KR102328273B1 - Routing Type Line Filter - Google Patents

Abstract

The present invention relates to a routing type line filter that is installed on electrical wirings of various electric and electronic products to absorb/block electromagnetic waves (EMI), and more specifically, to a routing type line filter, which can simplify a manufacturing process and reduce manufacturing costs, and can provide an excellent installation space by reducing a whole thickness and a width size of a part, in which a plurality of parts, which are conventionally separated into upper and lower covers, a base, and a separator, are provided in a simple and compact form of a base and a cover by providing a structure in which a core (30) is accommodated in a core accommodating part of a base (10) having an annular structure in which left and right protrusions (15, 15') are formed on left and right sides thereof and a core accommodating part (12) is integrally formed therein, a cover (20) having an annular structure integrally formed at an inner center thereof with a separator (25) is vertically coupled, front and rear coil parts (40, 40') for winding a coil around the base and a front and rear of the cover are provided, and a gap pad (50) is installed or not installed on an upper side of the base.

Description

Routing Type Line Filter

The present invention relates to a routing type line filter that absorbs/blocks electromagnetic waves (EMI) by installing it on the electrical wiring of various electrical and electronic products, and more particularly, is composed of a conventional upper and lower cover, a base, and a separator in addition to the core. It relates to a routing type line filter that provides a simple and compact form by forming a plurality of parts as a base and a cover.

In general, the electric wiring of various electric and electronic products such as refrigerators, TVs, and air conditioners generates electromagnetic waves that have a harmful effect on the human body, so a line filter is installed to block/absorb EMI.

In the conventional line filter described above, the core is accommodated and coupled inside the upper and lower covers having an annular structure, and a separator is coupled to the center of the upper and lower covers to partition the front and rear, but the front and rear partitions of the upper and lower covers The coil assembly was prepared by forming the front and rear coil parts by winding each coil into the parts, and it was manufactured to be assembled inside the terminal base. In addition, the coil ends of the front and rear coil parts were manufactured to be directly used as terminal pins by connecting them to terminal pins protruding from the bottom of the terminal base, or fixing them in a state in which they protrude through the pinholes formed on the bottom of the base.

The conventional line filter manufactured in this way has a structure in which a plurality of parts including upper and lower covers, a separator, and a terminal base are assembled, so there is a problem in that the manufacturing process is complicated and the manufacturing cost is increased.

In particular, since it is manufactured in such a way that the coils of the front and rear coil parts are wound with the core embedded inside the upper and lower covers and then housed in the terminal base to cover the outer periphery, the upper and lower cores are accommodated. As the cover was reassembled to the terminal base, the overall height and thickness of the assembly parts became thick, and the width size was also widened overall, so there was a problem in that the installation space of the line filter was taken up a lot. For this reason, in the case of electric and electronic products using the above-described line filter, there is a limitation in manufacturing with a slim structure and a compact structure.

In addition, in the case of the upper and lower covers in which the coils of the front and rear coil parts are wound in the conventional line filter described above, since they are molded and manufactured from the same material, that is, the same flexible material, it is possible to wind the coil by winding the coil to the outside of the upper and lower covers. When the core (especially the flexible core) received inside the upper and lower covers receives a large stress, the performance and durability of the line filter are deteriorated. Since the cover material is pressed and deformed, it is impossible to wind the coil to accurately and uniformly match the characteristic values set in advance, and there is a problem in that the quality of the line filter is deteriorated.

Registered Patent No. 10-0951785 (April 01, 2010) Registered Patent No. 10-1008198 (January 07, 2011) Registered Patent No. 10-1877791 (July 06, 2018)

The present invention was invented to solve all the problems of the prior art, and in addition to the core, a plurality of parts separated into the conventional upper and lower covers, the base and the separator are formed into the base and the cover to provide simple and compact manufacturing. The purpose is to simplify the process and reduce the manufacturing cost, as well as to provide excellent installation space by reducing the thickness and width of the product.

An object of the present invention is to provide excellent assembly reliability because the base and the cover parts are simply and firmly assembled.

An object of the present invention is to additionally provide impact prevention, vibration and noise prevention, and heat transfer effect as well as size adjustment depending on whether a gap pad is installed on an upper part of a base part.

The present invention has an annular structure integrally forming the core receiving part inside, and a base that protrudes left and right protrusions on both left and right sides, and is coupled to the lower part of the base in an annular structure to seal the core receiving part, but a separator in the inner center Formed by integrally forming a cover that divides the front and rear while vertically inserted into the assembly groove formed inside the left and right protrusions of the base; It is characterized in that it has a structure excluding the front and rear coil parts and the gap pad seated and installed on the upper part of the base or the gap pad.

According to the present invention, ring-shaped steps are formed on the inner and outer periphery of the lower part of the core receiving part of the base, and ring-shaped protrusions are formed on the inner and outer periphery of the upper part of the cover to be inserted and coupled to each other, and on both upper sides of the cover It is characterized in that the coupling protrusion is formed to protrude to the outside of the ring-shaped protrusion, and the coupling groove is vertically formed in the lower part of the left and right protrusions of the base so as to be inserted and coupled to each other.

According to the present invention, the left and right protrusions of the base are formed to face each other in a T-shaped structure, and grooves are formed along the outer periphery on both sides of the outside to wind and fix the coil ends of the front and rear coil parts, the front, The coil end of the rear coil part is characterized in that it is configured to be directly used as a terminal pin by connecting it to the terminal pins vertically coupled to the outside of the left and right protrusions, or by inserting and fixing it in a pinhole.

According to the present invention, the base and the cover are characterized in that the upper left and right protrusions and the protruding jaws protruding from the left and right on the lower part of the cover are configured to protrude upward and downward more than the coils of the front and rear coils.

According to the present invention, the base is molded with a thermosetting resin corresponding to a hard material, and the cover is molded with a thermoplastic resin corresponding to a soft material, and is characterized in that it is composed of different materials.

The present invention accommodates the core in the core receiving portion of the base integrally forming the left and right protrusions on the left and right and the core receiving portion therein, and vertically coupling the cover integrally forming the separator in the inner center, but the base and the cover By a structure that installs or excludes the front and rear coil parts for winding the coil back and forth and the gap pad on the upper part of the base, it is simple and compact with a base and a cover for a number of parts that are conventionally separated into upper and lower covers, bases and separators As it is formed and provided in such a way, it will simplify the manufacturing process and reduce the manufacturing cost, as well as reduce the overall thickness and width of the part to provide an excellent effect of installation space.

In particular, by using the line filter of the present invention, electric and electronic products can be manufactured into slimmer and more compact products.

In addition, since the assembly structure of the base and the cover is provided in a simple and robust manner, the product assembling property, assembly robustness, and assembly reliability are excellent. and to have the effect of additionally providing noise prevention and heat transfer effects.

1 is a perspective view showing a first embodiment of the present invention.
Figure 2 is a bottom perspective view of Figure 1;
Figure 3 is an exploded perspective view of Figure 1;
Figure 4 is a front cross-sectional perspective view of Figure 1;
Figure 5 is a side cross-sectional perspective view of Figure 1;
Figure 6 is an exploded perspective view showing a cross-sectional state of the base and the cover of Figure 1;
Figure 7 is a side cross-sectional view showing the assembly process of Figure 6;
8 is a perspective view showing a second embodiment of the present invention.
9 is a bottom perspective view of FIG.
10 is an exploded perspective view of FIG. 8 ;
11 is a front cross-sectional perspective view of FIG.
12 is a side cross-sectional perspective view of FIG.
13 is a product photograph showing the second embodiment of FIG.
Figure 14 is a product photograph showing the bottom of Figure 13.

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

The routing type line filter of the present invention accommodates the core inside the base, combines the cover, and then winds the coil before and after the base and the cover. A structure that is not installed (second embodiment) will be described separately.

1 to 7, the line filter F1 of the first embodiment includes a base 10, a cover 20, a core 30, front and rear coil parts 40, 40', and a gap. It is made of a pad (50).

The base 10 has a structure in which the base 10 is formed in an annular structure, and the core accommodating part 12 in which the core 30 is accommodated is integrally formed to substantially integrally form the base and one side cover.

Left and right protrusions 15 and 15' are protruded on both left and right sides of the base 10, and the left and right protrusions 15 and 15' protrude upward, downward and inwardly and outwardly of the base. It is formed in a T-shaped structure, and the inner side of the left and right protrusions 15 and 15' is configured to form an assembling groove 16 to face vertically.

In addition, the left and right protrusions 15 and 15' are configured to form concave grooves 18 and 18 along the outer periphery to wind and fix the coil ends of the front and rear coils at both outer sides.

The cover 20 is formed in an annular structure corresponding to the base, and is coupled to the lower portion of the base to seal the core accommodating part 12 . In addition, the cover is constituted by integrally forming a plate-shaped separator 25 in the inner center.

In other words, the conventional upper and lower covers, bases, and separators are formed by forming a base and a cover to form a simple and compact assembly structure, thus simplifying the assembly structure and reducing the overall vertical height and width of the assembled parts. This is to make it compact.

The separator 25 of the cover is inserted and coupled into the assembly grooves 16 vertically formed inside the left and right protrusions 15 and 15 of the base to partition the front and rear sides of the base 10 and the cover 20 . to compose

And the base 10 and the cover 20 are coupled in a stepped structure, and ring-shaped steps 12a and 12b are formed on the inner and outer periphery of the lower end of the core receiving part 12 of the base, and the cover 20 In the upper inner and outer periphery of the ring-shaped step (12a, 12b) is inserted into the ring-shaped projections (21a, 21b) to be coupled to the protrusion is formed to be coupled to each other.

At this time, on both upper sides of the cover 20, the ring-shaped protrusions 21b are formed to vertically protrude engaging protrusions 23 and 23' to the outside, and the engaging grooves are formed in the lower left and right protrusions 15 and 15' of the base ( 13) (13') is vertically formed and the coupling protrusions 23 and 23' of the cover are vertically inserted so as to be assembled with each other.

The core 30 is formed in an annular structure accommodated in the core accommodating part 12 of the base, but may be formed of a soft or hard material.

The front and rear coil units 40 and 40 ′ are front and rear portions divided by the left and right protrusions 15 and 15 ′ of the base 10 and the separator 25 of the cover 20 , that is, a semicircular shape. Each coil is wound as a ring part, and the coil ends of the front and rear coil parts 40 and 40' are wound around the grooves 18 and 18 formed on the left and right protrusions of the base and fixed, The end of the coil is connected to the terminal pins 17 and 17 that are vertically coupled to the outer both sides of the left and right protrusions as shown in the drawing, or inserted into the pinholes formed vertically at the position of the terminal pins on the left and right protrusions, although not shown in the figure. Fix it and configure it to be used as a terminal pin directly.

At this time, the front and rear coil parts 40 and 40 ′ are on the left and right protrusions 15 and 15 ′ of the base 10 and the protruding jaws 24 protruding from side to side on the lower part of the cover 20 . It can be configured by winding the coil so that it does not protrude upward or downward.

In addition, the base 10 and the cover 20 are formed with a difference in thickness between the material and the material, unlike the conventional method of molding with a single flexible material. That is, the base 10 is molded to be thicker than the cover with a phenolic resin, which is a thermosetting resin corresponding to a hard material, and the cover 20 is thinner than the base with PBT resin, which is a thermoplastic resin corresponding to a soft material. When the coil is wound by molding to a thickness, the strength of the base in which the core is accommodated is high, which reduces the stress on the core (especially the soft core) of the core accommodating part 12. It is configured so that it can be wound consistently with the set standard, so that the characteristic values of the product can be accurately and uniformly tailored to be manufactured.

The gap pad 50 is installed to be seated on top of the left and right protrusions 15 and 15' of the base to perform functions such as shock prevention, vibration and noise prevention, and heat transfer effect by the material properties of the gap pad. to compose

As shown in FIGS. 8 to 14, the line filter F2 of the second embodiment is the rest except for the gap pads that are coupled and installed on the upper left and right protrusions 15 and 15' of the base. Since the structure is the same as that of the line filter F1 of the first embodiment described above, a detailed description thereof will be omitted.

Hereinafter, the operation and operation of the present invention configured as described above will be mainly described with reference to the first embodiment.

First, the line filter (F1) of the present invention provides a simple structure of the base 10 and the cover 20 by integrating a plurality of parts separately composed of the conventional upper and lower covers, the base and the separator, and the base 10 ) is integrally formed with the core accommodating part 12 and the separator 25 is integrally formed with the cover 20 .

When explaining the process of assembling the line filter F1 of the present invention, after the core 30 is accommodated in the core accommodating part 12 integrally formed in the annular base 10, the annular structure cover ( 20) is combined.

At this time, the separator 25 integrally formed vertically in the inner center of the cover 20 is vertically inserted into the assembly groove 16 inside the left and right protrusions 15 and 15' formed on both left and right sides of the base. assemble

At the same time, the coupling protrusions 23 and 23' vertically protruding from both sides of the upper side of the cover 20 are inserted into the coupling grooves 13 and 13' vertically formed under the left and right protrusions 15 and 15' of the base. The ring-shaped protrusion 21a protrudes from the inner and outer periphery of the upper end of the cover 20 to the ring-shaped steps 12a and 12b formed on the inner and outer periphery of the core receiving portion 12 of the base together with the insert and assembly box. By inserting the (21b), the core receiving portion 12 of the base is tightly fixed and coupled while sealing.

In this way, the base 10 is assembled by coupling the cover 20 to the base 10 .

In this state, the coil is wound in a semi-circular ring portion divided into front and back sides of the base 10 and the cover 20, that is, the separator 25 and the left and right protrusions 15 and 15' of the base. To form the front and rear coil parts 40, 40'.

And the coil ends of the front and rear coil parts 40 and 40' are wound and fixed in the grooves 18 and 18 formed along the outer periphery on both outer sides of the left and right protrusions 40 and 40'. In this, the coil ends of the front and rear coil parts are connected to terminal pins 17 and 17 vertically coupled to the outer both sides of the left and right protrusions, or inserted and fixed in a pin hole (not shown) to be directly used as a terminal pin. will be.

After forming the front and rear coil parts 40 and 40' in this way, the gap pad 50 is coupled and installed on the upper ends of the left and right protrusions 40 and 40' of the base 10 .

In this way, the assembly of the line filter F1 of the first embodiment is completed.

The line filter F1 of the present invention has a core housing unit 12 integrally formed with the base 10 and a separator integrally formed with the cover 20, and is composed of a plurality of conventional upper and lower covers, bases, and separators. Since the structure to be used is provided as a simple structure of the base 10 and the cover 20, it is simple and easy to assemble, thereby simplifying the manufacturing process and significantly reducing the manufacturing cost.

In particular, due to the simple structure of the base 10 and the cover 20, the width size as well as the vertical height of the line filter is greatly reduced, thereby providing excellent installation space. That is, in the case of a TV or the like, a slimmer structure can be manufactured, and in the case of other electric and electronic products, a slim structure as well as a compact structure can be manufactured.

In addition, additional functions such as prevention of shock applied to the line filter due to the gap pad 40 installed on the upper portion of the base 10, prevention of vibration and noise in the device caused by a magnetic field, and insulation effect are provided. .

In addition, the line filter F1 of the present invention is not manufactured by molding the base 10 and the cover 20 with a single, flexible material as in the prior art, but is formed with a difference in material and thickness of the material.

That is, the base 10 is molded to be thicker than the cover with a phenolic resin that is a thermosetting resin corresponding to a hard material, and the cover 20 is thinner than the base with a PBT resin that is a thermoplastic resin corresponding to a soft material. Since it is molded to a thickness, the strength of the base 10 is high during coil winding of the front and rear coil parts 40 and 40', so that the core (especially a soft material core) stored in the inner core accommodating part 12 is The stress received will be greatly reduced than before. In addition, when the coil is wound on the base 10 and the cover 20, the material of the base does not deform as in the prior art, so that it can be wound consistently according to the specifications set when designing the parts, so that the characteristic values of the product are accurately and uniformly adjusted. It will be possible to provide excellent marketability of the filter.

On the other hand, the line filter F2 corresponding to the second embodiment of the present invention is formed in a structure excluding the gap pad 50 on the upper portion of the base 10 as compared to the line filter F1 of the first embodiment while forming a line The overall top and bottom of the filter can be configured to be slimmer, so that electric and electronic products can be manufactured more slim. Other assembling and operational effects are the same as those of the line filter of the first embodiment, so a detailed description thereof will be omitted.

10: base
12: core compartment
12a, 12b: ring-shaped step
13,13': coupling groove
15,15': left and right protrusions
16: assembly groove
17: terminal pin
18: groove
20: cover
21a, 21b: ring-shaped projections
23,23': bonding protrusion
24: protruding jaw
30: core
40, 40': front and rear coil part
50: gap pad

Claims (6)

A base 10 integrally formed with the core accommodating part 12 inside in an annular structure and protruding left and right protrusions 15 and 15' on both left and right sides;
The cover ( 20) and
a core 30 accommodated in the core receiving part 12 of the base;
Front and rear coil parts 40 and 40' formed by winding coils before and after the base 10 and the cover 20, respectively;
It consists of a gap pad 50 that is seated and installed on the upper part of the base,
The left and right protrusions 15 and 15' of the base 10 are formed to face each other in a T-shaped structure, and grooves 18 and 18 are formed along the outer periphery on both sides of the outside to form the front and rear coil portions 40 ) (40') by winding the end of the coil to fix it,
A routing type line filter, characterized in that the coil ends of the front and rear coil parts are connected to terminal pins vertically coupled to the outer both sides of the left and right protrusions, or are inserted and fixed in pinholes to be used as terminal pins directly.
A base 10 integrally formed with the core accommodating part 12 inside in an annular structure and protruding left and right protrusions 15 and 15' on both left and right sides;
The cover ( 20) and
The core 30 accommodated in the core receiving part 12 of the base, and
It consists of front and rear coil parts 40 and 40' formed by winding coils before and after the base 10 and the cover 20, respectively,
The left and right protrusions 15 and 15' of the base 10 are formed to face each other in a T-shaped structure, and grooves 18 and 18 are formed along the outer periphery on both sides of the outside to form the front and rear coil portions 40 ) (40') by winding the end of the coil to fix it,
A routing type line filter, characterized in that the coil ends of the front and rear coil parts are connected to terminal pins vertically coupled to the outer both sides of the left and right protrusions, or are inserted and fixed in pinholes to be used as terminal pins directly.
3. The method of claim 1 or 2,
Ring-shaped steps 12a and 12b are formed on the inner and outer periphery of the core receiving part 12 of the base, and ring-shaped protrusions 21a and 21b are formed on the inner and outer periphery of the upper part of the cover 20. formed and inserted into each other,
At both upper sides of the cover 20, the ring-shaped protrusions 21b are formed to protrude to the outside of the coupling protrusions 23 and 23', and the coupling grooves 13 (13) ( 13') is formed vertically to be inserted and coupled to each other.
3. The method of claim 1 or 2,
The base 10 and the cover 20 have left and right protrusion parts 15 and 15', and a protruding jaw 24 protruding from the left and right on the lower part of the cover, front and rear coil parts 40, 40'. ) routing type line filter, characterized in that it is configured to protrude more upward and downward than the coil.
3. The method of claim 1 or 2,
Routing type line filter, characterized in that the base 10 is molded with a thermosetting resin corresponding to a hard material, and the cover 20 is molded with a thermoplastic resin corresponding to a soft material and composed of different materials. delete

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