is around 5 MHz. In the control center, an AC supply voltage is also applied to the coaxial feed line in addition to the HF messages in order to be able to supply amplifiers in the course of the feed line. Branch cables lead to the feed line and lead to the message receivers. It is necessary to connect the inner conductors and the metal cable sheaths of the feed line and the house connection cable to each other with high frequency as low as possible. Because of the voltage drop on the metal cable sheath of the feed line - which is caused by the AC supply currents - to the metal cable sheath of the house connection cable - the one with the House zero potential is connected - a potential difference occurs, significant low-frequency equalizing currents can flow, which not only interfere with the transmission of messages, but can also lead to the destruction of electrical components and assemblies in the broadband cable network or the devices connected via the house connection cable.

It is an object of the invention to provide a separating element of the type mentioned at the outset, to which two coaxial cables provided with coaxial connectors can be plugged in, the inner conductors being galvanically separated from one another and the metal cable sheaths being galvanically separated but so connected with low resistance, that radiation from or into the RF transmission circuits is practically avoided.

This object is achieved according to the invention in that between a pot-like, electrically conductive outer sleeve and a concentrically arranged, electrically conductive inner sleeve with a closing flange that closes the open end face of the outer sleeve, hollow cylindrical separating capacitors with an outer layer and an inner layer are accommodated, which are made by means of contact mats with the inner wall the outer sleeve and the outer wall of the inner sleeve are electrically connected so that the bottom of the outer sleeve from the facing end face of the inner sleeve and the open end face of the outer sleeve are electrically separated from each other by means of annular insulating washers, that the inner sleeve in the region of the end flange Has an internal thread, into which a first coaxial connector is screwed, the inner contact of which is connected to a carrier plate and the one connection of a disk isolating capacitor, that the other connection of the disc separation capacitor is connected to a socket part, which is fixed at the other end of the carrier plate, that the bottom of the outer sleeve is provided with a threaded receptacle into which a second coaxial connector is screwed and that the internal contact of the second coaxial connector is inserted into the socket part is.

With this configuration, the coaxial structure is also maintained in the area of the isolating element and the isolating element is completely shielded in terms of HF. A sufficiently large capacitance can be achieved with the hollow cylindrical isolating capacitors, which guarantees a low-resistance transition for the HF currents. The disk separating capacitor connecting the inner conductors is held centrally in the middle of the inner sleeve, so that the coaxial structure of the separating member is not significantly affected thereby either. The insulating washers take over the electrical isolation of the outer sleeve from the inner sleeve. The contact mats ensure a large-area connection of the coatings of the hollow cylindrical separating capacitors with the outer sleeve and the inner sleeve, that the contact mats consist of flexible tape, from which a variety of contact springs are punched and bent and that the contact mats over the entire circumference of the outer sleeve and Extend inner sleeve so as not to deteriorate the coaxial structure. The clear galvanic separation of the outer sleeve from the inner sleeve is obtained according to one embodiment in that the insulating washer between the bottom of the outer sleeve and the facing end face of the inner sleeve has an outer diameter corresponding to the inner diameter of the outer sleeve and an inner diameter corresponding to the inner diameter of the inner sleeve, and that Insulating washer between the inner flange sleeve and the facing end face of the outer sleeve has an outer diameter corresponding to the outer diameter of the outer sleeve and an inner diameter corresponding to the outer diameter of the inner sleeve.

In order to hold the hollow cylindrical separating capacitors axially immovable in the chamber between the outer sleeve and the inner sleeve, a further embodiment provides that the insulating disk projects with a section reduced to the inner diameter of the outer sleeve into the chamber formed between the outer sleeve and the inner sleeve.

So that the creepage distance between the end flange of the inner sleeve and the facing end face of the outer sleeve can be made sufficiently large, it is further provided that the outer diameter of the end flange of the inner sleeve is smaller than the outer diameter, but larger than the inner diameter of the outer sleeve, and that that of the outer sleeve is turned away Outside of the insulating washer has a receptacle for flush insertion of the end flange.

So that the first coaxial connector with the carrier plate can be screwed into the internal thread of the inner sleeve without impairment, the configuration is such that the carrier plate has a width that is smaller than the inner diameter of the inner sleeve and that the length of the carrier plate and thus the distance between the first coaxial connector and the socket part on the axial dimension of the outer sleeve and the inner sleeve and thus the distance to the second coaxial connector is matched so that the screwed coaxial connectors, the internal contact of the second coaxial connector as a plug pin in the with Carrier plate connected socket part is inserted. The carrier plate can then be rotated freely in the inner sleeve and when the second coaxial connector is screwed into the thread receptacle in the bottom of the outer sleeve, the plug connection between the inner contact of the second coaxial connector and the socket part fixed on the carrier plate is automatically established. This connector allows the required mutual rotatability of the two coaxial connectors, so that it is actually irrelevant which of the two coaxial connectors is screwed in first. It is only necessary to ensure that the first coaxial connector forms a sufficiently rigid unit with the carrier plate and the socket part. This is preferably achieved in that the carrier plate carries conductor tracks separated by slots at both ends and in that the internal contact of the first coaxial connector and a contact pin of the socket part are in each case soldered to these conductor tracks together with one of the connections of the disk isolating capacitor.

For the fixing of the disc separation capacitor on the carrier plate, an embodiment has proven to be expedient, which is characterized in that the carrier plate has an opening into which the disc separating capacitor is inserted and held upright in it.

One embodiment provides that both coaxial connectors are designed as coaxial sockets, the inner contacts of which end as socket parts and the outer sleeves of which are provided with further external threads for coaxial plugs of the coaxial cables provided with union nuts, in order to also make these plug connections between the coaxial cables and the isolating element completely shield and secure.

The invention is explained in more detail with reference to an embodiment shown in the drawing in longitudinal section and in an exploded view.

In the isolating member according to the invention, the pot-like outer sleeve 10 with the bottom 11 and the inner sleeve 13 with the end flange 14 form a hollow cylindrical, shielded chamber for accommodating separating capacitors 20, which are correspondingly hollow cylindrical and are provided with outer coverings 21 and inner coverings 22. In order to obtain a galvanic separation between the outer sleeve 10 and the inner sleeve 13, the annular insulating washers 16 and 54 are used. The insulating disk 16 separates the bottom 11 of the outer sleeve 10 from the facing end face of the inner sleeve 13. The outer diameter of the insulating disk 16 corresponds to the inner diameter of the outer sleeve 10 and the inner diameter of the bore 17 corresponds to the inner diameter of the inner sleeve 13. The insulating disk 54 has an outer diameter which corresponds to the outer diameter of the outer sleeve 10. On the inner side facing the outer sleeve 10, the insulating disk 54 carries a section reduced to the inner diameter of the outer sleeve, which protrudes into the chamber between the outer sleeve 10 and the inner sleeve 13, since the inner diameter of the insulating disk 54 corresponds to the outer diameter of the inner sleeve 13. This section holds the isolating capacitors 20 axially immovable in the chamber. The outer coverings 21 of the separating capacitors 20 are connected in an electrically conductive manner via the contact mat 19 to the inner wall of the outer sleeve 10 and the inner coverings 22 of the separating capacitors 20 via the contact mat 18 to the outer wall of the inner sleeve 13. The contact mats 18 and 19 are made of flexible tape and provided with many punched and bent contact springs to always to get a large-area connection. The contact mats 18 and 19 each extend over the entire circumference of the outer sleeve 10 and the inner sleeve 13. The insulating washer 54 carries on the outside facing away from the outer sleeve 10, the receptacle 56 for the end flange 14 of the inner sleeve 13, in order thereby the creepage distance between the outer sleeve 10 and to enlarge the end flange 14 of the inner sleeve 13. The outer diameter of the end flange 14 is smaller than the outer diameter of the outer sleeve 10, but larger than the inner diameter of the outer sleeve 10 in order not to deteriorate the shielding of the chamber at this point.

The bottom 11 of the outer sleeve 10 has the central thread receptacle 12, while the end of the inner sleeve 13 has the internal thread 15 in the region of the end flange 14. In this internal thread 15 of the inner sleeve 13, the first coaxial connector 29 is screwed with the external thread 32 of its outer sleeve 35 until the collar 36 stops. The inner contact 31 in the insulating part 34 terminates in the socket part 30, so that the first coaxial connector 29 is designed as a coaxial socket. The coaxial connector on the coaxial cable is then designed as a coaxial connector. The reversed training is also possible. The inner contact 31 then runs out into a plug pin. The outer sleeve 35 of the first coaxial connector 29 has a further external thread 33, so that a coaxial connector with a union nut can be used, with which the connector can be secured.

The inner contact 31 of the first coaxial connector 29 is connected to the carrier plate 37, which at the facing end separates the two from one another by a slot Conductor tracks 38 and 39 carries. As the solder joint 49 shows, the internal contact 31 is connected to these conductor tracks 38 and 39, and to the connection 42 of the pane separating capacitor 41. This disk separating capacitor 41 stands upright in the opening 40 of the carrier plate 37 so that it is held centrally. The other connection 43 of the disk separation capacitor 41 is soldered together with the contact pin 47 of the socket part 46 to the conductor tracks 44 and 45 separated by a slot at the other end of the carrier plate 37, as the soldering point 50 shows. The protruding socket part 46 carries a spring 48 which always keeps the slotted socket parts 46 under tension in order to obtain clear contact with the internal contact 23 of the second coaxial connector 21, which with the external thread 24 of its outer sleeve 27 as far as the stop of the collar 28 in the thread receptacle 12 is screwed into the bottom 11 of the outer sleeve 10. The inner contact 23 is inserted more and more into the socket part 46 and a plug connection is made. The inner contact 23 of the second coaxial connector 21 defined in the insulating part 26 also runs out into a socket part 22, so that a coaxial socket is formed again. The attached coaxial connector is secured via the further external thread 25 of the outer sleeve 27. The second coaxial connector can also be designed as a coaxial connector. Then only the inner contact 23 and the outer sleeve 27 change.

The solder joints 49 and 50 can also only establish the connection to the internal contact 31 and the contact pin 47 of the socket part 46. The connections 42 and 43 of the disk isolating capacitor 41 are then soldered to other locations on the conductor tracks 38 or 39 or 44 or 45. The ladder NEN can form additional inductors if necessary.

The number of isolating capacitors 20 and thus also the axial dimension of the isolating member depends on the required capacitance between the outer sleeve 10 and the inner sleeve 13. The diameter of the outer sleeve 10 and the inner sleeve 13 are also significantly influenced by the RF coupling between these two Sharing is required.

Claims (10)

1. Separating element for connecting two coaxial cables terminated with coaxial connectors with galvanic isolation of the inner conductor and the cable metal sheath, characterized in that that between a pot-like, electrically conductive outer sleeve (10) and a concentrically arranged, electrically conductive inner sleeve (13) with a closing flange that closes the open end face of the outer sleeve (10), hollow cylindrical separating capacitors (20) with an outer coating (21) and an inner coating (22) are housed, which are electrically conductively connected to the inner wall of the outer sleeve (10) and the outer wall of the inner sleeve (13) by means of contact mats (18, 19), that the bottom (11) of the outer sleeve (10) from the facing end face of the inner sleeve (13) and the open end face of the outer sleeve (10) from the end flange (14) of the inner sleeve (13) by means of annular insulating washers (16, 54) electrically from each other are separated that the inner sleeve (13) in the region of the end flange cal (14) has an internal thread (15) into which a first coaxial connector (29) is screwed, the inner contact (31) of which is connected to a carrier plate (37) and the one connection (42) of a disk separating capacitor (41), that the other connection (43) of the disc separating capacitor (41) is connected to a socket part (46) which is fixed at the other end of the carrier plate (37), that the bottom (11) of the outer sleeve (10) with a threaded receptacle (12) is provided, into which a second coaxial connector (21) is screwed, and that the inner contact (23) of the second coaxial connector (21) is inserted into the socket part (46). 2. Separator according to claim 1,
characterized, that the contact mats (18, 19) consist of flexible tape, from which a plurality of contact springs are punched and bent and that the contact mats (18, 19) extend over the entire circumference of the outer sleeve (10) and inner sleeve (13). 3. separator according to claim 1 or 2,
characterized,
that the insulating washer (16) between the bottom (11) of the outer sleeve (10) and the facing end face of the inner sleeve (13) has an outer diameter corresponding to the inner diameter of the outer sleeve (10) and an inner diameter corresponding to the inner diameter of the inner sleeve (13). 4. separating member according to one of claims 1 to 3,
characterized,
that the insulating washer (54) between the end flange (14) of the inner sleeve (13) and the facing end face of the outer sleeve (10) has an outer diameter corresponding to the outer diameter of the outer sleeve (10) and an inner diameter corresponding to the outer diameter of the inner sleeve (13). 5. separator according to claim 4,
, characterized,
that the insulating washer (54) with a section reduced to the inside diameter of the outer sleeve (10) projects into the chamber formed between the outer sleeve (10) and the inner sleeve (13). 6. separating element according to claim 4 or 5,
characterized,
that the outer diameter of the end flange (14) of the inner sleeve (13) is smaller than the outer diameter but larger than the inner diameter of the outer sleeve (10) and that the outer side of the insulating disk (54) facing away from the outer sleeve (10) has a receptacle (56) for flushing Inserting the end flange (14). 7. separating member according to one of claims 1 to 6,
characterized, that the carrier plate (37) has a width which is smaller than the inner diameter of the inner sleeve (13) and that the length of the carrier plate (37) and thus the distance between the first coaxial connector (29) and the socket part (46) on the axial dimension of the Outer sleeve (10) and the inner sleeve (13) and thus the distance to the second coaxial connector (21) is matched so that when the coaxial connectors (21, 29) are screwed in, the inner contact (23) of the second coaxial connector (21) is inserted as a plug pin into the socket part (46) connected to the carrier plate (37). 8. separating element according to one of claims 1 to 7,
characterized,
that the carrier plate (37) has an opening (40) into which the disc separation capacitor (41) is inserted and held upright therein. 9. separating element according to one of claims 1 to 8,
characterized,
that the carrier plate (37) carries conductor tracks (38, 39; 44, 45) separated by slots at both ends and that the internal contact (31) of the first coaxial connector (29) and a contact pin (47) of the socket part (46) are each soldered (49.50) to these conductor tracks (38.39; 44.45) together with one of the connections (42, 43) of the disk separation capacitor (41). 10. separating member according to one of claims 1 to 9,
characterized,
that both coaxial connectors (21, 29) are designed as coaxial sockets, the inner contacts (23, 31) of which end as socket parts (22, 30) and the outer sleeves (27, 35) with further external threads (25, 33) for with Coaxial connectors of the coaxial cable are provided with union nuts.

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