KR101333113B1 - Variable inductor - Google Patents

Abstract

One embodiment of the present invention relates to a variable inductor, which has a simple structure, including a wound coil and a conductive block adapted to move along the spiral of the coil over adjacent coils of the coil, By changing the position and changing the inductance value, it is easy to install and use, and has the effect of obtaining accurate and precise inductance value.

Description

Variable Inductors {VARIABLE INDUCTOR}

One embodiment of the present invention relates to a variable inductor, and more particularly, to a variable inductor having a simple structure that can be set by varying the inductance value by changing the position of the conductor on the coil.

Inductance generally refers to a property that interrupts the flow of electric current due to a change in a magnetic field generated in or around a coil. The symbol used is L and a unit is Henry. This inductance increases as the frequency flowing through the coil increases and the number of turns of the coil increases.

Inductance, together with resistance and conductance, is one of the three major components of an alternating current circuit. Resister and condenser have been used for a long time to convert its characteristics by using volume or variable condenser (Varicon), but there is no device to change inductance and output it.

Accordingly, since the output inductance is fixed in the related art, there is a disadvantage in that it does not properly cope with a newly required inductance value due to factors such as environmental changes, that is, circuit changes after being combined with other devices.

In order to solve the above-mentioned problem, a variable inductor has been proposed in which either the winding part or the iron core part can be moved to change the inductance value. 1 illustrates an example of a variable inductor according to the prior art.

As shown in FIG. 1, the variable inductor 1 according to the related art is provided with a flat pedestal 7, and one side of the pedestal 7 is provided with a winding support 6. On the outer circumferential surface of the winding support 6, a winding portion 3 formed of a plurality of windings is fixedly installed, and the winding portion 3 has an input line (not shown) and an output line (not shown) at predetermined positions, respectively. Connection is installed. An iron core 4 is provided in the winding support 6, and a thread is formed on the outer circumferential surface thereof so that the iron core 4 is screwed to the inner circumferential surface of the winding support 6. Therefore, when the iron core 4 is relatively rotated with respect to the winding 3, the iron core 4 can be inserted into or drawn out of the winding 3.

The variable inductor 1 according to the prior art having such a configuration is screwed to the inner circumferential surface of the winding support 6 when the user grips and rotates the iron core 4 or the winding 3 to obtain a predetermined inductance value. The combined core 4 is rotated relative to the winding 3, and at the same time the core 4 is moved into the winding 3 to be in contact with the winding 3 Losing area will occur. At this time, an inductance value is generated.

The value of inductance can be obtained by Equation 1 below.

Where L = inductance, μ = permeability, A = effective area of the winding, N = number of turns, and l = unit length.

The iron core 4 is relatively rotated with respect to the winding portion 3 so as to widen the area where the iron core 4 and the winding portion 3 are in contact with each other until a desired inductance value is output. In addition, in order to reduce the inductance value, the iron core part 4 is rotated relatively with respect to the winding part 3 so as to reduce the area where the iron core part 4 and the winding part 3 are in contact with each other so as to obtain a desired inductance value. Will be.

The variable inductor 1 having the above structure allows the iron core 4 to be moved inside the winding part 3, so that the inductance value can be changed by changing the permeability and the cross-sectional area. Or it can respond to an electrical device. Such a variable inductor 1 is used for adjusting filter characteristics and resonant frequencies in, for example, an LC filter or a resonant circuit.

However, the variable inductor according to the prior art has a wide range of adjustment of inductance value, but it is not precise. In addition, in the case of using a large number (approximately dozens) of variable inductors, the connection relationship with the capacitor becomes complicated, and in particular, when the cable is used for the connection, the cable is installed due to its flexibility. Of course, there is a problem in that the accurate inductance value is not output.

Accordingly, an embodiment of the present invention provides a variable inductor having a simple structure, which allows the inductance value to be set by varying the position of the conductor on the coil, thereby making it easy to install and use and obtain accurate and accurate inductance value. The purpose is to provide.

A variable inductor according to an embodiment of the present invention, the wound coil; Two or more through holes are formed, wherein at least two of the through holes each include a conductive block through which adjacent windings of the coil are allowed to move along the adjacent windings of the coil.

As described above, according to the present invention, the inductance value can be changed and set by changing the position of the conductor on the coil with a simple structure, thereby making it easy to install and use and obtain an accurate and accurate inductance value.

1 is a perspective view showing an example of a variable inductor according to the prior art.
2 is a front view illustrating a variable inductor according to an exemplary embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 is a front view illustrating a variable inductor according to an exemplary embodiment of the present invention. As shown therein, the variable inductor 10 according to the embodiment of the present invention is a conductive block that is capable of moving along the coil 20 over the wound coil 20 and the adjacent winding of the coil 20. (30).

The coil 20 is formed by spirally winding a wire rod such as a copper wire, for example, to have a substantially cylindrical shape. The windings and the windings wound like this are parallel to each other in the coil 20 at the same interval and in parallel. It is arranged. The coil 20 is preferably made of an elastic material to adjust the overall length, but is not necessarily limited thereto. The coil 20 is a so-called air core coil without a core such as an iron core. In addition, both ends of the coil 20 are provided with connecting rings 21 for connecting devices or input lines and output lines, respectively.

The block 30 is made of a conductive material, for example metal such as aluminum, copper, or the like. The block 30 is composed of a pair of half portions 31 and 32, and on one side of each half portion 31 and 32, two or more groove portions 33 having a semicircular cross section are arranged side by side, and one half portion The half portions 31 and 32 are coupled so that the pair of groove portions 33 in 31 face each corresponding groove portion 33 in the other half portion 32, thereby forming two or more through holes.

Screw holes 34 penetrating the half portions 31 and 32 are formed between the groove portions 33, so that the pair of half portions 31 and 32 are formed by the fixing screw 40 or the bolts and nuts. It can be combined integrally. However, it is not limited to the fastening means such as the above-mentioned fixing screw 40, a pair of half may be coupled by a variety of means, any means as long as it can withstand high voltage.

Block 30 is installed on coil 20 over adjacent windings to act to short both windings. The block 30 may move on the coil 20 along the winding passing through the through hole of the block 30, and the closer to the connecting ring 21 side of the coil 20, the larger the inductance value. That is, the inductance value becomes smaller as it is positioned in the center of the coil 20.

As described above, according to the variable inductor according to the exemplary embodiment of the present invention, since the configuration is simple, the connection relationship becomes simple even when using a large number (approximately dozens) of variable inductors, and the advantage of outputting an accurate inductance value is particularly advantageous. Will be.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10: variable inductor 20: coil
30: block

Claims (5)

Winding coil,
A conductive block formed with at least two through holes, at least two of the through holes each of which are wound by adjacent windings of the coil and capable of moving along adjacent coils of the coil;
Variable inductor comprising a. The method of claim 1,
And the coils are arranged in parallel while having the same spacing of the windings. The method of claim 1,
The block has a pair of halves,
At least one groove portion having a semi-circular cross-section is arranged side by side on each side of the half portion, and the half portions are coupled such that the groove portion at one half portion faces the corresponding groove portion at the other half portion, so that the at least two through holes are formed. Variable inductor formed. The method of claim 3,
Screw holes penetrating the half portions are formed between the groove portions,
The half of the variable inductor coupled by a fixing screw. The method of claim 1,
Variable inductors are provided at both ends of the coil are connected to each other.

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