KR101459248B1 - Reactor having through hole and cylinder type spacer - Google Patents

Abstract

The present invention relates to a reactor which a core which includes top and bottom yoke core parts which are arranged on a top position and a bottom position to face each other, leg core parts which are arranged left and right to face each other between the top and bottom yoke core parts, and a combination hole which is formed on the top and bottom yoke core parts and the leg core parts to correspond to each other and is formed in top and bottom longitudinal directions, and a fixing bracket which is arranged on the bottom of the core or the top and bottom of the core and includes a combination corresponding to the combination hole of the core, and a combination member which passes through the combination holes of the core and the fixing bracket and combines the core with the fixing bracket by integrally arranging the core and the fixing bracket.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reactor having a through-hole and a cylindrical spacer,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reactor, and more particularly, to a reactor using a core and a cylindrical spacer having a through-hole for improving the assembling workability of the core.

Generally, reactors are used for various purposes. As a typical reactor, there are a series reactor which is connected in series to the motor circuit to limit the current at the time of short-circuit, a parallel reactor which stabilizes the current sharing between the parallel circuits, Current limiting reactors that are connected in series to the motor circuit to limit the starting current, shunt reactors that are connected in parallel to the transmission line to compensate for phase leading reactive power or suppress abnormal voltage, Neutral reactors that are used to limit the ground fault current flowing in the event of a ground fault in a power system connected to ground, and arc extinguishing reactors that automatically extinguish arcing when a 1-wire ground fault occurs in a 3-phase power system. have.

Electrical components such as a transformer or a choke coil including the reactor are required to satisfy predetermined electrical specifications in relation to an electric circuit or the like to be used. In particular, when the reactor is used in a step-up reactor of a high-current circuit, etc., it is important that the DC superposition characteristic of the high current value satisfies the specification.

A conventional reactor having such an action generally includes a core composed of upper and lower yoke core portions and leg core portions.

The core is made of a magnetic material, and a sheet serving as a magnetic gap can be interposed between the magnetic materials.

Among the cores, a winding is wound around the leg core portion to obtain a predetermined electrical characteristic.

In the reactor manufacturing process according to the related art, the upper and lower yoke core portions and the leg core portions having a rectangular parallelepiped shape are generally manufactured by punching or block molding. In the block molding using a punch or press molding, There is a problem that a load is concentrated on an edge and a crack is likely to occur in the vicinity of the edge.

The upper and lower yoke core portions and the leg core portions thus fabricated are adhered and fixed to each other by an adhesive to form a core, and it is difficult to mechanically assemble and adjust the gap and parallel state with respect to each of the cores, There was a problem that the readjustment was necessary.

Further, in order to fix the manufactured reactor to another part, a separate fixing part is required, and therefore there is a need to reassemble the reactor with the case and the like.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and it is an object of the present invention to improve the shape of the upper and lower yoke cores and the leg core portions, align the engaging holes formed through the upper and lower yoke core portions and the leg core portions, And to provide a reactor capable of improving manufacturing stability and assembling workability by integrally joining them through the through-holes.

In order to accomplish the above object, the reactor according to the present invention includes upper and lower yoke core portions arranged to face each other at upper and lower positions, and left and right sides facing each other between the upper and lower yoke core portions Wherein the upper and lower yoke core portions and the leg core portions are provided with a coupling hole penetrating through the upper and lower yoke core portions and the leg core portion to correspond to each other in the longitudinal direction of the upper and lower yokes, A fixing bracket having a coupling hole corresponding to the coupling hole and a coupling member passing through the coupling holes of the core and the fixing bracket to integrally align and fasten the core and the fixing bracket.

According to the present invention, each of the upper and lower yoke core portions has an arc-shaped portion on both sides of the length, has a cross-sectional shape extending in the longitudinal direction, or is formed into an elliptical cross-section having a long length, and the leg core portion has a circular cross- .

According to the present invention, a spacer made of an insulating material is disposed on the coupling surface between the upper and lower yoke core portions and the leg core portion, and the spacer is formed of a circular plate having a coupling hole at the center thereof, The cylinder portion is formed to extend in the direction crossing the upper and lower sides with reference to the reference.

According to the reactor of the above-described construction, the upper and lower yoke core portions are formed in a shape having an arc-shaped portion on both sides and extending in the longitudinal direction or having an elliptical cross-section, and the leg core portion has a circular cross- Therefore, there is no stress concentration point such as an edge existing in the rectangular cross section of the rectangular parallelepiped core, and cracking due to stress concentration can be prevented at the time of block forming.

Particularly, since the leg core portion has a circular cross-section, the winding number and the characteristics are the same, but the winding length of the coil winding is shortened, thereby reducing the material cost for the coil winding.

In addition, according to the present invention, the yoke core portion, the leg core portion, and the fixing bracket are formed by machining the coupling holes that coincide with each other and integrally aligned and fastened through the fastening member, It is possible to omit the fixation for assembling the fixing bracket again after the assembling of the reactor.

According to the present invention, since the spacer is provided between the yoke core portion and the leg core portion, the coupling hole positions of the yoke core portion and the leg core portion can be easily matched and held at the time of fastening the fastening member, and the inductance characteristics can be easily secured have. Further, the spacer can serve to insulate the fastening member from the leg core portion.

1 is a perspective view showing a reactor according to the present invention.
2 is a cross-sectional view taken along the line AA in Fig.
3 is an exploded perspective view showing a reactor according to the present invention.
4 is a perspective view showing another embodiment of the reactor according to the present invention.
5 is a perspective view showing a spacer constructed in a reactor according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a reactor according to the present invention, FIG. 2 is a cross-sectional view of FIG. 1, and FIG. 3 is an exploded perspective view showing a reactor according to the present invention.

1 to 3, the reactor R according to the present invention includes a core 100 composed of upper and lower yoke core portions 110 and 120 and leg core portions 130 and 140, And a fixing bracket 200 to be mounted. The leg core portions 130 and 140 of the core 100 are inserted into the bobbin 150 and the coil 160 is wound around the bobbin 150.

First, the upper and lower yoke core portions 110 and 120 of the core 100 are arranged such that the upper and lower yoke core portions 110 and 120 are opposed to each other at the upper and lower positions with the planar reactor core portion. According to the present invention, the upper and lower yoke core portions 110 and 120 have arc-shaped portions on both sides and are formed to have a longitudinally extending cross-section or an elongated elliptical cross-section.

The leg core portions 130 and 140 may be cylindrical reactor cores so as to face each other between the upper yoke core portion 110 and the lower yoke core portion 120. [ Left, and right. According to the present invention, the leg core portions 130 and 140 have a circular cross-section.

Here, the leg core portions 130 and 140 may be composed of one single piece, or two or more pieces may be aligned with each other.

The upper and lower yoke core portions 110 and 120 and the leg core portions 130 and 140 constructed as described above may be formed of an amorphous laminate that forms a core portion by stacking and aligning a plurality of single thin plates, And the lower yoke core portions 110 and 120 have arc-shaped portions on both sides and are formed in a shape having a cross-section or an elliptical cross-sectional shape extending in the longitudinal direction, and the leg core portions 130 and 140 have a cylindrical shape It is possible to prevent the occurrence of cracks due to stress concentration because there are no stress concentration points such as corners existing in the rectangular cross section of the rectangular parallelepiped core portion. As a result, the manufacturing stability of the core portion and the defect rate can be reduced.

Particularly, since the leg core portions 130 and 140 have a circular cross-section, the winding number and the characteristics of the leg core portion are the same as those of the conventional leg core portion, but the winding length of the coil winding is shortened so that the material cost for the coil winding can be reduced .

That is, since the cross-section of the leg core portion 130, 140 inserted into the bobbin 150 is changed to a circular shape, the bobbin 150 can also have a cylindrical center portion, The length per turn) is reduced, and the length of the coil winding can be remarkably reduced. Although the reactor according to the embodiment of the present invention shown in FIGS. 1 and 2 is provided with the bobbin 150, a bobbin reactor is also possible.

According to the present invention, in order to stack and fix the upper and lower yoke core portions 110 and 120 and the leg core portions 130 and 140 to each other, a coupling hole H is formed longitudinally at the center of the leg core portions 130 and 140, The coupling holes H are also formed in the upper and lower yoke core portions 110 and 120 corresponding to the coupling holes H of the core portions 130 and 140. That is, the upper and lower yoke core portions 110, 120 and the leg core portions 130, 140 are formed with coupling holes aligned in the longitudinal direction thereof.

In addition, a coupling hole (H) is formed in the fixing bracket (200) so as to be coupled to the lower yoke core portion (120).

Accordingly, the fastening member 300 is coupled to the upper and lower yoke core portions 110 and 120, the leg core portions 130 and 140, and the fixing bracket 200 through the coupling holes H in a state where the coupling holes H of the upper and lower yoke core portions 110 and 120, Assembly and fixation can be completed by inserting.

According to the present invention, a fixing bracket 200 is provided on the lower surface of the core 100. The fixing bracket 200 includes a supporting portion 210 in which a coupling hole H is formed and a fixing portion 220 in which a fixing hole 225 is formed. The fixing portion 220 is fixed to both sides of the supporting portion 210 in a downward direction As shown in Fig. It is possible to prevent the fixing nut 310 of the fastening member 300 located on the lower surface of the supporting portion 210 from interfering with the mounting surface on which the reactor R is fixed, It is possible to easily mount the reactor R on the mounting surface through the through holes 225 and 225. [

Referring to FIG. 4, the fixing bracket 200 may be provided on both upper and lower surfaces. 3, the reactor R is used when the leg core portions 130 and 140 are installed in a standing manner perpendicular to the mounting surface, and in the embodiment shown in FIG. 4, the leg core portions 130, 140 are installed on the mounting surface in a manner of lying down. In the fixing bracket 200 of the embodiment shown in FIG. 4, a fixing portion 220 having a fixing hole 225 formed at one side of a supporting portion 210 formed with a coupling hole H is bent. The reactor R is fixed to the mounting surface using a fixing member inserted through the fixing hole 225 formed in the fixing portion 220. [

According to the present invention, since the fixing bracket 200 can be integrally fixed together when the core 100 is assembled, and it is not necessary to form the reactor R in the inside or surrounding it, unlike the conventional case, There is one advantage.

The reactor R according to the present invention comprises a spacer 400. Figure 5 shows a spacer constructed in a reactor according to the invention.

According to the present invention, a spacer 400 is disposed on the coupling surface between the upper and lower yoke core portions 110 and 120 and the leg core portions 130 and 140. The spacer 400 is made of an insulating material.

5, the spacer 400 is formed of a circular plate member 410 having a coupling hole H at the center thereof, and is formed between the upper and lower yoke core portions 110 and 120 and the leg core portions 130 and 140 . The spacer 400 is formed with a cylinder portion 420 extending in a direction crossing up and down with respect to the coupling hole H. As a result, the spacer 400 can be referred to as a cylindrical shape.

The diameter of the cylinder 420 is smaller than the diameter of the coupling hole H so that the cylinder 420 can be inserted into the coupling hole H of the core 100. The fastening member 300 is formed by the spacers 400 provided between the upper yoke core 110 and the leg core portions 130 and 140 and between the lower yoke core portion 120 and the leg core portions 130 and 140 The leg core portions 130 and 140 of the fastening member 300 can be insulated without being in contact with each other since they pass through the coupling holes H of the leg core portions 130 and 140 while being supported by both sides.

The spacers 400 serve as gaps between the upper and lower yoke core portions 110 and 120 and the leg core portions 130 and 140 so that the sheet material used in the known reactor R is omitted, Thereby ensuring the inductance characteristics of the leg portion R and insulating the fastening member 300 and the leg core portions 130 and 140 from each other.

The spacers 400 are inserted into the coupling holes H of the upper and lower yoke core portions 110 and 120 and the leg core portions 130 and 140 so that the upper and lower yoke core portions 110 and 120, The coupling holes H of the coupling portions 130 and 140 can be easily matched and held so that the fastening operation by the coupling member 300 can be easily performed.

According to the present invention, it is possible for the fastening member 300 to have threads formed on the entire body circumferential surface thereof, and to form threads only on the end portions thereof. The fixing nut 310 may be coupled to the end portion of the coupling member 300 protruding outside the support portion 210 of the fixing bracket 200 for fixing the coupling member 300.

As described above, according to the present invention, the coupling holes H coinciding with the upper and lower yoke core portions 110 and 120, the leg core portions 130 and 140, and the fixing bracket 200 are formed and aligned, It is possible to improve the assembling cost and the assembling workability as compared with the conventional reactor R manufacturing process, and by inserting the spacer 400 into the fitting hole H The upper and lower yoke core portions 110 and 120 can be easily matched and the inductance characteristic can be easily secured.

Reference numeral 170 denotes a cover for covering the coil 160 and serves to fix a coil wound around the bobbin 150. [ The terminal 165 of the coil 160 extends outside the cover 170. Reference numeral 500 denotes a washer interposed so as to improve the fastening effect between the upper yoke core portion 110 and the fastening member 300.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications to the embodiments are also within the scope of the claims of the present invention.

R: Reactor H: Coupling hole
100: core 110: upper yoke core part
120: lower yoke core part 130, 140: leg core part
200: fixing bracket 300: fastening member
400: spacer 410: plate material
420: cylinder part 500: washer

Claims (4)

An upper and a lower yoke core portion disposed to face each other at upper and lower positions and a leg core portion disposed left and right to face each other between the upper and lower yoke core portions, Wherein the leg core portion is provided with a core having a coupling hole penetrating through the leg core portion,
A fixing bracket disposed on a lower surface or a lower surface of the core, the fixing bracket having a coupling hole corresponding to the coupling hole of the core;
And a fastening member passing through the coupling holes of the core and the fixing bracket to integrally align and fasten the core and the fixing bracket.
The method according to claim 1,
The upper and lower yoke core portions may have an arc-shaped portion on both sides of the length and have a cross-section of a shape extending in the longitudinal direction or an elliptical cross-
Wherein the leg core portion is formed in a circular cross-section.
3. The method according to claim 1 or 2,
And a spacer made of an insulating material is interposed between the upper and lower yoke core portions and the leg core portion.
The method of claim 3,
Wherein the spacer is formed of a circular plate having a coupling hole at the center thereof, and the cylinder portion extends in a direction crossing the coupling hole.

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