KR20200006903A - Reactor applicable to inverter refrigerator - Google Patents

Abstract

The present invention relates to a reactor applicable to an inverter refrigerator in response to the reinforcement of the harmonic regulation of an inverter refrigeration model. The present invention relates to the reactor overcoming the current distortion in accordance with the reinforcement of the harmonic regulation of inverter refrigerator from July 2017. The reactor applicable to an inverter refrigerator according to the present invention comprises: a core unit configured to have a coil shape to wind a coil and have an air gap (G) provided at upper end thereof; an upper end unit provided at upper end of the core unit, wherein the contact of the core unit is blocked by the air gap (G); a coupling unit configured to be parallel at both ends centering around the core unit and provided with an intaglio unit to be coupled to an embossment unit provided at the upper end unit; and a protection unit vertically connected to the lower end of the core unit and coupling unit.

Description

Reactor applicable to inverter refrigerator {REACTOR APPLICABLE TO INVERTER REFRIGERATOR}

The present invention relates to a reactor that can be applied to an inverter refrigerator in response to the strengthening of the harmonic regulation of the inverter refrigeration model, and relates to a reactor that overcomes current distortion in accordance with the tightening of the inverter refrigerator harmonic regulation from July 2017.

Typically, air conditioners use passive passive, PSC or active filters as converters to reduce harmonics and control power factor. In this case, a power factor controller (PFC) is generally used as an active filter. In the case of passive filters or PSCs, a reactor is provided that eliminates harmonics by using a low switching frequency.

The present invention relates to the development of a passive PFC (reactor, reactor) corresponding to the strengthening of the harmonic regulation of the inverter refrigerator model, is scheduled to strengthen the inverter refrigerator harmonic regulation in Europe from July 2017, and other standards organizations will follow the European standard. I see it.

Harmonic regulation regulates current distortion, or harmonics, which is one of the power factor (PF) components. We will respond to strengthened harmonic regulation by analyzing the Arranging response methods (passive PFC, active PFC) and the pros and cons of power factor (PF) and current distortion.

Korean Patent Registration No. 10-1224055

The present invention has been made to solve the problems of the prior art as described above, according to the inverter refrigerator harmonic regulation, the inductance is 11.3mH ± 5%, the resistance is to develop a reactor that satisfies 0.58Ω ± 5% .

The problem to be solved by the present invention is not limited to the above-mentioned problem, another problem to be solved by the present invention not mentioned herein is to those skilled in the art from the following description. It will be clearly understood.

A reactor applicable to an inverter refrigerator according to the present invention includes a core part configured to have a coil shape so as to wind a coil, and an air gap (G, AIR GAP, hereinafter referred to as an air gap) provided at an upper end thereof; An upper end provided at an upper end of the core part and the contact of the core part is blocked by the air gap G; A coupling part configured to be parallel to both ends of the core part and provided with an intaglio part to be coupled to an embossment part provided at the upper end; And a protection part vertically connected to the lower end of the core part and the coupling part.

By the solution of the said subject, the reactor applicable to the inverter refrigerator of this invention can satisfy an inductance of 11.3 mH +/- 5% and a resistance of 0.58 ohm +/- 5% according to inverter refrigerator harmonic regulation.

1 is a photograph showing a conventional reactor.
2 is a photograph showing a reactor manufactured according to the present invention.
3 is a view showing a reactor manufactured according to the present invention.
4 is a view showing a bracket that can be used in combination with the existing reactor. (a: top view, b: front view, c: right side view)
5 is a view showing a bracket that can be used in combination with the reactor produced by the present invention. (a: top view, b: front view, c: right side view)

Specific matters including the problem to be solved, the means for solving the problem, and the effects of the present invention as described above are included in the following embodiments and the drawings. Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

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

The present invention intends to develop a reactor in which the inductance is 11.3 mH ± 5% and the resistance satisfies 0.58 Ω ± 5% according to the inverter refrigerator harmonic regulation implemented in Europe from July 2017.

As shown in Figs. 2 to 3, the present invention is composed of a core part, an upper end part, a coupling part, and a protective part. The core part, the coupling part and the protection part are provided to be connected and the upper end is provided to be detachable from the coupling part.

First, the core part is formed in a column shape so that the coil is wound, and an air gap G is provided at the top. The air gap G of the core part is characterized in that 0.45 to 0.55mm and more preferably 0.5mm. In the case of the conventional air gap (g) is provided as 1mm, the present invention is provided with the air gap (G) is 0.45 to 0.55mm to satisfy the inductance and resistance.

When the coil is 5A, the coil wound around the core portion has a diameter wire diameter of Φ 0.70 to Φ 0.80, and more preferably Φ 0.75.

In addition, when the inductance is 11.3 mH, it is preferable that the winding is 165T (turn).

Next, the upper end is provided on the upper end of the core, but the air gap (G) to block direct contact with the core. The upper end is provided with an embossed portion to be easily coupled with the coupling portion. The upper end is provided to be detachable from the coupling portion.

Next, the coupling portion is configured in parallel to both ends with respect to the core portion, the intaglio portion is provided to be coupled to the relief portion provided on the upper end. The coupling portion is provided with a step in the core portion, characterized in that the longitudinal length of the coupling portion is 16.5 to 17.5mm, and more preferably 17mm.

Next, the protection unit is configured to be vertically connected to the lower end of the core portion and the coupling portion. More specifically, the protection part is provided perpendicular to the core portion and the coupling portion and is provided to connect the core portion and the coupling portion.

The protective part is characterized in that the width of 40 to 42mm, more preferably 41mm.

In the case of the conventional reactor, it is used to combine the upper end by welding to the green display of Figure 1, which has a problem that the productivity is reduced due to the time and cost. In addition, there is a problem that the defects and noise occurs easily falling on the welding portion and the power cost and material cost due to welding is increased.

In the case of the present invention, the upper end portion and the coupling portion is provided with an embossed portion and the intaglio portion can solve the problems caused by welding and there is an effect of easy removal.

In addition, the bracket coupled to the reactor according to the shape and length of the reactor manufactured by the present invention, unlike the existing bracket, as shown in Figure 5, to provide a different length of the coupling portion with the reactor.

In one embodiment, as shown in Figure 5, in the plan view (Fig. 5 (a)) of the bracket manufactured by the present invention, the ㉮ part is 73.5 ± 1.0mm, ㉯ part is 62 ± 1.0mm, ㉰ part is 43 ± 1.0mm and ㉱ portion is provided with 14 ± 1.0mm, the circular portion of the ridge portion is 4.5 ± 6.5mm, the front wing portion may be provided with 32.5 ± 1.0mm. In addition, in the front view of the bracket (Fig. 5 (b)), the convex portion is provided as 36.0 ± 2.0mm, and in the right side view of the bracket (Fig. 5 (c)), the convex portion may be provided as 20.7 ± 1.0mm.

The reactor applicable to the inverter refrigerator manufactured by the present invention has an inductance of 11.3 mH ± 5% and a resistance of 0.58 Ω ± 5% according to the inverter refrigerator harmonic regulation. (G), by varying the wire diameter and the winding of the coil was carried out the experiment as shown in Table 1 below.

Example Core size (mm) Gap (mm) Wire diameter (Φ) / winding (T) Found Inductance (mH) Resistance (Ω) #One 41 * 16 0.5 0.75 / 165 10.0 0.59 #2 41 * 17 No gap 0.80 / 145 20.95 - # 3 1.4 0.55 / 310 24.5 1.91 #4 1.4 0.70 / 153 6.005 - # 5 0.65 0.80 / 155 8.73 - # 6 0.6 0.75 / 165 9.3 0.58 # 7 0.5 0.80 / 165 11.3 0.55 #8 0.75 / 175 12.5 0.65 # 9 0.75 / 165 11.28 0.554 # 10 0.75 / 160 10.9 0.55 # 11 0.70 / 165 11.3 0.67 # 12 0.4 0.75 / 165 13.0 0.58 # 13 41 * 18 0.5 0.75 / 175 13.82 - # 14 0.75 / 170 13.1 - # 15 0.75 / 165 12.35 - # 16 0.75 / 160 11.61 - # 17 0.75 / 158 11.32 - # 18 0.75 / 157 11.15 - # 19 0.75 / 156 11.04 - # 20 48 * 18 No gap 0.60 / 295 16.62 1.57 # 21 0.60 / 250 11.99 1.14 # 22 1.0 0.80 / 165 11.30 0.55

As shown in Table 1, when the core size is 41 (mm) X 17 (mm), the air gap G is 0.5 (mm) and the wire diameter (Φ) / winding (T) is 0.75 / 165. When provided, the inductance may be 11.3 mH ± 5% and the resistance may satisfy 0.58Ω ± 5%.

In addition, when the air gap (G) is 0.5 (mm), wire diameter (Φ) / winding (T) is provided as 0.75 / 165 and the core size is 41 (mm) X 16 (mm), the inductance is 10.0 mH And the resistance exhibits 0.59?, Which cannot satisfy the above condition.

In addition, when the core size is 41 (mm) X 18 (mm), the air gap (G) is 0.5 (mm) and the wire diameter (Φ) / winding (T) is 0.75 / 160 and 0.75 / 158 and 0.75 In the case of / 157, the inductance may satisfy 11.3mH ± 5%, but it is preferable that the inductance is manufactured according to the present invention because the resistance does not satisfy the above condition.

By the solution of the said subject, the reactor applicable to the inverter refrigerator of this invention can satisfy an inductance of 11.3 mH +/- 5% and a resistance of 0.58 ohm +/- 5% according to inverter refrigerator harmonic regulation.

As such, the technical configuration of the present invention described above will be understood by those skilled in the art that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and their All changes or modifications derived from an equivalent concept should be construed as being included in the scope of the present invention.

100. Reactor
110. Coupling
120. Core part
130. Protection
140. Top
G. Air Gap (G)

Claims (3)

A core part configured to have a coil shape so as to wind a coil, and an air gap G provided at an upper end thereof;
An upper end provided at an upper end of the core part and the contact of the core part is blocked by the air gap G;
A coupling part configured to be parallel to both ends of the core part and provided with an intaglio part to be coupled to an embossment part provided at the upper end part; And
Consists of the protection unit vertically connected to the lower portion of the core and coupling portion,
The air gap G of the core portion is 0.45 to 0.55 mm,
Reactor applicable to the inverter refrigerator characterized in that when the coil is 5A, the diameter wire diameter of the coil is Φ 0.75. The method of claim 1,
The coil is,
Reactor applicable to the inverter refrigerator, characterized in that the winding is 165T (turn) when the inductance is 11.3mH. The method of claim 1,
The protection unit,
Reactor applicable to an inverter refrigerator characterized in that the width is 40 to 42 mm.

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