Disclosure of Invention
In view of the above, the present invention provides a mobile phone capable of being charged together with other mobile phones.
The utility model provides a can with cell-phone that other cell-phones charge jointly, including the interface that charges that is used for receiving external electric power with set up in charging circuit and the battery in the cell-phone, charging circuit with interface electric connection charges, the battery with charging circuit electric connection, still be equipped with electricity input structure and electricity output structure on the cell-phone, electricity input structure with charging circuit electric connection, electricity input structure constructs to make it can receive the electric power of another cell-phone, electricity output structure with interface electric connection charges makes via the electric power of interface input that charges can pass through electricity output structure to the cell-phone exports outward.
In one embodiment, the electrical output structure is electrically connected to the electrical input structure, so that the electrical power input through the electrical input structure can be output to the outside of the mobile phone through the electrical output structure.
In one embodiment, the mobile phone comprises a front mobile phone surface and a back mobile phone surface, and the electrical input structure and the electrical output structure are respectively arranged on the back mobile phone surface and the front mobile phone surface.
In one embodiment, the electrical input structure and the electrical output structure are aligned in a direction perpendicular to the front face of the handset such that the electrical input structure of one handset is able to contact the electrical output structure of the other handset when the two handsets are placed one on top of the other.
In one embodiment, the edges of the front face of the handset and the edges of the back face of the handset are provided with complementary formations to prevent relative movement between the two when the two are stacked in a direction parallel to the front face of the handset.
In one embodiment, the complementary structure comprises a recess arranged on the edge of the front face of the mobile phone and a protrusion arranged on the edge of the back face of the mobile phone, and the shapes of the protrusion and the recess are matched.
In an embodiment, the recess is a full circle of recess at the outermost edge of the front surface of the mobile phone, and the protrusion is a full circle of protrusion at the outermost edge of the back surface of the mobile phone.
In an embodiment, the electrical input structure is a conductive input contact and the electrical output structure is a conductive output contact.
In one embodiment, the conductive input contact and the conductive output contact are magnetically attracted contacts.
In an embodiment, the mobile phone is provided with a switch for turning on or off a function of charging with other mobile phones.
In summary, the present invention provides a mobile phone capable of being charged together with other mobile phones, in which an electrical output structure and an electrical input structure are respectively disposed on a front side and a back side of the mobile phone, wherein the electrical input structure is electrically connected to a charging circuit of the mobile phone, and the electrical input structure is configured to be capable of receiving power of another mobile phone, and the electrical output structure is electrically connected to a charging interface of the mobile phone, so that power input through the charging interface can be output to the mobile phone through the electrical output structure, thereby realizing that when two mobile phones are overlapped, one mobile phone can charge the other mobile phone, and bringing great convenience to a user.
Detailed Description
Before the embodiments are described in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangements of components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of "including," "comprising," "having," and the like, herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. In particular, when "a certain element" is described, the present invention is not limited to the number of the element being one, and may include a plurality of the elements.
As shown in fig. 1, the present invention provides amobile phone 2 capable of being charged together with other mobile phones, comprising a charging interface 4 for receiving external power, acharging circuit 6 and abattery 8 disposed in themobile phone 2, anelectrical input structure 10 and anelectrical output structure 12. Thecharging circuit 6 is electrically connected to the charging interface 4, thebattery 8 is electrically connected to thecharging circuit 6, and the charging interface 4 can be connected to an external power source (e.g., a charger or a charger connected to a power source) to charge thebattery 8 through thecharging circuit 6. Theelectrical input structure 10 is electrically connected to thecharging circuit 6, and theelectrical input structure 6 is configured such that it can receive power from another handset to charge thebattery 8. Theelectric output structure 12 is electrically connected to the charging interface 4, so that the electric power input through the charging interface 4 can be output to the outside of themobile phone 2 through theelectric output structure 12. In some embodiments, theelectrical output structure 12 is also electrically connected with theelectrical input structure 10, such that the electrical power input via theelectrical input structure 10 can be output externally through theelectrical output structure 12.
In the present embodiment, theelectrical input structure 10 is aconductive input contact 10, and theelectrical output structure 12 is aconductive output contact 12, wherein theconductive input contact 10 and theconductive output contact 12 are, for example, magnetic attraction contacts. In other embodiments, theelectrical output structure 10 and theelectrical input structure 12 may take other configurations.
When the mobile phone to be charged together with themobile phone 2 is one, first, the external power supply transmits power to thecharging circuit 6 via the charging interface 4, and thecharging circuit 6 transmits power to thebattery 8 to charge thebattery 8. Meanwhile, the power of the charging interface 4 is output to the other mobile phone through theelectric output structure 12, and the electric input structure of the other mobile phone receives the power output by theelectric output structure 12 of themobile phone 2, and charges the battery through the charging circuit of the other mobile phone.
In the illustrated embodiment, to enable themobile phone 2 to charge multiple mobile phones simultaneously, theelectrical output structure 12 is electrically connected to theelectrical input structure 10, so that the power passing through theelectrical input structure 10 can be output to the outside of themobile phone 2 through theelectrical output structure 12.
When the number of mobile phones charged together with themobile phone 2 is plural, the external power supply transmits electric power to thecharging circuit 6 via the charging interface 4, and thecharging circuit 6 transmits electric power to thebattery 8 to charge thebattery 8. Meanwhile, the electric power input through the charging interface 4 is output to the second mobile phone through theelectric output structure 12, and the electric input structure of the second mobile phone receives the electric power output by theelectric output structure 12 of themobile phone 2, and charges the battery through the charging circuit. The electric output structure of the mobile phone is electrically connected with the electric input structure, so that the electric power input by the electric input structure of the second mobile phone can be directly transmitted to the electric output structure, and the electric output structure of the second mobile phone transmits the electric power to the electric input structure of the third mobile phone, thereby charging the battery of the third mobile phone and charging a plurality of mobile phones.
As shown in fig. 2 and 3, thehandset 2 includes ahandset front 14 and ahandset back 16, theelectrical input structures 10 being disposed on thehandset back 16, and theelectrical output structures 12 being disposed on thehandset front 14. In the illustrated embodiment, to enable the electrical input structure of one handset to be brought into contact with the electrical output structure of the other handset when the two handsets are placed one on top of the other, theelectrical input structure 10 and theelectrical output structure 12 are positioned on thehandset 2 in an alignment in a direction perpendicular to thefront face 14 of the handset to facilitate power transfer between the handsets.
It should be understood that the present invention is not limited to theelectrical input structure 10 of thecell phone 2 being disposed on theback side 16 of the cell phone and theelectrical output structure 12 being disposed on thefront side 14 of the cell phone, and theelectrical input structure 10 and theelectrical output structure 12 of thecell phone 2 may be disposed with theelectrical input structure 10 disposed on thefront side 14 of the cell phone and theelectrical output structure 12 disposed on theback side 16 of the cell phone.
In the illustrated embodiment, the edges of thefront 14 andback 16 of the handset are provided with complementary formations to avoid relative movement between the two handsets in a direction parallel to the front of the handsets when they are overlapped, which could cause the transmission of power between the handsets to be interrupted or to be insufficiently charged.
In one embodiment, the complementary structure includes arecess 18 disposed at the edge of thefront face 14 of the handset and aprotrusion 20 disposed at the edge of the back face of the handset, wherein the shape of therecess 18 and theprotrusion 20 match. In the embodiment, therecess 18 is a full circle recess at the outermost edge of thefront face 14 of the mobile phone, and theprotrusion 20 is a full circle protrusion at the outermost edge of the back face of the mobile phone, so that when the two mobile phones are overlapped, the protrusion of one mobile phone is just accommodated in the recess of the other mobile phone, thereby ensuring that the electrical input structure of one mobile phone is stably contacted with the electrical output structure of the other mobile phone. In order to not destroy the appearance of the mobile phone, the heights of the bulges and the depressions are not more than 0.3 mm.
It should be noted that the complementary structures of thehandset 2 of the present invention, which are therecess 18 disposed on the edge of thefront face 14 of the handset and theprotrusion 20 disposed on the edge of the back face of the handset, may also be the protrusion disposed on the edge of thefront face 14 of the handset and the recess disposed on the edge of theback face 16 of the handset, depending on the positions where theelectrical input structure 10 and theelectrical output structure 12 are disposed on thehandset 2.
Thehandset 2 also includes aswitch 22 for turning on or off the function of charging with other handsets. Theswitch 22 may be a key switch provided on themobile phone 2, or may be a program control switch provided in themobile phone 2. In this embodiment, theswitch 22 is akey switch 22 disposed on the side of themobile phone 2.
In summary, the present invention provides a mobile phone capable of being charged together with other mobile phones, in which an electrical output structure and an electrical input structure are respectively disposed on a front side and a back side of the mobile phone, wherein the electrical input structure is electrically connected to a charging circuit of the mobile phone, and the electrical input structure is configured to be capable of receiving power of another mobile phone, and the electrical output structure is electrically connected to a charging interface of the mobile phone, so that power input through the charging interface can be output to the mobile phone through the electrical output structure, thereby realizing that when two mobile phones are overlapped, one mobile phone can charge the other mobile phone, and bringing great convenience to a user. After the invention is applied, when the mobile phone is out of the home without electricity, the mobile phone can be directly contacted with a charging mobile phone to ensure that the electricity input and output structure is electrically connected, and the mobile phone can be charged. When the electric input structure and the electric output structure are arranged on the front surface and the back surface of the mobile phone, the mobile phones can be directly overlapped with each other, and charging can be realized, so that the function of simultaneously charging a plurality of mobile phones by the same charger is realized.
The concepts described herein may be embodied in other forms without departing from the spirit or characteristics thereof. The particular embodiments disclosed should be considered illustrative rather than limiting. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. Any changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.