DE4329361A1 - Power distributor - Google Patents

Abstract

A power distributor for transmission antennae, for distributing the transmission power supplied via a transmission coaxial cable to two or more antenna coaxial cables leading to various antenna fields, is constructed as follows: a) the transmission coaxial cable is connected via an EIA coupling to a transformer line piece which consists of an outer conductor tube and a graduated inner conductor; b) both ends of the outer conductor tube are provided with the same EIA outer conductor couplings matching the transmission coupling; c) a cable distributor head is fitted on the end of this outer conductor tube remote from the transmission coaxial cable, in the bottom of which head an EIA outer conductor coupling, matched to the EIA outer conductor coupling of the outer conductor tube, is constructed, via the opening of which the inner conductor of the conversion line piece extends into the interior of the cable distribution head; d) the end of the inner conductor remote from the cable distributor head is constructed as an EIA inner conductor coupling part and forms, together with the associated EIA outer conductor coupling of the outer conductor tube, the connection for the transmission cable coupling; e) at the circumference of the cable distributor head, two or more internally emerging openings are provided, the edges of which are constructed as EIA outer conductor couplings; f) inner conductor pieces which are fastened perpendicularly to the inner conductor ending in the cable distributor head and/or to coupling tubes surrounding the latter terminate in these EIA outer conductor couplings; g) the ... Original abstract incomplete.

Description

The invention relates to a power distributor for Transmitting antennas for the same or unequal distribution the power of a high frequency transmitter on two or more about antennas leading to different antenna fields NEN coaxial cable.

Distributors of this type are known. They consist of one acting as a characteristic impedance transformer coaxial line section with an attached cable distribution head, on its scope the connector couplings for the antenna coaxial cables leading to the antenna fields can be connected.

It is an object of the invention to provide a power distributor This type of creation is very easy on the one hand is built up and on the other hand also universal applicable and easy to the most diverse transmitters or antennas is customizable.

This task is based on a power distributor according to the preamble of the main claim through its drawing features solved. Advantageous further training result from the subclaims.  

The outer conductors are in the distributor according to the invention Couplings for connecting the antenna cables according to the international EIA standard and thus immediately for connecting corresponding EIA plug couplings suitable. Such so-called hermaphrodite plugs are in their Dimensions standardized (standard sheet of the International Elec trotechnical Commission, Publication 339-1 "General purpose rigid coaxial transmission lines and their associated flange connectors ", published by Bureau Central de la Commission Electrotechnique Internationale, Geneve, Switzerland) and in use all over the world and available so that a distributor according to the invention can also be used and installed internationally everywhere can.

Through the screwed coupling pieces, which on your end protruding outwards directly as EIA inside conductor coupling parts are formed without the usual inner conductor coupling pieces immediately EIA plug couplings can be attached. The firm one Coupling pieces are placed over inner conductor supports held concentrically on the distributor head and that's it possible to attach such EIA couplings from the outside, the inner conductor not abge by additional supports is supported because in the coupled state this function the support plate of the screwed coupling piece takes over.

Another advantage of the distributor according to the invention is that the outer conductor couplings on the Transforma tion outer conductor tube is identical in the EIA standard are, so that the cable coming from the transmitter immediately  bar via an internationally standardized EIA plug coupling with the interposition of a corresponding clutch piece can be connected to the distributor. Because of the identical design of the EIA outer conductor couplings on the transformation outer conductor tube can either do that one or the other end of the outer conductor tube with the Cable distribution head are connected, this is from Advantage if the outer conductor tube near one end additional adjustable from the outside and with the inner conductor interacting trim screws are provided which thus depending on the placement of the outer conductor tube with the upper or lower part of the transformation inner conductor can work together. The invention is both at Power distributors can be used where the short Inner conductor pieces directly on the inside of the transformation are attached to the ladder and are therefore the same moderate distribution of the power supplied to the connected cable is reached in the same way however, it can also be used on a distributor, where the power supplied by the transmitter is not equal the antennas is split up by one or more coaxially nested and coaxial to the end of the transformation inner conductor attached λ / 4- or λ / 16-long coupling tubes happens. Through these coupling pipes is fed via the transformation inner conductor Performance depending on the choice of wave resistances between Inner conductors, coupling tubes and outer conductors accordingly divided and it can be any unequal Power distributions generated at the distributor outputs become.

The invention will now be described more schematically Drawings explained in more detail using exemplary embodiments.  

Fig. 1 shows the longitudinal section through a power distributor for transmitting antennas for unevenly dividing the high-frequency power supplied by a coaxial cable, not shown, of a high-frequency transmitter to two or more antenna coaxial cables 2 . The coaxial cable coming from the transmitter is connected via an EIA coupling 1 to a transformation line section 3 , which consists of an outer conductor tube 4 and a standing transformer which acts as a wave resistance transformer and has a graduated inner conductor 5 . At the two ends of the outer conductor tube, the same EIA outer conductor coupling 6 , for example a 1-5 / 8 EIA coupling, the size of this coupling is chosen to be the same size as that of the transmitter cable coupling 1 . The inner conductor end 7 is also formed as a matching EIA inner conductor coupling and is held coaxially, for example, via a dielectric support 8 in the outer conductor tube 4 . With a coupling piece 9 customary in such EIA couplings, the transmitter coaxial cable can be screwed onto the lower end of this outer conductor tube 4 .

At the upper end of the outer conductor tube 4 , a cable distributor head 10 is placed, which consists of a metal chamber, in the bottom of which an opening 12 is provided, the edge of which is in turn designed as an EIA outer conductor coupling part 11 to match the coupling part 6 , so that with the interposition of a sealing ring 13 the upper end 6 of the outer conductor tube 4 can be placed on the bottom of the cable distributor head 10 in a high-frequency-tight manner in the known EIA coupling technology. Through the bore 12 , the inner conductor 5 leads into the interior of the head 10 . The flange of the EIA-coupling part 6, the size of the header 10 adapted square configuration and is screwed by screws 55 to the head 10 degrees. On the last transformation stage 14 of the inner conductor 5 , coupling tubes are arranged concentrically to one another, in the exemplary embodiment shown two coupling tubes 15 and 16 , which are held concentrically to one another between outer conductor 4 and inner conductor 5 , 14 via dielectric intermediate parts 17 . With these coupling tubes, depending on the choice of the wave resistance between inner conductor 14 , coupling tubes 15 , 16 and outer conductor, an arbitrary power distribution can be achieved.

The inner conductor pieces 18 , 19 lead away from the inner conductor end 14 perpendicularly outward to the antenna cables 2 . In the embodiment shown with two coupling tubes 15 and 16 , for example, the one inner conductor piece 18 is attached to the circumference of the outer coupling tube 16 and the inner conductor piece 19 , which protrudes through a bore in the outer tube 16 to the outside, is attached to the inner coupling tube 15 . An invisible third antenna cable can be connected directly to the inner conductor section 14 vertically to the rear via an invisible inner conductor piece. In distributors for uniform power distribution, the coupling tubes 15 , 16 and the inner conductor pieces 18 , 19 are screwed directly into the inner conductor end 14 . The inner conductor pieces 18 , 19 protrude into openings 20 in the peripheral wall of the head 10 . The inner conductor pieces 18 , 19 are provided at their ends with internal threads 31 , in which Innenlei ter-coupling pieces 26 are screwed, which have at one end a fitting in the internal thread 31 screw pin 33 and the other end is designed as an EIA inner conductor coupling 34 . This coupling piece 26 is provided with a support plate 36 like a conventional EIA inner conductor coupling piece. The edges of the openings 20 are provided with an annular groove according to the EIA standard, in which this support disc 36 fits. The edges of the openings 20 are also formed out in the region of the end faces of the head as EIA outer conductor coupling parts 32 . In the screwed-in state of the coupling piece 26 , 10 plug couplings according to the EIA standard are formed on the circumference of the head with an outer conductor coupling part 32 and an inner conductor coupling pin 34 , which is held centrally via the support plate 36 , so that this EIA plug can be placed under Intermediate layer of a sealing ring 28 via screws 29, for example, a cable coupling 25 produced according to the EIA standard can be put on, the inner conductor end 27 of which fits onto the coupling piece 34 according to the EIA standard and immediately connects to the cable 2 leading to an antenna.

In the exemplary embodiment, the coupling parts 32 , 34 are designed as 7/8 inch EIA couplings. Depending on the application, two or more such openings 20 are provided with associated EIA couplings on the circumference of the head, in the exemplary embodiment shown, only two such antenna cable connections are shown for the sake of clarity. The coupling parts 32 , 34 can optionally also have different diameters.

Instead of the cable coupling 25 , other coupling parts can also be screwed onto the EIA couplings 32 , 34 with a firmly centered inner conductor. Fig. 2 shows a surface-mounted on the distributor head 10 angle piece 40.

The inner conductor end 42 is again formed as an inner conductor coupling which fits on the coupling pin 34 . Since the coupling pin 34 is kept centered on the support 36 , no additional inner conductor support is required in the angle piece 40 in the area of the inner conductor end 42 , it is sufficient if the other end leading away is supported by a support 41 . In the example shown, the end of the contra-angle hand piece leading upwards is again designed as an EIA coupling, but it could also be designed as a coupling according to another standard, for example as a DIN plug or N plug.

According to the EIA standard, only three mounting holes 43 according to the top view of FIG. 5 are provided on the circumference of the outer conductor coupling. This means that an elbow 40 could not be screwed on with the outlet facing upwards, the upper screw would penetrate the coaxial line. However, in order to be able to screw on such angle pieces 40 with an upward connection or even T-pieces 50 according to FIG. 3, in addition to the three fastening holes 43 according to the EIA standard, there are also two additional threaded holes 44 in a 60 ° distribution according to FIG. 5 seen before, so a total of five holes in a 60 ° distribution. With four screws 45 each, such angle pieces 40 or T pieces 50 can also be screwed onto the distributor head 10 .

Fig. 4 shows an adapter 51 with which the EIA coupling 32 , 34 can be changed to a different connector size or connector type 53 . In Fig. 4, this adapter is formed at one end 53 as a DIN connector, the inner conductor of the adapter is held by a screw 52 , which can be screwed into a bore 35 of the coupling piece 26 , without additional support, since the inner conductor via the Support 36 of the coupling piece is already held centrally. In this way it is possible to switch from the EIA standard to any other plug standards with simple means by directly screwing on the corresponding adapter 51 . Since no inner conductor supports are required in the adapter itself, this can be done with the smallest dimensions of the adapter. The coupling piece 26 thus has the double function of being the usual coupling piece for EIA plugs on the one hand and, on the other hand, also mechanical support for the inner conductor of attached coupling parts according to FIGS. 2 to 4.

In the lower area of the outer conductor tube 4 , four trim screws 30 acting as trim capacitors are seen, which interact capacitively with the inner conductor 5 and through which fine adjustment is possible. The identical design of the two EIA coupling ends 6 enables the tube 4 to be screwed vice versa to the distributor head 10 , so that these trim screws are located in the upper region 54 of the inner conductor 5 and trimming can then be carried out there.

Claims (4)

1. Power distributor for transmitting antennas for distributing the transmitter power supplied via a transmitter coaxial cable to two or more antenna coaxial cables ( 2 ) leading to different antenna fields, characterized by the following features:

• a) the transmitter coaxial cable is connected via an EIA coupling ( 1 , 6 , 9 ) to a transformation line section ( 3 ) which consists of an outer conductor tube ( 4 ) and a stepped inner conductor ( 5 );
• b) both ends of the outer conductor tube ( 4 ) are provided with the same EIA outer conductor couplings ( 6 ) that match the transmitter coupling ( 1 );
• c) on the end of this outer conductor tube ( 4 ) facing away from the transmitter coaxial cable, a cable distributor head ( 10 ) is fitted, in the bottom of which an EIA outer conductor coupling ( 11 ) matching the EIA outer conductor coupling ( 6 ) of the outer conductor tube ( 4 ) is formed , through the opening ( 12 ) of which the inner conductor ( 5 ) of the transformation line section ( 3 ) extends into the interior of the cable distribution head ( 10 );
• d) the end of the inner conductor ( 5 ) facing away from the cable distributor head ( 10 ) is designed as an EIA inner conductor coupling part ( 7 ) and, together with the associated EIA outer conductor coupling ( 6 ) of the outer conductor tube ( 4 ), forms the connection for the transmitter cable coupling ( 1 );
• e) on the circumference of the cable distribution head ( 10 ) two or more openings ( 20 ) opening into the interior are provided, the edges of which are designed as EIA outer conductor couplings ( 32 );
• f) in these EIA outer conductor couplings ( 32 ) end inner conductor pieces ( 18 , 19 ) which are fastened vertically to the inner conductor ( 13 ) ending in the cable distribution head ( 10 ) and / or to coupling tubes ( 15 , 16 ) surrounding them;
• g) the inner conductor sections (18, 19) are provided at their ends with an internal thread (31) into which an EIA inner conductor coupling piece (26) disc with a matching in the EIA outer conductor coupling (32) support is screwed (36) .

2. Power distributor according to claim 1, characterized in that on the circumference of the EIA outer conductor couplings ( 32 ) five threaded bores ( 43 , 44 ) in 60 ° pitch for screwing various EIA outer conductor coupling pieces ( 25 , 40 , 50 , 51 ) are provided are. 3. Power distributor according to claim 1 or 2, characterized in that the EIA couplings of the outer conductor tube ( 4 ) as 1-5 / 8 inches and the EIA couplings on the circumference of the cable distribution head ( 10 ) as 7/8 inch couplings are trained. 4. Power distributor according to one of the preceding claims, characterized in that on the inner conductor end ( 14 ) inside the cable distributor head ( 10 ) two or more coupling tubes ( 15 , 16 ) are arranged coaxially to one another and to the inner conductor, on which the inner conductor pieces leading away perpendicularly thereto ( 18 , 19 ) are attached.