PL68522Y1 - Log-periodic antenna - Google Patents

Description

Pattern description

The subject of the utility model is a log-periodic antenna with simple half-dipoles, mounted in the through holes of the arms in the form of aluminum profiles, connected with insulating crossbars.

Log-periodic antennas made of simple dipoles and half dipoles are known. For example, the antenna has two arms in the form of metal tubes or profiles. The profiles are connected with insulating crossbars. Dipoles or half dipoles are attached parallel to each other, to the arms or in the armholes, creating a system of receiving waves with linear polarization. With horizontal linear polarization, the system of dipoles or half dipoles is also in the horizontal plane and so the antenna is mounted on the mast. If you switch to receiving waves with vertical linear polarization, it is necessary to disassemble the antenna from the mast and attach it so that the system of dipoles or half dipoles is in in the same vertical plane. An additional antenna mounting bracket is also required. In the antenna according to the patent PL / EP 2194605, the dipoles are situated on three obliquely arranged arms, in eight vertical rows.

The logarithmic-periodic antenna with straight half-dipoles, mounted in through holes in the arms in the form of aluminum profiles, connected with insulating crossbars according to the utility pattern, is characterized by the fact that the simple half-dipole systems create a vertical linear polarization wave receiving system and a horizontal linear polarization wave receiving system . Each half horizontal dipole, fitted with one end in the upper limb, corresponds to one half vertical dipole, attached with one end in the upper limb. To each half of the horizontal dipole attached at one end to the lower arm corresponds to one half of the vertical dipole attached at one end to the lower arm. The first vertical half-top dipole is mounted in the upper leg in the immediate vicinity of the first left horizontal dipole and perpendicular to it. The first vertical half-bottom dipole is attached to the lower leg in the immediate vicinity of the first horizontal, right and perpendicular to it. The second vertical half top dipole is mounted on the upper arm in the immediate vicinity of the second horizontal right dipole and perpendicular to it. The second vertical half bottom dipole is mounted in the lower arm in the immediate vicinity of the second horizontal left dipole and perpendicular to it. The third half top dipole is mounted in the upper arm in the immediate vicinity of the third half horizontal, left dipole and perpendicular to it. The third vertical half of the bottom dipole is mounted in the lower arm in the immediate vicinity of the third half of the horizontal, right dipole and perpendicular to it. The fourth vertical half top dipole is mounted on the upper arm in the immediate vicinity of the fourth half horizontal dipole, right and perpendicular to it. The fourth vertical lower half-dipole is mounted in the lower arm in the immediate vicinity of the fourth horizontal, left-hand dipole and perpendicular to it. The fifth vertical half-top dipole is mounted in the upper arm in the immediate vicinity of the fifth horizontal left dipole and perpendicular to it. The fifth vertical half-bottom dipole is attached to the lower arm in the immediate vicinity of the fifth horizontal dipole, right and perpendicular to it. The sixth vertical half top dipole is attached to the upper arm in the immediate vicinity of the sixth half horizontal dipole right and perpendicular to it. The sixth vertical half of the bottom dipole is mounted in the lower arm in the immediate vicinity of the sixth half horizontal, left dipole and perpendicular to it. The seventh vertical half-top dipole is mounted in the upper arm in the immediate vicinity of the seventh left-hand horizontal dipole and perpendicular to it. The seventh vertical half of the bottom dipole is mounted in the lower arm in the immediate vicinity of the seventh horizontal dipole, right perpendicular to it. The eighth vertical half top dipole is mounted in the upper arm in the immediate vicinity of the eighth horizontal right dipole and perpendicular to it. The eighth vertical half of the lower dipole is mounted in the lower arm in the immediate vicinity of the eighth half horizontal, left dipole and perpendicular to it. The ninth vertical half top dipole is attached to the upper arm in the immediate vicinity of the ninth half horizontal dipole, left and perpendicular to it. The ninth vertical half of the bottom dipole is mounted in the lower arm in the immediate vicinity of the ninth half of the horizontal right and perpendicular to it. The tenth vertical half top dipole is mounted in the upper arm in the immediate vicinity of the tenth horizontal right dipole and perpendicular to it. The tenth vertical half of the bottom dipole is mounted in the lower arm in the immediate vicinity of the tenth half of the horizontal dipole, the left one perpendicular to it. The upper and lower arms of the antenna are located parallel, one above the other.

Claims (3)

One end of each dipole has longitudinal cuts on the outer surface that form ridges and furrows along a length approximately the length of the sides of the cross section of the arms. One end of the dipole has cross cuts on its outer surface, along the length similar to the length of the sides of the cross section of the arms. The advantage of the antenna according to the utility model is the convenience of using the antenna, without the necessity to disassemble it, with a variable and perpendicular linear polarization system. The object of the utility model is shown in the drawing, in which Fig. 1 shows a general view of the antenna and its components, where only selected half dipoles are marked, and Fig. 2 - a half-dipole. In the log-periodic antenna, in the through holes of the arms 11 and 12, located parallel one above the other and connected with insulating crossbars 17, there are sets of straight half dipoles from 1 to 10, from 1 'to 10', from I to X and from Γ to X ', which form the vertical linear polarization wave receiving system and the horizontal linear polarization wave receiving system. Each horizontal half-dipole I, ΙΓ, III, IV ', V, VI', VII, VIII ', IX and X', attached with one end in the upper arm, corresponds to one half-vertical dipole 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10 attached with one end to upper arm 11. Each half of the horizontal dipole Γ, II, III ', IV, V', VI, VII ', VIII, IX' and X, fitted with one end in the lower limb 12, corresponds to one half vertical dipole 1 ', 2', 3 ' , 4 ', 5', 6 ', 7', 8 ', 9' and 10 'secured with one end to the lower arm 12. In the antenna according to the utility model, half dipole 1 is mounted in the upper arm 11 in the immediate vicinity of the half dipole I and perpendicular to it, and the half dipole 1 'is mounted in the lower arm 12 in the immediate vicinity of the half dipole I' and perpendicular to it. The half dipole 2 is mounted in the upper arm 11 in the immediate vicinity of the half-dipole II 'and perpendicularly to it, and the half dipole 2' is mounted in the lower arm 12 in the immediate vicinity of the half-dipole II and perpendicular to it. The half dipole 3 is mounted in the upper arm 11 in the immediate vicinity of the half-dipole III and perpendicular to it, and the half dipole 3 'is mounted in the lower arm in the immediate vicinity of the half dipole ΙΙΓ and perpendicular to it. The half-dipole 4 is mounted in the upper arm 11 in the immediate vicinity of the half-dipole IV and perpendicular to it, and the half-dipole 4 'is mounted in the lower arm 12 in the immediate vicinity of the half-dipole IV and perpendicularly to it. The half dipole 5 is mounted in the upper arm 11 in the immediate vicinity of the half-dipole V and perpendicular to it, and the half-dipole 5 'is mounted in the lower arm 12 in the immediate vicinity of the half-dipole V and perpendicular to it. The half-dipole 6 is mounted in the upper arm 11 in the immediate vicinity of the half-dipole VI 'and perpendicular to it, and the half-dipole 6' is mounted in the lower arm 12 in the immediate vicinity of the half-dipole VI and perpendicularly to it. The half dipole 7 is mounted in the upper arm 11 in the immediate vicinity of the half-dipole VII and perpendicular to it, and the half-dipole 7 'is mounted in the lower arm 12 in the immediate vicinity of the half-dipole VII' and perpendicular to it. Half dipole 8 is mounted in the upper arm 11 in the immediate vicinity of the half-dipole VIII 'and perpendicular to it, and the half-dipole 8' is mounted in the lower arm 12 in the immediate vicinity of half-dipole VIII and perpendicular to it. the dipole 9 is mounted in the upper limb 11 in the immediate vicinity of and perpendicular to the half dipole IX, and the half-dipole 9 'is mounted in the lower limb 12 in the immediate vicinity of and perpendicular to the half dipole IX'. The half dipole 10 is mounted in the upper arm 11 in the immediate vicinity of the half-dipole X 'and perpendicular to it, and the half-dipole 10' is mounted in the lower arm 12 in the immediate vicinity of the half-dipole X and perpendicular to it. One end of the dipole 1 to 10 and 1 'to 10' and I to X and Γ to X 'has longitudinal cuts 13 on the outer surface, which form ridges and furrows, along a slightly longer length to the length of the sides 15 of the cross-section of the arms 11 and 12, and the tips of the dipoles 1 to 10 and 1 'to 10' and I to X and I 'to X' protruding from the openings of the arms 11 and 12 are upset. The free end of each dipole has a cap 18. The antenna is attached to the mast by a handle 19. The ends of arms 11 and 12 are secured with plugs 20 and a cap 16. The antenna has a power supply 14 and a cable 21. Protective caveats 1. A logarithmic-periodic antenna with straight half-dipoles, mounted in through holes in the arms in the form of aluminum profiles, connected with insulating crossbars, characterized by the fact that the systems of simple half-dipoles create a system for receiving waves with linear vertical polarization and systems for receiving waves with horizontal linear polarization, in which each half dipole (I, ΙΓ, III, IV ', V, VI', VII, VIII ', IX and X') horizontal, fixed at one end in the upper arm (11) corresponds to one half dipole (1, 2, 3 , 4, 5, 6, 7, 8, 9 and 10) vertical, fixed with one end in the upper arm (11), and with each half of the dipole (Γ, II, III ', IV, V', VI, VII ', VIII , IX 'and X) of the horizontal, fixed with one end in the lower arm (12) corresponds to one half dipole (1', 2 ', 3', 4 ', 5', 6 ', 7', 8 ', 9' and 10 ' ) vertical, attached with one end in the lower arm (12), with each half dipole (1, 2, 3, 4, 5, 6, 7, 8, 9 and 10) vertical, the upper one is perpendicular to the corresponding dipole (I, II ', III, IV', V, VI ' , VII, VIII ', IX and X') next to it, and each half dipole (1 ', 2', 3 ', 4', 5 ', 6', 7 ', 8', 9 'and 10 ') vertical, the lower one is perpendicular to the corresponding dipole (Γ, II, III', IV, V ', VI, VII', VIII, IX 'and X) in its immediate vicinity, the arms (11 and 12 ) are located parallel, one above the other. 2. Antenna according to claim The method of claim 1, characterized in that one end of the dipole (1 to 10 and 1 'to 10' and Ido X and Γ to X ') has longitudinal cuts (13) on the outer surface which form ridges and furrows along the length similar to the length of the sides (15) the cross section of the arms (11 and 12). 3. Antenna according to claim The method of claim 1, characterized in that one end of the dipole (1 to 10 and V to 10 'and I to X and Γ to X') has cross cuts (13) on the outer surface, along the length close to the length of the sides (15) of the cross section of the legs (11 and 12).