ES2467016A2 - Antenna (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

The present invention relates to an antenna, in particular for receiving television, radio and / or data signals comprising at least one armor, an anterior radome, a posterior radome and a reflector, where the armor is formed by at least three coplanar bars, a main central bar and two secondary bars, an upper secondary bar and another lower secondary bar characterized in that the posterior radome forms a first mechanism, the anterior radome forms a second mechanism, and the first mechanism and the second mechanism cooperate in such that during the antenna installation process the first mechanism and the second mechanism change the position of the bars from a first installation position where the bars are parallel, to a second installation position where the secondary bars are oblique with respect to the main central bar and divergent with respect to the main central bar on the one hand and converging on the opposite.

Description

ANTENNA The present invention relates to an antenna, in particular for receiving television, radio and / or data signals according to the preamble of claim 1. With the implementation of Digital Terrestrial Television (DTT) signals, new types were developed. of antennas for receiving said digital signals. Subsequently, with the implementation of high definition television, antennas were developed with characteristics consistent with the new types of television signals, such as those described in Spanish patents ES2334618B2, ES2336878B1 and ES2338965 owned by the applicant. The mentioned inventions show antennas that have characteristics according to the new types of digital signals for high definition. The existing antennas in the market present, due to their size, packaging problems for their transport, as well as problems for their assembly and installation since these antennas are installed in places of difficult access such as roofs, masts, turrets, etc., where simplicity and antenna manageability are elements of first importance. Likewise, said antennas do not contemplate the reduction of the frequency band used for the Digital Terrestrial Television (DTT) service. The so-called Digital Dividend is that as of January 1, 2015, the frequency band between 790 Mhz. and 860 Mhz. It will no longer be used by the DTT service and will be used for Mobile Broadband signals. As a consequence of this, the reception bandwidth requirement of the television antennas changes considerably. On the one hand a smaller bandwidth is required and on the other a high degree of rejection of the signals that are going to use the 790Mhz band at 860Mhz is required to avoid interference in the reception of television signals. The objective of the present invention is the realization of an antenna that presents on the one hand an easy packing for its transport, as well as a great manageability and simplicity for its installation and on the other a high rejection of

signals located in the 790 MHz band. to 860. Mhz corresponding to

Mobile Broadband signals. This objective is achieved with an antenna, in particular to receive signals from television, radio and / or data as defined in the claims. The invention has a plurality of advantages.

In an example according to the invention the antenna, in particular for receiving signals television, radio and / or data comprises at least one armor, a reflector, an anterior radome and a posterior radome, where the armor is formed by at least three coplanar bars, a main central bar and two secondary bars, one upper secondary bar and another secondary bar lower, and is characterized in that the posterior radome forms a first mechanism, the anterior radome forms a second mechanism, and the first mechanism and the second mechanism cooperate in such a way that during the antenna installation process the first mechanism and the second mechanism change the position of the bars from a first position of installation where the bars are parallel, to a second position of installation where the secondary bars are oblique to the bar main central and divergent from the main central bar on the one hand and converging on the opposite side. This has the advantage of simplifying the antenna installation process and to reduce the volume of it so that it allows more packaging compact and reduced thereof allowing as; easier transport of the antenna. In another example according to the invention on the antenna, in particular to receive television, radio and / or data signals, the first mechanism has guides through which rods fixed to the bars are moved secondary, which drag to the secondary bars of the first position of installation to the second installation position. In another example of an antenna according to the invention, the second mechanism has of turning elements attached to the bars and whose turning point is located at the center bar

This has the advantage of simplifying and facilitating the antenna transformation process, from a first installation position to a second installation position. In another example of an antenna according to the invention, the first mechanism and / or the second mechanism have at least one fixing element of the second installation position. In another example of an antenna according to the invention, the fixing element of the first mechanism is constituted by a first stop for the movement of the upper secondary bar rod and / or a second stop for the movement of the lower secondary bar rod. . In another example of an antenna according to the invention, the fixing elements of the second mechanism are constituted by a first turning stop and / or a second turning stop. This has the advantage of securing the second installation position, preventing the antenna from returning to the first installation position by chance. In another example according to the invention, the antenna, in particular for receiving television, radio and / or data signals, comprises at least one main central bar, a reflector and a support that joins the main central bar with the reflector, the support being constituted by a first opening and a second opening, where some bars of the reflector are introduced and it is characterized in that the support has mechanisms that by means of a first activation

they fix the bars in the first opening and in the second opening and by means of a second activation of the mechanisms they release the bars in the first opening and in the second opening. This allows the assembly and removal of the antenna reflector allowing easy folding for storage and transport of the antenna. In another example of an antenna according to the invention the mechanisms consist of rotating fins. In another example of an antenna according to the invention, the rotating fins that constitute the mechanisms fix the bars by pressure. This allows to keep the reflector firm in its mounted position.

For a better understanding of the invention, an antenna is described by way of non-limiting example, in particular for receiving television, radio and / or data signals according to the invention based on the drawings listed below: Figure 1 shows an antenna according to the invention. . -Figure 1.A shows the first installation position A of an antenna according to the invention. . -Figure 1.8 shows the second installation position 8 of an antenna according to the invention. Figure 2 shows in detail a rear radome of an antenna according to the invention. Figure 3 shows in detail an anterior radome of an antenna according to the invention. Figure 4 shows a dipole of an antenna according to the invention. Figure 5 shows a junction box and a support part of an antenna junction box according to the invention. Figure 6 shows a support of a reflector of an antenna according to the invention. As can be seen in Figure 1, the antenna according to the invention is constituted by a reinforcement formed by three bars, a main central 1 and two secondary ones, upper 2 and lower 3, a rear radome 4, an anterior radome 5 and a reflector 6 The bars 1, 2 and 3 of the reinforcement are generally of different length, coplanar and constituted by tubular profiles, preferably of aluminum. Said bars 1,2 and 3 have a plurality of rods 7 mounted along the structure in a direction perpendicular to the plane defined by said bars. Said rods 7 constitute the director elements 71 and the parasitic element 72 of the antenna. The director elements 71 are responsible for directing the received signal towards an active element or dipole 13 of the antenna. The parasitic element 72 increases the bandwidth of the active element or dipole 13 and consequently of the antenna. The upper secondary bar 2 has a greater number of directors 71, the lower secondary bar 3 being the one

it has a smaller number of directors 71. the central bar 1 also has the directors 71, a parasitic element 72. the bars 1, 2 and 3 are physically joined at the rear by the rear radome 4 into which they are introduced and in its middle part through the previous radome 5 which they cross. the central bar 1 crosses the rear radome 4 in a bar portion on which a support 8 is mounted on which the reflector 6 is attached.

Rods 7 of the bars 2, 3 cross the rear radome 4 through guides 412 and 413, likewise rods 7 of the bars 1, 2, 3 cross the anterior radome 5 through holes 571. The reflector 6 is constituted by two panels 9 and 10 of rods 11 placed obliquely with respect to the central bar 1 on the support 8. Said rods 11 dispose at their ends of corners 12 that join them together. Said rods 11 pass through bars 111 that fix the reflector to the support 8. In the rear radome 4 there is the dipole 13 and a connection box 14 where an impedance adapter circuit 15 and an amplification circuit 16 are housed (see figure 5 ). The anterior radome 5 forms a second mechanism and the posterior radome 4 forms a first mechanism and the first mechanism and the second mechanism cooperate in such a way that during the antenna installation process the first mechanism and the second mechanism change the position of the bars 1,2,3 from a first installation position A (Figure 1A) where bars 1, 2, 3 are parallel to each other, to a second installation position B (Figure 1B) where secondary bars 2, 3 are oblique with respect to the main central bar 1 and divergent with respect to the main central bar 1 on one side and converging on the opposite side. As can be seen in Figure 1.B, in a second installation position B, coinciding with the use position of the antenna according to the invention, the secondary bars 2 and 3 are slightly oblique with respect to the central bar 1, the bars 2 and 3 divergent from the central bar 1 on one side and converging on the opposite side. On the divergent side of the bars, the upper secondary bar 2 protrudes longitudinally from the bar

central 1 and the lower secondary bar 3 is reduced longitudinally with respect to the central bar 1, the antenna forming a step structure. On the divergent side the three bars 1, 2 and 3 cross the anterior radome 5 and on the convergent side the three bars 1, 2 and 3 are introduced in the posterior radome 4. The central bar 1 crosses the posterior radome 4 in one portion of bar on which the support 8 is mounted on which the reflector 6 is attached. The antenna is fixed to a vertical mast 17 by an auxiliary clamp 18 by the free end of the central bar 1. The first mechanism constituted by the radome rear 4 has oblique guides 412 and 413 with respect to the central bar 1 where rods 7 belonging respectively to the upper secondary bar 2 and the lower secondary bar 3 are located. Said rods travel through the guides 412 and 413 in the reverse direction among them, from a first installation position A of the antenna (Figure 1. A) to a second installation position 8 of the antenna (Figure 1. 8). Likewise, the second mechanism constituted by the previous radome 5 has rotation elements 57 for the rotation of said radome 5 from a first installation position A of the antenna (Figure 1.A) to a second installation position 8 of the antenna (Figure 1.8). Said turning elements 57 are constituted by holes 571 through which rods 7 of the bars 1, 2 and 3 cross the radome 5. The change of position of the bars 1, 2, 3 from a first installation position A where the bars 1, 2, 3 are parallel to each other, to a second installation position 8 where the secondary bars 2, 3 are oblique with respect to the main central bar 1 and divergent with respect to the main central bar 1 on one side and convergent by the opposite side is performed as described below.

In the first installation position A of the antenna, the rods 7 of the bars 2 and 3 located in those of guides 412 and 413, are respectively in their positions farthest and closest to the previous radome 5 (Figure 1.A) . Also in the first installation position A, the anterior radome 5 is in an oblique and coplanar position with respect to the central bar 1 of the antenna frame, so that the hole 571 corresponding to the rod 7 of the bar 2 is closest to the posterior radome 4 and hole 571

corresponding to rod 7 of bar 3 is the furthest from the posterior radome

4 (Figure 1. A).

From the first installation position A, by means of a manual actuation consisting of a slight movement of separation of the bars 2 and 3 by their divergent side, the rods 7 located in the guides 412 and 413 move through said guides in the opposite direction . The rod 7 located in the guide 412 moves from the furthest point of the guide 412 to the anterior radome 5 to the closest point of the guide 412 to the previous radome 5, on the contrary the rod 7 located in the guide 413 moves from the closest point of the guide 413 to the anterior radome 5 to the furthest point of the guide 413 to the anterior radome

5. In this displacement the rods 7 located in the guides 412 and 413 drag the bars 2 and 3 respectively in opposite directions outward from the rear radome 4 the bar 2 and into the rear radome 4 the bar 3. This displacement of the bars 2 and 3 rotate the rear radome 5 with respect to the hole 571 corresponding to the rod 7 of the central bar 1, as a consequence of the push of the rods 7 of the bars 2 and 3 on their respective holes 571. As a consequence of this rotation the anterior radome 5 is perpendicular to the central bar which causes the antenna to move to the second installation position 8 (Figure 1.8).

The first installation position A corresponds to the folding state of the antenna armor used for the storage and transport of the antenna (Figure 1 A). In said position the panels 9 and 10 of the reflector 6 are removed from the support 8 leaving the antenna in storage and transport situation. On the contrary, in case of installation, the panels 9 and 10 of the reflector 6 are inserted in the support 8 and then operated on the antenna, leading it to a second installation position 8. The second installation position 8 corresponds to the unfolding state of the antenna armor corresponding to the position of use of the antenna (Figure 1.8). Figure 2 shows the rear radome 4 of the antenna according to the invention. As can be seen in said figure, the rear radome 4 is constituted by two covers 41 and 42, so that they are closed on the bars 1, 2 and 3 of the antenna structure, by means of medium openings 431, upper 432 and lower 433 respectively in its previous part. The cover 41 has through holes 45 facing stems 46 arranged in the other cover

42. In said rods there are housings for closing the covers 41 and 42. The covers 41 and 42 have holes 47 which extend into perforated stems 48 through which the rods 7 corresponding to the bar sections 1, (Figure 1) cross the rear radome 4. Also the covers 41 and 42 have guides 412 and 413 in which rods 7 of the bars 2 and 3 are located respectively. Likewise, the rear radome 4 has a cavity 49 in its rear area in which an assembly formed by the dipole 13, the junction box 14 and the support 19 (see Figure 5) is housed. The rear radome 4 has two bolts 491 for anchoring said assembly. The anterior radome 5, as shown in Figure 3, consists of two covers 51 and 52 that are closed on the bars 1, 2 and 3 of the structure by means of a run opening 53. Said run opening has turning stops 531 and 532, which act respectively on the bars 1, 2 in the second installation position B of the antenna avoiding the rotation of the previous radome 5 and therefore the return to the installation position A of the antenna. A third turning stop 533 disposed in the opening 53 acts on the bar 3 by fixing the maximum opening of the bars 2 and 3 in the second installation position B of the antenna. The cover 51 has through holes 55 facing threaded rods 56 arranged in the other cover 52. In said threaded rods 56, cover screws of the covers 51 and 52 are housed. The covers 51 and 52 have holes 571, which constitute the turning elements 57, which extend into perforated stems 58 through which the rods 7 corresponding to the bar sections 1, 2 and 3 cross the anterior radome 5. As can be seen, there are fixing elements of the position B of the antenna in both the first mechanism and the second mechanism. The first mechanism is constituted by the corresponding ends of the guides 412 and 413, which act as a first stop for the movement of the rod 7 of the upper secondary bar 2 and / or a second stop for the movement of the rod 7 of the lower secondary bar 3 respectively. Also in the second mechanism the fixing elements of position B

6. They consist of a first turning stop 532 and / or a second turning stop 531. Figure 4 shows in detail the dipole 13 of the antenna which is constituted by two pieces 131. Each of the pieces 131 is consisting of a "U" shaped profile 132 and a "V" shaped profile 133 both facing openly, the profile 133 contained within the profile 132 and galvanically connected thereto at two connection points 134. Profile 132 has a fin 135 at its base. Said fin 135 has at least one hole 136 for connecting the dipole, and profile 132 also has a hole 137 for fastening the dipole 13 to the pivot 197 of the support 19 (See Figure 5.) In Figure 5, the junction box 14 can be seen, which is attached to a support 19. The box 14 is constituted by a rectangular body or base 141 and a cover 142 which are closed by pressure. the base 141 has bolts inside 143 on which an electronic circuit is placed, generally consisting of an impedance adapter circuit 15 and an amplification circuit 16, also has two holes 144 which face two pivots 191 belonging to the support 19. These pivots 191 have internal holes through which a connection piece 196 is introduced that establishes the electrical connection between the dipole 13 and the impedance adapter circuit 15 and / or the amplification circuit 16 housed in the junction box 14 and serving the same holding time of the connection box 14 to the support 19. the connection box 14 also has at its base 141 a connector 145 which constitutes the connection element of the antenna. The cover 142 has two side walls of two flanges 146 which make galvanic contact with the central bar 1 once the dipole assembly 13, connection box 14 and support 19 are mounted in the cavity 49 of the rear radome 4. This contact Galvanic performs the grounding of the connection box 14 optimizing its shielding. As shown in Figure 5, the support 19 of the junction box 14 is constituted by a bowl 192 topped on one of its walls by two arms 193 that extend longitudinally. Inside, bowl 192

It has two pivots 191 for holding the box 14 and a hole 194 through which the connector 145 of the connection box 14 comes out. On its side walls the bowl 192 has holes 195 where two bolts 491 of the rear radome penetrate 4 (figure 2) for anchoring the support 19 to the rear radome 4. The bowl 192 is extended in two arms 193 in each of which is located one of the two pieces 131 that make up the dipole 13. Said parts 131 have holes 137 (see figure 4) in which the pivots 197 are introduced for securing said parts to the arms 193 of the support 19. The dipole assembly 13, junction box 14 and support 19, is located in the cavity 49 of the radome rear 4, being fixed to said rear radome 4 by bolts 491 and holes 195 of the support 19. Figure 6 shows the support 8 of the reflector panel 9 and the reflector panel 10 that make up the reflector 6 (Figure 1). As can be seen in Figure 6, the support 8 of the reflector 6 is constituted by a box 81 in the form of a crescent formed by two covers 82 and 83 that form when a first opening 84 and a second opening 85 are closed in which they are introduced the bars 111 of the panels 9 and 10 of the reflector 6. Said covers 82, 83 have cavities 821 where rods 11 of the panels 9 and 10 of the reflector 6 are introduced. Also in their closed position the covers 82 and 83 define a channel 86 through which the main central bar 1 of the antenna passes. The support 8 is attached to the main bar 1 by means of a screw 87 that crosses a hole 88 disposed for this purpose in the cover 82 of the box 81 and after passing through the main bar 1 a threaded hole 881 disposed in the cover 83 is fixed of the box 81. The channel 86 has a cross section according to the cross section of the main bar 1 so that it is fastened thereto. Likewise, the support 8 has mechanisms 89 that by means of a first activation fix the bars 111 in the first opening 84 and in the second opening 85 and by a second activation of the mechanisms 89 release the bars 111 in the first opening 84 and in the second opening 85. Said mechanisms 89 are constituted, as can be seen in Figure 6, by rotating fins 93 that fix the bars 111 of the

panels 9 and 10 of the reflector 6 in the first and second aperture 84.85. Said rotating fins 93 are constituted by a turning hole 891 in which pivots 90 are introduced for this purpose next to the first and second opening 84, 85, a preferably circular pressure element 892 and a

5 actuating lever 893. Said actuating levers 893 protrude from the case 81 at the rear through openings 91 arranged for this purpose. The bars 111 of the panels 9 and 10 of the reflector 6 are introduced in the first and second opening 84, 85 of the support 8 thus defining the positions of said panels 9 and 10. Through a first activation of the mechanisms

10 89 the bars 111 are fixed by pressure at the first and second opening 84, 85 with the rods 11 of the panels 9 and 190 being introduced into the cavities

821. The first activation of the mechanisms 89 occurs as a result of a first rotation of the rotating fins 93, on the pivots 90 caused by the pressure on the bars 111 of the pressure element 892.

By means of a second activation of the mechanisms 89 produced by a second rotation of the rotating fins, on the pivots 90, the pressure element 892 ceases to exert pressure on the bars 111, these being able to be removed from the first and second opening 84, 85. The first and second activation of mechanisms 89 occurs as

20 consequence of the actuation of the actuating lever 893. A stopper 92 blocks the actuating lever 893 after the first activation of the mechanisms 89 thus preventing a second accidental activation of said mechanisms 89.

REFERENCE LIST:

1.-Main central bar 2.-Upper secondary bar 3.-Lower secondary bar 4.-Rear radome 5.-Anterior radome 6.-Reflector 7.-Rods 71.-Director elements 72.-Parasite element 8.-Support 81.-Box 82.-Cover 821.-Cavities 83.-Cover 84.-First opening 85.-Second opening 86.-Channel 87.-Screw 88.-Hole 881.-Threaded hole 89.-Mechanism 891.- Turning holes 892.-Pressure element 983.-Actuation lever 90.-Pivots 91.-Openings 92.-Stop 93.-Rotating fins 9.-Reflector panel 10.-Reflector panel 11.-Rods

111. Reflector rods 12.-Cantoneras 13.-Dipole 14.-Junction box 15.-Impedance adapter circuit 16.-Amplification circuit 17.-Vertical mast 18.-Auxiliary clamp 19.-Support 41.-Cover rear radome 412.-Guide 413.-Guide 42.-Rear radome cover 431.-Medium opening 432.-Upper opening 433.-Lower opening 45.-through holes

46.-Stems 47.-Holes 48.-Perforated stems 49.-Cavity 491-Anchor bolts 51.-Front radome cover 52-Front radome cover 53-Openings 531.-Turn stop Bar1 532.-Turn stop Bar 2 533.-Swivel stop Bar 3 55.-Through holes 54-Threaded stems 57-Turn elements 571-Holes 55-Perforated stems 131132133134

5 135136137

14114210 14314414514619115 19219319419519620 197-

Dipole parts "U" profile "V" profile Connection points Fin Perforation for dipole connection Perforation for dipole support Rectangular or base body Cap Bolts Holes Connector Eyelashes Pivots Cup Arms Hole Orifices Connection part Pivots

Claims (8)

1. Antenna, in particular to receive television, radio and data signals 5 comprising at least one reinforcement, an anterior radome (5), a posterior radome (4) and a reflector (6), where the reinforcement is formed by at least three coplanar bars (1,2,3), a central bar main (1) And two secondary bars, one upper secondary bar (2) and another lower secondary bar (3), characterized by 10 the posterior radome (4) forms a first mechanism, the anterior radome (5) forms a second mechanism, and the first mechanism and the second mechanism cooperate in such a way that during the antenna installation process the first mechanism and the second mechanism change the position of the bars (1,2,3) from a 15 first installation position (A) where the bars (1,2,3) are parallel, to a second installation position (B) where the secondary bars (2,3) are oblique with respect to the main central bar (1) and divergent from the main central bar (1) on one side and converging on the opposite side. 20 2. Antenna according to claim number 1 characterized in that the first mechanism has guides (412,433) through which rods (7) fixed to the secondary bars (2,3) that drag the secondary bars (2,3) move ) from the first installation position (A) to the second installation position (B). 3. Antenna according to any of the preceding claims characterized in that the second mechanism has turning elements (57) attached to the bars (2,3) and whose turning point is located in the central bar (1).

Antenna according to any of the preceding claims characterized in that the first mechanism and the second mechanism have at least one fixing element of the second installation position (B).

5.

Antenna according to claim number 4 characterized in that the fixing element of the first mechanism is constituted by a first stop for the movement of the rod (7) of the upper secondary bar (2) and / or a second stop for the movement of the rod ( 7) of the lower secondary bar (3).

6.

Antenna according to claim number 4 characterized in that the fixing element of the second mechanism is constituted by a first turning stop

(532) and / or a second turning stop (531).

Antenna, according to claim number 1 characterized in that the reflector (6) and the main central bar (1) are connected by a support (8)

8. Antenna according to claim number 7 characterized in that the support (8) It consists of a first opening (84) and a second opening (85) 15 where bars (111) of the reflector are introduced. 9. Antenna according to claim number 8 characterized in that the support (8) has mechanisms (89) that by means of a first activation fix the bars (111) in the first opening (84) and in the second opening (85) and 20 by a second activation of the mechanisms (89) release the bars (111) in the first opening (84) and in the second opening (85). 10. Antenna according to claim number 9 characterized in that the mechanisms (89) are constituted by rotating fins (93). 11. Antenna according to claim number 10 characterized in that the rotating fins (93) that constitute the mechanisms (89) fix the bars (111) by pressure. 1 1 111 10  1 --- == 3 ~ 1 8 Fig. 1A