NL1012281C2 - Antenna device for mobile telephony. - Google Patents

Description

Title: Antenna device for mobile telephony.

The invention relates to an antenna device for mobile telephony, comprising an antenna mast and at least one elongated antenna module, the longitudinal direction of which extends at least substantially in an axial axis of the antenna mast, the antenna module being rotatable through a limited angle around a horizontal rotation. shaft is connected to the antenna mast, the antenna device further comprising an adjustment mechanism for adjusting an angle enclosed by the axial axis of the antenna mast and the longitudinal direction of the antenna module.

Such an antenna device is usually placed on a building. It is important here that the elevation of the antenna module can be accurately adjusted. A drawback of the known antenna device is that operating the adjustment mechanism to adjust the elevation requires that a person go to approximately the highest point of the antenna module because the adjustment mechanism is mounted there. As a result, a ladder often has to be used, which, in particular when the antenna insert is placed on top of a building, entails considerable dangers. Moreover, it takes a relatively long time to set up the antenna device in this way.

The object of the invention is to obviate the outlined drawback, and it is characterized in that the adjusting mechanism is arranged near a bottom side of the antenna module and that the axis of rotation is located above the adjusting mechanism. Since the adjusting mechanism is now arranged near a bottom side of the antenna module, it can be operated easily, without the person concerned having to go to the top of the antenna module.

1012281 2

In particular, it further holds that the antenna module is provided with an extrusion profile which is provided with a tubular basic body, the longitudinal direction of which extends in the longitudinal direction of the antenna module and at least one antenna unit which is attached to an outside of the extrusion profile. The advantage of this special embodiment of the antenna device is that the extrusion profile can fulfill various functions. Initially, it provides a load-bearing structure, it further provides the necessary rigidity of the antenna module, it provides the ability to provide a coupling rotatable about the horizontal axis of rotation with the antenna mast, and it provides the ability to engage an engagement point. for the adjustment mechanism.

Furthermore, part of the extrusion can also function as a reflector for the antenna units.

The invention will now be further elucidated with reference to the drawing. Herein shows:

Fig. 1 a possible embodiment of an antenna device according to the invention; fig. 2 shows a cross section of an antenna device according to fig. 1; Fig. 3 is a part of an antenna device according to Fig. 1; and Fig. 4 shows a second embodiment of an antenna device according to the invention.

In Fig. 1, reference numeral 1 denotes an antenna device for mobile telephony. The antenna device is provided with an antenna mast 2 and an elongated antenna module 4, the longitudinal direction of which extends at least substantially in an axial direction of the antenna mast 2. Because the antenna module 4 is curved (see Fig. 1) and in connection with an adjustment possibility of the elevation of the antenna to be further described hereinafter, the longitudinal direction of the antenna module will generally not be completely parallel to the axial axis of 1012281 3 the antenna mast. Both directions are indicated in the figure with arrows 6 and 8, respectively.

The antenna module 4 is rotatably rotated about a horizontal rotation axis 10 about a horizontal angle with the antenna mast 2.

The antenna device 1 is further provided with an adjusting mechanism 12 for adjusting an angle cc enclosed by the axial axis of the antenna mast in the longitudinal direction of the antenna module (see also the angle cc enclosed by arrows 10, 6 and 8).

As can be clearly seen in Fig. 1, the adjusting mechanism 12 is located near a bottom 14 of the antenna module 4. The rotary axis 10 is located above the adjusting mechanism 12. By operating the adjusting mechanism 12, the angle cc be varied. In general, the angle cc will be adjusted such that the gain of the antenna module, indicated by the arrow 16 in Fig. 1, is directed slightly obliquely downwards. In the example, as shown in Fig. 1, the arrow 16 extends at least substantially parallel to the horizon, so that the angle cc will generally have to be increased by adjustment.

Because the adjusting mechanism 12 is located near the bottom side 14 of the antenna module 4, it can be operated by a person without the use of a ladder in general.

It will be clear that with the aid of an adjusting mechanism a distance d between a bottom side 14 of the antenna module and the antenna mast 2 can be varied to adjust the said enclosed angle cc. In this example, the adjusting mechanism 12 is provided with a scissor-shaped bracket, a first end 16 of which is connected to the antenna mast and a second end of which 18 is connected to the antenna module 4.

As can be clearly seen in Fig. 2, the antenna module 4 is provided with an extrusion profile 20 which is shown hatched in Fig. 2. In this example, the extrusion profile 20 is made of 1012281 aluminum. The extrusion profile 20 is provided with a tubular basic body 22, the longitudinal direction of which extends in the longitudinal direction of the antenna module. Furthermore, the antenna module comprises a number of antenna units 24. A cross section of a single antenna module 24 is shown in Fig. 3. The antenna units 24 are attached to an outside of the extrusion profile. The tubular profile 20 is rotatably connected around the horizontal axis of rotation 10 to the antenna mast 2. For this purpose the antenna mast is provided with two brackets 26, with which the antenna module is rotatably connected. The said adjusting mechanism 12 is also. connected to the box profile. In this example it therefore holds that the free end 18 of the bracket 16 is connected to the extrusion profile.

In this example, a plurality of longitudinal antenna units 6 of the antenna module are connected offset to each other to the extrusion profile 20.

A portion 27 of an exterior of a base body has an at least substantially flat surface that functions as a reflector which, in use, reflects radio signals to or from the antenna units 24. There is an intermediate space 29 between the antenna units 24 and the said reflecting outside 27 of the basic body 22. The extrusion profile 20 is further provided with two carrier arms 28, each of which extends from the surface 27 acting as reflector in one of extend the surface facing away. The antenna units 24 are interposed between these support arms and connected to these support arms. Each of the antenna units 24 is herein rotatably connected to the support arms 28 about a horizontal axis of rotation. Each of the antenna units 24 can therefore be adjusted for rotation about the axis of rotation 30 associated with the respective antenna unit 24. Generally, the antenna units 24 in combination 1012281 will be set to form a faced-away antenna.

The extrusion profile 20 has the advantage that it fulfills several functions. The extrusion profile 20 gives the required rigidity to the antenna module. Furthermore, the extrusion profile provides the rotatable suspension around the axis of rotation 10. In addition, the extrusion profile provides the said reflector surface 27. The adjusting mechanism 16 can also engage the extrusion profile 20.

Finally, the extrusion profile carries the various antenna units 24.

The antenna module is also equipped with a radome. 32 which, together with the extrusion profile 20, form a housing enclosing a space 34 in which the antenna units 15 24 are received. The radome is connected to the support arms near free ends 36 of the support arms 28. The antenna module is furthermore provided with a cap 38 with a U-shaped cross section. The extrusion profile 20 lies between the cap 38 and the radome 32. The hood 38 and the extrusion profile 20 enclose a space 40 in which wiring 42 for the antenna modules 24 can be received. This wiring is also shown in Figure 1. As shown in Figure 1, the cap 38 does not extend the full length of the antenna module.

The invention is by no means limited to the embodiments outlined above. For example, the antenna device can also be provided with two or more elongated antenna modules. Such a situation is shown in Fig. 4. Each of the two antenna modules 4, 4 'shown in Fig. 4 is rotatably connected about a horizontal rotation axis 10 and 10' to the antenna mast 2, respectively. Such variants are also considered to fall within the scope of the invention.

1012281

Claims (13)

Antenna device for mobile telephony, comprising an antenna mast and at least one elongated antenna module, the longitudinal direction of which extends at least substantially in an axial axis of the antenna mast, wherein the antenna module is rotatable by a limited angle about a horizontal axis of rotation with the antenna mast is connected, the antenna device further comprising an adjusting mechanism for adjusting an angle enclosed by the axial axis of the antenna mast and the length-10 'direction of the antenna module, characterized in that the adjusting mechanism is located near a bottom of the antenna module and that the axis of rotation is above the adjustment mechanism. 2. Antenna device according to claim 2, characterized in that a distance between a bottom side of the antenna module and the antenna mast can be varied with the aid of the counting mechanism for adjusting said enclosed angle. Antenna device according to claim 1 or 2, characterized in that the adjusting mechanism is provided with a scissor-shaped bracket, a first end of which is connected to the antenna mast and a second end of which is connected to the antenna module. Antenna device according to one of the preceding claims, characterized in that the antenna module is provided with an extrusion profile which is provided with a tubular basic body, the longitudinal direction of which extends in the longitudinal direction of the antenna module and at least one antenna unit which an outside of the extrusion profile is attached. Antenna device according to claim 4, characterized in that the extrusion profile is rotatably connected to the antenna mast about the horizontal axis of rotation. 1 n1 ?? fli Antenna device according to claim 4 or 5, characterized in that the adjusting mechanism is connected to the antenna mast and the extrusion profile. Antenna device according to claim 4, 5 or 6, characterized in that a part of an outside of the basic body comprises an at least substantially flat surface which functions as a reflector which, in use, transmits radio signals to and / or from the antenna unit reflects. 8. Antenna device according to claim 7, characterized in that there is an interspace between the antenna unit and the said exterior of the basic body, which acts as a reflector. Antenna device according to claim 7 or 8, characterized in that the extrusion profile further comprises two support arms, each of which extends from the surface acting as reflector in a direction away from this surface, the antenna unit between these wishbones are included and connected to these wishbones. Antenna device according to any one of claims 4-9, characterized in that the antenna module comprises a plurality of antenna units which are connected to the extrusion profile in the longitudinal direction of the antenna module. Antenna device according to claims 9 and 10, characterized in that the antenna module further comprises a radome which, together with the extrusion profile, forms a housing in which the antenna units are accommodated. 12. Antenna device according to claim 11, characterized in that the radome is connected to the support arms near free ends of the support arms. Antenna device according to any one of the preceding claims, characterized in that the antenna module further comprises a hood with a U-shaped cross-section, wherein the extrusion profile lies between the hood and the radome and wherein the hood and the extrusion profile a 1 Π 199R 1 space is enclosed in which wiring of the antenna units is included. 1012281