KR200335893Y1 - An apparatus of connecting cores of ballast stabilizer - Google Patents

Abstract

The present invention relates to a coupling structure of an I-type core and an E-type core as a core for a ballast or a transformer applied to various back mechanisms and adapters, and includes an I-type core 10 composed of a plurality of silicon thin steel sheets. And in the coupling device of the stabilizer core to the E-type core 20 to be fastened to each other, the lower end of the I-type core 10, the elongated protrusions 12 and tapered by the light side light and both sides of the protrusions 12 Steps 14 formed in each of the two are formed integrally, the upper portion of the E-shaped core 20 is coupled to correspond to the long insertion portion 22 and the step 14 corresponding to the protrusion 12 is coupled It is characterized in that the right angle groove 24 is formed integrally. The present invention is characterized by facilitating the flow of magnetic field lines by facilitating the coupling between the type I core and the E type core and maintaining mutual coupling force even by thermal expansion due to high temperature drying of 120 ° C. or higher.

Description

An apparatus of connecting cores of ballast stabilizer

The present invention relates to a coupling device for a ballast core, and more particularly, to a mounting structure of a type I core and an E type core constituting a ballast or a transformer core applied to various back mechanisms and adapters. will be. The mounting structure of the I-type core and the E-type core is composed of a removable fitting type that is easy to assemble, and can improve electrical characteristics by forming a guide groove for inducing a smooth moving direction of the magnetic force line.

In general, a core for a ballast is an electric member used in a magnetic circuit, and provided with a core made of laminated silicon steel sheets when the flux of magnetic force flux changes over time, in particular, a ballast core for various lamp fixtures including a fluorescent lamp has a corresponding capacity. Accordingly, the I-type core and the E-type core made of a plurality of silicon thin steel sheets are assembled to the ballast bobbin, and a coil is wound and inserted to form a magnetic force line in a predetermined traveling direction.

In this case, in assembling the I-type core and the E-type core, conventionally, a plurality of silicon thin steel sheets that have been punched through a mold work are combined to simply align both cores. Both sides facing the mold core were welded. However, there is a problem that the excessive cost and hassle of working time, as well as the increase of the work cost is accompanied.

In particular, the assembly process is complicated by welding the necessary parts after gripping the silicon thin steel plate, and the external rectangular corner structure of the core interrupts the flow of electrical characteristics, or the welding part acts as an interference factor of the magnetic flux flux, Could not provide.

According to the invention filed by the present applicant (Patent Application No. 10-2002-0036182) as an advanced technology for this, a technique is known in which a part in which both cores are combined is slightly inclined to be easily removed from each other. There is a bar. 1 is an exploded perspective view of the removable fitting structure, Figure 2 is a front view.

In general, the assembled core is dried at a high temperature of about 3 hours to 7 hours at 120 ° C. or more after the impregnation process. As described above, the detachable fitting type coupling structure has a combined portion of the E-type core left and right by thermal expansion of a silicon steel sheet. There was a problem of separation and separation from each other. Therefore, there has been a demand for the development of a core having excellent efficiency in terms of electrical characteristics as well as ease of core assembly work.

The present invention is devised to solve the above problems, the object of the present invention is to provide a ballast core for maximizing the electrical characteristics by smoothing the flow of magnetic field lines.

The purpose of the present invention as described above in the coupling device of the core for the stabilizer to be coupled to the I-type core 10 and E-type core 20 consisting of a plurality of silicon thin steel sheet, the I-type core 10 Long protrusions 12 tapered by upper and lower light beams and stepped protrusions 14 formed on both sides of the protrusions 12 are integrally formed at the lower end of the protrusions, and the protrusions 12 are formed on the upper portion of the E-shaped core 20. It is achieved by the coupling device of the ballast core, characterized in that the long insertion portion 22 is coupled to the corresponding) and the right angle groove 24 is formed integrally to correspond to the step (14).

In the present invention, the coupling between the I-type core and the E-type core is facilitated, and the mutual coupling force is maintained even by thermal expansion due to high temperature drying, thereby maintaining the flow of magnetic field lines smoothly.

Other objects, specific advantages, and novel features of the present invention will become more apparent from the following detailed description of the invention and the preferred embodiments in connection with the accompanying drawings.

1 is an exploded perspective view of a ballast core used in the related art.

2 is a front view of a ballast core used in the related art.

3 is an exploded front view of the coupling device for the ballast core according to the present invention.

4 is an enlarged view of a coupling device of the ballast core according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: Type I Core

12: protrusion

14: step

16, 26: guide groove

20: E-type core

22: insertion unit

24: right angle groove

Hereinafter, the configuration of the coupling device for the ballast core according to the present invention will be described.

3 is an exploded front view of the coupling device of the ballast core according to the present invention, Figure 4 is an enlarged view of the coupling device of the ballast core according to the present invention. 3 and 4 show a single I-type core 10 and an E-type core 20 composed of a silicon thin steel sheet.

An elongated protrusion 12 is formed at the lower center of the I-type core 10, and stepped 12 is formed at both ends of the protrusion 12. Guide grooves 16 are formed in the upper center of the I-type core 10, and upper edges of both sides are rounded. In addition, the protruding portion 12 is formed to be tapered with a slight upper and lower light.

The upper part of the E-shaped core 20 is formed with a long insertion portion 22 which is coupled to correspond to the protrusion 12, the inner end surface so that the insertion portion 22 is also fitted tightly to the protrusion 12 This is slightly obliquely cut. Right angle grooves 24 are formed at both ends of the insertion part 22 so as to correspond to the step 14. The lower center of the E-type core 20 also has a guide groove 26 is formed.

3 shows a single I-type core 10 and an E-type core 20 composed of a silicon thin steel sheet, the core according to the present invention has a plurality of I-type cores 10 and a plurality of sheets as shown in FIG. It consists of an E-type core 20, in which a coil (not shown in this figure) is wound and inserted into the core.

The I-type core 10 is composed of a laminated structure in which a plurality of silicon thin steel sheets are combined in a mutually interposed form as shown in FIG. 1, which is a convex part on one side through a stamping operation using a mold. As long as the concave portion is formed on the other side, the convex portion is assembled such that the convex portion can be repeatedly repeatedly inserted.

Hereinafter, the coupling and action of the coupling device of the ballast core having the above configuration will be described.

As shown in FIG. 4, the contact surfaces of the protrusion 12 and the insertion part 22 are formed to be inclined to each other, which is an intimate coupling structure when the I-type core 10 and the E-type core 20 are coupled to each other. It keeps and keeps away from it easily.

In addition, the stepped portions 14 formed at both ends of the lower end of the I-type core 10 and the right-angle groove 24 of the E-type core 20 coupled thereto correspond to a function of not being easily separated from the thermal expansion of the silicon thin steel sheet. do. That is, the assembled ballast core is generally subjected to a drying process for 3 hours to 7 hours at a high temperature of 120 ° C. or higher after an impregnation process, and at this time, a thermal expansion phenomenon of the silicon thin steel sheet occurs and the I-type core (10 ) And the E-type core 20 is a problem that is separated from each other is provided with the step device as described above to prevent this phenomenon.

The rounded left and right ends of the I-type core 10 are smoothly rounded to induce a smooth flow of magnetic force lines, and the guide grooves 16 and 26 are formed at the centers of both cores. This is to guide the flow in a constant direction.

According to the coupling device of the ballast core according to the present invention as described above, there is a feature that the assembly work of the I-type core and E-type core is easy, and both cores are not separated from each other even at high temperature drying after the impregnation process. Therefore, the flow of magnetic force lines around the core is smooth, and the electrical characteristics of the core are maximized.

Although described in connection with the preferred embodiments mentioned above in the present invention, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Therefore, the accompanying utility model registration claims include any such modifications or variations that fall within the spirit of the present invention.

Claims (2)

In the coupling device of the stabilizer core to which the I-type core 10 and E-type core 20 composed of a plurality of silicon thin steel sheets are fastened to each other, The lower end of the I-type core 10 is formed integrally with the elongated protrusions 12 formed to be tapered by the light side light and stepping 14 formed on both sides of the protrusions 12, respectively, The upper portion of the E-shaped core 20 is formed with an elongated insertion portion 22 corresponding to the protrusion 12 and a right angle groove 24 coupled to the step 14 are integrally formed. Coupling device for the ballast core. 2. The ballast according to claim 1, wherein the bonded I-type core 10 and the E-type core 20 are not separated from each other due to thermal expansion of the silicon thin steel sheet under high temperature dry conditions of 120 ° C or higher. Coupling device of the core.