KR20020081564A - ballast stabilizer core - Google Patents

Abstract

PURPOSE: A core for stabilizer is provided to reduce a fabricating cost and enhance an electric characteristic by improving a combination structure of an I-shaped core and an E-shaped core. CONSTITUTION: A core is formed with an I-shaped core(1) and an E-shaped core(1a). The I-shaped core(1) has a stacked structure formed by combining silicon foil plates(2). A coil is wound around the core. The core is inserted into a structure of a stabilizer in a fabricating process of the stabilizer. A projection portion(3) and an insertion portion(4) are formed at both sides of the I-shaped core(1). The projection portion(3) is inserted into the insertion portion(4). A guide groove(5) is formed at a center of an upper portion of the I-shaped core(1). A tapered projection(6) is formed at a lower end portion of the silicon foil plates(2). The E-shaped core(1a) is combined with the I-shaped core(1). A guide groove(5a) is formed at a center of a lower end of the E-shaped core(1a).

Description

Ballast stabilizer core

The present invention relates to a ballast core.

In particular, the present invention provides a single-layered product in which a separate silicon thin plate of an I-type core is integrated as a stabilizer core that is applied to various back mechanisms, and the mounting of such an I-type core and an E-type core The present invention relates to a stabilizer core that converts a structure into an easy-to-assemble easy-to-assemble type and at the same time forms a guide groove for guiding a magnetic force line smoothly, thereby improving electrical characteristics and implementing structural stability.

In general, a core for a ballast is an electric member used in a magnetic circuit, and when a magnetic flux of a magnetic flux changes in time, a core made of a laminated silicon steel sheet is provided. Particularly, a ballast core for various lamp fixtures including a fluorescent lamp is used according to its capacity. After the assembly of the I-type core and the E-type core made of a plurality of silicon thin steel sheets on the ballast bobbin, the coil is inserted into the coil to form a magnetic force line in a predetermined traveling direction.

At this time, in assembling the I-type core and the E-type core, a plurality of silicon thin plates punched out through a mold work are conventionally opposed to the I-type core and the E-type core for coupling of both cores. By selecting both sides and welding them, it included problems such as excessive work time and troublesomeness, as well as an increase in work costs.

In particular, after grasping (or fixing and aligning) the silicon thin steel sheet, welding the necessary part increased the number of man-hours required by the assembling process. It was not possible to provide high quality cores because it could not secure the uniformity by disconnecting or deteriorating the electrical properties by acting as one interference factor.

Accordingly, there has been a continuous demand for the development of cores that are economically and functionally useful through the improvement of electrical properties as well as ease of core assembly work.

The present invention has been devised to meet the above requirements, and improves the coupling mounting structure between the I-type core and the E-type core, enabling simple and close assembly without welding work without aligning the I-type core. It is possible to expect the reduction of manufacturing cost and the reduction of personnel through the improvement, and to improve the appearance structure, to induce the smoothness of the flow of magnetic force lines, to maximize the electrical characteristics to provide the ballast core with excellent reliability by maintaining the homeostasis of quality. Its purpose is to be found.

1 is an exploded perspective view showing the overall configuration of the present core.

2 is a perspective view of a coupled state of the present invention.

3 is a front view of the present invention.

4 is an enlarged view of a main part of the present invention,

(a) shows the laminated structure of the I-type core,

(b) shows the assembly mounting part of an I type core and an E type core.

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

1: I type core 1a: E type core

2: silicon thin plate 3: protrusion

4: recessed part 5,5a: guide groove

6: protruding jaw

In order to achieve the above object, the present invention, in the core for the ballast, a plurality of silicon thin steel sheets coupled to each other in the form of fitting, with a guide groove formed in the axial direction of the upper center, with a slight upper and lower light on the lower end of the steel sheet A laminated I-type core including a tapered protruding jaw; With a structure corresponding to the tapered protruding jaw of the I-type core, the upper end of the inner end face facing in both left and right directions is slightly inclined, but also the E-type core having guide grooves formed in the short axis direction of the lower center as a pair. It is characterized in that the assembly is provided by mutually removable fitting.

At this time, by smoothly rounding the left and right ends of the I-type core, it is also characterized in that the smooth flow of magnetic force lines can be induced.

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

1 is an exploded perspective view of the core of the present invention, Figure 2 is a perspective view of the coupling state, as shown, the core of the present invention is composed of a pair of I-type core (1) and E-type core (1a) assembled together The coil (not shown) is wound to be inserted when the ballast is assembled, and the I-type core 1 is composed of a plurality of sheets of silicon thin steel sheets 2 coupled to each other to maintain an integrated stacked structure. This is because the indentation part 4 may be formed on the other side as much as the protrusion part 3 of one side through the punching operation using a mold, so that the protrusion part 3 may be repeatedly pressed onto the indentation part 4 continuously and repeatedly. The machined and even alignment effect enables to achieve an integrated laminated structure with a neat appearance.

The guide groove 5 is formed in the short axis direction, which is the upper center of the upper end portion of the stacked I-type core 1, to guide the moving direction of the magnetic force line maintaining a constant rotational direction. Consideration should be given to a smooth flow.

In addition, the lower end of the silicon thin steel plate (2) is formed integrally with the projecting jaw (6) in which both sides are tapered in the form of a slight upper and lower light, respectively, to complete the configuration of the laminated I-type core (1).

Meanwhile, the E-shaped core 1a assembled with the I-shaped core 1 has a structure corresponding to the tapered protruding jaw 6 of the I-shaped core 1 facing each other in the left and right directions. The upper end of the cross-section is slightly inclined to enable a close coupling structure to each other, and also to form a guide groove (5a) in the short axis direction of the bottom center is provided to be easily assembled by mutually removable fitting.

The above structure can be confirmed through the front view of FIG. 3, in particular, the I-type core 1 and the E-type core 1a described above through (a) and (b), which are partially enlarged views of FIG. 4. The specificity of and can be reproduced.

Therefore, the present invention having the above structure can be made easy and close assembling work in the state that does not require a separate alignment for the I-type core when inserting the ballast according to the assembly of the I-type core and E-type core The welding work is also unnecessary, which can shorten the process, improve the workability, and reduce the number of people, and the electrical characteristics can be remarkably improved due to the formation of guide grooves and rounded corners. Utility can be achieved.

Hereinafter, the present invention has been illustrated and described with reference to certain preferred embodiments, but various modifications and changes may be made without departing from the spirit or the scope of the present invention provided by the following claims.

Claims (2)

In the core for a stabilizer, a plurality of silicon thin steel sheets are bonded to each other in the form of interfitting, including a guide groove formed in the short axis direction of the upper center, and a projection jaw formed in the lower end of the thin steel sheet tapered with a slight upper and lower light A type I core; With a structure corresponding to the tapered protruding jaw of the I-type core, the upper end of the inner end face facing in both left and right directions is slightly inclined, but also the E-type core having guide grooves formed in the short axis direction of the lower center as a pair. A ballast core with improved electrical and structural properties, characterized in that it is assembled by detachable fitting. The ballast core of claim 1, wherein smooth flow of left and right ends of the I-type core is induced to smoothly flow magnetic lines.