KR200312224Y1 - Toroidal inductor assembly - Google Patents

Abstract

A toroidal inductor assembly is disclosed. The toroidal inductor assembly according to the present invention is characterized in that it comprises a toroidal core with a wire wound, a spool housing for inserting the toroidal core, and a round bar having a predetermined length installed in the spool housing. By using the stress is not applied to the wire and core is secured to extend the life and reliability, and also has the advantage that the standardization can be simplified by simplifying the process to enable the unskilled work.

Description

Toroidal inductor assembly

The present invention relates to a toroidal inductor assembly, and more particularly, to a toroidal inductor assembly having a spool housing for feeding a toroidal inductor.

Toroidal inductor installed in communication equipment, satellite repeater, etc. removes noise by using electromagnetic induction, and uses primary and secondary ferrite cores. It is produced by winding a coil wire (hereinafter referred to as "wire") on the side.

1A shows a conventional toroidal inductor. Referring to the drawings, a wire 12 coated with an insulating material such as enamel on the core 11 of the toroidal coil is wound on both sides of the core 11, which is most commonly used. Since the wire 12 itself is attached to and supported by a substrate (not shown), when the thickness of the wire 12 is thin, there is a problem in that durability is particularly weak when the wire 12 is mounted.

Also shown in Figure 1b is another conventional toroidal inductor assembly. Referring to the drawings, the conventional toroidal inductor assembly 10 has a toroidal core 11, a wire 12 wound around the core 11, and a core on which the wire 12 is wound ( 11, an epoxy 16 for molding, a washer 15 provided on the upper and lower portions of the epoxy 16, a nylon bolt 13 and a nut 14 for fixing the assembly to the printed circuit board 19. It includes.

The conventional toroidal inductor assembly 10 having the above structure is manufactured and adjusted through the following process.

The conventional toroidal inductor assembly 10 of another type first winds the wire 12 around the core 11 in a predetermined direction and number of times. The bolt 13 is then inserted through the wound core 11 and then secured with a nut 14 to the printed circuit board 19. Next, the insulator is stripped from the end portion (not shown) of the wire 12 by a predetermined length and soldered to the substrate 19. Then, the test equipment (not shown) is used to fine tune the test procedure and check its characteristics.

To reduce the number of turns during fine adjustment, disassemble the assembled bolts 13 and nuts 14. Next, the end of the wire 12 to be shortened is removed after the soldering is removed from the substrate 19.

After that, the number of windings is reduced and the insulation is peeled off by a predetermined length at the end of the wire 12, the solder is again soldered to the substrate 19, and the test is performed again. In addition, when it does not meet the specifications required in the fine adjustment process, the wire 12 is again released, soldered to the substrate 19, and connected to the test equipment, and the process is repeated again and again until the required waveform and value is obtained. . Once the required waveforms and values are obtained, they are finally permanently fixed with epoxy (16).

In the other conventional toroidal inductor assembly 10 manufactured by the above-described process, the wire 12 is exposed as it is by soldering the wire 12, which is not separately supported, to the substrate 19. The defect rate due to the damage of the wire 12 is high even in the impact, the process movement, the cleaning, and the minute impact, and the poor soldering is caused by not completely removing the coating of the tip of the wire 12.

In particular, due to the complicated and cumbersome process, a skilled technician is required, and there is a disadvantage due to excessive demand of airborne.

In addition, there is a fear that a failure occurs because the wire 12 is mounted in the system after permanent fixation. That is, there is a risk that the wire 12 is broken and the whole system is interrupted when used in a satellite, for example, in an extremely cold extreme environment such as in space.

The present invention was devised to solve the above problems, and provides a toroidal inductor assembly having a fixed jig-in spool housing which is easy to handle and adjust, and can be standardized, and thus has high reliability after installation. There is this.

Figure 1a is a schematic plan view showing a conventional toroidal inductor assembly.

1B is a schematic side view of another conventional toroidal inductor assembly.

Figure 2 is a schematic side view showing a partial ablation of the toroidal inductor assembly according to the present invention.

3 is a schematic top view of a toroidal inductor assembly according to the present invention;

4 is a schematic cross-sectional view of the spool housing, which is a feature of the toroidal inductor assembly according to the present invention, taken along the cutting plane of IV-IV of FIG.

5 is an enlarged cross-sectional view of a portion “A” of FIG. 2.

<Description of Symbols for Main Parts of Drawings>

11.core 12.wire

13,24a.nut 19.substrate

27 .. Spool Housing 27b. Round Bar

27 d .. Inspection hole 28 ... Molding material

Toroidal inductor assembly according to the present invention to achieve the above object is a toroidal core wire wound, spool housing for inserting the toroidal core; And a round bar of a predetermined length installed in the spool housing.

In addition, the spool housing has a disk-shaped lower wall of a predetermined thickness, an upper spool installed on a central upper surface of the lower wall and having a screw groove formed on an outer circumference, and an outer wall and the outer wall extending upward from an outer circumferential surface of the lower wall. It is preferable to further include a protrusion formed to protrude at a predetermined interval from the outer peripheral surface of the upper end extending to the top of the.

In addition, it is preferable to further include an outer wall for forming a through hole at predetermined angular intervals so as to insert the round bar in the groove bottom between the projections. In addition, it is preferable that the through hole further includes an outer wall formed at an interval of 60 degrees. In addition, the spool housing preferably further comprises a lower spool facing the upper spool and formed in the center of the rear surface of the lower wall so as to be fixed to a substrate with a screw groove formed on the outer circumference thereof.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Here, the same reference numerals as the reference numerals of the drawings described above indicate the same components.

A toroidal inductor assembly according to the present invention is shown in FIGS. 2 to 5.

Referring to the drawings, the toroidal inductor assembly 20 of the present invention includes a toroidal core 11 wound with a wire 12 and a spool housing 27 for inserting and receiving the toroidal core 11. do.

The spool housing 27 is provided with a disk-shaped lower wall 27g, an upper spool 27e formed on a central upper surface of the lower wall 27g, and having a screw groove 27f formed on its outer circumference, and the upper spool 27e. A lower spool (27f ') having a screw groove (27f) formed on an outer circumference of the lower wall (27g) and opposed to the lower wall (27g); and an outer wall (27a) extending upward from an outer circumferential surface of the lower wall (27g). The back surface of the lower wall 27g is inserted through a through hole formed in the groove 27c formed to protrude at a predetermined interval from the upper outer circumferential surface of the outer wall 27a and the groove 27c between the protrusion 27h. A round bar (27b) is provided to protrude a predetermined length from.

Referring to FIG. 3, the round bar 27b is formed of a tin alloy material, and an inspection hole 27d is provided at the bottom to check a peeled off state of the wire 12.

The spool housing 27 is preferably formed of a plastic material such as heat resistant PBT.

In addition, the toroidal core 11 on which the wire 12 is wound is fitted to the spool 27e provided at the center of the spool housing 27 and coupled as the nut 24a and the washer 25.

Next, the wire 12 is inserted into the round bar 27b inserted into the bottom surface of the groove 27c formed between the outer wall 27a of the spool housing 27.

The end of the wire 12 (not shown) is peeled off the insulator by a predetermined length, and the state of the coating of the wire is peeled off through the inspection hole 27d to prevent electrical defects when soldering to the substrate 19. .

Then, the lead 22 is applied to the circumference of the round bar 27b protruding below a predetermined length. Until the adjustment is completed, only a small amount of lead 22 is applied to maintain the minimum electrical contact, and the lead 22 The wire 12 is bonded to the round bar 27b made of tin alloy even when the wire is removed. Then, the test equipment (not shown) is used to fine tune the test procedure and check its characteristics. When fine-tuning, the number of turns of the wire 12 can be adjusted to 1/6 turn (TURN) by using the round bar 27b provided in each through hole divided at 60 degree intervals. In addition, the 60 degree angle can be adjusted as needed. After fine adjustment, the core 11 wound around the wire 12 delivered to the spool housing 27 is permanently molded as a molding material 28 such as epoxy and the wire 12 of the round bar 27b is also sufficient. It is soldered with lead 22 so that it is firmly fixed to the substrate 29.

As described above, the toroidal inductor assembly according to the present invention has the following effects.

First, by designing a spool housing, which is a fixed jig, stress is not applied to the wires and cores, thereby prolonging service life and reliability.

Second, by using the fixed jig spool housing, the process can be simplified and standardized so that the unskilled person can work.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the claimed claims.

Claims (7)

A toroidal core wound with wire; A spool housing for inserting the toroidal core; And A round bar of a predetermined length installed in the spool housing; Toroidal inductor assembly characterized in that. The method of claim 1, The spool housing includes a disk-shaped lower wall of a predetermined thickness; An upper spool installed on the center upper surface of the lower wall and having a screw groove formed on an outer circumference thereof; An outer wall extending upward from an outer circumferential surface of the lower wall; And Protrusions protruding at predetermined intervals from an outer circumferential surface of the upper end extending above the outer wall; Toroidal inductor assembly comprising a. The method of claim 2, Toroidal inductor assembly further comprises an outer wall is formed through the through hole at a predetermined angular interval to insert the round bar in the groove bottom between the protrusions. The method of claim 3, wherein Toroidal inductor assembly, characterized in that the through hole further comprises an outer wall formed at an interval of 60 degrees. The method of claim 2, The spool housing further comprises a lower spool facing the upper spool and having a screw groove formed on an outer circumference thereof so as to be installed at the center of the rear surface of the lower wall and fixed to the substrate. The method of claim 1, Toroidal inductor assembly characterized in that the round bar is provided with a test hole to check the peeled off state of the wire at the bottom. The method of claim 1, The wire is inserted into the round bar toroidal inductor assembly, characterized in that connected to the soldering board.