DE2531637C3 - Directional coupler for high-frequency sealed antenna sockets - Google Patents

Description

formed that between the inside of a tower of the housing and the outside of the corresponding Tower of the intermediate layer and between the inside of a tower of the intermediate layer and the outside of the corresponding tower of the cover an intermediate space corresponding approximately to the thickness of a conductor is formed.

In a preferred embodiment of a directional coupler according to the invention, the towers are advantageously on the ones facing the conductors Sides provided with a longitudinal groove, the towers in cross-section approximately Are U-shaped and the width of the grooves is at least equal to the width of the ladder and the depth of the grooves is at least equal to the thickness of the conductor. One becomes special by means of the grooves provided in the towers secure guidance as well as a lateral "fixation of the conductor ends achieved.

It is particularly useful if the towers are on in a directional coupler according to the invention diametrically opposite corners of the corresponding plate-shaped part are arranged.

Further advantageous embodiments of the subject matter of claim 1 are the features of other subclaims can be found.

The invention is explained in more detail below with reference to a drawing. The

1 shows a section running in the direction of the central axis through a schematically illustrated Antenna socket for community antenna systems,

F i g. 2 shows the directional coupler according to the invention built into the antenna socket in an exploded perspective, with only a section of the rear of the socket is shown and

F i g. 3 shows a modified embodiment of an intermediate layer which can be used for the directional coupler according to the invention.

At the antenna socket according to FIG. 1 is a high-frequency-tight shielded antenna socket, the cup-shaped designed with an edge box body 1 is conductive and z. B. made of cast metal, sheet metal or galvanized ABS plastic. In the following, it is assumed for the present case that the can body 1 consists of galvanizable ABS plastic and is provided with a conductive metal layer on its entire surface. The socket body 1 is formed on the front side, which is provided with the coaxial sockets for the connection of the receiving devices, for the high-frequency-tight connection of an outgoing and an outgoing coaxial cable, each with a cross-sectionally approximately U-shaped channel 2, in which the cable end to be connected is received and with separate clamping of Outer and inner conductors are connected in a manner not shown by means of a pivotable and resiliently mounted clamp 3 each. In the clamping position, which can advantageously be locked by locking means, cover the in F i g. 1 shown clamping bracket 3 from the cable connection high-frequency-tight. On the back, the antenna socket is designed as a result of the cup-shaped body with a chamber 5 for accommodating electrical components two coaxial connection sockets provided on the can front, of which here as a result of the Only one socket 4 is visible in the course of the section. In the illustrated embodiment, the center is located s of the recess 7 in the central axis of the can. In the can center axis there is also a tower 8 of approximately rectangular cross section with a cylindrical one Hole 9. The tower protrudes from the front of the can over the edge and from the back of the can

, ο the recess 7 and serves as a cover plate by means of a screw cutting a thread into the cylindrical bore 9 on the antenna socket to fix. The back of the can body is closed with a conductive cover IO-

is bar. In the illustrated embodiment, have the tower S, the recess 7 and the directional coupler 6 an approximately square plan shape.

The directional coupler is built in the known stacked construction and consists of two strips

, ο gen ladders 11, 12 (Fig.2) made of sheet metal, one as Interlayer serving insulating material plate 13, an insulating material plate 14, which on a wide Rachseite with a trough-like recess 15 is formed and a further insulating plate 16, wherein the insulating

2 _S fabric panels have an approximately square plan shape. The directional coupler is assembled in such a way that first the first conductor 11 is inserted into the recess 15 of the insulating material plate 14 serving as the housing, followed by the intermediate layer 13

-, ο and on this the second conductor 12 and then the as Cover serving insulating plate 16 is placed. Here are the conductors 11, 12 and the intermediate layer 13 completely received in the recess 15 of the housing 14, by appropriate dimensioning of the Stacked parts are fixed in their lateral position and by the cover that can be plugged onto the stacked arrangement in their position perpendicular to the insulating material plate 13. Lying flat around the directional coupler take up in the recess 7 of the can body 1 to a design is required that is compatible with the Insulating material allows the conductors 11, 12 to be led out vertically from the directional coupler the conductors themselves at their ends perpendicular to their main plane and perpendicular to the intermediate layer 13 and thus also bent towards the insulating plates 14,16 towards the cover. To bring out the thereby formed conductor ends 17, 18 and 19, 20 are the insulating plates 13, 14, 16 in an advantageous manner formed as follows: The intermediate layer 13, the is designed in all its areas so that it both in terms of their lateral extent and in terms of their height as precisely as possible in the The recess 15 of the housing 14 fits on the flat side facing the cover 16 at two corners.

ss preferably at diametrically opposite corners each formed with a tower 21 and 22, wherein the towers protrude vertically from the intermediate layer Directional coupler the housing 14 to that of the intermediate position 13 facing side and the lid to be « Outside at the corners associated with the towers 21, 22 of the intermediate layer, ie also at diametra opposite corners, formed so that the first in the housing 14 inserted conductor 11 on the 6s outside and placed on the intermediate layer 13 « Conductor 12 on the inside of a tower dei intermediate layer parallel to the other conductor ii Longitudinal direction of the tower from the Richtungskopplei

is led out. In the illustrated embodiment, the housing 14 and cover 16 are therefore shown in FIG preferably at the diametrically opposite corners associated with the towers of the intermediate layer also formed with one tower 23, 24 and 25, 26 respectively. The towers 21 to 26 are inside the rectangular shape of the plate-shaped parts 13, 14, 16 arranged and dimensioned so that between the Plate surface facing inside of a tower 23, 24 of the housing 14 and this inside facing outside of the corresponding tower 21,22 of the intermediate layer, so z. B. between the towers

21 and 23 as well as 22 and 24, as well as between the inside of a tower 21 facing the plate surface,

22 of the intermediate layer 13 and the outer side of the corresponding tower 25, 26 of the cover 16 facing this inner side, an intermediate space corresponding approximately to the thickness of a conductor is formed. In addition, the towers of the plate-shaped parts 13, 14, 16 are dimensioned in terms of their height so that they are flush with stacked parts on their free end and that they are inserted into the recess 7 of the antenna socket 1 directional coupler - as in Fi g . 1 - protrude from the recess. In detail, the towers 21 to 26 are provided on the sides facing the ladders with a respective groove 27, 28 or 29, 30 or 31, 32 running in the longitudinal direction of a tower, in such a way that the towers are approximately U- are shaped. Here, the towers 23, 24 of the housing 14 and the towers 21, 22 of the intermediate layer 13 are each provided on their inside with a groove 29, 30 or 27, 28, while in the towers 25, 23 of the cover 16, the groove 31, 32 is provided on the outer side facing a tower 21, 22 of the intermediate layer 13, the width of the grooves being at least equal to the width of the conductors 11, 12 and the depth of the grooves being at least equal to the thickness of the conductors. Advantageously, the width of the grooves 29, 30 and 31, 32 of the towers 23, 24 and 25, 26 of the housing 14 and the cover 16 is approximately equal to the outer width of the towers 21, 22 of the intermediate layer 13 and the depth of the Grooves 29-32 of the towers 23-26 of the housing 14 and the cover 16 are selected such that each tower of the intermediate layer 13 is entirely received in the space formed by the grooves of two corresponding opposing towers of the housing and the cover. The plate-shaped parts 13, 14, 16 are also coordinated so that the inside of the towers 25, 26 of the cover 16 and the outside of the towers 23, 24 of the housing 14 and a groove 29, 30 of a corresponding tower 23, 24 face Outside of the towers 21,22 of the intermediate layer 13 is flat. Finally, the towers 25, 26 of the cover 16 and the towers 21, 22 of the intermediate layer 13 are set back somewhat from the respective corner that recesses 33, 34 are formed at the corresponding corners of the cover or the intermediate layer, which allow the passage of a tower allow the intermediate layer or a tower of the housing. The plate-shaped parts 13, 14, 16 are thus designed in such a way that they fit into one another or fit together as precisely as possible. In an advantageous modification of an embodiment of the intermediate layer 13 shown in FIG. 3 to form the towers 53, 54 on the outer side facing a tower of the housing with a longitudinal rib 55, 56 completely received in the groove of the towers of the housing. With this intermediate layer, too, the towers are dimensioned so that they are completely accommodated in the space formed by the grooves of two corresponding opposing towers of the housing and the cover and two opposing towers of the cover and the housing as in the embodiment according to FIG. 2 also lie against one another on each side facing one another.
To assemble the directional coupler is in

ίο advantageously the intermediate layer 13 or 52 both sides in the area of the two remaining corners not provided with the towers each with a Pin 37, 38 is formed, which is aligned with the pin on the other side of the intermediate layer, the Housing and the cover in the area of the corners associated with the pins of the intermediate layer each with one Hole 39, 40 or 41, 42 are provided, into which the corresponding pin can be pressed. Between Pins 37, 38 is the intermediate layer 13, 52 with a centrally arranged, z. B. square breakthrough 43 provided, the intermediate layer on both flat sides at the edges of the opening 43 and also is also provided on the plate edges with side walls 44, 45 raised above the plate surface. the The height of these side walls 44, 45 is expediently approximately equal to the conductor thickness, so that the conductor in the assembled state of the directional coupler within the side walls 45 on the edge of the plate and the side walls 44 at the opening 43 delimited space in the resulting recess come lying down. The housing and cover of the directional coupler are designed accordingly. So is the housing 14 with a centrally arranged one which protrudes into the recess 7 of the can body 1 (FIG. 1) Tower 8 in the cross-sectional shape corresponding and passage granting hollow tower 46 and on Bottom on the side facing the intermediate layer 13 around the tower 46 and on the housing side walls 47 formed along with groove-shaped recesses 48, 49 into which the raised side walls the intermediate layer can be immersed. The cover also has a centrally arranged opening 50, which allows the passage of the square hollow tower 46 of the housing and is at the Intermediate layer facing flat side on the edges of the opening 50 and on the plate edges recessed along such that the side walls 44 at the opening 43 of the intermediate layer 13 in the Opening 50 surrounding recesses and the side walls 45 and 47 of the intermediate layer 13 and the Housing 14 fit into the recess on the edge of the plate. Inside of the side walls 44, 45 of the Intermediate layer 13 on the edge of the plate and the space delimited at the opening 43 are now the conductors 11, 12 in Multiple winding course with the desired conductor length. This is shown in the case of the one shown Directional coupler achieved that - using the example of the conductor first inserted into the housing described - the conductor 11 from the tower 23 of the housing 14 initially along the side housing wall 47 is fed in the direction of the hole 39, is bent at right angles approximately in the middle of the plate and up to Hollow tower 46 runs there again at right angles and is bent back to the rear side wall of the Plate runs here again at right angles is bent on the rear side wall in the direction of the The housing corner runs there around the hole 40 is also meandering in the manner shown.

25th

is bent mig, then parallel to the front housing wall 47 on the hollow tower 46 over to the other hole 39 and around this and along the front side wall 47 to the other tower 24 is guided. In this way, the conductors are guided around the opening of the directional coupler and around the pins and the corresponding holes in a specific, desired length. Here, the conductors are formed such that the two conductors 11,12 at one end bent ends 18, 20 are directed perpendicular to the other at the end _lc of the two conductors 11, 12 bent ends 17,19, wherein the conductor ends 17,19 and 18.20 facing sides of two towers, e.g. B. 21, 22, a plate-shaped part, e.g. B. 13, are directed perpendicular to each other. Furthermore, with regard to the dielectric strength of the directional coupler, it is particularly favorable if the intermediate layer 13, 52 is formed on both flat sides with a plurality of blind holes 51 which are aligned with the blind holes on the other side of the plate and the conductor run 637

and if the outer surfaces of the housing and cover are the same, for the cover in FIG. 2 shown Way are recessed in the area covering the coupling area of the ladder, e.g. B. such that outside of the Coupling area on the outside of the cover and housing ribs, e.g. B. 57, stop the expedient have the height of the side walls on the outer surfaces of the cover and housing.

The directional coupler shown is designed to be stress-proof in a stacked construction and is flat and around a Center thread can be inserted into a recess in the can body. Here, the head ends of the Directional coupler can be led out of the directional coupler in a simple, safe and defined manner. The directional coupler inserted into the recess of a can body can also be provided by the galvanized, provided with a conductive metal layer inside of the can recess 7 as well as through the solderable sheet metal plate 57 are shielded in a high-frequency-tight manner.

To do this, 2 sheets / min

Claims (14)

Patent claims: 1. Directional coupler for high frequency shielded antenna sockets in communal s aerial systems. consisting of strip-shaped conductors made of sheet metal, an approximately rectangular plate-shaped intermediate layer made of insulating material, a approximately rectangular plate-shaped, formed on one side with a trough-like recess Housing made of insulating material and an approximately rectangular plate-shaped cover made of insulating material, the conductors and the intermediate layer in the Recess of the housing added and by appropriate dimensioning of the stacked parts in their lateral position and by the the stacked arrangement of clip-on lids are fixed in their position perpendicular to the intermediate layer, characterized in that the intermediate layer (13) is on the one facing the cover (16) Side at two corners, each with a tower projecting perpendicularly from it (21,22) is formed that the Lid (16) on the corners associated with the towers (21, 22) of the intermediate layer (13), each with a recess (33,34) allowing the passage of a tower is provided that the ladder (U, 12) at their ends perpendicular to their main plane and perpendicular to the intermediate layer (13) to the cover (16) are bent out and that the housing (14) on the side facing the intermediate layer (13) and the cover (16) on its outside on the towers (2 !, 22) associated with the intermediate layer (13) Corners are designed in such a way that the first into the Housing (14) inserted conductor (11) on the outside and on the intermediate layer (13) 3s laid ladder (12) on the inside of a tower (21, 22) parallel to the other ladder in Is led out the longitudinal direction of a tower from the directional coupler. 2. Directional coupler according to claim 1, characterized in that the housing (14) and the Lid (16) on the corners associated with the towers (21, 22) of the intermediate layer (13), each with a tower (23, 24 or 25, 26) are formed in such a way that between the inside of a tower of the housing (14) and the outside of the corresponding tower (21, 22) of the intermediate layer (13) and between the inside of a tower (21, 22) of the intermediate layer (13) and the outside of the corresponding tower (25,26) of the cover (16) approximately the thickness of a conductor (11,12) corresponding Space is formed. 3. Directional coupler according to claim 1 or 2, characterized in that the towers (21-26) on the sides facing the ladders (11, 12) with a longitudinal groove (27-32) are provided in such a way that the towers are approximately U-shaped in cross section and that the width of the grooves (27-32) at least equal to the width of the ladder (11, 12) and the depth of the grooves at least equal to the ho Thickness of the ladder is. 4. Directional coupler according to one of the preceding claims, characterized in that the Conductors (11, 12) are designed such that the ends (17, <is 19) are directed perpendicular to the ends (18, 20) bent at the other end of the two conductors and that the sides facing the ladders are two Towers (21, 22) of a plate-shaped part (13) are directed perpendicular to each other. 5. Directional coupler according to claim 3 or 4, characterized in that the grooves (27-30) of the Towers (21-24) of the housing (14) and the intermediate layer (13) on the inside and the towers (25, 26) of the cover (16) are provided on the outside of the towers. 6. Directional coupler according to one of claims 3 to 5, characterized in that the width of the Grooves (29,30 / 31,32) of the towers (23, 24/25, 26) of the housing (14) and the cover (16) approximately equal to the External width of the towers (21, 22) of the intermediate layer (13) and the depth of the grooves of the towers of the Housing and the lid is such that each tower (21, 22) of the intermediate layer (13) entirely in the of the Grooves of two corresponding, opposing towers (z. B. 23.25) of the housing (14) and of the lid (16) formed gap is added 7th Directional coupler according to one of Claims 2 to 6, characterized in that the towers (21, 22) of the intermediate layer (13) on the one tower (23, 24) of the housing (14) facing the outside are flat. 8. Directional coupler according to one of claims 2 to 6, characterized in that the towers (53, 54) of the intermediate layer (52) on the outside facing a tower of the housing a completely in the Have the groove of the towers of the housing received longitudinal rib (55,56). 9. Directional coupler according to one of the preceding claims, characterized in that the Towers (21-26) are arranged within the rectangular shape of the plate-shaped parts (13,14,16). 10. Directional coupler according to one of the preceding claims, characterized in that the Towers (21-26) at diametrically opposite corners of the corresponding plate-shaped part are arranged. 11. Directional coupler according to one of claims 2 to 10, characterized in that the height of the Towers (21-26) is such that the towers when parts (13, 14, 16) are stacked on top of one another free end face are flush. 12. Directional coupler according to one of the preceding claims, characterized in that the Height of the towers (21-26) is such that the towers with parts stacked on top of each other and with an in a recess (7) of an antenna socket (1) inserted directional coupler (6) from the recess protrude. 13. Directional coupler according to one of the preceding claims, characterized in that the Intermediate layer (13) on both sides in the area of the two remaining corners that are not provided with towers each with a pin (37,38) is formed with the pin on the other side of the intermediate layer is aligned and that the housing (14) and the cover (16) in the area of the corners assigned to the pins (37, 38) of the intermediate layer (13) each with a hole (39, 40 or 41, 42) are provided, into which the corresponding pin can be pressed. 14. Directional coupler according to one of the preceding claims, characterized in that the Intermediate layer (13) is provided on both sides at the edges with side walls (45) raised above the plane of the plate and that the housing (14) and on the side facing the intermediate layer (13), the cover (16) is provided with recesses which accommodate the raised side walls of the intermediate layer. The invention relates to a directional coupler for High-frequency-proof shielded antenna sockets in communal antenna systems, consisting of strip-shaped conductors made of sheet metal, an approximately rectangular plate-shaped intermediate layer made of insulating material, an approximately rectangular plate-shaped, formed on one side with a trough-like recess Housing made of insulating material and an approximately rectangular plate-shaped cover made of insulating material, wherein the conductors and the intermediate layer received in the recess of the housing and through corresponding Dimensioning of the stacked parts in their lateral position and by the stacked parts Arrangement clip-on lid are fixed in their position perpendicular to the intermediate layer. Directional couplers with such a structure in a stacked construction are known, e.g. B. from the German Patents 16 16 525, 19 49 433 and 20 41484. These known directional couplers are when Installation in antenna sockets z. B. in the manner evident from the German patent specification 20 41 484 in added a cross-section approximately U-shaped shaft, which with its side walls about protrudes perpendicularly from the plane of a ground plate made of sheet metal, which is on the back of the false floor a can body made of plastic is attached. In this way, the plate-shaped approximately rectangular directional coupler with its narrowest side attached to the Masscplattc and thereby with the wide flat sides in a raised arrangement and protruding into the depth of the antenna socket the ground plane are held. This has the main advantage that the directional coupler means of the shaft serving as a holder with the least possible space requirement - in relation to the ground plane or the intermediate base of the can body - and largely independent of the spatial arrangement of the other components provided in the box and also shielded from these components in the Antenna socket can be installed. More recently, there has been a demand for antenna sockets to be designed to be high-frequency-proof. Such high frequency shielded antenna sockets are z. B. from German Offenlegungsschriften 2061172, 22 33 250 and 22 38 092 known While with an antenna socket according to DT-OS 20 61 172 the directional coupler is also in raised arrangement in a vertical to the bottom of the can body, in cross-section approximately U-shaped shaft is received, one has from the German Offenlegungsschriften 22 33 250 and 22 38 092 known high-frequency-tight antenna sockets in the known stacked construction assembled directional coupler is inserted within the component chamber into a recess in the bottom of the can body, in such a way that the directional coupler lies flat in the component chamber, d. H. parallel to Bottom of the can body is arranged. Due to the flat arrangement of the directional coupler a particularly shallow depth of the box realize. In addition, the can in the recess the bottom of the can body inserted directional coupler in a particularly simple manner compared to the Interior of the component chamber and thus to be shielded from the other electrical components still to be accommodated in the component chamber by a conductive plate, e.g. B. by a flat one Sheet metal part, soft on the conductive surface of the can on the inner wall of the component chamber ίο is soldered on. The invention is now based on the object in a built in the known stack construction, Directional coupler to be arranged flat in the box body for a high-frequency-tight shielded antenna socket a simple, safe and defined lead-out of the connection ends of the conductors from the Directional coupler and from the directional coupler receiving recess in the bottom of the can body to enable. In a directional coupler according to the invention, this object is achieved in that the intermediate layer on the side facing the cover at two corners, each with a tower protruding perpendicularly from it is designed that the lid on the towers of the Interlayer assigned corners, each with one of the Passage of a tower allowing recess is provided that the ladder is perpendicular at its ends are bent from their main plane and perpendicular to the intermediate layer towards the cover and that the housing on the side facing the intermediate layer and the lid on its outside on the towers of the Intermediate layer associated corners are formed such that the first inserted into the housing conductor the outside and the one placed on the liner Ladder on the inside of a tower parallel to the each other conductor is led out in the longitudinal direction of a tower from the directional coupler. A directional coupler according to the invention is designed in the known advantageous stack construction and is within the component chamber of the antenna socket in a known manner, described in more detail above, flat in a recess on the bottom of the Can body inserted and z. B. by a sheet metal plate, which is attached to the conductive surface of the z. B. made of cast metal, sheet metal or galvanized ABS plastic existing socket body is soldered, with respect to the interior of the components chamber and thus with respect to the rest of the components chamber electrical components still to be included shields. For electrical connection with the rest Components, the connection ends of the conductors are passed out of the directional coupler Advantage that the conductor ends in a simple manner due to the inventive design of the .55 individual insulating plates of the directional coupler by means of serving as a guide towers of the intermediate layer and corresponding design of the housing and Lid at a defined distance from one another and isolated from the directional coupler and the one receiving it Recess are guided into the component chamber without the risk of the conductors touching one another consists. In addition, the directional coupler is designed with guide towers for the conductor ends regarding the dielectric strength of the directional coupling ('s ler' an advantage. The housing and the cover are expediently on the towers of the intermediate layer associated corners with one tower each