KR20130004645U - Magnetic assembly - Google Patents

Abstract

It consists of an electric board and cover, and a plurality of magnetic elements are installed on the electric board, and each magnetic element can be connected through an electric line owned by the electric board, and an accommodating space is formed in the cover so that the magnetic elements are placed therein. When manufacturing the magnetic member, the cover having appropriate space can be selected according to the volume, quantity, standard type, etc. of the magnetic element. The completion of assembling the two members is injected into the cover to curl the cover and the electric board. It is possible to allow the member installed in the space to be protected, so that the magnetic member can be selected and combined with a cover having a different receiving space in accordance with the requirements of the magnetic element assembled in the manufacturing process and its manufacturing method It is about.

Description

Magnetic member and its manufacturing method {MAGNETIC ASSEMBLY}

The present invention relates to a magnetic member and a method for manufacturing the same, and in particular, a magnetic member and a method for manufacturing the magnetic member capable of selecting and mounting a cover having different accommodation spaces according to the specifications of the magnetic elements installed to correspond to different design standards. It is about.

Magnetic elements such as transformers, inductances, electromagnetic switches, etc. are widely applied to various electronic devices and generate the required efficiency by the conduction of electric current, which generates the necessary effects. In order to reduce the size of the structure, the magnetic element is designed to miniaturize the structure without changing its function. Thus, a transformer having a conventional mounting type is mainly wound to achieve a structure design that is convenient to manufacture. The wound coil bobbin is mounted in an insulated case by magnetic collimation. The aforesaid item allows the insulated case to be properly adjusted according to the shape of the coil bobbin. However, since the mounting is completed, only the original transformer structure is mounted through the insulation case. Has the function of Since the installation of transformers in the generation still occupies a considerable amount of space in the electronic device, if the magnetic member itself can have the function of the integrated circuit, the space occupied by the magnetic element will inevitably be reduced significantly, as well as after the magnetic element is mounted. It can be inferred that various effects can be generated, and since the external structure of the current magnetic member is mostly manufactured at the design stage, a single external specification causes the phenomenon of being used only for a single magnetic member. If this altered or included magnetic element is changed, its appearance must be redesigned to match the present change.

The main object of the present invention for solving the above problems is to provide a magnetic member and a method of manufacturing the same that can adjust the shape of the mounting body to correspond to different standards.

In order to achieve the above object, the magnetic member of the present invention is composed of an electric substrate and a cover, and a plurality of magnetic elements are installed on the electric substrate, and each magnetic element can be connected through an electric line that the electric substrate has and covers. There is an accommodating space, and after assembling the cover and the electric board, the magnetic element can be placed therein, one or more injection parts are formed in the cover, and the colloid is injected to curl the two members and also before the assembly The cover can be selected according to the size, quantity, and volume of the device.In this way, the magnetic member can select the appropriate cover according to the receiving space required by the magnetic element assembled in the manufacturing process, and the current magnetic member is mounted whenever the specification changes. The implementation problem of having to manufacture the structure separately is improved.

1 is an exploded perspective view of a member of the present invention,
2 is a process flow chart of the present invention,
3 is a partially enlarged perspective view of the present invention,
4 is a cross-sectional view of the present invention,
5 is a perspective view of the present invention,
6 is another embodiment of the present invention,
7 is another second embodiment of the present invention;
8 is another third embodiment of the present invention,
9 is a cross-sectional view of a third embodiment of the present invention,
10 is another fourth embodiment of the present invention.

Referring to FIG. 1, an exploded perspective view of a member of the present invention, and as shown in the drawing, the magnetic member 10 includes an electric substrate 101 and a cover 102, and an electric line 1011 is formed on the electric substrate 101. One or more electrical contacts 1012 are formed on the tracks to connect with other electronic components, and at least one first and second conductive terminals 1013 and second conductive terminals, respectively, on the edge of the electric substrate 101. 1014 is formed and a through hole 1015 is formed between the two conductive terminals 1013 and 1014, and a conductive material is filled in the through hole 1015 to electrically connect the two conductive terminals 1013 and 1014. In addition, a plurality of magnetic elements, such as the first magnetic element 103 and the second magnetic element 104, are electrically installed on the electric substrate 101, and each magnetic element 103, 104 is provided. Each of which is connected to the electric line 1011 or one of the first conductive terminals 1013, respectively. Therefore, the electrical characteristics required when conducting current are generated, and the electric substrate 101 further installs related electric driven elements or related elements such as resistance, capacitance, etc. in addition to installing the above-described magnetic elements 103 and 104. As shown in the figure, the appearance of the cover 102 can be adjusted according to the size and size of the electric substrate 101, and the receiving space 1021 is formed in the concave in the rim and a plurality of injections in the other rim. The part 1022 is formed, and each injection part 1022 penetrates through the cover 102 and communicates with the accommodation space 1021, and also has a shape formed by the accommodation space 1021 such as the depth of the accommodation space 1021. Can be adjusted weakly by the magnetic elements 103 and 104 installed on the electric substrate 101. Also, two opposite edges of the electric substrate 101 have one assembly portion 1016 and 1016 'formed thereon, and a cover ( 102, corresponding stomach Each one of the relative assembly portion 1023 is formed, and the two members 101 and 102 as described above can be assembled by two limit assembling part (1016, 1023).

Referring to Figure 2 is a flow chart of the implementation process of the present invention and as described above the assembly process of the magnetic member 10 is as follows.

(1) Installing the element on the substrate (21): The related component or magnetic element (103) or (to be installed on the initial electrical substrate 101 to generate the electrical characteristics to be generated in the design when the current is conducted. 104) are installed one by one on the electric substrate 101 and electrically connected to the electric line 1011, respectively.

(2) Assembling the member (22): As described above, Figure 3 is an enlarged perspective view of an embodiment of the present invention, and after completing the above contents, assembling the electric substrate 101 with the cover 102, the two members (101, 102) The relative assembly portion 1023 of the cover 102 is assembled with the assembly portion 1016 of the electric substrate 101 so that) is temporarily curled.

(3) Curing by injecting colloids 23: As described above, FIG. 4 is a cross-sectional view of the present invention, and as described above, the assembly of the electric substrate 101 and the cover 102 is completed as shown in FIG. The components or magnetic elements 103 and 104 installed on the electric substrate 101 are respectively covered by the cover 102 and installed in the receiving space 1021, where the external appearance of the magnetic member 10 shows a shape of an integrated circuit. In the step, the colloid 11 is filled in the receiving space 1021 through each injection portion 1022 formed in the cover 102 so that each component of the electric substrate 101 is protected by the colloid 11. 101 and the cover 102 is curled due to the filling of the colloid (11) and the completion of the assembly is as shown in Figure 5 and is a perspective view of the present invention and the colloid 11 may be an epoxy resin or insulating teaching material have.

Referring to FIG. 6, one or more other embodiments of the present invention and one or more accommodations in the plane of the electric substrate 101 to accommodate the magnetic elements 103 and 104 installed on the electric substrate 101 as described above. The groove 1017 may be formed. The embodiment is as shown, and referring to FIG. 7, the second embodiment is another embodiment of the present invention. In the above embodiment, the magnetic elements 103 and 104 are only in the shape of lying down. Although described, the magnetic elements 103 and 104 may be assembled in an upright posture in addition to the above-described form, but are not limited thereto, thereby increasing the variety of designs of the magnetic members, thereby avoiding a single embodiment. Accordingly, the receiving groove 1017 may be formed to install the magnetic element 103 or 104 having a relatively large size, or may be assembled by adopting a method different from a lying posture.

Referring to Figure 8 is another third embodiment of the present invention and in addition to the embodiment in which the receiving groove 1017 is formed in order to install the magnetic elements 103, 104 of different sizes, the receiving groove 1017 is 9 is a cross-sectional view of the third embodiment of the present invention, and when the assembly is completed, the assembly of the electric substrate 101 and the cover 102 after the completion of the installation on the substrate is completed. In this case, the colloids 11 filled in the present invention can be injected into the receiving space 1021 through the through-hole receiving groove 1017 as shown in FIG. However, in addition to the method of injecting and injecting the colloid 11, the present embodiment allows the end of the receiving groove 1017 to be closed for a while and then the support mechanism 12 is moved to the step of injecting the colloid 11. It may be installed below at 101, but is not limited thereto. The.

Referring to FIG. 10, another fourth embodiment of the present invention is described, and the two conductive terminals 1013 and 1014 are all examples of the form of a conductive electrode. When the two conductive terminals 1013 and 1014 are implemented, an electrical connector ( The same effect may be generated by the 1018 and the electrical connector 1018 may be connected to the electric line 1011 of the electric substrate 101 as shown in FIG.

According to the above description, the magnetic member and the method proposed in the present invention are composed of an electric substrate and a cover, and a plurality of magnetic elements can be installed on the electric substrate, and each magnetic element is connected by an electric line of the electric substrate and is also covered by the cover. After the two members are assembled, the accommodating space can be installed with the parts of the electric board therein. Also, the form in which the cover plate and the electric substrate are formed is used to adjust the shape of the accommodating space or adjust the accommodating groove according to the size of the magnetic element to be assembled. It can be formed to deal with the problem that the mounting structure caused by changing the member, such as the magnetic element due to the design change, thereby dealing with the problem, the magnetic member that can adjust the shape of the mounting body in accordance with the different standards after implementation of the present invention and The manufacturing method can be provided reliably.

The foregoing is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent changes and modifications made under the premise of the present invention without departing from the spirit and scope of the present invention are all It is included in the claim of the invention.

10 ... magnetic material 11 ... colloid
12 ... holding mechanism 21 ... mounting element on board
22 ... to assemble members 23 ... to infuse colloid
101 ... Electrical Substrate 102 ... Cover
103 ... first magnetic element 104 ... second magnetic element
1011 ... electrical lines 1012 ... electrical contacts
1013 ... the first conductive terminal 1014 ... the second conductive terminal
1015 ... through hole 1016 ... assembly
1016 '... Assembly 1017 ... Receiving groove
1018 ... electrical connector 1021 ... accommodation
1022 ... Injection 1023 ... Relative assembly

Claims (7)

An electric board having an electric line installed thereon and having a first conductive terminal connected to the electric line on a plane, and having an assembly portion formed thereon; and
A plurality of magnetic elements each installed on the electric substrate and electrically connected to the electric line and the first conductive terminal, respectively; And
And a cover having a receiving space formed therein and having a relative assembly portion formed at a position corresponding to the assembly portion.
The cover member and the electric substrate is completed by the assembly unit and the mating assembly unit after filling the colloid in the accommodating space by the magnetic member for curling the cover and the electric substrate. The magnetic member of claim 1, wherein an edge of the cover penetrates the accommodation space to form at least one injection portion to allow a colloid to fill the accommodation space through the injection portion. The magnetic member of claim 1, wherein at least one receiving groove is formed in a plane of the electric substrate. The magnetic member of claim 3, wherein the receiving groove has a through hole shape. 4. The magnetic member according to claim 3, wherein an electric driven element is provided on the electric substrate. 2. The through hole of claim 1, wherein the electrical substrate has a second conductive terminal formed against another plane of the first conductive terminal, and a conductive material is filled between the second conductive terminal and the first conductive terminal. Magnetic material. The magnetic member of claim 1, wherein the colloid is an insulating teaching material.

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