SU792299A1 - Variable inductance coil - Google Patents

Description

The invention relates to electrical engineering and radio engineering, can be used as an adjustment body in matching devices of the antenna-dipher path, in which the inductance must be changed from zero to a maximum value of ⁵ .

A variable inductor coil is known that contains a frame made in the form of two cylindrical drums, one of which is dielectric, a flexible wire winding, and a rotation mechanism for rotating the drums in different directions [1].

To increase the inductance, it is necessary to increase the number of turns or the diameter of the frame, which leads to an increase in the dimensions of the coil. In addition, rewind the windings from one drum to another with double. bending _Μ reduces the reliability of the device.

Known coil of variable inductance, which contains the frame, made in vice cylindrical bar 2 bars, one of which is dielectric, a flexible winding, wires and a rotation mechanism that provides rotation of the bar—, bars in different directions [2j.

To increase the inductance, an additional inductor is placed inside the dielectric drum. Such a technical solution increases the inductance to a limited extent, since the dimensions of the internal coil are limited by the diameter of the dielectric cylinder. In addition, the presence of an additional control element leads to an increase in the dimensions of the device, and the rewinding of the winding turns from one reel to another with double bending of the wire reduces the reliability of the device.

Also known is a variable inductor coil containing two cylindrical drums, one of which is made of dielectric, a winding of bare flexible wire placed on the drums with the possibility of rewinding from one drum to another £ 3].

762299

This coil is closest to the invention in technical essence and the achieved result. It is reliable in operation, since the wire is rewound from one reel to another with one-sided bending, i.e., without double bending.

However, the range of regulation of its inductance is small, and the implementation of the second drum with a conductive purpose is to short-circuit the coils of the flexible wire located on it and does not allow them to play the role of inductance.

The aim of the invention is to expand the range of regulation of the inductance without increasing the dimensions of the coil.

This goal is achieved in that the coil of variable inductance, containing two cylindrical drums, one of which is made of dielectric, a winding of bare flexible wire placed on the drums with the ability to rewind from one drum to another, is equipped with an additional winding of bare wire, and the second drum It is also made of a dielectric, on which an additional winding is wound with a step equal to the diameter of the main winding wire, and is rigidly fixed to it.

An increase in the range of regulation and inductance is provided due to the fact that additional inductance is formed in the shorted turns of the rigidly fixed winding of the second drum, which is equal to the inductance of the winding from the flexible wire.

The drawing shows the proposed. Coil of variable inductance.

The coil has a housing 1, on which, with the help of bearings, two drums 3 and 4. On which a winding 4 is installed, a water winding 6 is placed. The end 7 of the winding 5 is electrically connected to the end 8 of the winding 6. The second ends of the winding 5 and 6 are electrically connected to the collector rings 9 and 10, respectively. To the slip rings 9 and 10 summed sliding contacts 11 and 12, respectively. The gears are placed coaxially at the ends of the drums: gear 13 is on the drum 3, gear 14 is on the drum 4. The gears 13 and 14 are engaged with the gear 15, which is controlled by the handle 16. Magnetically conductive cores 17 are placed inside the ba- ₅₅ gibs 3 and 4.

The device operates as follows.

installed drum 3 _hast5. On a drum from flexible pro40

When the handle 16 is rotated counterclockwise, both drums 3 and 4 begin to rotate clockwise. The winding 6 of the flexible wire is rewound from the drum 4 to the drum 3 and lies between the turns of the winding 5 of this drum. The edges of the windings 6 and 5 located in this way are in contact on one drum, and a continuous conductive cylindrical surface is formed from shorted turns on the drum 3. Due to the smooth reduction of the turns of the winding 6 and the shortening of the turns of the winding 5, the inductance of these windings decreases smoothly. The number of turns on both drums is the same. When the coils are completely rewound from the drum 4, the turns of the drum 3 are all shorted and the total inductance is zero. When the handle 16 is rotated in the opposite direction, the reverse process occurs: the turns of the winding 6 are wound from the drum 3, the turns of the winding 5 are opened, and the total number of turns on the two drums increases. In practice, the inductance value can be reached up to 100 μg or more, if a magnetic circuit 17, for example, ferrite, is placed inside both drums.

The use of the invention will increase the range of regulation of the inductance in comparison with the known design in 2 times or significantly reduce the dimensions of the coil.

Claims (3)

The invention relates to electrical engineering and radio engineering, can be used as an adjustment body in matching devices of the antenna-dipole path, in which the inductance needs to be changed from zero to the maximum value. A known variable inductance coil containing jfapkac, made in the form of two cylindrical drums, one of which is dielectric, a winding of flexible wire and a rotation mechanism that provides rotation of the drums in different directions lj. To increase the inductance, it is necessary to increase the number of turns or the diameter of the frame, which leads to an increase in the dimensions of the coil. In addition, rewinding windings from one drum to another with double bending reduces the reliability of the device. A known variable inductance coil, which contains a frame made in the form of cylindrical drums, one of which is dielectric, a flexible winding, wire, and a rotation mechanism that rotates the bar- and bans in different directions 2. To increase the inductance, an additional inductance is placed inside the dielectric drum . This technical solution increases the inductance within a limited range, since the dimensions of the inner coil are limited by the diameter of the dielectric cylinder. In addition, the presence of an additional control leads to an increase in the dimensions of the device, and the winding of the windings from one drum to another with a double bending of the wire reduces the reliability of the device. Also known is a variable inductance coil containing two cylindrical drums, one of which is made of a dielectric, a winding of a bare flexible wire placed on the drums with the possibility of rewinding from one drum to the other h. Ego coil is closest to the invention by its technical essence and to the perceptible result. It is reliable in operation, since the rewinding of the wire from one drum to another occurs with a sleep-sided bending, i.e. without double bending it. However, the range of regulation of its inductance is small, and making the second drum conductive is aimed at shorting the coils of the flexible wire located on it and does not allow them to play the role of inductance. The aim of the invention is to expand the range of regulation of inactivity without increasing the size of the coil. This goal is achieved by the fact that a variable inductance coil consists of two cylindrical drums, one of which is made of dielectric, the winding of bare flexible wire placed on the drums with the possibility of rewinding from one drum to another is provided with an additional winding of bare wire, and the second drum is made also from a dielectric, on which an additional winding is wound with a step equal to the diameter of the main coating wire, and is rigidly fixed on it. The increase in the regulation range and inductance is ensured by the fact that additional inductance is formed in the uncorrected turns of the rigidly fixed winding of the second drum, is equal to the inductance of the winding of the flexible wire. The drawing shows the proposed. Inductance coil. The coil has a housing 1, on which two bearings 3 and 4 are mounted with the help of bearings 2. A winding 5 is installed on the jKecT drum 3. A winding 6 of a flexible wire is placed on the drum 4. The end 7 of the winding 5 is electrically connected to the end 8 of the winding 6. The second ends of the winding 5 and 6 are electrically connected to the collector rings 9 and 10, respectively. Slip contacts 11 and 12, respectively, are connected to the current collector rings 9 and 10. The gears are coaxially mounted on the ends of the drums: on drum 3 there is gear 13, on drum 4 there is gear 14. Gears 13 and 14 are coupled with gear 15, which is controlled by knob 16. Inside the drums 3 and 4 are placed magnetic conductors 17. The device operates as follows in a way. When the knob 16 is rotated counterclockwise, both drums 3 and 4 begin to rotate clockwise. The winding 6 of the flexible wire is rewound from the drum 4 to the drum 3 and lies between the turns of the winding 5 of this drum. The edges of windings 6 and 5 so arranged on one drum are in contact, and a continuous conductive, cylindrical surface of shorted turns on drum 3 is formed. Due to the smooth reduction of windings of winding 6 and shorting of windings of winding 5, the inductance of these windings decreases smoothly. The number of turns on both drums is the same. With the full winding of the turns from the drum 4 turns of the drum 3 are all shorted and the total inductance is zero. When the knob 16 is rotated in the opposite direction, the reverse occurs: the turns of the winding 6 wind off the drum 3, the turns of the winding 5 open and the total number of turns on the two drums increases. Practically, the value of inductance can be reached up to 100 μg or more if the magnetic core 17, for example ferrite, is placed inside both reels. The use of the invention will allow to increase the inductance control range compared to the known design by 2 times or significantly reduce the dimensions of the coil. Claims of the invention A variable inductance coil comprising two cylindrical drums, one of which is made of a dielectric, a coil of bare flexible wire, placed on the drums with the possibility of rewinding from one drum to the other, characterized in that in order to extend the range of inductance control without increasing the dimensions of the coil, the coil is supplied with an additional winding from a bare root, and the second drum is made of a dielectric, on which an additional winding is wound with a step equal to rovoda main winding, and ECTS zakreplrna on it. Sources of information taken into account in the examination 1. US Patent No. 26669О5, l. 336-15, 1961. 2. US patent M 2993182, l. 336-15, 1961. 3. US patent No. 3001161, l. 336-15, 1961.