KR20210007721A - Wireless Charging Apparatus for Vehicle for Easy to Drain - Google Patents

Abstract

The present invention provides a wireless charging device for a vehicle with easy drainage which prevents moisture or beverages around a body from flowing into electronic parts inside the body. The wireless charging device for a vehicle with easy drainage quickly discharges water flowing into the body to the outside of the body, and is configured to allow the water flowing into the body in the process not to penetrate into other places other than a predetermined passage, thereby safely protecting various electronic parts installed inside the body from water flowing into the vehicle.

Description

Wireless Charging Apparatus for Vehicle for Easy to Drain}

The present invention relates to a wireless charging device for a vehicle with easy drainage, and more particularly, to a wireless charging device for a vehicle with easy drainage that prevents moisture or beverages around the body from flowing into the electronic parts inside the body.

In general, portable devices such as mobile phones, smart phones, and smart watches use rechargeable batteries that can be repeatedly charged in order to receive power for operation. Since such a rechargeable battery is gradually discharged over time, a separate charging device is used to charge the battery. Recently, a wireless charging system has been commercialized, and the battery is conveniently charged wirelessly.

The wireless charging system consists of a transmitter that converts commercial AC power into an RF signal, a transmission/reception coil that transmits power wirelessly using electromagnetic induction, and a receiver that converts the input RF signal into DC and transmits the required power to the load. Has been. In particular, when a resonance phenomenon is used between the transmitting/receiving coils, it is referred to as a magnetic resonance method and a technical distinction is made from the magnetic induction method. When such a wireless charging system is applied to a vehicle, there is an advantage that the driver does not need to connect a cable directly to the battery while driving the vehicle.Therefore, a wireless charging device with a wireless charging system is installed in the vehicle to easily wirelessly connect the battery. It is charging.

Meanwhile, a vehicle is equipped with a cup holder capable of storing a beverage container, and recently, a wireless charging system has been added to the cup holder to wirelessly charge the battery while the portable device is stored in the cup holder. This wireless charging system has a disadvantage of being vulnerable to moisture.Since the wireless charging system is added to the cup holder, when moisture is generated or a beverage is spilled due to condensation around the cup seated on the cup holder, the moisture or beverage is a wireless charging system. Inflow, there was a problem of shortening the life of the wireless charging system.

Korean Patent Publication No. 10-2017-0064846

An object of the present invention for solving the problems of the prior art as described above is to provide a wireless charging device for a vehicle with easy drainage that prevents moisture or beverages around the body from flowing into the electronic components inside the body.

In order to achieve the above object, the present invention includes a main body having a space portion therein, and having a plurality of inflow holes formed at the bottom and a plurality of through holes formed at the upper portion; A suction member mounted on the lower side of the space; And a wireless charging unit mounted on the upper side of the space unit so as to be spaced apart from the suction member and transmitting wireless power to a portable device mounted on the upper side of the body, wherein the main body includes: the suction member and the wireless charging unit on the upper side. A housing including a lower surface portion which is sequentially provided, and a sidewall portion protruding upwardly along an edge of the lower surface portion, wherein the inlet hole is formed on the lower surface portion; A cover formed to cover the open upper portion of the housing; And a seating portion disposed to be spaced apart from an upper portion of the cover and through which a plurality of the through holes are formed through an upper surface on which a portable device is seated, and an air guide hole and a water guide hole are each independently formed on one side of the cover, An air flow conversion part and a drain part are respectively formed on one side of the housing, the air flow conversion part guides air introduced by the suction member to the air guide hole, and the drain part guides the inside of the housing through the water guide hole It provides a wireless charging device for a vehicle that is easy to drain, characterized in that the water is drained to the outside.

In addition, the air guiding hole is located farther from the center of the cover than the water guiding hole, and an air guiding portion protruding toward the air flow conversion portion is formed on one side of the inner periphery of the air guiding hole, and the inside of the water guiding hole It provides a wireless charging device for a vehicle with easy drainage, characterized in that the drain portion is formed concave downward on one side of the periphery, and one side of the drain portion is connected to the drain portion.

In addition, a drainage guide hole is formed through the cover on both sides of the water guide hole, and a drainage channel extends downward along the inner periphery of the drainage guide hole, and a drainage hole is provided at both sides of the drainage part to penetrate in the direction of the drainage channel. It is formed, and the drain portion provides a wireless charging device for a vehicle that is easy to drain, characterized in that located on the lower surface to face the drain passage.

In addition, a guide portion is further mounted on the lower surface portion, the guide portion, a coupling guide plate positioned between the lower surface portion and the suction member, a coupling guide hole formed through the coupling guide plate to face the suction member, , The air flow conversion part protruding upwardly toward the air guide hole on the outside of the coupling guide plate, and a guide plate protruding to face the air flow conversion part on one side of the lower surface part, the width of the guide plate It is formed to be smaller than the width of the lower surface, it provides a wireless charging device for a vehicle, characterized in that the drain is located on both sides of the guide plate.

In addition, there is provided a wireless charging device for a vehicle with easy drainage, characterized in that the water guide hole and the air guide hole are respectively positioned between a pair of the drain passages.

In addition, a plurality of guide ribs are arranged in parallel on one surface of the seating portion facing the cover or on one surface of the cover facing the seating portion, and one side of the guide ribs extends in the direction of the water guide hole, and is adjacent to each other. It provides a wireless charging device for a vehicle with easy drainage, characterized in that the plurality of through-holes are positioned so as to face each other between a pair of the guide ribs.

In addition, the wireless charging unit includes a substrate covering an open upper portion of the housing, and a coil unit mounted on the upper surface of the substrate, wherein the substrate is positioned to be spaced apart from the upper surface of the lower surface, and the substrate It provides a vehicle wireless charging device for easy drainage, characterized in that the protruding support portion is formed to protrude convexly to support the edge of, and the lower side of the drainage portion is formed concave downward than the substrate.

In addition, the main body provides a wireless charging device for a vehicle with easy drainage, characterized in that mounted on the lower surface of the cup holder of the vehicle.

In the present invention, water flowing into the body is quickly discharged to the outside of the body, and in this process, water flowing into the body cannot penetrate into other places other than a predetermined passage. The parts have the effect of being safely protected from water flowing into the vehicle.

In addition, since the water that has fallen from the seating part to the cover is uniformly distributed through an independent drainage passage between the plurality of guide ribs and moves in the direction of the water guide hole, even if the direction change occurs frequently during vehicle operation, it has fallen to the cover. It has the effect of moving the water evenly in the direction of the water induction hole without being biased to either side.

1 is a view schematically showing a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.
2 is a view showing a housing of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.
3 is a view showing a state in which a suction member and a wireless charging unit are coupled to a housing of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.
4 is a view schematically showing a state in which a cover and a seating portion are coupled to a housing of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.
5 is a cross-sectional view showing a state in which a cover and a seating portion are coupled to a housing of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.
6 is a cross-sectional view illustrating an air guide unit of a wireless charging device for a vehicle with easy drainage according to a preferred embodiment of the present invention.
7 is a view showing to explain a guide rib formed in the seating portion of the vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.
FIG. 8 is a diagram illustrating a flow of air flowing into a main body of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.
9 is a view schematically showing a plan view of a wireless charging device for a vehicle with easy drainage according to a preferred embodiment of the present invention.
10 is a view showing a cross-section AA′ of FIG. 9.
FIG. 11 is a diagram illustrating a section BB′ of FIG. 9.
12 is a view showing a cross-section CC′ of FIG. 9.

Hereinafter, a wireless charging device for a vehicle with easy drainage according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a view schematically showing a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.

Referring to FIG. 1, a vehicle wireless charging device 1000 for easy drainage is applied to, for example, a cup holder positioned between a driver's seat and a passenger seat in a vehicle interior, and the main body 100, the suction member 200: 3) and a wireless charging unit 300 (shown in FIG. 3). The main body 100 includes a housing 110 in which the suction member 200 and the wireless charging unit 300 are accommodated therein and the upper part is opened, a cover 120 (shown in FIG. 4) covering the open upper part of the housing 110, and It is disposed to be spaced apart from the upper portion of the cover 120 and includes a seating portion 130 on which a portable device (P: shown in FIG. 8) is mounted on the upper surface. The seating unit 130 normally serves as the lower surface of the cup holder, so that the beverage container containing the beverage can be seated, and when charging, the portable device P is seated. The portable device P refers to a device that is easy to carry, such as a mobile phone, a smart phone, and a smart watch, and includes a battery capable of wireless charging to receive power.

2 is a view showing a housing of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention, and FIG. 3 is a view showing a housing of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention. It is a view showing a state in which the member and the wireless charging unit are combined.

Referring to FIGS. 2 and 3, the housing 110 includes a lower surface portion 111 having a large area and a side wall portion 114 protruding upwardly along an edge of the lower surface portion 111. In addition, an empty space formed between the lower surface part 111 and the side wall part 114 is defined as the space part 110a. The lower surface 111 has a plate-shaped first lower surface 111a and a plate-shaped second lower surface 111b provided at a position higher than the first lower surface 111a on one side of the first lower surface 111a. ), and a connection part 111c for integrally connecting the first lower surface part 111a and the second lower surface part 111b to each other. In addition, a guide plate 111a-1 having a width smaller than that of the first lower surface 111a may be further protruded on the other side of the first lower surface 111a. Since the guide plate 111a-1 is formed to have a width smaller than that of the first lower surface 111a, drain portions 119 to be described later are positioned on both sides of the guide plate 111a-1.

In addition, a plurality of first inflow holes 112 are formed through the first lower surface 111a, and a plurality of second inflow holes 113 are formed along the boundary line between the first lower surface 111a and the connection part 111c. Is formed through. Accordingly, when the first lower surface 111a is supported in a state in contact with the vehicle part, the second inlet hole 113 does not come into contact with the vehicle part, so that the second inlet hole 113 is not arbitrarily blocked. It works. In addition, the side wall portion 114 protrudes slightly further downward than the first lower surface portion 111a so that the first inlet hole 112 is also not blocked arbitrarily.

In addition, a guide portion 116 may be further mounted on the first lower surface portion 111a. The guide portion 116 is an air flow formed upwardly protruding toward the coupling guide plate 117 mounted on the upper surface of the first lower surface portion 111a and the air guide plate 122 to be described later on one side of the coupling guide plate 117 It includes a switching unit 118. At this time, the lower side of the air flow conversion unit 118 is positioned to face the guide plate 111a-1, and the upper side of the air flow conversion unit 118 is formed to protrude to face the air guide unit 122. And a guide hole (117a) is formed through the center of the coupling guide plate (117) to face the suction member (200), the air introduced through the first inlet hole (112) through the guide hole (117a) the suction member ( 200).

The suction member 200 is provided under the space part 110a and includes a suction case 210 mounted on the first lower surface 111a and an impeller 220 installed inside the suction case 210 do. In the suction case 210, a first suction part 212 is formed on a lower side facing the first inlet hole 112, a second suction part 214 is formed on the upper side, and air is formed on the side between the lower side and the upper side. A discharge part 216 is formed in the direction of the flow conversion part 118. The impeller 220 is installed inside the suction case 210 and rotates the impeller 220 using the power of a motor to forcibly suck air into the first and second suction units 212 and 214 and discharge the It is a typical configuration to discharge to (216).

And when the impeller 220 is operated, a first suction force is generated in the first suction unit 212, a second suction force is generated in the second suction unit 214, and a discharge force is generated in the discharge unit 216. . Accordingly, air flowing into the body 100 through the first inlet hole 112 is sucked into the suction case 210 through the first suction unit 212 by the first suction force. And the air introduced into the body 100 through the second inlet hole 113 is guided to the space between the suction member 200 and the wireless charging unit 300 by the second suction force, and then the second suction unit 214 Pass through the suction case 210 is sucked into the interior. In addition, the air sucked into the suction case 210 is discharged to the discharge unit 216 by the discharge force and then guided toward the air flow conversion unit 118.

The wireless charging unit 300 receives electric energy from the outside and wirelessly supplies charging power to the portable device P. The first substrate 310, the second substrate 320, the coil unit 330, and the third And a substrate 340. The first substrate 310 receives electric energy from the outside and is formed to cover the upper part of the space 110a of the housing 110. The first substrate 310 is positioned to be spaced apart from the upper portion of the suction member 200. The second substrate 320 is positioned above the first substrate 310 while being electrically connected to the first substrate 310. The coil unit 330 is formed in a circular or spiral shape and is mounted on the upper surface of the second substrate 320. In addition, the magnetic field generated by the coil unit 330 induces an induced current in the wireless receiver (not shown) of the portable device P, and the battery (not shown) of the portable device P is induced by the wireless receiver. It is charged wirelessly using electromotive force. The third substrate 340 is formed in a ring shape to be mounted on the edge of the second substrate 320.

4 is a view schematically showing a state in which a cover and a seating portion are coupled to a housing of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention, and FIG. 5 is a drainage according to a preferred embodiment of the present invention. It is a cross-sectional view showing a state in which the cover and the seating part are coupled to the housing of the wireless charging device for a vehicle, and FIG. 6 is a diagram illustrating an air guide part of the wireless charging device for a vehicle according to a preferred embodiment of the present invention. It is a figure shown in cross section.

4 to 6, the cover 120 is formed to cover the open upper portion of the housing 110. The seating portion 130 is configured to be coupled to the housing 110 in a state spaced apart from the upper portion of the cover 120, and a plurality of through holes 132 in the upper surface of the seating portion 130 on which the portable device P is seated. It is formed through. In addition, the cover 120 and the seating portion 130 are spaced apart from each other to form an empty space, that is, an induction space part 140 (shown in FIG. 8 ).

In addition, an air induction part 122 opened in an up-down direction on one side of the cover 120 facing the air flow conversion part 118 is formed to protrude downward in the direction of the air flow conversion part 118. The inside of the air induction part 122 is divided into a first air induction hole 122a located at the bottom and a second air induction hole 122b located at the top, and the air induction part in the first air induction hole 122a ( 122) is inserted. A plurality of guide plates 123 are arranged in parallel with each other at regular intervals in the second air guide hole 122b, and the second air guide holes 122b are each independently partitioned by the guide plate 123. . In addition, the air guided to the first air guide hole 122a through the air flow conversion unit 118 passes through each of the plurality of second air guide holes 122b, and then is guided to the guide space unit 140 to be described later. . In this way, since a plurality of second air guide holes 122b are provided inside the air guide part 122, even if direction change occurs frequently during vehicle operation, the second air guide hole passes through the first air guide hole 122a. The air that is moved to 122b) is uniformly distributed to the guide space 140 without being biased to either side.

On the other hand, when one side of the air flow conversion unit 118 is formed to open in the direction of the discharge unit 216 of the suction member 200, the other side of the air flow conversion unit 118 is formed to extend upwardly curved. And when the air induction part 122 is formed extending downward so as to face the air flow conversion part 118 on one side of the cover 120, the open upper side of the air induction part 122 is the open side of the air induction part 122 The inclined protrusion 124 is formed so as to protrude in an inclined state toward the other upper side. In addition, the open upper other side of the air induction part 122 is positioned to face the induction space part 140. Accordingly, the air discharged from the discharge unit 216 of the suction member 200 to the air flow conversion unit 118 passes through the air flow conversion unit 118 and the direction of travel is easily switched to the air guide unit 122 , Air moving in the direction of the air induction part 122 from the air flow conversion part 118 has an effect that the moving direction is easily switched to the induction space part 140 while passing through the inclined protrusion 124.

7 is a view showing to explain a guide rib formed in the seating portion of the vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.

Referring to FIG. 7, a plurality of guide ribs 134 are arranged in parallel on one surface of the seating portion 130 facing the cover 120, and each guide rib 134 includes the cover 120 and the seating portion ( 130) It is formed in a long shape along the direction in which the air guided therebetween is moved, and a plurality of through holes 132 are positioned to face each other between a pair of guide ribs 134 adjacent to each other. Accordingly, when the air guided from the air guide part 122 to one side of the guide space part 140 is moved to the other side of the guide space part 140, it is uniformly distributed through independent spaces between the plurality of guide ribs 134 Since the vehicle is moved in the same state, even if the direction change occurs frequently during vehicle operation, the air is uniformly moved to the other side of the guide space 140 without being biased to either side.

In addition, one side of the inner periphery of the through hole 132 positioned in the opposite direction of the air guide portion 122 is formed to be inclined in a direction opposite to the air guide portion 122 as the distance from the cover 120. In this way, since the inner periphery of the through hole 132 is formed to be inclined in the same direction as the direction of the air moving along the induction space part 140, the air moving from one side of the induction space part 140 to the other direction is passed through the through hole. When discharged to (132), there is an effect of being discharged quickly while maintaining the direction of travel.

Meanwhile, in some cases, the guide rib 134 may be formed on one surface of the cover 120 facing the seating portion 130.

FIG. 8 is a diagram illustrating a flow of air flowing into a main body of a vehicle wireless charging device for easy drainage according to a preferred embodiment of the present invention.

Referring to the drawings, air introduced into the body 100 through the first inlet hole 112 is a first suction force generated under the suction member 200 and a discharge force generated at the side of the suction member 200 It flows out into the through hole 132 by the. In addition, the air introduced into the body 100 through the second inlet hole 113 is a through hole due to the second suction force generated on the upper side of the suction member 200 and the discharge force generated on the side of the suction member 200. It leaks to (132).

At this time, the air introduced into the main body 100 through the second inlet hole 113 is a space between the suction member 200 and the wireless charging unit 300 by the second suction force generated on the upper side of the suction member 200. The air flow is generated between the suction member 200 and the wireless charging unit 300 while being guided to, so that the heat of the wireless charging unit 300 can be effectively discharged to the outside. And the air discharged from the suction member 200 passes through the air flow conversion unit 118 and the air guide unit 122, is guided to the guide space unit 140, and then flows out through the through hole 132 to the seating unit 130. There is an effect of continuously dissipating heat from the mounted portable device (P).

9 is a view schematically showing a plan view of a wireless charging device for a vehicle with easy drainage according to a preferred embodiment of the present invention, and FIG. 10 is a view showing a cross-section A-A' of FIG. 9.

4, 9 and 10, the main body 100 is mounted on the lower surface of the cup holder of the vehicle, and the cup mounted on the cup holder is usually seated on the upper surface of the seating portion 130 of the main body 100 When charging, the portable device P is seated instead of the cup. At this time, in a normal time when the portable device P is not seated, the drink is accommodated in the cup mounted on the cup holder, so moisture due to condensation is generated on the outside of the cup. Alternatively, the beverage contained in the cup may be poured out by shaking of the vehicle. When such water or beverage, that is, water falls into the seating portion 130, it may be introduced into the housing 110 through the through hole 132 formed in the seating portion 130, which is inside the housing 110. It may cause a failure of the suction member 200 or the wireless charging unit 300 located at. Therefore, the present invention is configured to quickly discharge the water that has fallen to the seating portion 130 to the outside of the main body 100 after being guided to the cover 120 through the through hole 132 of the seating portion 130. A water guide hole 126b, a drain guide hole 127, a drain 126, and a drain passage 128 are formed in 120.

The cover 120 is formed to cover the open upper portion of the housing 110, and along the edge of the cover 120, an edge portion 121 is formed to cover the sidewall portion 114 of the housing 110. Further, a plurality of second air guide holes 122b, water guide holes 126b, and drain guide holes 127 are respectively formed through one side of the cover 120. The second air guiding hole 122b is located farther from the center of the cover 120 than the water guiding hole 126b. In addition, an air guide portion 222 is formed to protrude toward the air flow conversion portion 118 on one side of the inner periphery of the second air guide hole 122b. The water guide hole 126b is formed in a long shape and is positioned closer to the center of the cover 120 than the plurality of second air guide holes 122b. The drainage guide hole 127 is composed of a pair and is located on both sides of the water guide hole 126b.

In addition, one side in the longitudinal direction of the guide rib 134 formed on one surface of the seating portion 130 extends in the direction of the water guide hole 126b. Accordingly, when water that has fallen to the cover 120 through the through hole 132 of the seating part 130 is moved in the direction of the water induction hole 126b, independent spaces between the plurality of guide ribs 134, that is, drainage Since it is moved in a uniformly distributed state through the flow path 136, even if direction change occurs frequently during vehicle operation, the water that has fallen to the cover 120 is not biased to either side, and the direction of the water guide hole 126b is uniform. It has the effect of being moved to.

A pair of drain guide holes 127 are provided on both sides in the longitudinal direction of the water guide hole 126b. At this time, the width of the drain guide hole 127 is formed to be greater than the width in the longitudinal direction and the vertical direction of the water guide hole 126b, so that the water guide hole 126b is formed on one side and the other side between the pair of drain guide holes 127 ) And the second air guide hole 122b are configured to be respectively located.

The drain 126 is formed to be concave downward on one side of the inner circumference of the water induction hole 126b, that is, on one side of the inner circumference of the water induction hole 126b located in the opposite direction of the second air induction hole 122b, Water falling through the water guide hole 126b is collected into the drain 126. The drainage portion 126 is formed in a "U" shape in cross section. Further, drain holes 126a are formed through both sides of the drain portion 126 in the longitudinal direction. The drain hole 126a serves to connect both sides of the drain portion 126 to the drain passage 128 to be described later. And the end of the drainage part 126 is located between the other side of the inner periphery of the water guide hole (126b) and the second air guide hole (122b), the water guide hole (126b) and the second air guide hole (122b) is a cover Each is independently formed on one side of 120.

On the other hand, the protruding support portion 115 is formed to protrude convexly to support the edge of the first substrate 310 at the edges of the first and second lower surfaces 111a and 111b, so that the first substrate 310 has the first and second It is positioned so as to be spaced apart from the lower surfaces 111a and 111b. And the lower side of the drainage part 126 is formed to be concave downward by a certain length (d) than the first substrate 310, and the water falling along the drainage hole 126a in the direction of the drainage passage 128 to be described later is caused by gravity. It is configured in a structure that cannot flow backward in the direction of the first substrate 310. Accordingly, the wireless charging unit 300 including the first substrate 310 has an effect of being safely protected from water falling in the direction of the drainage passage 128 from the drainage portion 126.

FIG. 11 is a diagram illustrating a cross section taken along line B-B' of FIG. 9.

7, 9 to 11, an air guide portion 222 is formed downward in the second air guide hole 122b, and the second air guide portion 222 and the edge portion 121 are integrally connected to each other. Is formed to be. And the lengthwise width of the air guide part 222 is formed to be smaller than the width of the cover 120, so that an empty space, that is, a drainage passage 128, is formed between both sides of the air guide part 222 in the longitudinal direction and the edge part 121 do. The upper side of the drainage passage 128 is integrally connected with the inner periphery of the drainage guide hole 127, and the lower side of the drainage passage 128 is formed extending in the direction of the drain portion 119. In addition, drain holes 126a are formed through both sides of the drain portion 126 in the direction of the drain passage 128. Accordingly, the water moving along the drain 126 is moved in the direction of the drainage passage 128 through the drain hole 126a.

In addition, a guide plate 111a-1 is formed to protrude from the first lower surface 111a, and an air flow conversion part 118 is positioned above the guide plate 111a-1. At this time. The width of the guide plate 111a-1 is formed to be smaller than the width of the first lower surface portion 111a, and drain portions 119 that open downward are located on both sides of the guide plate 111a-1. In addition, a drainage passage 128 is positioned above the drain portion 119, and a drainage guide hole 127 is positioned above the drainage passage 128. In addition, a water guide hole 126b and a second air guide hole 122b are respectively positioned between the pair of drainage passages 128. In this way, since the air flow conversion unit 118 and the air guide unit 222 are positioned between the pair of drainage passages 128, the air that moves along the air flow conversion unit 118 and the air guide unit 222 is the drainage passage 128 And, on the contrary, water moving along the drainage passage 128 cannot flow back to the air flow conversion unit 118 and the air induction unit 222, so that the water flowing into the main body 100 due to its structure There is an effect that the electronic components mounted inside the main body 100, that is, the suction member 200 or the wireless charging unit 300, are not randomly introduced.

12 is a view showing a cross-section C-C' of FIG. 9.

9 to 12, water falling to the seating portion 130 falls to the cover 120, and is then guided to the water guide hole 126b. The water guided to the water guide hole 126b is collected by the drain 126 and then moves to the drainage passage 128 through drain holes 126a formed on both sides of the drain 126. The drainage passage 128 is connected to the drain portion 119 so that water transferred to the drainage passage 128 is drained to the outside of the main body 100 through the drain portion 119.

As described above, the present invention quickly discharges water flowing into the body 100 through the seating portion 130 to the outside of the body 100, and in this process, water flowing into the body 100 is It is configured not to penetrate into other places, the suction member 200 or the wireless charging unit 300 has the effect of being safely protected from external water.

Although the present invention has been described in detail in the above embodiments, it is natural that the present invention is not limited thereto, and it is obvious to those skilled in the art that various modifications and modifications are possible within the scope of the technical idea of the present invention, and such modifications and modifications are attached. If it falls within the scope of the claims, the technical idea should also be regarded as belonging to the present invention.

1000: wireless charging device for vehicles with easy drainage
100: main body 110: housing
110a: space part 111: lower surface part
111a: first lower surface 111a-1: guide plate
111b: second lower surface 111c: connection
112: first inlet hole 113: second inlet hole
114: side wall portion 115: protruding support portion
116: guide part 117: coupling guide plate
117a: guide hole 118: air flow conversion part
119: drain part 120: cover
121: rim part 122: air induction part
122a: first air induction hole 122b: second air induction hole
123: guide plate 124: inclined projection
126: drain 126a: drain
126b: water guide hole 127: drainage guide hole
128: drainage passage 130: seat
132: through hole 134: guide rib
136: drainage passage 140: guide space
200: suction member 210: suction case
212: first suction unit 214: second suction unit
216: discharge unit 220: impeller
300: wireless charging unit 310: first substrate
320: second substrate 330: coil unit
340: third substrate

Claims (8)

A main body having a space therein, and having a plurality of inflow holes formed at a lower portion and a plurality of through holes formed at an upper portion;
A suction member mounted on the lower side of the space; And
And a wireless charging unit for transmitting wireless power to a portable device mounted on an upper side of the space unit so as to be spaced apart from the suction member above the body,
The body is:
A housing including a lower surface portion on which the suction member and the wireless charging unit are sequentially provided on an upper side, and a side wall portion protruding upwardly along an edge of the lower surface portion, wherein the inlet hole is formed on the lower surface portion;
A cover formed to cover the open upper portion of the housing; And
It is disposed to be spaced apart from the upper portion of the cover and includes a seating portion through which a plurality of the through holes are formed through the upper surface on which the mobile device is seated,
An air guide hole and a water guide hole are each independently formed on one side of the cover,
An air flow conversion part and a drain part are respectively formed on one side of the housing, the air flow conversion part guides air introduced by the suction member to the air guide hole, and the drain part guides the inside of the housing through the water guide hole A wireless charging device for a vehicle with easy drainage, characterized in that the water is drained to the outside.
The method of claim 1,
The air guide hole is located farther from the center of the cover than the water guide hole,
An air guide part protrudes toward the air flow conversion part on one side of the inner periphery of the air guide hole,
A wireless charging device for a vehicle having easy drainage, characterized in that a drain portion is formed concave downward on one side of the inner periphery of the water induction hole, and one side of the drain portion is connected to the drain portion.
The method of claim 2,
In the cover, drainage guide holes are formed through both sides of the water guide hole, and a drainage channel extends downward along the inner periphery of the drain guide hole,
Drain holes are formed at both sides of the drain portion to penetrate in the direction of the drain passage,
The wireless charging device for a vehicle with easy drainage, characterized in that the drain portion is located on the lower surface to face the drain passage.
The method of claim 3,
A guide part is further mounted on the lower surface, wherein the guide part includes a coupling guide plate positioned between the lower surface part and the suction member, a coupling guide hole formed through the coupling guide plate to face the suction member, and the And the air flow conversion part protruding upwardly toward the air guide hole on the outside of the coupling guide plate,
A guide plate protruding from one side of the lower surface to face the air flow conversion part, and the width of the guide plate is formed to be smaller than the width of the lower surface, and the drain part is located on both sides of the guide plate. Vehicle wireless charging device that is easy to use.
The method of claim 3,
A wireless charging device for a vehicle having easy drainage, characterized in that the water guiding hole and the air guiding hole are respectively positioned between a pair of the drain passages.
The method of claim 2,
A plurality of guide ribs are arranged in parallel on one surface of the seating portion facing the cover or one surface of the cover facing the seating portion, and one side of the guide rib is formed extending in the direction of the water guide hole,
A wireless charging device for a vehicle having easy drainage, characterized in that the plurality of through holes are positioned to face each other between a pair of adjacent guide ribs.
The method of claim 2,
The wireless charging unit includes a substrate covering an open upper portion of the housing, and a coil unit mounted on an upper surface of the substrate, wherein the substrate is positioned so as to be spaced apart from the lower surface portion,
A protruding support portion protruding convexly to support the edge of the substrate is formed on the edge of the lower surface portion,
A wireless charging device for a vehicle with easy drainage, characterized in that the lower side of the drainage portion is formed to be concave downward than the substrate.
The method of claim 1,
The main body is a vehicle wireless charging device for easy drainage, characterized in that mounted on the lower surface of the cup holder of the vehicle.

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