KR20190141295A - A Magnetic Type of a Charging Connector - Google Patents

Abstract

The present invention relates to a magnetic type charging connector. More specifically, the present invention relates to a magnetic type charging connector that an electronic device may be charged since different terminals are coupled by the magnetism and connected to a charging port. The magnetic type charging connector comprises: an insertion body (11); a connection terminal (12) extending from the insertion body (11); and a first insulating body (13) insulating the insertion body (11) and connection terminal (12) and having a charging pin fixed thereto. The insertion body (11) has the magnetism.

Description

Magnetic Charging Connector {A Magnetic Type of a Charging Connector}

The present invention relates to a magnetic charging connector, and more particularly, to a magnetic charging connector that is coupled to different terminals by magnetic and connected to a charging port to enable charging of an electronic device.

Various types of portable or similar electronic devices, including smart phones, need to be charged periodically by being connected to a computer or similar power supply. Charging terminals and charging adapters connected by cables can be used for the connection of the electronics and the power supply means, and charging adapters of various constructions are known in the art. Patent Publication No. 10-2016-0047578 discloses an inductive charging interface for a mobile device, and Patent Registration No. 10-1536888 describes a gender inserted into a charging terminal of a portable terminal and a magnetic force fixed to the gender. A charging device for a portable terminal having a connector is disclosed. The interface or charging device disclosed in the prior art discloses a magnetic coupling structure but has a disadvantage in that the charging stability due to magnetic field formation is reduced while the stability of the coupling structure is low. Therefore, there is a need to make a charging means having bonding stability and no electromagnetic influence on the charging process. However, the prior art does not disclose such a charging means.

The present invention is to solve the problems of the prior art has the following object.

Prior Art 1: Patent Publication No. 10-2016-0047578 (Apple Inc., released May 02, 2016) Inductive charging interface with magnetic retention for electronic devices and accessories Prior Art 2: Patent Registration No. 10-1536888 (Lee, Choi, July 22, 2015 announcement) Charging device for a portable terminal fixed by magnetic force

It is an object of the present invention to provide a magnetic charging connector having a shock absorbing function while having a bonding safety.

According to a suitable embodiment of the present invention, the magnetic charging connector includes an insert body; A connecting terminal extending from the insertion body; And a first insulating body to which the charging pin is fixed while insulating the insertion body and the connection terminal, wherein the insertion body has magnetic properties.

According to another suitable embodiment of the present invention, there is provided an insulating material containing an insertion body; A fixed unit of magnetic material disposed inside the housing case; And a second insulating body coupled to the charging pin and coupled to the charging pin while being inserted into the fixing unit, wherein the second insulating body is movable with respect to the fixing unit.

According to another suitable embodiment of the present invention, the insertion body and the fixed unit have a magnetic field formed in the longitudinal direction.

The magnetic charging connector according to the present invention allows the sub-connectors connected to each other to be stably coupled by magnetic. The magnetic charging connector according to the present invention prevents damage to the terminal pin by the shock absorbing structure. In addition, the magnetic charging connector according to the present invention is prevented from electromagnetically affecting each other in the charging process by the magnetic portion and the portion to be charged are insulated.

1 illustrates an embodiment of a connection connector forming a charging connector according to the present invention.
2 illustrates an embodiment of a cable connector forming a charging connector according to the present invention.
Figure 3 shows an embodiment of a buffer structure of a cable connector according to the present invention.
4 shows an embodiment of a self-forming structure of a charging connector according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments set forth in the accompanying drawings, but the embodiments are provided for clarity of understanding and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, and thus are not repeatedly described unless necessary for understanding of the invention, and well-known components are briefly described or omitted. It should not be understood to be excluded from the embodiment of.

1 illustrates an embodiment of a connection connector forming a charging connector according to the present invention.

Referring to FIG. 1, the charging connector for charging the portable electronic device includes an insertion body 11; A connection terminal 12 extending from the insertion body 11; And a first insulating body 13 to which a charging pin is fixed while insulating the insertion body 11 and the connection terminal 12, wherein the insertion body 11 has magnetic properties.

The charging connector may include a connection connector 10a, 10b, and 10c and a cable connector, and different connection connectors 10a, 10b, and 10c may be detachably connected to the cable connector. Connection connectors 10a, 10b, and 10c may be connected to one end of the cable connector, and the cable may be connected to the other end. In addition, a port terminal connected to the charging port at one end of the cable is connected to the electronic device connected to the connection connector (10a, 10b, 10c) by a power supply can be charged. In such a structure, the connector 10a, 10b, 10c includes an insertion body 11; A connection terminal 12 extending from the insertion body 11; And a first insulating body 13 to which a charging pin is fixed while insulating the insertion body 11 and the connection terminal 12. And at least a portion of the insertion body 11 may be magnetic, thereby magnetically coupled to the cable connector.

The connection connectors 10a, 10b, and 10c may be connected to the portable electronic device, and may be made in various shapes depending on the structure of the charging port formed in the portable electronic device. Insertion body 11 may be an annular shape having two mutually opposite surfaces of a planar shape as a whole. In addition, the insertion body 11 may form a receiving space by a pair of side surfaces having two surfaces facing each other and a curved surface connecting both ends of the two surfaces. In addition, the connection terminal 12 may extend from one end of the insertion body 11, and a terminal pin for charging may be disposed in the connection terminal 12. The different connecting connectors 10a, 10b, 10c may have insertion bodies 11 of the same or similar shape, whereby they can be connected to the same cable connector. And the connection terminal 12 can be made of a suitable structure that can be connected to the charging port structure of each portable electronic device. Referring to FIG. 1A, the connection terminal 12 may have a flat channel or tube shape in which one side of the connection terminal is opened and the terminal pin 14a is disposed therein. Referring to FIG. 2B, a plurality of terminal pins 14b may be formed in a structure in which an insulating block is disposed inside the connection terminal 12. Alternatively, referring to (c) of FIG. 2, the connection terminal 12 may have a plate shape and may have a structure in which an insulating sheet having terminal pins 14c disposed on both sides of an end portion is attached. Each connection terminal 12 may be made in a similar structure as a whole, with a structure in which appropriate terminal pins 14a, 14b, and 14c are disposed according to the charging port structure of the portable electronic device. In addition, a first insulating body 13 having a connection pin electrically connected to the terminal pins 14a, 14b, and 14c may be disposed in the insertion body 11. The first insulating body 13 may function to electrically separate the insertion body 11 and the connection terminal 12 and to firmly fix the connection terminal 12 to the insertion body 11. For example, the first insulating body 13 may be formed with a receiving portion at one end, and may be made of a synthetic resin material having elasticity and insulation. Alternatively, the first insulating body 13 may have a receiving cylinder structure in which one side is opened and the other side has a closed side in which terminal pins are fixed. The lower portion of the connection terminal 12 is forcibly inserted into the first insulating body 13 so that the connection terminal 12 is firmly inserted into the insertion body 11 by the elasticity of the circumferential surface of the insertion body 11. To be fixed. Adhesive may be applied to the circumferential surface of the first insulation body 13 or the inner surface of the insertion body 11 according to the structure of the connecting connector 10a, 10b, 10c, whereby the first insulation body 13 is inserted. It can be stably fixed to the body (11). As shown in FIG. 1, the first insulating body 13 may extend to at least the end of the insertion body 11 to form a separating edge 13a. By the structure of the first insulating body 13, the insertion body 11 and the connection terminal 12 may be electrically insulated completely. In addition, since the first insulating body 13 is made of an insulating material and at the same time made of a non-magnetic material, various electromagnetic phenomena that may occur in the insertion body 11 and the connection terminal 12 made of a conductive material can be prevented. Can be.

According to one embodiment of the present invention, the insertion body 11 may have a magnetic property, and the magnetism of the insertion body 11 may include a permanent magnet disposed therein, or at least a part of the insertion body 11 may be formed of a magnetic material. It may be made or generated by wrapping the circumferential surface of the first insulating body 13 in a magnetic sheet. As such, the insertion body 11 may be easily coupled to the charging connector by having magnetic properties, and may be stably fixed after the insertion body 11 is coupled. The insertion body 11 may be coupled to a magnetic forming portion formed in the charging connector.

2 shows an embodiment of a cable connector 21 forming a charging connector according to the present invention.

2, a cable C is connected to one end of the cable connector 21, and a port terminal connected to the charging port of the power supply means may be coupled to the other end of the cable. The connector 21 may include a housing case 211 made of an insulating material in which the insertion body 11 is accommodated; A fixing unit 212 of magnetic material disposed inside the housing case 211; And a second insulating body 213 coupled to the charging pin and coupled to the charging pin while being inserted into the fixing unit 212, and the second insulating body 213 moves with respect to the fixing unit 212. It is possible.

The accommodating case 211 may be provided with a connection portion to which the cable C may be connected at one end while an accommodating space is formed therein. The housing case 211 may be made of ABS resin, polycarbonate, polyvinyl chloride, or similar insulating synthetic resin material. The fixing unit 212 made of a metal material may be disposed in the accommodation case 211, and the fixing unit 212 may have magnetic properties. The fixing unit 212 may be a ring shape having a width, and may be fixed to the housing case 211 by an adhesive means, by elasticity or by other suitable means. The fixing unit 212 may be made of various structures that can be fixed while surrounding the second insulating body 213 and is not limited to the embodiment shown. The second insulating body 213 having a plurality of connection pins fixed therein may be fixed inside the fixing body 212. A plurality of connecting pins may be disposed on the second insulating body 213, and the second insulating body 213 may be a synthetic resin material having elasticity. The second insulating body 213 may be disposed to be moved back and forth with respect to the fixed unit 212. For example, an elastic material may be disposed inside the fixing unit 212, and an elastic material such as a spring or an elastic rubber may be disposed to move the fixing unit 212 back and forth. The fixing unit 212 may be disposed such that an end thereof is positioned at an inner portion of the accommodation case 211, and a front surface of the second insulating body 213 may be positioned inside the fixing unit 212. And it can be moved by the elastically inward while the movement is limited to the outside, the insertion body of the connecting connector 10a can be coupled to the fixed unit 212 by magnetic, the external impact is the second insulating body 213 It can be absorbed by the elastic movement of.

The shock absorbing structure of the second insulating body 213 can be made in various forms and is not limited to the embodiments shown.

Figure 3 shows an embodiment of a buffer structure of a cable connector according to the present invention.

Referring to FIG. 3, the second insulating body 213 to which the connecting pin P is fixed may be disposed inside the receiving cylinder 214, and the elastic unit 215 may be disposed on the inner side of the receiving cylinder 214. Can be arranged. As described above, the elastic unit 215 may be any material having a spring, elasticity, stretchable synthetic resin, elastic fiber, or similar elasticity. The fixing unit 212 can extend any length into the interior of the housing case 211, and the connecting pin P can be electrically connected to the electrical transmission means 216 in various ways. The receiving cylinder 214 can be made in a variety of structures, for example the receiving cylinder 214 can be grooved in the stationary unit 212 or can be made independent and coupled to the stationary unit 212.

The elastically moving structure of the second insulating body 213 can be made in various forms and is not limited to the embodiments shown. In addition, the connecting connector 10a and the cable connector 21 may be made of various magnetic structures.

4 shows an embodiment of a self-forming structure of a charging connector according to the present invention.

Referring to FIG. 4, the fixing unit 212 disposed inside the cable connector 21 may have various extension lengths, and at least a portion of the fixing unit 212 may be a magnetic structure. In addition, a magnetic structure is formed in the connection connector 10a coupled to the cable connector 21 so that the cable connector 21 and the connection connector 10a may be coupled to each other by magnetism. Specifically, the first magnetic unit 41 may be disposed in the insertion body 11, and the first magnetic unit 41 may be disposed in the middle portion of the insertion body 11. The first magnetic unit 41 may be arranged such that the first magnetic pole, such as the N pole, is located outside, and the second magnetic pole, such as the S pole, is located inside. In addition, a second magnetic unit 42 magnetically coupled to the first magnetic unit 41 may be disposed in the fixed unit 212. The second magnetic unit 42 may be disposed such that the second magnetic pole is located outside and the first magnetic pole is located inside. In addition, the second magnetic unit 42 may be located in front of the fixed unit 212, and by this structure the first magnetic unit 41 and the second magnetic unit 42 of the insertion body 11 The magnetic field may be concentrated at the front and the front of the fixing body 211. The insertion body 11 and the fixing unit 211 may include a receiving wall surface having a pair of large lengths facing each other and a connection surface connecting both ends of the receiving wall surface to each other. The first magnetic unit 41 and the second magnetic unit 42 may be formed to have a relatively large magnetic field at the centers C1 and C2 in the extending direction of the receiving wall facing each other. For example, the poles of the north pole and the south pole may be formed to be located at the centers in the longitudinal direction of the receiving wall, respectively. With this structure, when the connector 10a is located near the cable connector 21, the connector 10a and the cable connector 21 can be automatically coupled by a magnetic field. For example, the first magnetic unit 41 and the second magnetic unit 42 may be arranged in a band shape having a narrow width at the center with respect to the extension length of the receiving wall facing each other. By such a structure, the connection connector 10a and the cable connector 21 can be easily coupled to each other and can be stably coupled.

The first magnetic unit 41 and the second magnetic unit 42 may have various coupling structures and are not limited to the embodiments shown.

The magnetic charging connector according to the present invention allows the sub-connectors connected to each other to be stably coupled by magnetic. The magnetic charging connector according to the present invention prevents damage to the terminal pin by the shock absorbing structure. In addition, the magnetic charging connector according to the present invention is prevented from electromagnetically affecting each other in the charging process by the magnetic portion and the portion to be charged are insulated.

Although the present invention has been described in detail above with reference to the presented embodiments, those skilled in the art may make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. . The invention is not limited by the invention as such variations and modifications but only by the claims appended hereto.

10a, 10b, 10c: connecting connector 11: insertion body
12: connecting terminal 13: first insulating body
13a: separation edge 14a, 14b, 14c: terminal pin
21: cable connector 41, 42: first and second magnetic units
211: accommodation case 212: fixed unit
213: second insulating body 214: receiving cylinder
215: elastic unit 216: electrical transmission means
C: cable C1, C2: center
P: connecting pin

Claims (3)

In the charging connector for charging the portable electronic device,
Insertion body 11;
A connection terminal 12 extending from the insertion body 11; And
A first insulating body 13 having a charging pin fixed thereto while insulating the insertion body 11 and the connection terminal 12,
Magnetic charging connector, characterized in that the insertion body (11) has a magnetic. The method according to claim 1, wherein the housing body 211 of the insulating material is accommodated in the insertion body (11); A fixing unit 212 of magnetic material disposed inside the housing case 211; And a second insulating body 213 coupled to the charging pin and coupled to the charging pin while being inserted into the fixing unit 212, and the second insulating body 213 moves with respect to the fixing unit 212. Magnetic charging connector, characterized in that possible. The magnetic charging connector according to claim 2, wherein the insertion body (11) and the fixing unit (212) have a magnetic field formed in the longitudinal direction.

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