JP3197199U - Mobile power supply with photocuring function - Google Patents

Abstract

A mobile power supply having a photocuring function is provided.
A photocuring device, a control device, and a rechargeable battery are included. The photocuring apparatus 10 includes a base material and a light emitting diode. The base material forms a battery slot and opens a first through hole and a through hole. The light emitting diode is provided on the base material and emits a light beam, and the light beam is irradiated to the outside of the base material through the through hole. The control device 20 includes a charging insertion groove and opens a second through hole. The rechargeable battery is provided in the battery slot, and one end is provided in the first and second through holes and is electrically connected to the charging insertion groove. The photocuring device 10 rotates relative to the control device 20 by a rechargeable battery. As a result, the rechargeable battery integrally couples the photocuring device 10 and the control device 20 as a rotating shaft, charges the electronic device 50, raises the photocuring device 10 and adheres it to the fingernail. The agent can be cured and the decorative article can be fixed to the fingernails or toenails, and the function is considerable.
[Selection] Figure 3

Description

  The present invention relates to a mobile power source, and more particularly, to a mobile power source having a photocuring function for charging an electronic device and curing nail art on a fingernail or a toenail.

  Mobile devices such as smartphones and tablet PCs that are easy to go out with are widely used. The power consumption of mobile devices is large, and users are equipped to carry mobile power sources and charge the mobile devices as needed. However, the conventional mobile power supply has only a charging function.

  Nail art has already become a trendy fashion. The manufacturing method of nail art is to bond various decorative items to fingernails or toenails with adhesive, and then irradiate the fingernails or toenails with the light emitted by the light-emitting diode of the photocuring device. The agent is cured.

  However, conventional photocuring devices are simple in function, and when not used to cure adhesives usually on fingernails or toenails, conventional photocuring devices are set aside. It is not useful and occupies space.

  In addition, the light-emitting diode (LED) package used in the conventional photo-curing device can package only one chip and achieve the purpose of light mixing with two or more different wavelengths. The light mixing effect can only be achieved by emitting light from the light emitting diode packaged with the chip. The problem with conventional photocuring devices is that many light emitting diodes occupy mating volumes and increase the weight of the photocuring device.

JP 2014-202627 A

  An object of the present invention is to provide a mobile power source having a photocuring function that uses a rechargeable battery as a rotating shaft and combines a photocuring device and a control device.

  Another object of the present invention is to provide a mobile power source having a photocuring function in which chips having two different wavelengths can be installed in a package of the light emitting diode.

  In order to achieve the above object, a mobile power source having a photocuring function provided by the present invention includes a photocuring device, a control device, and a rechargeable battery.

The photocuring apparatus includes a base material and a light emitting diode, the base material forms a battery slot and opens a first through hole and a through hole, and the light emitting diode is provided in the base material and has a light beam. And the light beam passes through the through-hole and is irradiated out of the substrate.

  The control device includes a charging insertion groove and opens a second through hole.

  The rechargeable battery is provided in the battery slot, and one end passes through the first through hole of the photocuring device and the second through hole of the control device, and is electrically connected to the charging insertion groove, and the photocured The device is rotated relative to the control device by the rechargeable battery.

  According to a preferred embodiment, the substrate of the photocuring device includes a bottom socket and a lid, the bottom socket includes a side portion and a battery positioning structure, and the side portion of the bottom socket opens a lower through hole. The battery positioning structure corresponds to the lower through-hole, and the lid includes a side, the side of the lid opens an upper through-hole, and the lid is attached to the bottom socket. The portion and the battery positioning structure of the portion and the bottom socket form the battery slot, and the upper and lower through holes are combined to form the first through hole. Preferably, the battery positioning structure includes a plurality of ribs, each rib forming a recess, and each recess corresponds to the shape of the rechargeable battery. Preferably, the shape of the rechargeable battery is a cylindrical shape, and the shape of each concave opening is a semicircular shape. Preferably, the substrate of the photocuring device includes a light emitting diode circuit board, the bottom socket includes a bottom, the bottom of the bottom socket opens the through hole, and the lid body includes the bottom socket. The light emitting diode circuit board is provided in the housing space, and the light emitting diode is provided on the light emitting diode circuit board.

  According to a preferred embodiment, the control device includes a shell, and the shell includes a lower socket and an upper lid, and opens a lower through hole on one side of the lower socket near the photocuring device, and the upper lid An upper through hole is opened on one side near the photocuring device, the upper lid is provided to cover the lower socket, and the upper and lower through holes together form the second through hole. Preferably, the control device includes a control circuit board and a button, the upper lid and the lower socket surround the accommodation chamber, the control circuit board is provided in the accommodation chamber, and a switch is provided. , Electrically connected to a light emitting diode on the light emitting diode circuit board, the button is provided on the top lid and is used to control the switch turning on the light emitting diode. Preferably, the mobile power supply having the photocuring function further includes an external power supply, and a power supply hole is opened on one side of the shell body away from the photocuring apparatus, and the control device includes a power supply insertion groove. The power supply insertion groove is provided in the control circuit board and corresponds to the power supply hole, and the external power supply is electrically connected to the power supply insertion groove. Among these, when the switch turns on the light emitting diode, the external power supply supplies power to the light emitting diode, and when the switch turns off the light emitting diode, the external power supply turns on the rechargeable battery. Charge the battery. Among them, a charging hole is opened on one side of the shell body away from the photocuring device, and the charging insertion groove is provided in the control circuit board and corresponds to the charging hole.

  According to a preferred embodiment, the light emitting diode comprises a package body and two chips, the two chips being provided in the package body, and the wavelengths of the two chips being different from each other and connected in series. The Among them, the wavelengths of the two chips are a combination of 365 nm and 400 nm, a combination of 380 nm and 400 nm, or a combination of 660 nm and 400 nm, respectively.

The effect of the present invention is not only to achieve the effect that the rechargeable battery charges the control device and the electronic device, but also to couple the photocuring device integrally with the control device as a rotating shaft, Rotate it up against it, raise it upwards, place the user's finger in the lower space of the substrate, irradiate the light of the light emitting diode, cure the adhesive, and put the decoration on the fingernail or toenail It can be fixed and the function is quite plural. In addition, the light emitting diode can directly emit a light beam in which different wavelengths are mixed, saving space and reducing weight.

It is a three-dimensional view of the present invention. It is an exploded view of the present invention. FIG. 3 is an explanatory diagram illustrating the use of the present invention for curing a nail art adhesive on a fingernail and charging an electronic device.

  In the following, the drawings and member symbols will be combined to give a more detailed description of the embodiments of the present invention so that those skilled in the art can implement the present specification after reading the description.

Referring to FIGS. 1 to 3, the mobile power source having a photo-curing function provided by the present invention includes a photo-curing device 10, a control device 20, a rechargeable battery 30, and an external power source 40.

  The photocuring apparatus 10 includes a base material 11 and a plurality of light emitting diodes (not shown). The substrate 11 includes a bottom socket 111, a lid body 112, and a light emitting diode circuit board 113. The bottom socket 111 includes side portions, a bottom portion, and a battery positioning structure. A side portion of the bottom socket 111 opens a lower through hole 1111, a bottom portion of the bottom socket 111 opens a plurality of through holes 1112, and the battery positioning structure corresponds to the lower through hole. More specifically, the battery positioning structure includes a plurality of ribs 113, the ribs 1113 being spaced apart on top of the bottom socket 111 and forming recesses 1114, respectively. Are coaxial with each other and with the axis of the lower through-hole 1111. The lid body 112 includes a side portion, and the side portion of the lid body 112 opens an upper through hole 1121. The lid body 112 is provided so as to cover the bottom socket 111, and a part thereof forms a plurality of ribs 1113 of the battery positioning structure of the bottom socket 111 and a battery slot, and the upper and lower through holes 1121 and 1111 are combined. A first through hole is formed. Among them, since the upper and lower through holes 1121 and 1111 are just the upper and lower half portions of the first through hole, the axes of the upper and lower through holes 1121 and 1111 are the same axis, and the axis is It is also the axis of the first through hole. In the battery positioning structure, the axis of the recess 1114 of the plurality of ribs 1113 is coaxial with the axis of the first through hole. The lid body 112 and the bottom socket 111 jointly enclose the accommodation space, and the battery slot is disposed in the accommodation space. The light emitting diode circuit board 113 is provided in the accommodation space. The light emitting diodes are provided below the light emitting diode circuit board 113 and correspond to the through holes 1112 respectively. Each light emitting diode includes a package body and two chips, the two chips are provided in the package body, and the wavelengths of the two chips are different from each other and are connected to each other in series. Among them, the wavelengths of the two chips can be a combination of 365 nm and 400 nm, a combination of 380 nm and 400 nm, or a combination of 660 nm and 400 nm, respectively. In other embodiments, each light emitting diode can include only one chip, or can include two or more chips. Since other materials of each light emitting diode and their connection relation belong to the prior art, details are not described here.

  The control device 20 includes a shell, a control circuit board 22, a button 23, a charging insertion groove 24 and a power supply insertion groove 25. The shell includes a lower socket 211 and an upper lid 212. The upper lid 212 is provided over the lower socket 211 and jointly surrounds the storage chamber. A lower through hole is opened on one side of the lower socket 211 near the photocuring device 10, and an upper through hole (not shown) is opened on one side of the upper lid 212 near the photocuring device 10, When 212 is provided over the lower socket 211, the upper through hole and the lower through hole 2111 together form a second through hole. A power supply hole 214 and a charging hole 215 are opened on one side of the shell 20 away from the photocuring device 10. The second through hole corresponds to the first through hole. Preferably, since the axis of the second through hole is coaxial with the axis of the first through hole, the axis of the second through hole is coaxial with the axis of the battery slot. The control circuit board 22 is provided in the housing chamber and is provided with a switch 221, and the switch 221 is electrically connected to the light emitting diode on the light emitting diode circuit board 113. The button 23 is provided on the upper lid 212 and used to control the switch 221 to turn on the light emitting diode. Among them, the switch 221 is a second number switch, and the so-called “second number” is set to be kept on within a unit time, and automatically turns off when the unit time ends. Of course, the type of the switch 221 is not limited to this, and any type of switch 221 can be used in the present invention. The charging insertion groove 24 is provided in the control circuit board 22 and corresponds to the power supply hole 214. The power supply insertion groove 25 is provided in the control circuit board 22 and corresponds to the charging hole 215.

  The rechargeable battery 30 is provided in the battery slot and has one end passing through the first through hole of the photocuring device 10 and the second through hole of the control device 20. The rechargeable battery is electrically connected to the charging insertion groove. Among them, in the battery positioning structure, the shape of the recess 1114 of the plurality of ribs 1113 corresponds to the shape of the rechargeable battery 30, and the first through hole and the second through hole correspond to the shape of the rechargeable battery 30. To do. Preferably, the shape of the rechargeable battery 30 is a cylindrical shape, the shape of each concave opening 1114 is a semicircular shape, and the upper and lower through holes 1121 and 1111 are each a semicircular shape. The hole is circular, and the second through hole is circular. The photocuring device 10 is rotated relative to the control device 20 by the rechargeable battery 30.

One end of the external power supply 40 forms a plug. The plug is inserted into the power supply insertion groove 25. The external power supply 40 is electrically connected to the power supply insertion groove 25 by its plug.

  Referring to FIG. 3, it is an explanatory diagram used for curing the nail art adhesive on the fingernail and charging the electronic device 50 according to the present invention. The electronic device 50 is a mobile phone as an example in FIG. 3, but is not limited thereto. Any rechargeable electronic device such as a notebook computer, a tablet PC, an MP3 player, etc. The electronic device 50 can be used. First, the user attaches various decorative items to the fingernails with the adhesive, and then the photocuring device 10 rotates upward relative to the control device 20 with the rechargeable battery 30 as a rotation axis. A finger is placed in a space below the bottom socket 111 of the base material 11 of the photocuring device 10, and the button 23 is pressed, and the switch 221 is touched to turn on the light emitting diode. The light emitting diode emits light of different wavelengths to the two light emitting diodes, and after passing through the light mixture, passes through the through-hole 1112 and irradiates the fingernail of the user's finger to cure the adhesive on the fingernail. And achieve the effect of fixing the ornament on the fingernail. The present invention can also achieve the effect of curing the nail art adhesive on the toenails and fixing the ornament on the toenails. The charging insertion groove 24 is used to insert the plug of the power supply line of the electronic device 50 into the charging device 30, and feeds power to the electronic device 50 through the charging insertion groove 24. Thus, the rechargeable battery in the electronic device 50 can acquire power charging.

Among these, when the external power source 40 is electrically connected to the power source insertion groove 25 and the switch 221 turns on the light emitting diode, the power source of the light emitting diode is supplied from the external power source 40 1. Among these, when the external power supply 40 is electrically connected to the power supply insertion groove 25 and the switch 221 turns off the light emitting diode, the external power supply 40 charges the rechargeable battery 30. Among these, when the external power supply 40 is not electrically connected to the power supply insertion groove 25 and the switch 221 turns off the light emitting diode, the rechargeable battery 30 stops supplying power to the light emitting diode.

The rechargeable battery 30 of the mobile power source having the photocuring function according to the present invention has not only the effect of charging the control device 20 and the electronic device 50 but also the light curing device 10 and the control device 20 as a rotating shaft. And the photocuring device 10 can be further rotated in response to the control device 20 and is raised upwards so that when the present invention is placed on a table, the bottom of the substrate 11 A space is generated below the socket 111, the user's finger is extended into the space, the light source of the light-emitting diode of the light curing device 10 is irradiated to the fingernail or toenail, and the adhesive is cured. The ornament is fixed to the fingernails or toenails, and the function is considerably multiple.

What is important is that the photocuring device 10 is convenient for the rechargeable battery 30 in the process of rotation because the rechargeable battery 30 still has the original charging and power supply functions.

Moreover, the cylindrical rechargeable battery 30 fits into the recesses 1114 of the plurality of ribs 1113 and the circular first through holes of the semicircular battery positioning structure.

  Two chips of each light emitting diode are provided in the package body, and the wavelengths of the two chips are different from each other and are connected to each other in series. As a result, each light emitting diode can directly emit light in which different wavelengths are mixed, and it is not necessary to complete the purpose of emitting mixed light by a plurality of single wavelength light emitting diodes as in the prior art. The space can be saved and the weight can be reduced.

  Further, the switch 221 can switch whether the external power supply 40 supplies power to the light emitting diode or the rechargeable battery 30, and thus the power of the external power supply 40 can be fully utilized. Can be done.

  The detailed description of the present invention according to the above embodiments does not limit the scope of the present invention. Even if a person familiar with the present technology makes changes or adjustments within the scope of the present invention, the important significance of the present invention is not lost and is included in the scope of the present invention.

DESCRIPTION OF SYMBOLS 10 Photocuring apparatus 11 Base material 111 Bottom socket 1111 Lower through-hole 1112 Through-hole 1113 Rib 1114 Recess 112 Cover body 1121 Upper through-hole 113 Light-emitting-diode circuit board 20 Control apparatus 211 Lower socket 212 Upper cover 213 2nd through-hole 214 Power supply hole 215 Charging hole 22 Control circuit board 221 Switch 23 Button 24 Charging insertion groove 25 Power supply insertion groove 30 Rechargeable battery 40 External power supply 50 Electronic device

Claims (12)

A substrate and a light emitting diode, the substrate forming a battery slot and opening a first through hole and a through hole, the light emitting diode being provided in the substrate and emitting a light beam; The photocuring device irradiated through the through hole and out of the substrate;
A control device including a charging insertion groove and opening a second through hole;
One end is provided in the battery slot, and one end passes through the first through hole of the photocuring device and the second through hole of the control device, and is electrically connected to the charging insertion groove. A rechargeable battery rotating relative to the control device by the battery;
Mobile power supply with photocuring function.   The substrate of the photocuring device includes a bottom socket and a lid, the bottom socket includes a side portion and a battery positioning structure, and the side portion of the bottom socket opens a lower through hole, and the battery positioning structure Corresponding to the lower through-hole, the lid includes a side, the side of the lid opens an upper through-hole, the lid being provided in the bottom socket and a portion thereof The mobile power source having a photocuring function according to claim 1, wherein the battery positioning structure of the bottom socket forms the battery slot, and the upper and lower through holes are formed together with the first through hole. 3. The mobile power source having a photocuring function according to claim 2, wherein the battery positioning structure includes a plurality of ribs, and each rib forms a recess, and each recess corresponds to a shape of the rechargeable battery. The mobile power supply having a photocuring function according to claim 3, wherein the shape of the rechargeable battery is a cylindrical shape, and the shape of each concave opening is a semicircular shape. The substrate of the light curing device includes a light emitting diode circuit board, the bottom socket includes a bottom portion, the bottom portion of the bottom socket opens the through hole, and the lid body covers the bottom socket. The light-curing function according to claim 1, wherein the light-emitting diode circuit board is provided in the housing space, and the light-emitting diode is provided in the light-emitting diode circuit board. Having mobile power. The light emitting diode includes a package body and two chips, and the two chips are provided in the package body, and the wavelengths of the two chips are different from each other, and are connected in a series manner. Mobile power supply with light curing function. 7. The mobile power source having a photo-curing function according to claim 6, wherein the wavelengths of the two chips are a combination of 365 nm and 400 nm, a combination of 380 nm and 400 nm, or a combination of 660 nm and 400 nm, respectively. The control device includes a shell body, the shell body includes a lower socket and an upper lid, and a lower through hole is formed on one side of the lower socket near the photocuring device, and the upper lid near the photocuring device. An upper through hole is formed on one side of the upper cover, the upper cover is provided to cover the lower socket, and the upper and lower through holes form the second through hole together. Mobile power. The control device includes a control circuit board and a button, the upper lid and the lower socket surround a storage chamber, the control circuit board is provided in the storage chamber, and a switch is provided. 9. The light curing function according to claim 8, wherein the button is electrically connected to a light emitting diode on a diode circuit board, and the button is provided on the top cover and used to control the switch to turn on the light emitting diode. Having mobile power. The mobile power supply having the photocuring function further includes an external power supply, and a power supply hole is opened on one side of the shell away from the photocuring apparatus, and the control device includes a power supply insertion groove, and the power supply The mobile power supply having a photocuring function according to claim 9, wherein an insertion groove is provided in the control circuit board and corresponds to the power supply hole, and the external power supply is electrically connected to the power supply insertion groove. When the switch turns on the light emitting diode, the external power supply powers the light emitting diode, and when the switch turns off the light emitting diode, the external power supply The mobile power source having a photocuring function according to claim 10, wherein charging is performed. The charging hole is provided on one side of the shell body away from the photocuring device, and the charging insertion groove is provided in the control circuit board and has the photocuring function according to the charging hole. Mobile power.

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