KR101250290B1 - Wireless charger with moving coil - Google Patents

Abstract

PURPOSE: A coil movement type wireless charger is provided to improve wireless charge efficiency of a portable terminal by coinciding a vertical position of a power transmission coil and a power reception coil. CONSTITUTION: A magnetic induction member(120) is movably installed in a case in a direction parallel with the top of a case(110). A transmission coil(130) generates an inducted electromotive force to a power reception coil. A magnetic force unit(140) generates a magnetic force around the case. An elastic member(150) is installed inside the case. The elastic member is elastically deformed by the movement of the magnetic induction member.

Description

Coil mobile wireless charger {Wireless charger with moving coil}

The present invention relates to a coil mobile wireless charger, wherein a transmission coil moves in a direction in which a mobile terminal is arranged to wirelessly charge a mobile terminal.

Portable terminals such as mobile phones, portable game consoles, portable multimedia players, and the like have built-in batteries for power supply, and the batteries of such portable terminals can be repeatedly discharged and charged.

In order to charge the rechargeable battery, a cradle for charging the battery by mounting and fixing the battery itself or by mounting and fixing the mobile terminal with the built-in battery is required.

When the charger of the cradle type is different from the shape of the battery or the shape of the portable terminal, the battery or the portable terminal having a different shape cannot be charged using the cradle, and thus, each battery or portable terminal must generally provide a cradle for each battery or portable terminal.

On the other hand, in recent years, a wireless charger for charging the battery of the portable terminal by installing a primary coil in the charger and a secondary coil in the battery of the portable terminal has been released.

Patent No. 10-0751635 discloses a wireless charger capable of wirelessly charging a battery of a mobile terminal.

1 is a view showing a wireless charger of a conventional portable terminal.

As shown in FIG. 1, the conventional wireless charger has a recess 40 having a concave structure in which the mobile terminal 200 is seated and charged in the body 20.

The primary coil 101 is installed inside the body 20.

The primary coil 101 forms a magnetic field capable of generating induced electromotive force in the secondary coil 202 provided in the mobile terminal 200.

Accordingly, when the mobile terminal 200 is seated in the recess 40, the mobile terminal 200 is charged using the electromagnetic induction phenomenon.

Meanwhile, in order to charge the mobile terminal using the wireless charger, alignment of the primary coil 101 and the secondary coil 202 is required.

Accordingly, the user of the portable terminal must place the portable terminal at an appropriate position of the wireless charger.

However, even if the user places the portable terminal in an appropriate position, if the position of the portable terminal is changed due to an impact or the like while the charging of the portable terminal is in progress, the charging efficiency is inevitably deteriorated.

Therefore, there is a problem in that a structure for fixing the portable terminal in a proper position, which is a problem in that a charger having a different shape according to the shape of the battery or the portable terminal, such as the charger of the cradle type described above.

The present invention is to solve the above-described problems, regardless of the shape of the portable terminal, regardless of the location of the portable terminal in the charger to match the coil position of the portable terminal and the charger coil that can improve the wireless charging efficiency of the portable terminal The purpose is to provide a mobile wireless charger.

In order to achieve the above object, the coil mobile wireless charger of the present invention includes a case in which a portable terminal equipped with a magnetic material and a faucet coil is disposed on an upper surface thereof; A magnetic induction member movably mounted to the case in a direction parallel to the upper surface of the case; A power transmission coil mounted on an upper surface of the magnetic induction member and configured to generate an induced electromotive force in the power reception coil; A magnetic force unit mounted to an upper surface of the magnetic induction member and generating magnetic force around the case; When the portable terminal is disposed on the upper surface of the case, the magnetic induction member is moved in the direction of the magnetic body of the portable terminal by the magnetic force of the magnetic force portion so that the power transmission coil is located below the power receiving coil Is arranged to.

Mounted inside the case, the magnetic induction member is coupled to the upper portion, and further comprises an elastic member elastically deformed by the movement of the magnetic induction member, the mobile terminal is disposed on the upper surface of the magnetic In the state where the elastic member is elastically deformed by the movement of the guide member, when the portable terminal is removed, the magnetic induction member is returned to its original position by the elastic restoring force of the elastic member.

The elastic member may include a fixing part fixedly mounted to the case; A deformable part of which one end is extended from the fixing part and elastically deformed in a direction parallel to the upper surface of the case; A coupling part formed at the other end of the deformation part and coupled with the magnetic induction member; .

The fixing part and the coupling part are formed in a ring shape, the deformation part is formed in a curved shape, the deformation part is composed of a plurality, each end is formed extending from the inside of the fixing part, each other end is It extends from the outside of the coupling portion.

The elastic member is composed of two or more coil springs, one end of which is fixedly mounted to the case and the other end of which is mounted to the magnetic induction member, wherein the elastic member is symmetrically disposed about the magnetic induction member.

The elastic member may include a fixing part fixedly mounted to the case; One end is mounted to the fixed portion, the other end is deformed portion is mounted to the magnetic induction member; The deformable portion is formed of a plurality of torsion springs elastically deformed in a direction parallel to the upper surface of the case.

The magnetic induction member, the base is movably mounted to the case in a direction parallel to the upper surface of the case; A core mounted on an upper portion of the base and having a transmission coil and a magnetic force mounted on an upper surface thereof; The core is configured to induce a magnetic field generated in the power transmission coil in an upward direction in which the mobile terminal is disposed.

The magnetic body is disposed in the center of the power receiving coil, the magnetic force portion is disposed in the center of the power transmission coil.

The coil mobile wireless charger according to the present invention has the following effects.

The transmission coil and the magnetic force unit are mounted on the magnetic induction member movably mounted to the case, and the magnetic induction member moves in the direction of the magnetic body of the portable terminal disposed on the upper part of the case, so that the transmission coil is located under the receiving coil of the portable terminal. The upper and lower positions of the power transmission coil and the power receiving coil coincide to improve wireless charging efficiency of the portable terminal, and wireless charging of various types of portable terminals is possible.

In addition, by including an elastic member mounted to the case and elastically deformed by the movement of the magnetic induction member, it is easy to return the magnetic induction member to the initial position by the elastic restoring force of the elastic member.

In addition, the magnetic induction member is composed of a base and a core mounted on the base, thereby increasing the durability of the magnetic induction member while inducing a magnetic field generated from the power transmission coil in an upward direction in which the receiving coil of the mobile terminal is arranged. It is easy to generate.

In addition, the magnetic body is disposed in the center of the power receiving coil and the magnetic force portion is disposed in the center of the power transmission coil, it is easy to position the power transmission coil in the lower portion of the power receiving coil to match the vertical position of the power receiving coil and the power transmission coil.

1 is a view showing a conventional wireless charger,
2 is a perspective view of a coil mobile wireless charger according to Embodiment 1 of the present invention;
3 is an exploded perspective view of a one-way of a coil mobile wireless charger according to Embodiment 1 of the present invention;
4 is an exploded perspective view of another direction of the coil mobile wireless charger according to Embodiment 1 of the present invention;
5 is a plan view of a coil mobile wireless charger according to Embodiment 1 of the present invention;
6 is a plan view of a coil mobile wireless charger according to Embodiment 2 of the present invention;
7 is a plan view of a coil mobile wireless charger according to Embodiment 3 of the present invention;

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Figure 2 is a perspective view of a coil mobile wireless charger according to a first embodiment of the present invention, Figure 3 is a one-way exploded perspective view of a coil mobile wireless charger according to a first embodiment of the present invention, Figure 4 is a first embodiment of the present invention Fig. 5 (a) is a plan view of the coil moving type wireless charger in a state where the transmission coil is moved, and Fig. 5 (b) is elastically deformed by the movement of the magnetic induction member. It is a top view which shows the elastic member of this.

2 and 5 are shown through the inside to show the internal structure of the case, Figure 5 (b) shows only the case and the elastic member disposed inside the case.

As shown in FIGS. 2 to 5, the coil moving type wireless charger according to the first exemplary embodiment of the present invention includes a case 110, a magnetic induction member 120, a power transmission coil 130, a magnetic force unit 140, and an elastic member. Made of 150.

In the case 110, a portable terminal 200 on which a magnetic material 201 and a power receiving coil 202 are mounted is disposed on an upper surface thereof.

In the present invention, the mobile terminal 200 may be made of only an electronic communication device such as a mobile phone, or may be made by combining an electronic communication device and a protective cover mounted to protect the same.

That is, the magnetic material 201 and the power receiving coil 202 mounted on the portable terminal 200 may be mounted on the electronic communication device itself, or may be mounted on a protective cover.

In this case, the magnetic body 201 is disposed at the center of the power receiving coil 202.

Accordingly, the power transmission coil 130 is positioned below the power receiving coil 202 and generates an induced electromotive force in the power receiving coil 202 to effectively wirelessly charge the mobile terminal 200.

Hereinafter, the configuration and structure of the coil mobile wireless charger will be described in detail.

As shown in Figure 2, the case 110 is formed in a hexahedral shape, the mobile terminal 200 is disposed on the upper surface of the case 110 is charged without a separate power connection.

The magnetic induction member 120, the power transmission coil 130, the magnetic force unit 140, and the elastic member 150 are mounted in the case 110.

The magnetic induction member 120 is movably mounted to the case 110 in a direction parallel to the upper surface of the case 110.

The magnetic induction member 120 is composed of a base 121 and the core 123.

The base 121 is movably mounted to the case 110 in a direction parallel to the upper surface of the case 110.

As shown in FIG. 3 or 4, the base 121 is formed in a disc shape, and the core 123 is mounted on the base 121.

In addition, a coupling protrusion 122 inserted into the coupling part 153 formed on the elastic member 150 protrudes from a lower portion of the base 121 as illustrated in FIG. 4.

As such, the coupling protrusion 122 is inserted into the coupling part 153 so that the base 121 is coupled to the elastic member 150, so that the magnetic induction member 120 is illustrated in FIG. 5 (a). ) Is movably mounted to the case 110 in a direction parallel to the upper surface of the case 110.

The core 123 is mounted on an upper portion of the base 121, and a power transmission coil 130 and a magnetic force unit 140 are mounted on an upper surface thereof.

The core 123 induces a magnetic field generated by flowing a current through the power transmission coil 130 in an upward direction in which the mobile terminal 200 is disposed.

Since the core 123 is brittle and easily broken, the core 123 is mounted on the base 121 to increase durability of the magnetic induction member 120.

The power transmission coil 130 is mounted on an upper surface of the magnetic induction member 120.

That is, the power transmission coil 130 is mounted on the upper surface of the core 123 to generate the induced electromotive force on the power receiving coil 202.

As described above, the magnetic field generated by the flow of current through the power transmission coil 130 is induced upward by the core 123 to which the portable terminal 200 is disposed, and the power receiver mounted on the portable terminal 200 is provided. Induction electromotive force is generated in the coil 202 to charge the mobile terminal 200.

The magnetic force unit 140 is mounted on the upper surface of the magnetic induction member 120.

That is, the magnetic force unit 140 is mounted on the upper surface of the core 123, is disposed in the center of the power transmission coil 130 to generate a magnetic force around the case 110.

Accordingly, when the portable terminal 200 is disposed on the upper surface of the case 110, the magnetic induction member 120 is a magnetic body 201 of the portable terminal 200 by the magnetic force of the magnetic force unit 140. The power transmission coil 130 is disposed below the power reception coil 202 by moving in the direction.

As described above, the magnetic body 201 of the portable terminal 200 is disposed at the center of the power receiving coil 202, and the magnetic force part 140 is disposed at the center of the power transmission coil 130. The magnetic force unit 140 is positioned below the magnetic body 201 by the magnetic force of 140 so that the power transmission coil 130 is positioned below the power receiving coil 202.

Therefore, when the mobile terminal 200 is disposed on the upper surface of the case 110, the magnetic induction in which the magnetic force unit 140 is mounted, no matter where the mobile terminal 200 is located on the upper surface of the case 110. The member 120 moves to be positioned below the portable terminal 200 such that the power transmission coil 130 is positioned below the power receiving coil 202, thereby preventing the power transmission coil 130 and the power receiving coil 202. The upper and lower positions may coincide to improve the wireless charging efficiency of the mobile terminal 200.

In addition, the wireless charger according to an embodiment of the present invention can conveniently wirelessly charge the portable terminal having various shapes.

The elastic member 150 is mounted inside the case 110, the magnetic induction member 120 is coupled to the upper portion, and elastically deformed by the movement of the magnetic induction member 120.

The elastic member 150 is composed of a fixing part 151, a deformation part 152 and the coupling part 153.

The fixing part 151 is disposed inside the case 110 and fixedly mounted to an inner lower surface of the case 110.

The fixing part 151 is formed in a ring shape as shown in FIG. 3 or 4.

One end of the deformable portion 152 extends from the fixing portion 151 and elastically deforms in a direction parallel to the upper surface of the case 110.

Specifically, as shown in Figure 3, the deformable portion 152 is made of a plurality, each is formed in a curved shape, each end is formed extending from the inside of the fixing portion 151, each other end is It extends from the outside of the coupling portion 153.

The deformable portion 152 is elastically deformed in a direction parallel to the upper surface of the case 110 as the magnetic induction member 120 moves as shown in FIG.

The coupling part 153 is formed at the other end of the deformation part 152 and the magnetic induction member 120 is coupled.

That is, the coupling part 153 is formed in a ring shape so that the coupling protrusion 122 is inserted.

Accordingly, when the magnetic induction member 120 is coupled to the elastic member 150, and the magnetic induction member 120 moves in a direction parallel to the upper surface of the case 110, the deformation part 152 is elastic. It will be deformed.

The deformable portion 152 elastically deformed as described above returns the magnetic induction member 120 to its original position by the elastic restoring force.

Specifically, the mobile terminal 200 is disposed on the upper surface of the case 110 and the mobile terminal 200 is removed in the state in which the elastic member 150 is elastically deformed by the movement of the magnetic induction member 120. When the magnetic induction member 120 is returned to its original position by the elastic restoring force of the elastic member 150.

The elastic member 150 as described above is a wireless charger as an additional configuration for returning the magnetic induction member 120 moved according to the position of the mobile terminal 200 disposed in the case 110 to the initial position. May not include the configuration.

Figure 6 (a) is a plan view of a coil mobile wireless charger according to a second embodiment of the present invention, Figure 6 (b) is a plan view showing a state in which the elastic member is elastically deformed by the movement of the magnetic induction member.

Figure 6 is a perspective view showing the inside of the case to show the internal structure.

Example 2 is different from the elastic member in comparison with Example 1 bar will be described mainly.

As shown in FIG. 6, the coil mobile wireless charger according to the second embodiment of the present invention includes a case 110, a magnetic induction member 120, a power transmission coil 130, a magnetic force unit 140, and an elastic member 150. Is made of.

The case 110, the power transmission coil 130, and the magnetic force unit 140 are the same as those in Embodiment 1, and thus detailed description thereof will be omitted.

And in the second embodiment, unlike the first embodiment, the coupling protrusion 122 is not formed on the magnetic induction member 120, that is, the base 121.

The elastic member 150 is composed of a fixing part 151 and a deformation part 152 as shown in Figure 6 (a).

The fixing part 151 is disposed inside the case 110 and fixedly mounted to an inner lower surface of the case 110.

The fixing part 151 is formed in a ring shape and has an inner diameter larger than the diameter of the circular magnetic induction member 120.

Accordingly, the fixing part 151 is disposed outside the magnetic induction member 120.

The deformable portion 152 includes a plurality of torsion springs that are elastically deformed in a direction parallel to the upper surface of the case 110.

Specifically, one end of the deformable portion 152 is mounted to the fixed portion, and the other end is mounted to the magnetic induction member 120.

That is, the other end of the deformable portion 152 is mounted to the base 121.

Therefore, the magnetic induction member 120 is coupled to the elastic member 150, the magnetic induction member 120 is moved in a direction parallel to the upper surface of the case 110, as shown in Figure 6 (b) The deformable portion 152 is elastically deformed.

The deformable portion 152 elastically deformed as described above returns the magnetic induction member 120 to its original position by the elastic restoring force.

Except for the above-described matters, the same description as in the first embodiment will be omitted.

Figure 7 (a) is a plan view of a coil mobile wireless charger according to a third embodiment of the present invention, Figure 7 (b) is a plan view showing a state in which the elastic member is elastically deformed by the movement of the magnetic induction member.

Figure 7 is a perspective view showing the inside of the case to show the internal structure.

Example 3 is different from the elastic member compared with Example 2 bar will be described mainly.

As shown in FIG. 7, the coil mobile wireless charger according to the third exemplary embodiment of the present invention includes a case 110, a magnetic induction member 120, a power transmission coil 130, a magnetic force unit 140, and an elastic member 150. Is made of.

The case 110, the magnetic induction member 120, the power transmission coil 130, and the magnetic force unit 140 are the same as those of the second embodiment, and thus detailed description thereof will be omitted.

The elastic member 150 is composed of a plurality of coil spring (e) as shown in FIG.

One end of the coil spring (e) is fixedly mounted to the case 110 and the other end is mounted to the magnetic induction member 120.

The coil spring (e) is made of at least two, are arranged symmetrically around the magnetic induction member 120 is compressed and expanded as the magnetic induction member 120 moves.

In Figure 7, the elastic member 150 is composed of four coil springs (e).

As shown in FIG. 7B, the compressed or expanded coil spring e returns the magnetic induction member 120 to its original position by an elastic restoring force.

Except for the foregoing, the same description as in the second embodiment will be omitted.

Coil mobile wireless charger of the present invention is not limited to the above-described embodiment can be carried out in a variety of modifications within the scope of the technical idea of the present invention.

110: case, 120: magnetic induction member, 121: base, 122: coupling protrusion, 123: core, 130: power transmission coil, 140: magnetic force part, 150: elastic member, 151: fixing part, 152: deformation part, 153: Coupling,

Claims (8)

delete A case in which a portable terminal equipped with the magnetic material and the faucet coil is disposed on the upper surface;
A magnetic induction member movably mounted to the case in a direction parallel to the upper surface of the case;
A power transmission coil mounted on an upper surface of the magnetic induction member and configured to generate an induced electromotive force in the power reception coil;
A magnetic force unit mounted to an upper surface of the magnetic induction member and generating magnetic force around the case;
An elastic member mounted inside the case, the magnetic induction member coupled to the upper portion, and elastically deformed by the movement of the magnetic induction member; , ≪ / RTI >
When the portable terminal is disposed on the upper surface of the case, the magnetic induction member is disposed to move in the direction of the magnetic body of the portable terminal by the magnetic force of the magnetic force portion so that the power transmission coil is located below the power receiving coil,
When the portable terminal is disposed on the upper surface of the case and the elastic member is elastically deformed by the movement of the magnetic induction member, when the mobile terminal is removed, the magnetic induction member returns to its original position by the elastic restoring force of the elastic member. Coil mobile wireless charger, characterized in that. The method according to claim 2,
The elastic member
A fixing part fixedly mounted to the case;
A deformable part of which one end is extended from the fixing part and elastically deformed in a direction parallel to the upper surface of the case;
A coupling part formed at the other end of the deformation part and coupled with the magnetic induction member; Coil mobile wireless charger, characterized in that consisting of. The method according to claim 3,
The fixing part and the coupling part is formed in a ring shape,
The deformation portion is formed in a curved shape,
The deformation part is composed of a plurality, each end is formed extending from the inside of the fixing portion, each other end is coil moving type wireless charger, characterized in that formed extending from the outside of the coupling portion. The method according to claim 2,
The elastic member
A fixing part fixedly mounted to the case;
One end is mounted to the fixed portion, the other end is deformed portion is mounted to the magnetic induction member; Lt; / RTI >
The deformation unit comprises a plurality of torsion springs that are elastically deformed in a direction parallel to the upper surface of the case. The method according to claim 2,
The elastic member is composed of two or more coil springs one end is fixedly mounted to the case and the other end is mounted to the magnetic induction member,
The elastic member is a coil moving type wireless charger, characterized in that disposed symmetrically around the magnetic induction member. The method according to claim 2,
The magnetic induction member,
A base movably mounted to the case in a direction parallel to the upper surface of the case;
A core mounted on an upper portion of the base and having a transmission coil and a magnetic force mounted on an upper surface thereof; Lt; / RTI >
The core is a coil moving type wireless charger, characterized in that to guide the magnetic field generated in the transmission coil in the upward direction in which the mobile terminal is arranged. The method according to any one of claims 2 to 7,
The magnetic material is disposed in the center of the faucet coil,
The magnetic force unit is a coil mobile wireless charger, characterized in that disposed in the center of the transmission coil.

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