INDUCTOR AND METHOD OF MANUFACTURING THE SAME

US 20160005520A1
Filed: 04/02/2015
Published: 01/07/2016
Est. Priority Date: 07/04/2014
Status: Abandoned Application

First Claim

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1. An inductor comprising:

a magnetic core;

at least a set of conducting coils, sleeved on the magnetic core, each of the conducting coil including a toroidal coil portion and two extending portions extending from two ends of the toroidal coil portion towards a same direction, the two extending portions extending out of a magnetic cover body and passing through a lower lid to form two electrode terminals capable of being inserted in a circuit board;

the magnetic cover body, hermetically covering and fixing to peripherals of the conducting coil and the magnetic core;

an upper lid and the lower lid, matching the magnetic cover body in shape and being disposed at a top and a bottom of the magnetic cover body, respectively;

the magnetic core, the conducting coil, the magnetic cover body, the upper lid and the lower lid being integrally formed;

wherein each of the magnetic core, the magnetic cover body, the upper lid and the lower lid includes components of an iron powder, a phosphoric acid, and a resin, with a mass percent of the phosphoric acid to the iron powder in a range of 0.04% to 6%, and a mass percent of the resin to the iron powder in a range of 0.5% to 10%;

when a coil turn number of the conducting coil exceeds a predetermined value, the toroidal coil portion includes at least two layers of parallelly disposed coil windings.

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Abstract

An inductor and a method of manufacturing the same are disclosed. The inductor comprises: a magnetic core; at least a set of conducting coils, sleeved on the magnetic core, each of the conducting coils including a toroidal coil portion and two extending portions extending from two ends of the toroidal coil portion towards a same direction; the magnetic cover body, hermetically covering and fixing to peripherals of the conducting coil and the magnetic core; and an upper lid and the lower lid; wherein the magnetic core, the conducting coil, the magnetic cover body, the upper lid and the lower lid are integrally formed. Each of the magnetic core, the magnetic cover body, the upper lid and the lower lid includes components of an iron powder, a phosphoric acid, and a resin. When a coil turn number of the conducting coil exceeds a predetermined value, the toroidal coil portion includes at least two layers of parallelly disposed coil windings. The disclosure is adapted to a power supply, an uninterruptable power supply, an air-conditioner frequency converter and power inverter and has a lower cost and better inductance characteristics.

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18 Claims

1. An inductor comprising:
- a magnetic core;
  
  at least a set of conducting coils, sleeved on the magnetic core, each of the conducting coil including a toroidal coil portion and two extending portions extending from two ends of the toroidal coil portion towards a same direction, the two extending portions extending out of a magnetic cover body and passing through a lower lid to form two electrode terminals capable of being inserted in a circuit board;
  
  the magnetic cover body, hermetically covering and fixing to peripherals of the conducting coil and the magnetic core;
  
  an upper lid and the lower lid, matching the magnetic cover body in shape and being disposed at a top and a bottom of the magnetic cover body, respectively;
  
  the magnetic core, the conducting coil, the magnetic cover body, the upper lid and the lower lid being integrally formed;
  
  wherein each of the magnetic core, the magnetic cover body, the upper lid and the lower lid includes components of an iron powder, a phosphoric acid, and a resin, with a mass percent of the phosphoric acid to the iron powder in a range of 0.04% to 6%, and a mass percent of the resin to the iron powder in a range of 0.5% to 10%;
  
  when a coil turn number of the conducting coil exceeds a predetermined value, the toroidal coil portion includes at least two layers of parallelly disposed coil windings.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The inductor according to claim 1, wherein the inductor comprises at least two sets of conducting coils being wrapped around the magnetic core, by taking the magnetic core as a center shaft and sleeving along a radius direction of a cross section of the magnetic core, and wherein the extending portions of each set of the conducting coils extend out of the magnetic cover body and the lower lid to form two electrode terminals.
  - 3. The inductor according to claim 1, wherein a recess is disposed in the lower lid and the extending portions extends out of the recess, and parts of the extending portions which extend out of the recess are the electrode terminals of the inductor.
  - 4. The inductor according to claim 2, wherein a recess is disposed in the lower lid and the extending portions extends out of the recess, and parts of the extending portions which extend out of the recess are the electrode terminals of the inductor.
  - 5. The inductor according to claim 1, wherein the conducting coil of the inductor is provided with a casing tube for improving a pressure resistance ability of the coil.
  - 6. The inductor according to claim 1, wherein the magnetic cover body, the upper lid and the lower lid contains an iron powder being one of a reduced iron powder, a carbonyl iron powder, and an alloy.
  - 7. The inductor according to claim 1, wherein the magnetic core contains an iron powder being one of a ferrite, a reduced iron powder, a carbonyl iron powder, and an alloy.
  - 8. The inductor according to claim 6, wherein the alloy is a Fe—
    - Si powder or a Fe—
      
      Si—
      
      Al powder.
  - 9. The inductor according to claim 7, wherein the alloy is a Fe—
    - Si powder or a Fe—
      
      Si—
      
      Al powder.
  - 10. The inductor according to claim 1, wherein the resin includes at least one of a phenolic resin, an epoxy resin, a polyester resin, and a Si resin.
  - 11. The inductor according to claim 1, wherein the magnetic core is a cylindrical magnetic core.
  - 12. The inductor according to claim 1, wherein the predetermined value of the coil turn number of the conducting coil is five.

13. A method of manufacturing an inductor, comprising the following steps:
- preparing a conducting coil according to electrical characteristics of an inductor to be manufactured, including;
  
  preparing at least a set of conducting coils, each set of which comprises a toroidal coil portion and two extending portions extending from two ends of the toroidal coil portion towards a same direction, wherein when a coil turn number of the conducting coil to be wound exceeds a predetermined value, a parallel multi-layer-winding method is performed to make the toroidal coil portion of the conducting coil have at least two layers of coil windings arranged parallel;
  
  preparing a powder for forming a magnetic core, an upper lid, a lower lid, and a magnetic cover body, and making each of the magnetic core, the upper lid, the lower lid and the magnetic cover body contain components including an iron powder, a phosphoric acid, and a resin;
  
  preparing the magnetic core, the upper lid and the lower lid by molding the powder obtained from the above step according to predetermined shapes thereof, respectively;
  
  molding the inductor, including;
  
  sleeving the conducting coil onto the magnetic core, the extending portions passing through the lower lid and then being inserted to a mold, pouring the powder of the magnetic cover body around the conducting coil and the magnetic core, and then covering the upper lid upon the magnetic cover body to perform a pressure molding so as to mold the inductor, wherein the extending portions of the conducting coil extending out of the magnetic cover body are electrode terminals of the inductor; and
  
  post processing after molding, including;
  
  baking the molded inductor for a predetermined time at a predetermined temperature, then spraying a surface of the inductor with an epoxy resin or coating a surface of the inductor with an epoxy powder, removing an enamel film or a paint film on the electrode terminals, painting the electrode terminals with a soldering agent and soldering the electrode terminals with tin.
- View Dependent Claims (14, 15, 16, 17, 18)
- - 14. The method of manufacturing the inductor according to claim 13, wherein the step of preparing the powder for forming the magnetic core, the upper lid, the lower lid and the magnetic cover body comprises:
    - (a) adding the phosphoric acid and a promoter to an alcohol and uniformly stirring to form a solution, putting the solution into an iron powder and stirring, and then baking and stirring to obtain a powder;
      
      (b) adding the resin to an alcohol and uniformly stirring to form a solution, putting the solution in the powder obtained from the above step and stirring, screening the powder after the powder is half-dry, and screening the powder again after baking, so as to obtain a powder;
      
      (c) baking the powder obtained from the step (b);
      
      (d) repeating the step (b) to the powder obtained from the step (c), and keeping the powder standing to dry at room temperature; and
      
      (e) adding a lubricant to the powder obtained from the step (d), and, after uniformly mixing and stirring, obtaining a powder for forming the magnetic core, the upper lid, the lower lid and the magnetic cover body.
  - 15. The method of manufacturing the inductor according to claim 13, wherein before the step of preparing the conducting coil, the method further comprises:
    - sleeving a conducting coil with a casing tube, and then winding the conducting coil.
  - 16. The method of manufacturing the inductor according to claim 13, wherein the step of preparing the conducting coil further comprises:
    - soaking the conducting coil with a lacquer varnish or an epoxy resin after winding the conducting coil.
  - 17. The method of manufacturing the inductor according to claim 15, wherein before the step of removing the enamel film or the paint film on the electrode terminals, painting the electrode terminals with the soldering agent and soldering the electrode terminals with tin, the method further comprising:
    - removing the casing tube at the electrode terminals.
  - 18. The method of manufacturing the inductor according to claim 13, wherein each of the magnetic core, the magnetic cover body, the upper lid and the lower lid contains components with a mass percent of the phosphoric acid to the iron powder in a range of 0.04% to 6%, and a mass percent of the resin to the iron powder in a range of 0.5% to 10%.

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Current Assignee
Chang Mao Cheng
Original Assignee
Chang Mao Cheng
Inventors
CHENG, Chang Mao

Application Number

US14/677,172
Publication Number

US 20160005520A1
Time in Patent Office

Days
Field of Search
US Class Current

1/1
CPC Class Codes

H01F 17/04   with magnetic core

H01F 2017/048   with encapsulating core, e....

H01F 27/04   Leading of conductors or ax...

H01F 27/255   made from particles H01F27/...

H01F 27/29   Terminals; Tapping arrangem...

H01F 3/10   Composite arrangements of m...

H01F 41/0246   Manufacturing of magnetic c...

INDUCTOR AND METHOD OF MANUFACTURING THE SAME

First Claim

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INDUCTOR AND METHOD OF MANUFACTURING THE SAME

First Claim

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Abstract

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18 Claims

Specification

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