KR870000399B1 - Improvements in antenna - Google Patents

Abstract

This invention is concerned with an antenna for an amateur wireless operator. Inductance (22) and capacitance (18) are adjusted by position-change of antenna element (1). Frequency bandwidth is adjusted by inductance (22) and capacitance (18). Position change of antenna-element is adjusted by motor and screwrod(22). Motor is controlled by control panel(4). Antenna element is constructed by the first tube (13) and the second tube(14). These tubes are material of electrical insulation. Stud(17) is installed in these tube. The antenna is prevented from corrosion because it is covered with cloth.

Description

Transceiver Antenna

1 is a block circuit diagram of an antenna according to the present invention.

2 is a cross-sectional view showing a partial cross section of the antenna according to the present invention.

* Explanation of symbols for main parts of the drawings

1, 1a: antenna component 2: casing

3: Temporary Bushing 4: Mechanical Electronic Control Panel

5: search switch 6, 7: indicator

8 Transformer 9 Coupling Bushing

10: plastic tube 11, 12: support flange

13, 14: aluminum tube 15: bullet fragment

16: bearing bushing 17: antenna stud

18: capacitance 19: flange

20: sleeve 21: coil

22: inductance 23: spiral rod

The present invention relates to an improvement of an antenna for transmitting and receiving, and more particularly, to a transmitting and receiving antenna used by amateur radio engineers.

Conventional antennas can only be used in fixed frequency bands because they operate only at a fixed frequency. Such a system has a disadvantage in that it is difficult to change to an accurate operating point of a required frequency band because the frequency band is fixed.

The present invention has been made in an effort to provide a transmitting / receiving antenna that can be used outside of a fixed frequency and frequency range in order to eliminate such disadvantages.

The transmit / receive antenna according to the present invention has a device for adjusting inductance or capacitance in at least one of the antenna components, and the device has a mechanical electronic unit for adjusting to a required frequency or frequency band. The unit has a control panel to adjust the position of the athena components for the required frequency or frequency band, which is driven by the motor.

The system according to the present invention can rotate to the exact point where the antenna can operate, thereby obtaining the maximum effect at the required operating frequency.

The antenna of the present invention is very economical because the structure is simple and the frequency or band is adjusted by adjusting the inductance or capacitance until the required operating band or frequency is achieved.

Furthermore, the component of the antenna consists of a tube containing a first tube and a second tube formed of an electrically conductive material, the tube consisting of an electrically insulating material and a stud installed in the tube for each side movement. A stub is installed in the stud, the coil is wound around the sleeve and the stud is connected to the motor and the stud is properly connected to the motor by a helical rod.

In the embodiment of the present invention, the antenna is provided with a pair of extendable couplings, and each antenna component is installed in each of the coupling bushings.

Referring to the configuration and operation of the antenna according to the present invention in detail with the drawings as follows.

In FIGS. 1 and 2 the antenna according to the invention consists of a first antenna component 1 and a second antenna component 1a and comprises a first antenna component 1 and a second antenna component 1a. ) Is driven by a motor and a reducer, which are installed inside the casing 2 serving as a support of the antenna unit, and the casing 2 is covered with a cover 2 '.

Here, the antenna unit has a temporary bushing 3 and radiating elements extending from several passive devices and units, and the antenna system of the present invention can be used not only for a single component antenna such as a dipole antenna, but also for a vertical antenna and a so-called loop antenna. .

The motor is controlled by a mechanical and electronic control panel 4 with a search switch 5, indicators 6 and 7 and a transformer 8, and a 6-220V direct current or alternating current is applied to the antenna components.

Here, the mechanical and electronic unit can change the power and volume according to the antenna power type and size, automatically adjust and fine tune to the predetermined frequency or the set power, and the indicator displays the adjusted value and the changed power type and frequency. Will follow.

In FIG. 2, the casing 2 is provided with a coupling bushing 9 for each antenna component, each coupling bushing 9 having a respective plastic tube having a support flange 11, 12 installed therein. 10, a pair of aluminum tubes (13, 14) is installed inside the plastic tube (10). One end of the aluminum tube 13, i.e., the far side away from the coupling bushing 9, is provided with a carbon fragment 15, and one end of the aluminum tube 14, i.e., one end adjacent to the aluminum tube 13, is made of plastic. The formed bearing bushing 16 is installed and the antenna stud 17 is guided by the bearing bushing 16. The antenna stud 17 is supported inside the aluminum tube 14 by the flange 19 formed at the outer end, and the flange 19 works together with the bearing bushing 16 to smoothly slide the antenna stud 17. And prevents the antenna stud 17 from escaping from the aluminum tube 14.

In addition, a sleeve 20 is installed on the antenna stud 17, and the coil 21 is wound on the sleeve 20, and the inductance 22 is adjusted by the coil. It depends on the area of action that is in contact.

The necessary adjustment of the inductance 22 and the capacitance 18 can be adjusted by adjusting the position of the sleeve 20 and the studs 17. The position of the aluminum tubes 13, 14 and the studs 17. The adjustment is made by driving the spiral rod 23 and the motor provided at one end of the stud 17, that is, at one end adjacent to the coupling bushing 9.

In addition, the adjustment of inductance or capacitance can be adjusted by fixing the coil and moving the ferromagnetic core inside the coil, and by installing a chrome-plated iron winding at the inlet of the tube 13 in contact with the ongoing coil 21. You can also adjust.

2 shows the structure of the antenna component 1 of the present invention, in which the structural state of the antenna component 1a having the same shape as the antenna component 1 is not indicated, but the antenna component 1a is an antenna. It is formed identically to the component 1 symmetrically. In this system, the control range of the antenna is very wide. For example, the antenna of the present invention can cover all frequencies from 1.5MC to 30MC used by amateur radio companies.

Since the antenna unit according to the present invention is coated to prevent corrosion or aging and is supported by a support shaft having a diameter of 60 mm, the antenna unit can withstand strong winds of about 100 km / h.

Claims (4)

By adjusting the position of the antenna component (1) to adjust the inductance (22) and capacitance (18), and to adjust the required frequency or frequency band by adjusting the inductance and capacitance, Position change is controlled by the motor and the spiral bar (23), the motor is a transmission and reception antenna with a mechanical electronic unit is to be controlled by the control panel (4). In the antenna of claim 1, each antenna component 1 consists of a tube containing a first tube 13 and a second tube 14 formed of an electrically conductive material, the tubes being covered with an electrically conductive material. The stud 17 is installed in the tube, the sleeve 20 is installed on the stud, the coil 21 is wound on the sleeve, and the spiral bar 23 is installed at one end of the stud, so that the motor can be properly installed. Connected. The stud (17) according to claim 2, wherein the stud (17) is connected to the motor in the casing (2) by a spiral rod (23). 4. Antenna according to claim 2 or 3, wherein a pair of coupling bushings (9) are provided in the casing (2) and each antenna element (1) is provided in the coupling bushings.

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