KR20150056449A - Apparatus for charging mobile device and multi-station charging apparatus using the same - Google Patents

Abstract

An apparatus for charging a mobile device includes a slot into which the mobile device is inserted and mounted, a charging device case which exposes the front and rear sides of the mobile device in the slot, and an ultraviolet source which emits ultraviolet rays to the front and rear sides of the mobile device exposed in the slot.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging device for a mobile device and a multi-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging device for a mobile device, and more particularly to a charging device for a mobile device with enhanced sterilizing function and a multi-station charging device using the same.

2. Description of the Related Art [0002] With the rapid spread of various mobile devices, a charging device capable of charging a mobile device has been actively developed. The charging device of the mobile device can be classified into a wired charging method and a wireless charging method according to the method. Either way, the mobile device is charged while being supported by a support.

Most charging devices for mobile devices have a structure in which a wired port or a wireless port is disposed at a lower end portion and a support member for supporting the mobile device is disposed to be inclined at a certain angle. In such a charging device for a mobile device, the mobile device is charged through a wired port or a wireless port while the back side thereof is mounted so as to be in contact with the surface of the support. Thus, even if the sterilizing process is performed on the mobile device while the mobile device is being mounted on the filling device, the sterilizing process is limited to only the front surface of the mobile device There is a limit.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a charging device for a mobile device and a multi-station charging device using the charging device, which can sterilize both sides of the mobile device simultaneously with the charging device.

According to an aspect of the present invention, there is provided a charging device for a mobile device, the charging device including a slot in which a mobile device is inserted, And an ultraviolet light source for irradiating ultraviolet rays on the front and rear surfaces of the mobile device exposed in the slot.

In one example, the charging device may further include a charging port disposed at a lower end of the charging device case. The charging port may include at least one of a wired charging port and a wireless charging port.

In one example, the case is provided with a slide dock that moves between a predetermined position inside the case and the outside, and the charge port can be installed on the slide dock. In a state in which the slide dock is pulled out from the case, the fill terminal provided on the slide dock can be exposed to the outside. The slide dock further includes a stopper interlocked with the movement of the slide dock so that when the slide dock is pulled out from the case, the stopper can be positioned in a slot without a corresponding fill terminal.

In one example, a guide for guiding an object to a charging port position is provided in the slot, and the guide may be made of a material through which ultraviolet rays are transmitted.

In one example, the charging port is mounted on a rotating drum that rotates about an axis, and when the rotating drum rotates, the mobile device connected to the charging port integrally with the rotation of the rotating drum rotates together, As shown in FIG. The rotary drum may be installed on the slide dock. The rotary drum is rotatable between at least a first position and a second position, and the rotary drum is provided with an elastic body for elastically supporting the rotary drum in a direction to rotate the rotary drum from the second position to the first position. The rotary drum is rotatable between at least a first position and a second position, and the rotary drum may include a power supply trigger device triggered when the rotary drum is in the second position to supply power to the ultraviolet light source have.

In one example, power supply rails are provided on either the case or the slide dock, which move relatively to each other, and power connections are connected to the ultraviolet light sources, respectively, , It may be determined that the power connections are in contact with or shorted to the power supply rails, depending on the relative position of the case and the slide dock. In one example, the ultraviolet light source may comprise an ultraviolet light LED (UV LED). And a secondary optic for controlling a diffusion angle and a directivity angle of the light source in front of the ultraviolet light source.

In one example, the ultraviolet light source may emit ultraviolet light having a wavelength of 100 nm to 400 nm.

In one example, the ultraviolet light source comprises: a first ultraviolet light source disposed on an inner wall of the inner wall of the slot opposing a front surface of the mobile device, the first ultraviolet light source illuminating the front surface of the mobile device with ultraviolet light; And a second ultraviolet light source that is disposed on an inner wall of the mobile device and irradiates ultraviolet rays to the rear surface of the mobile device. The first ultraviolet light source may be disposed at an edge of at least one of the corners of the inner wall facing the front of the mobile device. The second ultraviolet light source may be disposed at an edge of at least one of the corners of the inner wall opposite the back surface of the mobile device.

In one example, the ultraviolet light source comprises a first ultraviolet light source disposed in an inner wall of the inner side wall of the slot opposite to one side of the mobile device, and a second ultraviolet light source disposed in an inner wall of the inner wall of the slot, And a second ultraviolet light source. In this case, a first reflector disposed on the inner wall of the slot opposing to the rear surface of the mobile device for reflecting the ultraviolet rays emitted from the first ultraviolet light source to the back side of the mobile device, and a second reflector disposed on the inner wall of the slot facing the front side of the mobile device And a second reflector for reflecting the ultraviolet light emitted from the second ultraviolet light source to the front surface of the mobile device.

In one example, the ultraviolet light source comprises a first ultraviolet light source disposed at a first corner of the inner wall of the slot such that the ultraviolet light has a path parallel to the back surface of the mobile device, And a second ultraviolet light source disposed at a second edge of the inner wall. In this case, the first light guide plate disposed on the inner wall of the slot opposing to the rear surface of the mobile device for allowing the light emitted from the first ultraviolet light source to emit light by being illuminated on the rear surface of the mobile device, And a second light guide plate disposed on an inner wall of the housing for emitting a light emitted from the second ultraviolet light source on a front surface of the mobile device.

In one example, the ultraviolet light source is installed on the inner side surface of the slot to face the side surface of the object, and may be installed closer to either the front surface or the rear surface of the object.

In one example, the mobile device may further include a power supply trigger device for automatically supplying power to the ultraviolet light source when the mobile device is mounted in the slot. And a door capable of being opened or closed so that the slot is exposed or covered so that the power supply trigger device is activated and power is supplied to the ultraviolet light source disposed inside the slot when the door is closed.

In one example, the mobile device may further include a support for allowing the mobile device to be mounted vertically within the slot.

A multi-station charging device for a mobile device according to an exemplary embodiment includes a charging device case having a slot into which a mobile device is inserted, the charging device case exposing both a front surface and a rear surface of the mobile device within the slot, Station device, and an ultraviolet light source that irradiates ultraviolet rays to the front and rear surfaces of the mobile device exposed in the slot.

In one example, the charging device may further include a charging port disposed at a lower end of the charging device case. The charging port may include at least one of a wired charging port and a wireless charging port.

In one example, the ultraviolet light source may comprise an ultraviolet light emitting diode (UV LED).

In one example, the ultraviolet light source may emit ultraviolet light having a wavelength of 100 nm to 400 nm.

In one example, the ultraviolet light source comprises: a first ultraviolet light source disposed on an inner wall of the inner wall of the slot opposing a front surface of the mobile device, the first ultraviolet light source illuminating the front surface of the mobile device with ultraviolet light; And a second ultraviolet light source that is disposed on an inner wall of the mobile device and irradiates ultraviolet rays to the rear surface of the mobile device. The first ultraviolet light source may be disposed at an edge of at least one of the corners of the inner wall facing the front of the mobile device. The second ultraviolet light source may be disposed at an edge of at least one of the corners of the inner wall opposite the back surface of the mobile device.

In one example, the ultraviolet light source comprises a first ultraviolet light source disposed in an inner wall of the inner side wall of the slot opposite to one side of the mobile device, and a second ultraviolet light source disposed in an inner wall of the inner wall of the slot, And a second ultraviolet light source. In this case, a first reflector disposed on the inner wall of the slot opposing to the rear surface of the mobile device for reflecting the ultraviolet rays emitted from the first ultraviolet light source to the back side of the mobile device, and a second reflector disposed on the inner wall of the slot facing the front side of the mobile device And a second reflector for reflecting the ultraviolet light emitted from the second ultraviolet light source to the front surface of the mobile device.

In one example, the ultraviolet light source comprises a first ultraviolet light source disposed at a first corner of the inner wall of the slot such that the ultraviolet light has a path parallel to the back surface of the mobile device, And a second ultraviolet light source disposed at a second edge of the inner wall. In this case, the first light guide plate disposed on the inner wall of the slot opposing to the rear surface of the mobile device for allowing the light emitted from the first ultraviolet light source to emit light by being illuminated on the rear surface of the mobile device, And a second light guide plate disposed on an inner wall of the housing for emitting a light emitted from the second ultraviolet light source on a front surface of the mobile device.

In one example, the mobile device may further include a power supply trigger device for automatically supplying power to the ultraviolet light source when the mobile device is mounted in the slot.

In one example, the mobile device may further include a support for allowing the mobile device to be mounted vertically within the slot.

In one example, the multi-station device may include a speaker.

According to the present invention, a front surface and a rear surface of a mobile device are mounted so as to be exposed in the charging apparatus, and an ultraviolet light source for irradiating the exposed front and rear surfaces with ultraviolet light is disposed, It is possible to simultaneously perform sterilization of the liquid.

1 is a view showing a charging device of a mobile device according to an example.
Fig. 2 is a view showing the shape in the direction A in Fig. 1. Fig.
3 is a top view of another charging device of a mobile device in another example.
4 is a view showing an upper shape of a charging apparatus of a mobile device according to another example.
5 is a view showing a multi-station charging apparatus of a mobile device according to an example.
Fig. 6 is a view showing the shape in the direction of B in Fig. 5. Fig.
7 is a perspective view of a charging device for a mobile device according to an embodiment of the present invention.
8 is a perspective view showing a state where the door of the charging device of the mobile device of Fig. 7 is opened and the slide dock is pulled forward.
FIG. 9 is a side view showing a state in which a mobile device is inserted into the charging device of the mobile device of FIG. 8;
10 is a side sectional view of the middle part of the charging device of the mobile device of Fig.
11 is a side cross-sectional view showing a state in which the slide dock of the charging apparatus of the mobile device of Fig. 10 is pulled forward. Fig.
FIG. 12 is a plan view of the inside of the slot in the state where the door of the charging device of the mobile device of FIG. 7 is removed.
13 and 14 are side views showing another embodiment of the slide dock.
15 and 16 are side cross-sectional views showing the arrangement position of the ultraviolet light source of the charging apparatus of the mobile device of Fig.
17 is a diagram showing an embodiment of a power control structure.

Best Mode for Carrying Out the Invention Preferred embodiments of the present invention will be described below with reference to the drawings. The structure and configuration of any one of the embodiments described below may be applied to or replaced with another structure or configuration according to need, and it is also possible to delete the configuration or add another configuration .

[First Embodiment]

1 is a view showing a charging device of a mobile device according to an example. And Fig. 2 is a view showing a shape in the direction A in Fig.

Referring to FIGS. 1 and 2, a charging apparatus 100 of a mobile device according to the present example includes a charging device case 110 having a slot 112 into which a mobile device 220 is inserted. In this example, the mobile device 220 is inserted into the slot 112, but this is merely an example, even when the mobile device is mounted in a manner other than a slot, for example, through a front door. Lt; / RTI > In addition, although the slot 112 is always opened upward according to the illustrated embodiment, the door 112 may be further provided at an upper portion of the slot 112. Also, in this example, the charging apparatus case 110 is in the form of a square box, but may be formed in other forms. The mobile device 220 inserted in the slot 112 in this example is vertically mounted as shown and both the front surface 221 and the rear surface 222 thereof are exposed. That is, the front surface 221 of the mobile device 220 is spaced apart from the inner wall of the slot 112 and the rear surface 222 of the mobile device 220 is also spaced apart from the inner wall by a certain distance.

The mobile device 220 is supported by supports 131 and 132. The supports 131 and 132 support both sides of the mobile device 220 and allow the mobile device 220 to be mounted vertically. It is preferable that the supports 131 and 132 are materials through which ultraviolet rays are transmitted, for example, PMMA having a high monomer ratio. While the mobile device 220 can be supported in other ways. For example, the lower portion of the mobile device 220 can be detachably supported. In any case, the mobile device 220 is fixedly supported by inserting the mobile device 220 into the slot 112, and when the mobile device 220 is pressed in this state, the mobile device 220 is released from the slot 112). As the mobile device 220 is inserted into the slot 112, the charging port of the mobile device 220 is electrically connected to the charging system of the charging device.

Ultraviolet light sources 121, 122, 123, and 124 are disposed on the inner wall of the slot 112. The ultraviolet light sources 121, 122, 123 and 124 include first ultraviolet light sources 121 and 122 and second ultraviolet light sources 123 and 124, respectively. The first ultraviolet light sources 121 and 122 are disposed on the inner wall of the inner wall of the slot 112 opposite to the rear surface of the mobile device 220 to irradiate the front surface of the mobile device 220 with ultraviolet rays. The second ultraviolet light sources 123 and 124 are disposed on the inner wall of the inner wall of the slot 112 opposite to the front surface of the mobile device 220 to irradiate the front surface of the mobile device 220 with ultraviolet rays. The first ultraviolet light sources 121 and 122 are disposed at both corners of the diagonal direction among the corners of the inner wall opposite to the rear surface of the mobile device 220. [ Similarly, the second ultraviolet light sources 123 and 124 are disposed at both corners of the diagonal direction among the corners of the inner wall facing the front surface of the mobile device 220. [ However, the number and location of ultraviolet light sources may be varied.

The ultraviolet light sources 121, 122, 123, and 124 may include ultraviolet light emitting diodes (UV LEDs). In this case, the ultraviolet light emitting diode (UV LED) may be in the form of a module. The ultraviolet light sources 121, 122, 123, and 124 emit ultraviolet light having a wavelength of 100 nm to 400 nm. Ultraviolet rays of 100 nm to 400 nm wavelength emitted from the ultraviolet light sources 121, 122, 123 and 124 simultaneously perform sterilization operations on the front surface 221 and the rear surface 222 of the mobile device 220. Although not shown in the figure, an ultraviolet ray reflector for uniformly forming an irradiation path of ultraviolet rays emitted from the ultraviolet light sources 121, 122, 123, and 124 on the front surface 221 and the rear surface 222 of the mobile device 220 May be additionally disposed. In case of ultraviolet sterilization in a certain space, when the ultraviolet reflector is installed on the wall defining the space, the sterilization rate is higher than that of the case where the ultraviolet ray reflector is not installed. Further, a protective layer (for example, a PMMA layer having a high monomer specific gravity) made of an ultraviolet transmitting material for protecting the ultraviolet light sources 121, 122, 123, and 124 from external contaminants may be further disposed. The power source for the ultraviolet light sources 121, 122, 123, and 124 may be manually supplied by the user, or may be automatically supplied by insertion of the mobile device 220. A power supply trigger device is disposed in the charging device case 110. When the mobile device 220 is mounted in the slot 112 by the power supply trigger device, the ultraviolet light sources 121, 122, 123 , 124).

In addition, when the door is provided as described above in order to prevent the ultraviolet rays from being exposed to the outside and to prevent dust from flowing into the slot, a power supply trigger device (not shown) is operated In addition, power is supplied to the ultraviolet light source only when the door is closed, so that ultraviolet ray irradiation can be performed.

A charging port 114 is disposed at the lower end of the charging device case 110. [ In this example, the charging port 114 is disposed at the lower front of the charging device case 110, but it may be disposed at another location, e.g., the side of the charging device case 110, by way of example only. In either case, the charging port 114 is electrically connected to the charging system within the charging device case 110 and is thereby electrically connected to the charging device, e.g., battery, of the mobile device 220 via the charging system. Charging port 114 may be a wired charging port or a wireless charging port. Charging port 114 may include both a wired charging port and a wireless charging port. In addition, if the charging port is a wire charging terminal, if the charging terminal is provided at a position corresponding to the insertion position of the charging connection terminal of the mobile device when the mobile device 220 is inserted, 131 and 132, it is possible to easily connect the charging terminal and the connection terminal of the mobile device.

[Second Embodiment]

3 is a top view of another charging device of a mobile device in another example. In FIG. 3, the same reference numerals as those in FIGS. 1 and 2 denote the same elements, and a duplicate description will be omitted.

Referring to FIG. 3, ultraviolet light sources 321 and 322 are disposed on the inner wall of the slot 112. The ultraviolet light sources 321 and 322 include a first ultraviolet light source 321 and a second ultraviolet light source 322. The first ultraviolet light source 321 is disposed on a first inner wall of the inner side wall of the slot 112 opposite to one side of the mobile device 220. The second ultraviolet light source 322 is disposed in a second inner wall of the inner wall of the slot 112 opposite the opposite side of the mobile device 220. Although not shown in the drawing, a plurality of first ultraviolet light sources 321 may be disposed on the first inner wall of the slot 112 so as to be vertically spaced from each other. Similarly, a plurality of second ultraviolet light sources 322 may be disposed on the second inner wall of the slot 112 so as to be vertically spaced from each other.

In this example, a first reflector 331 and a second reflector 332 are disposed on the inner wall opposite to the rear side of the mobile device 220 and the inner wall opposite to the front side, respectively. The first reflector 331 and the second reflector 332 are arranged such that the ultraviolet rays emitted from the first ultraviolet light source 321 and the second ultraviolet light source 322 are transmitted to the mobile device 220 Adjust the UV path so that it illuminates the back and front.

The first and second ultraviolet light sources 321 and 322 may include ultraviolet light emitting diodes (UV LEDs). In this case, the ultraviolet light emitting diode (UV LED) may be in the form of a module. The first and second ultraviolet light sources 321 and 322 emit ultraviolet light having a wavelength of 100 nm to 400 nm. Ultraviolet rays of 100 nm to 400 nm wavelength emitted from the first and second ultraviolet light sources 321 and 322 simultaneously perform sterilization operations on the front surface 221 and the rear surface 222 of the mobile device 220. Although not shown in the drawing, a protective layer made of an ultraviolet transmitting material for protecting the first and second ultraviolet light sources 321 and 322 from external contaminants may be further disposed. The power source for the first and second ultraviolet light sources 321 and 322 may be manually supplied by the user or automatically supplied by the insertion of the mobile device 220. A power supply trigger device is disposed in the charging device case 110. When the mobile device 220 is mounted in the slot 112 by the power supply trigger device, the first and second ultraviolet light sources 321, and 322, respectively.

[Third Embodiment]

4 is a view showing an upper shape of a charging apparatus of a mobile device according to another example. In FIG. 4, the same reference numerals as in FIG. 1 and FIG. 2 denote the same elements, and a duplicate description will be omitted.

Referring to FIG. 4, ultraviolet light sources 421 and 422 are disposed on the opposite corners of the inner wall of the slot 112. The ultraviolet light sources 421 and 422 include a first ultraviolet light source 421 and a second ultraviolet light source 422. The first ultraviolet light source 421 is disposed at the first corner of the inner wall of the slot 112. The first ultraviolet light source 421 is disposed such that the ultraviolet light emitted therefrom has a path parallel to the rear surface of the mobile device 222. The second ultraviolet light source 422 is disposed at the second edge of the inner wall of the slot 112. The second ultraviolet light source 421 is arranged so that the ultraviolet rays to be emitted have a path parallel to the front surface of the mobile device 222. Although not shown in the drawing, a plurality of first ultraviolet light sources 421 may be arranged at a first corner of the slot 112 so as to be vertically spaced from each other. Similarly, a plurality of second ultraviolet light sources 422 may be arranged to be vertically spaced from each other in the second corner of the slot 112.

A first light guide plate 431 and a second light guide plate 432 are provided on the first inner wall opposite to the rear side of the mobile device 220 and on the inner wall opposite to the front side of the mobile device 220. [ The first light guide plate 431 and the second light guide plate 432 are arranged such that the ultraviolet rays emitted from the first ultraviolet light source 421 and the second ultraviolet light source 422 are transmitted to the mobile device 220 The back surface and the front surface are uniformly irradiated with light.

The first and second ultraviolet light sources 421 and 422 may include ultraviolet light emitting diodes (UV LEDs). In this case, the ultraviolet light emitting diode (UV LED) may be in the form of a module. The first and second ultraviolet light sources 421 and 422 emit ultraviolet light having a wavelength of 100 nm to 400 nm. Ultraviolet rays of 100 nm to 400 nm wavelength emitted from the first and second ultraviolet light sources 421 and 422 simultaneously perform sterilization operations on the front surface 221 and the rear surface 222 of the mobile device 220. Although not shown in the drawings, a protective layer made of an ultraviolet ray transmitting material for protecting the first and second ultraviolet light sources 421 and 422 from external contaminants may be further disposed. The power source for the first and second ultraviolet light sources 421 and 422 may be manually supplied by the user or may be automatically supplied by insertion of the mobile device 220. A power supply trigger device is disposed in the charging device case 110. When the mobile device 220 is mounted in the slot 112 by the power supply trigger device, the first and second ultraviolet light sources 421, and 422, respectively.

[Fourth Embodiment]

5 is a view showing a multi-station charging apparatus of a mobile device according to another example. And Fig. 6 is a view showing the shape in the direction B in Fig.

5 and 6, the multi-station charging apparatus 600 of the mobile apparatus according to the present example includes a charging apparatus case 510 having a slot 512 into which the mobile apparatus 220 is inserted, 512 disposed on both sides of the multi-station device. The multi-station device includes speakers 621 and 622, but may include devices other than speakers 621 and 622 as an example only. In this example, the mobile device 220 is inserted into the slot 512, but this is only one example, in the case where the mobile device is mounted in a manner other than a slot, for example, a front door, Lt; / RTI > Also, in this example, the charging device case 510 is in the form of a square box, but may be of another type. The mobile device 220 inserted and mounted in the slot 512 is exposed to both the front surface 221 and the rear surface 222 thereof. That is, the front surface 221 of the mobile device 220 is spaced apart from the inner wall of the slot 512 and the rear surface 222 of the mobile device 220 is spaced apart from the inner wall by a certain distance.

The support of the mobile device 220 is made by the supports 531 and 532. The supports 531 and 532 support both sides of the mobile device 220 and allow the mobile device 220 to be mounted vertically. However, the mobile device 220 may be supported in other ways. For example, the lower portion of the mobile device 220 can be detachably supported. In any case, the mobile device 220 is fixedly supported by inserting the mobile device 220 into the slot 512, and when the mobile device 220 is pressed in this state, the mobile device 220 is released from the slot 512). As the mobile device 220 is inserted into the slot 512, the charging port of the mobile device 220 is electrically connected to the charging system of the charging device.

Ultraviolet light sources 521, 522, 523, and 524 are disposed on the inner wall of the slot 512. The ultraviolet light sources 521, 522, 523 and 524 include first ultraviolet light sources 521 and 522 and second ultraviolet light sources 523 and 524. The first ultraviolet light sources 521 and 522 are disposed on an inner wall of the inner wall of the slot 512 opposite to the rear surface of the mobile device 220 to irradiate the front surface of the mobile device 220 with ultraviolet rays. The second ultraviolet light sources 523 and 524 are disposed on the inner wall of the inner wall of the slot 512 opposite to the front surface of the mobile device 220 to irradiate the front surface of the mobile device 220 with ultraviolet rays. The first ultraviolet light sources 521 and 522 are disposed at both corners of the diagonal direction among the corners of the inner wall opposite to the rear surface of the mobile device 220. Similarly, the second ultraviolet light sources 523 and 524 are disposed at both corners of the diagonal direction among the corners of the inner wall facing the front surface of the mobile device 220. [ However, the number and location of ultraviolet light sources may be varied. In the multi-station charging apparatus of the mobile device according to this example, it is natural that the ultraviolet light source can be arranged in the structure described with reference to Figs. 3 and 4. Fig.

The ultraviolet light sources 521, 522, 523, and 524 may include ultraviolet light emitting diodes (UV LEDs). In this case, the ultraviolet light emitting diode (UV LED) may be in the form of a module. The ultraviolet light sources 521, 522, 523, and 524 emit ultraviolet light having a wavelength of 100 nm to 400 nm. Ultraviolet rays of 100 to 400 nm wavelength emitted from the ultraviolet light sources 521, 522, 523 and 524 simultaneously perform sterilizing operations on the front surface 221 and the rear surface 222 of the mobile device 220. Although not shown in the drawings, an ultraviolet reflector for uniformly forming an irradiation path of ultraviolet rays emitted from the ultraviolet light sources 521, 522, 523, and 524 on the front surface 221 and the rear surface 222 of the mobile device 220 May be additionally disposed. Further, a protective layer made of an ultraviolet ray transmitting material for protecting the ultraviolet light sources 521, 522, 523, and 524 from external contaminants may be further disposed. The power source for the ultraviolet light sources 521, 522, 523, and 524 may be manually supplied by the user, or may be automatically supplied by insertion of the mobile device 220. A power supply trigger device is disposed in the charging device case 510. When the mobile device 220 is mounted in the slot 512 by the power supply trigger device, the ultraviolet light sources 521, 522, 523 , 524).

A charging port 514 is disposed at the lower end of the charging device case 510. [ In this example, the charging port 514 is disposed at the bottom front of the charging device case 510, but it may be disposed at another location, e.g., another location in the charging device case 510 as an example. In either case, the charging port 514 is electrically connected to the charging system within the charging device case 510 and is thereby electrically connected to the charging device, e.g., battery, of the mobile device 220 via the charging system. Charging port 514 may be a wired charging port or a wireless charging port. The charging port 514 may include both a wired charging port and a wireless charging port.

[Fifth Embodiment]

7 is a perspective view of a charging device of a mobile device as an example according to the present invention, FIG. 8 is a perspective view showing a state in which a door of a charging device of the mobile device of FIG. 7 is opened and a slide dock is pulled forward, 10 is a side sectional view of the middle part of the charging device of the mobile device of Fig. 7, Fig. 11 is a side view of the slide device of the charging device of the mobile device of Fig. 10 And FIG. 12 is a plan view of the inside of the slot in a state where the door of the charging device of the mobile device of FIG. 7 is removed.

7 to 11, a charging apparatus 800 of a mobile device according to an embodiment of the present invention includes a case 810, a door 860 covering an upper portion of the case, a charging unit 830 formed at a lower portion of the case, . The door may be pivoted back about a point on the rear upper portion of the case. The charging unit 830 includes a slide dock 835 that can be pulled forward from the bottom of the case or back to the bottom of the case.

The case is opened to the top, and the upper opening of the case is exposed when the door 860 is opened. The slot 812 is provided on the top surface thus exposed. An ultraviolet reflector may be provided on the inner surface of the slot.

As shown in FIG. 9, the mobile device 220 may be mounted on a slot 812 or a slide dock 835 pulled forward.

As shown in Fig. 10, the slot 812 is accommodated in the case 810, and the upper side is opened. A charging connection terminal formed in the mobile device 220 and a detachable charging terminal 831 are provided below the slot 812. Since the charging terminal is located at the middle portion in the front-rear direction of the slot at the lower end of the slot, a predetermined distance is maintained between the front and rear surfaces of the mobile device and the inner wall of the slot space in a state where the mobile device is fastened to the charging terminal. Although it is not shown in FIGS. 10 and 11, it is obvious that a guide for guiding the mobile device to the charging terminal and transmitting ultraviolet rays may be provided in the slot.

The charging terminal 831 is provided on the slide dock 835 as shown in FIGS. 10 and 11. When the slide dock 835 is drawn in, the charging terminal 831 and the charging terminal 831 The slot 812 is aligned. When the slide dock 835 is pulled forward, the charging terminal 831 is exposed to the front of the case as shown in FIG.

The charging terminal 831 can always be supplied with power regardless of whether the slide dock 835 is pulled in or pulled out and whether the door 860 is opened or closed. Therefore, in a state in which the slide dock 835 is pulled out as shown in FIG. 10, the mobile device can be charged in the slot, and when the slide dock 835 is pulled out as shown in FIG. 11, ) By charging the mobile device.

In order to intuitively inform the user that the object can not be inserted deeply into the slot 812 when the slide dock 835 is pulled forward and the slot can not be used, the stopper indicated by the dotted lines in FIGS. The slide dock 835 can be operated in unison with the slide dock 835 or in conjunction with the operation of the slide dock 835. [ When the stopper is positioned in the slot, insertion of the mobile device 220 is restricted, so that the user intuitively can not use the slot to charge the mobile device.

10 to 11, another charging terminal may be further provided in the rear of the charging terminal 831 instead of the stopper (the dotted line in FIGS. 10 and 11) It is also possible that the charging terminal is exposed forward when the dock is withdrawn and another charging terminal is aligned with the slot. In another embodiment, the charging terminal 831 is fixedly aligned with the slot, and one charging terminal dedicated for forward extraction is provided at the front of the charging terminal. When the slide dock is taken out, only the forward- It is also possible to make it withdraw forward with. It is to be understood that the present invention may be embodied in various other forms without departing from the gist of the invention. Although the charging terminal is shown as a wired port in the drawing, the charging terminal may be a wireless port.

12, the first and second ultraviolet light sources 812a and 812b for irradiating ultraviolet rays toward the object are vertically (in the direction of penetrating the paper in the drawing) As shown in FIG. The first ultraviolet light source and the second ultraviolet light source are disposed slightly in front of the front side of the mobile device 220 as shown in FIG. This is because mobile devices such as tablet PCs and smart phones that have a lot of hand touches are considered to have a larger number of bacteria on the front side and higher contamination levels than the rear side.

Although not shown, a power supply trigger device that operates when the mobile device is mounted is disposed in the slot, so that power can be supplied to the ultraviolet light source only when the mobile device is stationary. In addition, when the door 860 is closed Only the ultraviolet light source can be supplied with power.

[Sixth Embodiment]

FIGS. 13 and 14 are side views showing other embodiments of the slide dock, FIGS. 15 and 16 are side cross-sectional views showing the arrangement positions of the ultraviolet light sources of the multi-charger and the sterilizer of FIG. 7, Fig.

With reference to Figs. 13 and 16, portions different from Figs. 7 to 11 will be mainly described below.

13 and 14 illustrate a state in which the slide dock 835 is drawn in. Referring to the operation structure of the charging terminal 831 referring to FIG. 13, the charging terminal has an axis R relative to the slide dock 835 And is provided on a rotary drum 833 rotating around the center. Therefore, when the rotary drum 833 rotates, the direction of the charging terminal also turns as shown in FIG. The rotary drum 833 is rotatable between at least a position where the charging terminal is vertically and a position where it is inclined backward by a predetermined angle. The rotary drum 833 is elastically supported by an elastic body (not shown) in a direction of rotating toward a position where the charging terminal is vertical. If necessary, a damper may be provided in addition to the elastic body so that the rotary drum can be rotated slowly under a controlled speed by the elastic force. On the rotary drum 833, a guide 834 for guiding the mobile device to a charging terminal (including a wired type and a wireless type) is provided.

13, when the user inserts the mobile device 220 into the slot 812 and is guided by the guide 834 to receive it in place and slightly tilted, the center of gravity of the mobile device becomes the axis of rotation R, the moment is generated. This moment overcomes the elastic force of the elastic body (not shown), and the mobile device 220 is tilted backward together with the rotary drum 833, . On the other hand, when the mobile device is pulled out, the rotary drum 833 is returned to the original position shown in Fig. 13 by the elastic force of the elastic body (not shown) even if the mobile device 220 is slightly lifted up in the state of Fig. In such a structure, when the object is mounted on the charging terminal exposed forward of the case by pulling the slide dock 835 forward, it is possible to rest the object obliquely on the case front surface.

15 or 16, the first ultraviolet light source 812a may be installed on the door 860 or may be installed above the inner wall of the slot front, and the second ultraviolet light source (e.g., 812b are installed on the slide dock 835 or on the lower portion of the inner wall of the slot rear side so that the object is placed obliquely and the ultraviolet light source is positioned diagonally opposite to the oblique direction of the object .

The structure in which the mobile device is placed obliquely and the ultraviolet light source is positioned in a diagonal direction opposite to the oblique direction of the mobile device so as to illuminate the object on both sides of the object is characterized in that the slot is made slim, . That is, in the structure in which the object is vertically set in the slot, a gap of more than a predetermined level is required between both sides of the object and the two inner walls of the opposing slot, whereas in the structure of the present invention, the slot can be made slimmer and more compact It is important to note that

When using an ultraviolet light emitting diode as an ultraviolet light source, it is also possible to efficiently irradiate the surface of the object with ultraviolet light by appropriately controlling the diffusing angle and the directing angle of the ultraviolet light by placing a secondary optic (lens or light guide plate) Do.

On the other hand, it is possible to provide a power supply trigger device (not shown) integrally on the rotary drum 833. 13, the power supply trigger device does not operate. When the rotary drum 833 is rotated backward by a predetermined angle or more as shown in FIG. 14, the power supply trigger device The mobile device is mounted on the rotary drum 833 so that power is supplied only to a slot that is inclined backward so that ultraviolet rays can be irradiated. Of course, the door must also be closed to allow power to be supplied to the ultraviolet light source.

15, when the slide dock 835 is pulled forward and the charging terminal 831 is exposed to the front side of the case, the light source exposed to the outside of the case and the ultraviolet light source It is necessary to prevent power from being supplied to the power source 812b. 17, when a power supply rail 870 is installed in the case 810 and a power connection unit 875 is provided in each of the ultraviolet light sources 812b, the slide dock 835 is drawn out The power supply connection portion 875 is short-circuited from the power supply rail 870 so that the power supply of the ultraviolet light source 812b exposed to the outside is structurally blocked. It is also possible to control the position of the slide dock to control whether the ultraviolet light source is turned on in a circuit.

100: Charging device of mobile device
110: Charging device case
112: Slot
114: Charging port
121, 122: a first ultraviolet light source
123, 124: a second ultraviolet light source
131, 132: Support
220: Mobile device
421, 422: speaker
800: Charging device of mobile device
810: Case
812: Slot
812a: first ultraviolet light source
812b: a second ultraviolet light source
830:
831: Charging terminal (charging port)
833: rotary drum
834: Guide
835: slide dock
860: Door
870: Power supply rail
875: Power connection

Claims (41)

A charging device case having a slot in which a mobile device is inserted and to expose both a front surface and a rear surface of the mobile device in the slot; And
And an ultraviolet light source for irradiating ultraviolet rays to front and rear surfaces of the mobile device exposed in the slot.
The method according to claim 1,
And a charging port disposed at a lower end of the charging device case.
3. The method of claim 2,
Wherein the case is provided with a slide dock for moving between a predetermined position inside the case and the outside,
Wherein the charging port is installed on the slide dock.
The method of claim 3,
Wherein the charging terminal provided on the slide dock is exposed to the outside when the slide dock is drawn out from the case.
The method of claim 3,
Further comprising a stopper interlocked with movement of the slide dock,
Wherein when the slide dock is pulled out from the case, the stopper is positioned in a slot where there is no corresponding charging terminal.
3. The method of claim 2,
A guide for guiding the object to the charging port position is provided in the slot,
Wherein the guide is made of a material through which ultraviolet rays are transmitted.
3. The method of claim 2,
Wherein the charging port is provided on a rotating drum rotating about an axis,
Wherein when the rotary drum rotates, the mobile device connected to the charging port integrally rotates together with the rotation of the rotary drum, whereby the mobile device is obliquely placed in the slot.
8. The method of claim 7,
Wherein the case is provided with a slide dock for moving between a predetermined position inside the case and the outside,
And the rotary drum is installed on the slide dock.
9. The method according to claim 7 or 8,
Wherein the rotary drum is rotatable between at least a first position and a second position,
Wherein the rotary drum is provided with an elastic body elastically supporting the rotary drum in a direction of rotating the rotary drum from the second position to the first position.
9. The method according to claim 7 or 8,
Wherein the rotary drum is rotatable between at least a first position and a second position,
Wherein the rotary drum includes a power supply trigger device triggered when the rotary drum is in the second position to supply power to the ultraviolet light source.
The method according to claim 3 or 8,
A power supply rail is provided on one of the case and the slide dock which are relatively moved with respect to each other and power connection portions respectively connected to the ultraviolet light sources disposed inside each of the slots are provided on the other side,
Wherein the power contacts are contacted or short-circuited with the power supply rail depending on the relative position of the case and the slide dock.
3. The method of claim 2,
Wherein the charging port includes at least one of a wire charging port and a wireless charging port.
The method according to claim 1,
Wherein the ultraviolet light source includes an ultraviolet light emitting diode (UV LED).
14. The method of claim 13,
And a secondary optic for controlling a diffusion angle and a directivity angle of the light source in front of the ultraviolet light source.
The method according to claim 1,
Wherein the ultraviolet light source emits ultraviolet rays having a wavelength of 100 nm to 400 nm.
The ultraviolet light source according to claim 1,
A first ultraviolet light source disposed on an inner wall of the inner wall of the slot opposite to a front surface of the mobile device for irradiating ultraviolet rays to a front surface of the mobile device; And
And a second ultraviolet light source disposed on an inner wall of the inner wall of the slot, the second ultraviolet light source irradiating the rear surface of the mobile device with ultraviolet rays.
17. The method of claim 16,
Wherein the first ultraviolet light source is disposed at an edge of at least one of the corners of the inner wall facing the front surface of the mobile device.
17. The method of claim 16,
And the second ultraviolet light source is disposed at an edge of at least one of the corners of the inner wall facing the rear surface of the mobile device.
The ultraviolet light source according to claim 1,
A first ultraviolet light source disposed on an inner side wall of the inner side wall of the slot, the first side wall facing the one side of the mobile device; And
And a second ultraviolet light source disposed on an inner side wall of the inner side wall of the slot opposite to the opposite side of the mobile device.
20. The method of claim 19,
A first reflector disposed on an inner wall of a slot opposing to a rear surface of the mobile device and reflecting ultraviolet light emitted from the first ultraviolet light source to a rear surface of the mobile device; And
And a second reflector disposed on an inner wall of a slot opposite to a front surface of the mobile device for reflecting ultraviolet light emitted from the second ultraviolet light source to a front surface of the mobile device.
The ultraviolet light source according to claim 1,
A first ultraviolet light source disposed at a first corner of the inner wall of the slot such that ultraviolet light has a path parallel to a rear surface of the mobile device; And
And a second ultraviolet light source disposed at a second corner of the inner wall of the slot such that ultraviolet light has a path parallel to the front surface of the mobile device.
22. The method of claim 21,
A first light guide plate disposed on an inner wall of a slot opposed to a rear surface of the mobile device for emitting a light source emitted from the first ultraviolet light source on a back surface of the mobile device, And
And a second light guide plate disposed on an inner wall of a slot opposite to a front surface of the mobile device for emitting a light source emitted from the second ultraviolet light source on a front surface of the mobile device.
The method according to claim 1,
Wherein the ultraviolet light source is installed on a side surface of the slot so as to face the side surface of the object, and is installed closer to one of the front surface and the rear surface of the object.
The method according to claim 1,
And a power supply trigger device for automatically supplying power to the ultraviolet light source when the mobile device is installed in the slot.
25. The method of claim 24,
And a door capable of opening and closing so that the slot is exposed or covered,
A charging device for a mobile device in which a power supply triggering device is activated and power is supplied to an ultraviolet light source disposed inside the slot with the door closed.
The method according to claim 1,
And a support for vertically mounting the mobile device within the slot.
A charging device case having a slot in which a mobile device is inserted and to expose both a front surface and a rear surface of the mobile device in the slot;
A multi-station device disposed on both sides of the slot; And
And an ultraviolet light source for irradiating ultraviolet rays to the front and rear surfaces of the mobile device exposed in the slot.
28. The method of claim 27,
And a charging port disposed at a lower end of the charging device case.
28. The method of claim 27,
Wherein the charging port comprises at least one of a wired charging port and a wireless charging port.
28. The method of claim 27,
Wherein the ultraviolet light source comprises an ultraviolet light emitting diode (UV LED).
28. The method of claim 27,
Wherein the ultraviolet light source emits ultraviolet light having a wavelength of 100 nm to 400 nm.
28. The ultraviolet light source according to claim 27,
A first ultraviolet light source disposed on an inner wall of the inner wall of the slot opposite to a front surface of the mobile device for irradiating ultraviolet rays to a front surface of the mobile device; And
And a second ultraviolet light source disposed on an inner wall of the inner wall of the slot, the second ultraviolet light source being disposed on an inner wall facing the rear surface of the mobile device, for irradiating the rear surface of the mobile device with ultraviolet light.
33. The method of claim 32,
Wherein the first ultraviolet light source is disposed at an edge of at least one of the corners of the inner wall facing the front of the mobile device.
33. The method of claim 32,
Wherein the second ultraviolet light source is disposed at an edge of at least one of the corners of the inner wall facing the rear surface of the mobile device.
28. The ultraviolet light source according to claim 27,
A first ultraviolet light source disposed on an inner side wall of the inner side wall of the slot, the first side wall facing the one side of the mobile device; And
And a second ultraviolet light source disposed on an inner wall of the inner side wall of the slot opposite to the opposite side of the mobile device.
36. The method of claim 35,
A first reflector disposed on an inner wall of a slot opposing to a rear surface of the mobile device and reflecting ultraviolet light emitted from the first ultraviolet light source to a rear surface of the mobile device; And
Further comprising a second reflector disposed on an inner wall of a slot facing a front surface of the mobile device for reflecting ultraviolet light emitted from the second ultraviolet light source to a front surface of the mobile device.
28. The ultraviolet light source according to claim 27,
A first ultraviolet light source disposed at a first corner of the inner wall of the slot such that ultraviolet light has a path parallel to a rear surface of the mobile device; And
And a second ultraviolet light source disposed at a second corner of the inner wall of the slot such that ultraviolet light has a path parallel to the front surface of the mobile device.
39. The method of claim 37,
A first light guide plate disposed on an inner wall of a slot opposed to a rear surface of the mobile device for emitting a light source emitted from the first ultraviolet light source on a back surface of the mobile device, And
Further comprising a second light guide plate disposed on an inner wall of a slot opposite to a front surface of the mobile device for emitting a light source emitted from the second ultraviolet light source on a front surface of the mobile device, .
28. The method of claim 27,
And a power supply trigger device for automatically supplying power to the ultraviolet light source when the mobile device is installed in the slot.
28. The method of claim 27,
Further comprising a support for vertically mounting the mobile device within the slot.
28. The method of claim 27,
Wherein the multi-station device comprises a speaker.

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