DE2009126A1 - Long-range broadband antenna - Google Patents

Description

Longitudinal broadband antenna The invention relates to a Longitudinal broadband antenna with planar, arranged on a longitudinal beam acting antenna elements, each having a central part attached to the longitudinal beam and attached to it on both sides, corresponding to the formation of the radiation field whose outlines have running conductor parts. Such an antenna can for example, be designed as a Yagi antenna.

It is known that a fed dipole with rod-shaped, cylindrical Dipole elements cover a larger area, the larger the ratio of Thickness becomes the length of the elements. It is also known that instead of more cylindrical Dipole elements can be used with flat dipoles without this significantly reduces the width of the frequency range. For such a tig trained dipoles have certain shapes, for example diamond, triangular and club shape, proven to be particularly beneficial (DAS 1 154 839).

It is also known that it can be achieved with directly fed dipoles an area-like effect is sufficient if the ladder parts correspond to the Outlines of the zizunschten effective area run and designed sufficiently wide are (DT-PS 1 168 512). The conductor parts of such dipoles are usually made of round material shaped (DGM 1 948 354).

Such conductor parts have the disadvantage that they are in the production require a large amount of material and labor and that they are mechanical The load is not very elastic. Mechanical overstress leads to a kinking of the ladder parts; this damage is often irreparable and then necessitates a replacement of the ladder parts, since these are used when using material break off and, if the pipe material is used, do not return to their original Can be brought into shape.

It is also known that the conductor parts of the antenna elements are made of metal sheets punched out, a fork shape preferred to achieve a waste-free cut wira and, in order to achieve sufficient mechanical strength, basic stiffeners must be provided (DT-GM 1 949 264). Such a design has the disadvantages that the free-standing fork ends and the punching burrs created during manufacture bring a risk of injury that, despite the stiffening, only a small one mechanical strength is achieved and that after mechanical overload has occurred and Bending of a ladder part this must be replaced because the stiffeners cannot be restored to their original form. It is the subject of the invention the underlying task of avoiding the disadvantages of the known broadband antenna, in particular to design a broadband antenna with regard to its antenna elements in such a way that that these are easy to manufacture, have sufficient mechanical strength and, if necessary, are easy to repair after damage has occurred.

The object is according to the invention in a broadband antenna of initially mentioned type achieved in that an antenna element on both sides of the central part each consisting of strip material, held at one end on the middle part and by this has fortragende ladder parts, the flat sides of an angle with the Include plane of the radiation surface, and that the outer ends of the conductor parts are mechanically connected.

The use of strip material for the manufacture of the conductor parts is permitted simple and cheap manufacture. Because the tape material is not processed further must be, there are no punch burrs that could cause injury. the mechanical connection of the outer ends of the ladder parts leads to a closed, mechanically resistant shape that also reduces the risk of injury and which also offers the option of increasing the height of the antenna element the manufacture in a simple way to determine what is punched in the known Elements is not easily possible. Despite the closed porm is after If an overload has occurred, a simple repair of the bent parts of the ladder possible, since these are simply bent back into their original straight band shape Need to become.

A particularly favorable strength of the conductor parts is achieved if the flat side forms an angle of about 300 with the plane of the radiation surface.

The connection of the outer ends of the conductor parts can, for example done by non-conductive webs that are glued to the outer ends of the conductor parts are. In contrast, a preferred solution is that the two conductor parts together with a third splitter part connecting their outer ends in one piece are formed and run U-like. This makes production particularly simple enables.

The one-piece creation of the three sections could be done in the way take place that a U-shaped bent or punched metal strip by cold forming is additionally bent in such a way that it has a certain angle everywhere the plane of the radiating surface. A preferred one, which is simpler to manufacture Solution, however, is that the ladder parts are folded in such a way that the angles included from the plane side with the plane of the radiation surface the two ladder parts held in the middle section has different algebraic signs.

In a further embodiment, the antenna becomes a simple, fast one and yet secure installation of the antenna elements so that the longitudinal beam has an approximately rectangular, in particular square cross-section and on one Each side has an opening in the area of an antenna element that the central part one surrounding the longitudinal beam on three sides and with projections on the fourth side Rear-engaging, elastic sleeve part and two extensions to hold the ladder halls and that the Iiülsentei) on the side that the hititer gripped with projections Side of the Side member is opposite, one on the inner surface having engaging in the opening of the side member ZapSen.

This solution can also be used with other antenna designs without planar acting antenna elements of its advantage An important development of the latter Solution is that the extensions of the middle part of the sleeve part on a Page protrude and that the adjoining the sleeve part, facing each other Surfaces of the extensions have a distance that is approximately equal to the width of the longitudinal member is between those sides of the sleeve part to which the extensions adjoin. The outside of the sleeve part and the two opposing surfaces of the projections then form a recess into which the longitudinal support of another Antenna or a section of a collapsible longitudinal member can be inserted. Several antennas or sections of an antenna can be stacked on top of one another what f): is beneficial for storage and packaging.

An embodiment of the new antenna with further refinements is explained in more detail below with reference to drawings. They show: FIG. 1 a Cross section through the antenna with a plan view of an antenna element; Fig. 2 shows a partial plan view of the antenna with a side view of the antenna element according to FIG. 1; Fig. 3 is the front view of an antenna element according to Fig. 1 usable bridge; Fig. 4 is a plan view of the bridge according to Fig. 3.

1 and 2 is one formed by a square tube Longitudinal support 1 can be seen, onto which an antenna element is attached. This exists from a sleeve part 2 and U-shaped projections adjoining it on both sides 3, which together form a middle part 4, as well as in the extensions 3 in a form-scaled manner and therefore non-rotatably held divider parts 5, 6 and outer ladder parts 7. The conductor parts 7, of which only one is shown in Fig. 1, connect the Conductor parts 5, 6 mechanically and electrically. The three contributions 5, 6, 7 one Side are folded from a single piece of tape material so that their flat side each includes an angle of about 300 with the plane of the radiation surface, those in hig. 1 runs parallel to the plane of the drawing, with that of dr Flacjtseite with the angle included in the plane of the radiating surface for the two in the process 3 of the middle part 4 held approximately parallel conductor parts with different signs Has. The two support parts 5, 6 held in the middle part 4 have a middle one Distance of a maximum of / 8 if A is the operating wavelength, by one if the wavelength is larger To avoid decoupling occurring at a distance. The decoupling would become that lead that the two Lelterteile 5, 6 acted as linear dipole elements and that Antenna element has lost its planar effect. One within an appendix 3 of the middle part 4 held end portion of a divider part 5, 6 is each of its end side divided into two tabs 8, 9 and 10, 11 by an incision. A tab 9, 11 sits with its end in the middle part 4 and thus prevents a further penetration of the Beiter part 5, 6 in the middle part 4. In the area of the other tab 8, 10 is the extension 3 of the middle part 4 respectively through an opening 12, 13 running perpendicular to the plane of the radiation surface. The second pocket 8, 10 is bent inside the opening and prevents a Pulling the ladder part 5, 6 out of the middle part 4.

This makes a simple, durable and, if necessary, easily detachable Fortification gained. Characterized in that the conductor parts 5, 6 each with their flat sides make an angle of 30 ° with respect to the plane of the radiating surface, while the opening 12, 13 is perpendicular to this, the flap 8, 10 after its Bending on an inner wall of the opening 12, 13 held under strong friction.

The strength of the conductor parts 5, 6, 7 is compared to that of the Central part 4 is preferably chosen so that the conductor parts held in the central part 4 5, 6 in the event of mechanical overload immediately outside their entry points Bend 14, 15 in the middle part 4. This makes a repair simple Bend back the ladder parts 5, 6 and align a twisted one Contributor part 5 or 6, for example by means of a pair of Slach tongs, simplified.

The tape material used to manufacture the conductor parts 5, 6, 7 preferably has rounded edges to reduce the risk of injury to the antenna element to reduce.

De sleeve part 2 surrounds the longitudinal member 1 on three sides and engages behind the fourth side with projections designed as noses 16, 17. Because the entire middle part 4 is made of a tough elastic plastic, is easy to put on and removal of the antenna element is possible. The longitudinal beam 1 has a through a Hole formed opening 25 into which the sleeve part 2 with a on its inner surface provided pin 26 engages. This is in simply the axial position of the antenna element along the side member 1 is determined. To the The longitudinal extension increases the strength against externally acting moments of the sleeve part 2 in the direction of the L ng3trägers 1 larger than that in this direction measured thickness of the extensions 3, as can be seen from FIG. To make things easier of attaching the antenna element to the longitudinal beam 1 is mutual Distance between the nasal projections 16, 17 on the side that is engaged behind of the side member l facing away from the end at least as large as the width of this side.

The extensions 3 of the middle part 4 protrude beyond its hip part 2 the lower side in Fig. 1 such that the adjoining the sleeve part 2, opposing surfaces 18, 19 of the extensions 3 a further longitudinal beam or in the case of a separable longitudinal member 1, a further section of this longitudinal member could absorb.

On the upper side in FIG. 1 in the area of the protrusions 16, 17 the extensions 3 also protrude beyond the sleeve part 2 and have guides 20 here, 21, onto which a bridge shown in FIGS. 3 and 4 can be plugged. These Bridge secures the elastic sleeve part 2 against bending the projections apart 16, 17. The bridge engages with cams 22 behind both sides of the guides 20, 21 vorgesehet @ n noses 23, 24 detachable.

Claims (17)

EXPECTATIONS Longitudinal radiating broadband antenna with arranged on a longitudinal beam, Planar acting antenna elements, each one on the side member attached middle part and attached to it on both sides to form the radiation surface corresponding to their @ outlines have running ladder parts, d a -d u r c it is noted that an antenna element on both sides of the central part (4) two each made of strip material and carried by this, on one End in the middle part (4) held supporter parts (5, 6), the flat sides of which enclose an angle with the plane of the radiating surface, and that the outer. Ends of the conductor parts (5, 6) are mechanically connected. 2. Antenna according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the flat side makes an angle of about 300 with the plane of the radiating surface includes. 3. Antenna according to claim 1 or 2, d a d u r c h g e -k e n n z e i c h n e t that the two support parts (5, 6) together with one of their outer ends connecting third ladder part (7) are formed in one piece and run in a U-like manner. 4. The antenna of claim 3, d a d u r c h g e k e n nz e i c h n e t that the conductor parts (5, 6, 7) are folded in such a way that the flat side with the plane of the radiation surface included angles in the two in the middle part (4) held conductor parts (5, 6) has different signs, 5. Antenna after one of the preceding claims, d ad u r c h g e k e n n n z e i c h n e t that the two ladder parts (5, 6) held in the middle part (4) are at a medium distance of a maximum of s / 8 if »is the operating waveform. 6. Antenna according to one of the preceding claims, d ad u r c h g It is not noted that the conductor parts held at their ends in the central part (4) (5, 6) are each held non-rotatable. 7. The antenna of claim 6, d a d u r c h g e k e n nz e i c h n e t that the middle part (4) both ends of the ladder parts held in it (5, 6) surrounds positively. 8. Antenna according to one of the preceding claims, d a -d u r c h it is not noted that the Juei-terteile (5, 6, 7) are made of a strip material exist whose edges are rounded. 9. Antenna according to one of the preceding claims, d a -d u r c h g It is not noted that an end section held within the central part (4) a ladder part (5, 6) in each case from its end side through an incision in two tabs (8, 9; 10, ii) is divided that a tab (9, 11) sits with its end in the middle part (4) and thus further penetration of the divider part (5, 6) in the middle part (4) prevents the middle part. (4) is penetrated by an opening (12, 13) in the area of the other tab (8, 10) and that the other tab (8, 10) is bent inside the opening (12, 13) and prevents the ladder part (5, 6) from being pulled out of the middle part (4). 10. Antenna rach claim 9, a a d u r o h g e k e n n -z e i c h n e t that the central part (4) penetrating opening (12, 13) perpendicular to the plane the radiation surface runs. 11. Antenna according to one of the preceding claims, d a -d u r c h it is noted that the strength of the conductor parts (5, 6, 7) is opposite that of the middle part (4) is chosen so that the held in the middle part (4) Ladder parts (5, 6) in the event of mechanical overload directly outside their entry points Bend (14, 15) in the middle part. 12. Longitudinal antenna with angeord Neten on a longitudinal beam Antenna elements, each with a central part attached to the longitudinal beam and have Ileiterteile attached to it on both sides, in particular after one of the preceding claims, d a d u r c h g e k e n n -æ e i c h n e t that the Longitudinal support (1) has an approximately rectangular, in particular square, cross-section and an opening (25) on one side in the area of an antenna element comprises that the central part (4) surrounds a longitudinal beam (1) on three sides and on the fourth side with projections (16, 17) engaging behind, elastic Sleeve part (2) and two extensions (3) for holding the ladder parts (5, 6, 7) and that the sleeve part (2) on the side that the with Projections (16, 17) from behind the side of the longitudinal member (1) that is engaged behind, is opposite, on the inner surface one in the opening (25) of the longitudinal beam (1) engaging Has pin (26). 13. The antenna of claim 12, d a d u r c h g e k e n nz e i c h n e t that the longitudinal extension of the sleeve part (2) of the central part (4) in the direction of the longitudinal beam (1) is greater than the thickness of the extensions measured in this direction (3) of the middle part (4). 14. Antenna according to claim 12 or 13, d a d u r c h g ek e n n z e i c h n e t that one side of the longitudinal member (i) encompassing projections (16, 17) are noses, the distance between them on the side of the longitudinal beam that is engaged behind (1) remote end at least as large as the width of this side of the side member (1) is. 15. Antenna according to one of claims 12 to 14, in particular in one Version with a longitudinal beam that can be dismantled into sections, as there is no gap n -z e i c h n e t that the extensions (3) of the middle part (4) its sleeve part (2) protrude on one side and that those adjoining the sleeve part (2), each other opposing surfaces (18, 19) of the port sets (3) have a distance that is approximately equal to the width of the side member (1) between the two sides of the HU1 part (2) to which the extensions (3) connect. 16. Antenna according to one of claims 12 to 15, d æ d u r c h gek It is noted that the sleeve part (3) on the side of the projections (16, 17) by means of an attached, releasably locked bridge (Fig. 3, 4) against bending apart the projections (16, 17) is secured. 17. The antenna of claim 16, d a d u r c h g e k .n n nz e i c h n e t that the extensions (3) of the middle part (4) whose sleeve part (2) on the side of the projections (16, 17) protrude and that the bridge (Fig. 3, 4) so protruding Parts (20, 21) of the extensions (3) connects to one another. L e r s e i t e