CN216720986U - Multifunctional mobile power supply - Google Patents

Abstract

The utility model relates to a portable power source's field, concretely relates to multi-functional portable power source, it includes power shell, a battery, the interface and the interface that discharges charge, one side of power shell is provided with the wireless module that charges, the wireless module that charges includes wireless charging coil and circuit board, the circuit board electricity respectively connects in wireless charging coil and battery, the interface that charges all sets up all side wall in power shell with the interface that discharges week, power shell keeps away from the interface that charges and another side wall in week of interface that discharges and is provided with the first line body and the second line body, the one end that power shell was kept away from to the first line body is provided with first joint, the one end that power shell was kept away from to the second line body is provided with the second joint. The utility model provides a wired function of charging and wireless charging, and from taking the charging wire, can satisfy user's multiple demand of charging to improve user's use and experience.

Description

Multifunctional mobile power supply

Technical Field

The application relates to the technical field of mobile power supplies, in particular to a multifunctional mobile power supply.

Background

Along with the rapid development of scientific technology, especially communication technology, various electronic products are prevalent, a lot of convenience is brought to our lives, basically, everyone can not leave the electronic products in the work and life, the electronic products are inevitably charged in the process of using the electronic products, in order to enable charging to be more convenient, the mobile power supply is produced at the end of life, and the mobile power supply is continuously updated.

But current portable power source's function is more single, need adopt the data line to connect during the use, and a portable power source can not satisfy user's multiple demand of charging, for example a portable power source not only will charge to the cell-phone, probably still need charge for intelligent wrist-watch, bracelet, notebook computer, if every kind of electronic product all need carry a power and charging wire, can be more troublesome, reduces user and uses experience.

SUMMERY OF THE UTILITY MODEL

In order to meet various charging requirements of a user and improve user experience, the multifunctional mobile power supply is provided.

The application provides a multi-functional portable power source adopts following technical scheme:

the utility model provides a multifunctional mobile power supply, includes power shell, battery, the interface that charges and the interface that discharges, one side of power shell is provided with the wireless module that charges, the wireless module that charges includes wireless charging coil and circuit board, the circuit board electricity respectively connect in wireless charging coil with the battery, the interface that charges with the interface that discharges sets up all sides side wall of power shell, the power shell is kept away from charge the interface with all sides another side of interface that discharges still is provided with the first line body and the second line body, the one end that the power shell was kept away from to the first line body is provided with the first joint, the one end that the power shell was kept away from to the second line body is provided with the second joint.

By adopting the technical scheme, a user can select to use the first wire body and the first joint or the second wire body and the second joint for charging according to the requirement without carrying a data wire; in addition, for some electronic products with wireless charging function, the electronic products can be directly placed on a wireless charging module of a power supply to be wirelessly charged, and at the moment, an interface of the electronic products can be used for connecting other equipment, such as being capable of connecting an earphone to charge and listen to songs at the same time; thirdly, as the portable power source has a certain weight, when the portable power source needs to be charged and used, the portable power source can be connected to the discharging connector of the power source through other longer data wires, and the portable power source can be placed on a supporting object such as a table top, so that the physical consumption of a user in the using process is reduced; in conclusion, the power supply provides three different charging modes, at most, four electronic products can be charged simultaneously, and various charging requirements of users can be met.

Preferably, the power shell is kept away from wireless charging module one side is provided with the first recess that is used for supplying first line body embedding, is used for supplying the first holding tank that first joint embedding, is used for supplying the second recess of second line body embedding and is used for supplying the second holding tank that the second joint embedding, first recess with first holding tank intercommunication, the second recess with second holding tank intercommunication.

Through adopting above-mentioned technical scheme, first recess and second recess set up on power shell, make full use of power shell's space, with the first line body and second line body embedding power shell to this makes power shell provide good guard action for the first line body and second line body, has avoided the first line body and the second line body condition of twining each other to take place, perhaps the user when carrying portable power source, the first line body or second line body and other article intertwine's condition take place.

Preferably, first holding tank all is provided with first sand grip on two inside walls along self length direction, the second holding tank all is provided with the second sand grip on two inside walls along self length direction.

By adopting the technical scheme, when the first connector is arranged in the first accommodating groove, the position width of the first accommodating groove provided with the first convex strip is narrowed, and the first convex strip is abutted against the side surface of the first connector, so that the first connector is more stably arranged; when the second holding tank is arranged in with the second joint, the position width that the second holding tank has set up the second sand grip narrows down, and the second sand grip offsets tightly with the side that the second connects, makes the second joint place more stably.

Preferably, the first groove is provided with a first transition portion at one end communicated with the first accommodating groove, the first transition portion is communicated with the first accommodating groove in an inclined mode downwards, the second groove is provided with a second transition portion at one end communicated with the second accommodating groove, and the second transition portion is communicated with the second accommodating groove in an inclined mode downwards.

By adopting the technical scheme, the first transition part enables the first groove to be naturally transited to the first accommodating groove, so that the sudden increase of the depth of the groove can not occur at the communication part of the first groove and the first accommodating groove, therefore, when the first wire body and the first joint are placed, the end, close to the first joint, of the first wire body does not need to generate large deformation, the appearance of the first wire body is kept intact, and meanwhile, the first wire body is more attached to the first groove; the second transition portion makes the second recess transition to the second holding tank naturally for can not appear the sudden increase of groove depth in second recess and second holding tank intercommunication department, consequently, when the second line body was placed with the second joint, the second line body was close to the second and connects one end and need not produce big shape limit, has kept the second line body and has looked intact outward, makes the second line body more laminate in the second recess simultaneously.

Preferably, the first holding tank is kept away from first recess one end extends and is provided with first opening, the second holding tank is kept away from second recess one end extends and is provided with the second opening.

By adopting the technical scheme, the first opening can provide a taking space for the first accommodating groove, so that the first joint can be conveniently taken out of the first accommodating groove; the second opening can provide one for the second holding tank and get and take the space, is convenient for take out the second joint from the second holding tank.

Preferably, the first connector adopts a lightning interface, and the second connector adopts a Type-C interface.

Through adopting above-mentioned technical scheme for portable power source conveniently charges for apple cell-phone and android mobile phone, has improved portable power source's suitability.

Preferably, a digital display is arranged on the power supply shell.

Through adopting above-mentioned technical scheme, can show the residual capacity of power in real time when the power charges, be convenient for monitor power residual capacity, arrange the use of power more rationally.

Preferably, a switch button is arranged on the power supply shell.

Through adopting above-mentioned technical scheme, the switch button can control the switch of power, can close the power when not using for a long time, avoids the power extravagant energy of long-time standby.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the wireless charging module, the discharging interface, the first connector and the second connector are provided, a user can use a data line of the user or use the data line on a mobile power supply to charge electronic products, and meanwhile, a wireless charging mode can be selected, at most, four electronic products can be charged simultaneously, and various charging requirements of the user can be met;

2. according to the power supply device, the first groove and the second groove are formed in one side of the power supply shell, so that the space of the bottom wall of the power supply shell is fully utilized, the first wire body and the second wire body are embedded into the power supply shell, good protection is provided for the first wire body and the second wire body, the first wire body and the second wire body are prevented from being wound mutually, or the first wire body or the second wire body and other articles are prevented from being wound mutually when the power supply device is carried, and the power supply device is more convenient to carry;

3. this application makes first joint and second connect and places more stably through setting up first sand grip and second sand grip.

Drawings

Fig. 1 is a schematic structural diagram of a multifunctional mobile power supply according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a multifunctional mobile power supply according to an embodiment of the present application after a power supply hidden housing is provided with a side of a wireless charging module;

fig. 3 is a schematic structural diagram of a side of the multifunctional mobile power supply provided with the first groove according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a multifunctional mobile power supply according to an embodiment of the present application after a first wire, a first connector, a second wire, and a second connector are hidden on one side of a first groove.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Description of reference numerals: 1. a power supply housing; 2. a battery; 3. a charging interface; 4. a discharge interface; 5. a wireless charging module; 51. a charging coil; 52. a circuit board; 6. a first wire body; 61. a first joint; 7. a second wire body; 71. a second joint; 8. a first groove; 81. a first transition portion; 9. a first accommodating groove; 91. a first rib; 92. a first opening; 10. a second groove; 101. a second transition portion; 11. a second accommodating groove; 111. a second convex strip; 112. a second opening; 12. a digital display; 13. and (6) switching a key.

Detailed Description

The embodiment of the application discloses multi-functional portable power source, refer to fig. 1 and fig. 2, including power shell 1 and battery 2, one side fixed mounting of power shell 1 has wireless charging module 5, and wireless charging module 5 includes wireless charging coil 51 and circuit board 52, and battery 2 is the portable power source power supply, and circuit board 52 electricity is connected respectively in wireless charging coil 51 and battery 2. Through installation wireless module 5 that charges, can wirelessly charge to the electronic product that has wireless function of charging. A charging interface 3 and a discharging interface 4 are fixedly mounted on one side wall of the periphery of the power supply shell 1, the charging interface 3 is used for supplementing the electric quantity of the battery 2 of the mobile power supply, and the discharging interface 4 can be connected with a data line to charge an electronic product; in the embodiment of the application, the discharging interface 4 is a USB interface, and since the portable power source has a certain weight, when the portable power source needs to be charged and used, the portable power source can be connected to the discharging connector of the power source by using other longer data lines, and at this time, the portable power source can be placed on a supporting object such as a table top, so that physical power consumption of a user in the using process is reduced. Referring to fig. 3, a first wire 6 and a second wire 7 are fixedly mounted on the other side wall of the power supply housing 1 away from the charging interface 3, a first joint 61 is connected to one end of the first wire 6 away from the power supply housing 1, and a second joint 71 is connected to one end of the second wire 7 away from the power supply housing 1; in the embodiment of the application, the first connector 61 is a Lightning connector, so that the mobile power supply can be used for charging the apple mobile phone conveniently, and the second connector 71 is a Type-C connector, so that the mobile power supply can be used for charging the android mobile phone conveniently; by installing the first connector 61 and the second connector 71 which are different in type, the charging application range of the mobile power supply is enriched.

Referring to fig. 4, a first groove 8, a first accommodating groove 9, a second groove 10 and a second accommodating groove 11 are concavely formed on one side of the power supply housing 1 away from the wireless charging module 5; the first groove 8 is communicated with the first accommodating groove 9, the first groove 8 is used for accommodating the first line body 6, the first accommodating groove 9 is matched with the first connector 61 to provide an accommodating space for the first connector 61, and a user can conveniently place the first connector 61 into the first accommodating groove 9 when the mobile power supply is not used, so that the first connector 61 is protected; the second groove 10 is communicated with the second accommodating groove 11, the second groove 10 is used for accommodating the second wire body 7, the second accommodating groove 11 is matched with the second joint 71, an accommodating space is provided for the second joint 71, a user can conveniently place the second joint 71 into the second accommodating groove 11 when the mobile power supply is not used, and the second joint 71 is protected.

Further, referring to fig. 5, the first protruding strips 91 are integrally formed on two inner side walls of the first accommodating groove 9 along the length direction of the first accommodating groove 9, the first protruding strips 91 narrow the width of the first accommodating groove 9, and when the first connector 61 is placed in the first accommodating groove 9, the first protruding strips 91 are tightly matched with the side walls of the first connector 61, so that the placing stability of the first connector 61 is improved; the second convex strips 111 are integrally formed on the two inner side walls of the second accommodating groove 11 along the length direction of the second accommodating groove 11, the second convex strips 111 narrow the width of the second accommodating groove 11, and when the second connector 71 is placed into the second accommodating groove 11, the second convex strips 111 are tightly matched with the side walls of the second connector 71 in a butting mode, so that the placing stability of the second connector 71 is improved.

Referring to fig. 5, since the thickness of the first wire 6 is smaller than that of the first joint 61, the depth of the first groove 8 is smaller than that of the first receiving groove 9, when the first connector 61 is placed in the first receiving groove 9, the first wire 6 and the first connector 61 are flush with the surface of the power supply housing 1, a first transition part 81 is arranged at one end of the first groove 8 communicated with the first accommodating groove 9, the first transition part 81 is obliquely and downwards communicated with the first accommodating groove 9 from the first groove 8, the first transition part 81 enables the first groove 8 to naturally transition to the first accommodating groove 9, so that there is no abrupt increase in the groove depth at the communication between the first groove 8 and the first receiving groove 9, and therefore, when first line body 6 and first joint 61 were placed, first line body 6 was close to first joint 61 one end and need not produce big deformation, had kept first line body 6 intact outward appearance, made first line body 6 more laminate in first recess 8 simultaneously.

Referring to fig. 5, since the thickness of the second wire body 7 is smaller than that of the second joint 71, the depth of the second groove 10 is smaller than that of the second accommodating groove 11, when the second connector 71 is placed in the second receiving groove 11, the second wire 7 and the second connector 71 are flush with the surface of the power supply case 1, a second transition part 101 is arranged at one end of the second groove 10 communicated with the second accommodating groove 11, the second transition part 101 is obliquely and downwards communicated with the second accommodating groove 11 from the second groove 10, the second transition part 101 enables the second groove 10 to naturally transition to the second accommodating groove 11, so that there is no abrupt increase in the groove depth where the second grooves 10 communicate with the second receiving grooves 11, and therefore, when the second wire 7 and the second joint 71 are placed, one end of the second wire 7 close to the second joint 71 does not have to be greatly deformed, so that the appearance of the second wire 7 is kept intact, and meanwhile, the second wire 7 is more attached to the second groove 10.

Further, referring to fig. 3 and 4, a first opening 92 extends from one end of the first accommodating groove 9 away from the first groove 8, in the embodiment of the present application, the first opening 92 extends to a side wall of the power supply housing 1, and a space for the user to pull out the first joint 61 is provided by the arrangement of the first opening 92, so that the probability of slipping of the user in the process of pulling out the first joint 61 is reduced; the second accommodating groove 11 is far away from one end of the second groove 10 and is extended to form a second opening 112, in the embodiment of the present application, the second opening 112 extends to the side wall of the power supply housing 1, a space for pulling out the second connector 71 is provided for a user through the setting of the second opening 112, and the probability of slipping of the user in the process of pulling out the second connector 71 is reduced.

Referring to fig. 1 and 2, still install digital display 12 on power supply housing 1, in this application embodiment, digital display 12 installs in the top of wireless charging coil 51, and digital display 12 can show the residual capacity of power in real time when the power charges, is convenient for monitor power residual capacity to arrange the use of power more rationally, in this application embodiment, digital display 12 is circular, and wireless charging coil 51 also is circular.

Referring to fig. 1 and 2, further, a switch button 13 is further installed on the power supply housing 1, the switch button 13 may be installed on a top wall or a side wall of the power supply housing 1, in this embodiment, the switch button 13 is installed on the side wall of the power supply housing 1; through setting up switch button 13, can control the switch of power, can close the power when not using for a long time, avoid the power extravagant energy of long-time standby.

The implementation principle of the multifunctional mobile power supply in the embodiment of the application is as follows: this application is through setting up wireless module 5, the interface 4 and the first joint 61 and the second joint 71 that charge on power shell 1, for the user provides multiple charge mode, and can charge for a plurality of electronic product simultaneously, can satisfy user's various demands of charging.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a multi-functional portable power source, includes power shell (1), battery (2), the interface that charges (3) and discharge interface (4), its characterized in that: one side of power shell (1) is provided with wireless charging module (5), wireless charging module (5) includes wireless charging coil (51) and circuit board (52), circuit board (52) electricity respectively connect in wireless charging coil (51) with battery (2), interface (3) that charges with interface (4) set up all side wall of power shell (1), power shell (1) is kept away from charge interface (3) with another lateral wall of all side of interface (4) that discharges is provided with first line body (6) and second line body (7), the one end of keeping away from power shell (1) in first line body (6) is provided with first joint (61), the one end of keeping away from power shell (1) in second line body (7) is provided with second joint (71).

2. The multifunctional mobile power supply of claim 1, wherein: one side, far away from the wireless charging module (5), of the power supply shell (1) is provided with a first groove (8) for embedding the first wire body (6), a first accommodating groove (9) for embedding the first joint (61), a second groove (10) for embedding the second wire body (7) and a second accommodating groove (11) for embedding the second joint (71), wherein the first groove (8) is communicated with the first accommodating groove (9), and the second groove (10) is communicated with the second accommodating groove (11).

3. The multifunctional mobile power supply of claim 2, wherein: first holding tank (9) all are provided with first sand grip (91) on two inside walls along self length direction, second holding tank (11) all are provided with second sand grip (111) on two inside walls along self length direction.

4. The multifunctional mobile power supply of claim 3, wherein: first recess (8) with the one end of first holding tank (9) intercommunication is equipped with first transition portion (81), first transition portion (81) are followed first recess (8) slope communicates downwards first holding tank (9), second recess (10) with the one end of second holding tank (11) intercommunication is equipped with second transition portion (101), second transition portion (101) are followed second recess (10) slope communicates downwards first holding tank (9).

5. The multifunctional mobile power supply of claim 3 or 4, wherein: the first accommodating groove (9) is far away from one end of the first groove (8) and extends to form a first opening (92), and the second accommodating groove (11) is far away from one end of the second groove (10) and extends to form a second opening (112).

6. The multifunctional mobile power supply of claim 1, wherein: the first connector (61) adopts a lightning interface, and the second connector (71) adopts a Type-C interface.

7. The multifunctional mobile power supply of claim 1, wherein: and a digital display (12) is arranged on the power supply shell (1).

8. The multifunctional mobile power supply of claim 2, wherein: and a switch key (13) is arranged on the power supply shell (1).

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