CN220156261U - Multifunctional traveling inclined support mobile charging power supply - Google Patents

Abstract

The utility model discloses a multifunctional traveling inclined support mobile charging power supply, which comprises a charger body, wherein the charger body is provided with a magnetic attraction wireless charging assembly and a bracket assembly, the magnetic attraction wireless charging assembly comprises a magnet, a magnetism isolating plate and a wireless charging coil, the magnet is arranged in a magnet groove of a shell of the charger body, the magnetism isolating plate is arranged between the magnet and the wireless charging coil, the bracket assembly comprises a bracket and a bracket gland, the bracket gland and the shell of the charger body enclose a rotating space of the bracket, and the end part of the bracket rotates in the rotating space. According to the utility model, the charger body is magnetically attracted to charge the electronic product, so that the electronic product can be magnetically attracted to the charger body to charge the electronic product without being influenced by the length of the electronic product, and the bracket can rotate in a rotation space formed by the charger body and the bracket gland to support the charger body, so that the inclination of the charger body at different angles is realized, and a user can select a proper angle to play a mobile phone without influencing the charging of the mobile phone.

Description

Multifunctional traveling inclined support mobile charging power supply

Technical Field

The utility model relates to the technical field of energy storage power supplies, in particular to a multifunctional traveling inclined support mobile charging power supply.

Background

Along with the development of technology, the types of electronic products are more and more diversified, and the lives of people are enriched. Although the electronic product enriches the life of people, the electronic product needs to be charged by preparing an energy storage power supply for people, so that unnecessary troubles are added to people, especially when going out to travel, due to the automatic shutdown of the electronic product.

However, the existing energy storage power supply, such as a charger, has a single function, and most of the existing energy storage power supply can only charge electronic devices such as mobile phones, and needs a charging wire of a user, so that the various requirements of the user cannot be met.

For example, chinese patent with publication number CN216146122U discloses a multifunctional emergency charger for travel, which realizes multifunctional charging by setting wall charging, mobile power supply, wireless charging and mobile phone support, and does not need the problem of self charging wire. But form the spacing space that is used for supporting and jack-up cell-phone between its cell phone stand and the charger body, when the cell-phone is too big, cell phone stand can not support and jack-up cell-phone, and cell phone stand can not be as the support of charger body, can not be used for changing the inclination of charger body.

Disclosure of Invention

In order to overcome the problems that a limiting space for supporting and erecting a mobile phone is formed between a mobile phone support and a charger body of an existing emergency charger, when the mobile phone is too large, the mobile phone support cannot support and erect the mobile phone, and cannot serve as a support of the charger body and cannot be used for changing the inclination angle of the charger body, the utility model provides a multifunctional inclined support mobile charging power supply for traveling.

The technical scheme of the utility model is as follows:

the multifunctional traveling inclined support mobile charging power supply comprises a charger body, and is characterized in that the charger body is provided with a magnetic wireless charging assembly and a bracket assembly,

the magnetic wireless charging assembly comprises a magnet, a magnetism isolating plate and a wireless charging coil, wherein the magnet is arranged in a magnet groove of a shell of the charger body, the magnetism isolating plate and the wireless charging coil are arranged in the charger body, the magnetism isolating plate is arranged between the magnet and the wireless charging coil,

the support assembly comprises a support and a support gland, the support gland and the charger body enclose into a rotation space of the support, the end of the support is used for rotating in the rotation space, and the charger body can achieve inclination of different angles.

According to the utility model of the above scheme, the magnets are enclosed into a circle, and the orthographic projection of the magnets is arranged on the periphery of the orthographic projections of the magnetism isolating plate and the wireless charging coil.

The utility model according to the scheme is characterized in that the shell of the charger body is provided with the silica gel ring, and the diameter of the silica gel ring is the same as that of the circle surrounded by the magnets.

Further, the end part of the support is provided with a bulge, the support gland is provided with a plurality of positioning grooves, the bulge is matched with one positioning groove to limit the movement of the support, and the bulge is matched with different positioning grooves to realize the inclination of the charger body at different angles.

Further, be provided with AC charging plug, USB power supply interface, USB interface, switch button subassembly, display module and charging wire that charges on the charger body, this internal rechargeable battery subassembly and the circuit board subassembly of being provided with of charger, the circuit board subassembly respectively with AC charging plug USB power supply interface USB interface that charges the switch button subassembly display module reaches rechargeable battery subassembly electric connection, the end of charging wire with circuit board subassembly electric connection, the power supply end of charging wire is provided with the charging connector.

The utility model according to the above scheme is characterized in that the magnetic wireless charging assembly is electrically connected with the rechargeable battery assembly and the circuit board assembly.

Further, the charger body comprises a middle shell, an upper shell arranged at the front end of the middle shell and a lower shell arranged at the rear end of the middle shell, wherein the AC charging plug, the USB power supply interface, the USB charging interface, the switch key assembly, the display assembly and the charging wire are arranged on the middle shell, and the rechargeable battery assembly and the circuit board assembly are arranged in the middle shell.

Further, a charging wire accommodating groove is formed in the middle shell, and the charging wire is accommodated in the charging wire accommodating groove.

According to the scheme, the charging connector bayonet is arranged in the charging wire accommodating groove, and the charging connector bayonet is connected with the charging connector in a clamping mode.

According to the scheme, the charging plug containing groove is formed in the middle shell, the AC charging plug is arranged in the charging plug containing groove, and the tail end of the AC charging plug is rotatably connected with one end of the charging plug containing groove.

Further, the switch button assembly comprises a button shell and a switch button arranged below the button shell, the switch button is arranged on the circuit board assembly, and button shell holes matched with the button shell are formed in the middle shell.

According to the scheme, compared with the existing wireless charging which needs the support to be clamped with the mobile phone, the support is limited on the length of electronic products such as the mobile phone and cannot be suitable for electronic products with most of the length, the electronic products can be magnetically attracted with the charger body for charging without being influenced by the length of the electronic products by utilizing magnetic attraction charging, and the support can rotate in a rotating space formed by the charger body and the support gland for obliquely supporting the charger body, so that the inclination of the charger body at different angles is realized, and a user can select a proper angle to play the mobile phone while charging without influencing the charging of the mobile phone.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of another view of the present utility model;

FIG. 3 is a schematic diagram of an explosive structure according to the present utility model;

FIG. 4 is a schematic view of another view of the present utility model;

fig. 5 is a cross-sectional view of the present utility model.

In the drawings, the respective reference numerals are as follows:

1. a charger body; 101. a middle shell; 1011. an AC charging plug receiving groove; 1012. USB power supply interface hole; 1013. USB charging interface hole; 1014. a display assembly mounting groove; 1015. a key housing aperture; 102. an upper case; 103. a lower case;

2. an AC charging plug; 201. an AC pin; 202. an AC gland;

3. a USB power supply interface;

4. a USB charging interface;

5. a switch key assembly;

6. a display assembly;

7. a charging wire;

8. a bracket assembly; 801. a bracket; 8011. a protrusion; 802. a support gland; 8021. a positioning groove;

9. a magnetic wireless charging assembly; 901. a magnet; 902. a magnetism isolating plate; 903. a wireless charging coil;

10. a rechargeable battery assembly;

11. a silica gel ring;

12. a circuit board assembly.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments.

It should be noted that the terms "comprising" and "having" and any variations thereof in the description and claims of the present utility model are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus. The term "disposed" and like terms are to be broadly interpreted, and may be fixedly connected, detachably connected, or integrally formed, for example; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The directions or positions indicated by the terms "upper", "lower", "left", "right", "front", "rear", "bottom", etc. are directions or positions based on those shown in the drawings, and are merely for convenience of description, and are not to be construed as limiting the present technical solution.

As shown in fig. 1-4, a multifunctional traveling mobile charging power supply with inclined support comprises a charger body, wherein the charger body is provided with a magnetic attraction wireless charging assembly and a support assembly, the magnetic attraction wireless charging assembly comprises a magnet, a magnetism isolating plate and a wireless charging coil, the magnet is arranged in a magnet groove of a shell of the charger body, the magnetism isolating plate and the wireless charging coil are arranged in the charger body, the magnetism isolating plate is arranged between the magnet and the wireless charging coil, the support assembly comprises a support and a support gland, the support gland and the charger body enclose a rotating space of the support, the end part of the support rotates in the rotating space, and the charger body can realize inclination of different angles.

Compared with the existing wireless charging which needs a bracket to be clamped with a mobile phone, the bracket has the limitation on the length of electronic products such as the mobile phone and the like, cannot be suitable for electronic products with most of the length, can be magnetically attracted with a charger body for charging without being influenced by the length of the electronic products, and can rotate in a rotating space formed by the charger body and a bracket gland to support the charger body, so that the inclination of the charger body at different angles is realized, and a user can select a proper angle to play the mobile phone without influencing the charging of the mobile phone.

Compared with the prior charging mode, the number of plugging times of the charged electronic product is greatly reduced, and the service life of the socket is greatly prolonged; most of magnetic charging adopts a blind charging mode, so that the situation that the charging is not electrified due to reverse insertion is avoided, and the use is extremely convenient; when the device is placed at a designated position, the device is automatically sucked to start charging or can achieve the effect of connection, and particularly, the device can be conveniently charged when the device is busy in work or in the driving process.

In this embodiment, the magnets are rounded, and the orthographic projection of the magnets is disposed on the periphery of the orthographic projection of the magnetic shielding plate and the wireless charging coil. A silica gel ring is arranged on the shell of the charger body, and the diameter of the silica gel ring is the same as that of a circle surrounded by the magnets. The silica gel ring is used for further increasing the friction force between the electronic product and the charger body. In an alternative embodiment, the magnet is an N52 magnet.

In this embodiment, the tip of support is provided with the arch, and the support gland is provided with a plurality of constant head tanks, and the removal of support is restricted with a constant head tank cooperation to the arch, and the slope of the different angles of charger body is realized with different constant head tank cooperation to the arch. In the preferred embodiment, both sides of the protrusion are provided with tangential surfaces, so that different charger bodies can be conveniently adjusted to be at different angles.

In this embodiment, be provided with AC charging plug, USB power supply interface, USB interface, switch button subassembly, display module and charging wire that charges on the charger body, this internal rechargeable battery subassembly and the circuit board subassembly of being provided with of charger, circuit board subassembly respectively with AC charging plug, USB power supply interface, USB interface, switch button subassembly, display module and rechargeable battery subassembly electric connection, the end and the circuit board subassembly electric connection of charging wire, the power supply end of charging wire is provided with the charging connector. The AC charging plug is used for connecting an external power supply to charge the rechargeable battery assembly, and meanwhile, the charger has a wall charging function; the USB power supply interface is used for connecting a charging wire of electronic products such as a mobile phone, a tablet and the like so as to charge the electronic equipment; the USB charging interface is used for connecting an external power supply to charge the rechargeable battery assembly; the charging wire is used for directly charging electronic equipment such as a mobile phone panel and the like; the switch key assembly is used for switching on or switching off the charger, and the display assembly is used for displaying the residual electric quantity of the rechargeable battery assembly. The magnetic wireless charging assembly is electrically connected with the rechargeable battery assembly and the circuit board assembly.

In a preferred embodiment, the charging cord is a TPYE-C charging cord.

In the preferred embodiment, the charger body includes the mesochite, sets up at the epitheca of mesochite front end and sets up at the inferior valve of mesochite rear end, and AC charging plug, USB power supply interface, USB interface, switch button subassembly, display module and charging wire set up on the mesochite, and rechargeable battery subassembly and circuit board subassembly set up in the mesochite.

The middle shell is provided with a USB power supply interface hole matched with the USB power supply interface, a USB charging interface hole matched with the USB charging interface and a display assembly mounting groove matched with the display assembly. The USB power supply interface hole, the USB charging interface hole and the display component mounting groove are arranged, so that the USB power supply interface, the USB charging interface and the display component can be stably fixed on the middle shell.

Still be provided with charging plug on the well shell and accomodate the groove, the AC charging plug sets up in charging plug accomodates the inslot, and the end of AC charging plug is rotated with the one end in charging plug accomodate the groove and is connected, when needs use the AC charging plug, stirs the tip of AC charging plug to let the AC charging plug stretch out charging plug accomodate the groove with rotatory mode, can also retrieve the charging plug to the AC charging plug when not using and accomodate the groove, does not influence the product outward appearance. The AC charging plug includes AC prongs and an AC gland.

In this embodiment, a charging wire storage groove is provided on the middle case, and the charging wire is stored in the charging wire storage groove. The charging wire storage groove is internally provided with a charging connector bayonet, and the charging connector bayonet is connected with a charging connector buckle.

The switch button subassembly includes button shell and sets up the switch button in button shell below, and the switch button is installed on circuit board subassembly, is provided with on the well shell with button shell matched with button shell hole to make the button shell can be stable fix on the well shell.

One side of the top of the middle shell is provided with a hanging rope, so that the user can conveniently carry and use the hanging rope in various occasions, and the use experience of the user is improved.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the implementation of the utility model is not limited by the above manner, and it is within the scope of the utility model to apply the inventive concept and technical solution to other situations as long as various improvements made by the inventive concept and technical solution are adopted, or without any improvement.

Claims (10)

1. The multifunctional traveling inclined support mobile charging power supply comprises a charger body, and is characterized in that the charger body is provided with a magnetic wireless charging assembly and a bracket assembly,

the magnetic wireless charging assembly comprises a magnet, a magnetism isolating plate and a wireless charging coil, wherein the magnet is arranged in a magnet groove of a shell of the charger body, the magnetism isolating plate and the wireless charging coil are arranged in the charger body, the magnetism isolating plate is arranged between the magnet and the wireless charging coil,

the support assembly comprises a support and a support gland, the support gland and a shell of the charger body enclose a rotating space of the support, the end of the support is used for rotating in the rotating space, and the charger body can incline at different angles.

2. The multi-purpose travel diagonal mobile charging power supply of claim 1, wherein the magnets are rounded and the orthographic projection of the magnets is disposed on the periphery of the orthographic projections of the magnetic shield and the wireless charging coil.

3. The multifunctional traveling diagonal bracing mobile charging power supply according to claim 2, wherein a silica gel ring is arranged on the shell of the charger body, and the diameter of the silica gel ring is the same as that of the circle surrounded by the magnets.

4. The multifunctional traveling diagonal bracing mobile charging power supply according to claim 1, wherein a protrusion is arranged at the end part of the bracket, the bracket gland is provided with a plurality of positioning grooves, the protrusion is matched with one positioning groove to limit the movement of the bracket, and the protrusion is matched with different positioning grooves to realize the inclination of the charger body at different angles.

5. The multifunctional traveling diagonal bracing mobile charging power supply according to claim 1, wherein an AC charging plug, a USB power supply interface, a USB charging interface, a switch key assembly, a display assembly and a charging wire are arranged on the charger body, a rechargeable battery assembly and a circuit board assembly are arranged in the charger body, the circuit board assembly is respectively electrically connected with the AC charging plug, the USB power supply interface, the USB charging interface, the switch key assembly, the display assembly and the rechargeable battery assembly, the tail end of the charging wire is electrically connected with the circuit board assembly, and a charging connector is arranged at the power supply end of the charging wire.

6. The multi-purpose travel diagonal bracing mobile charging source according to claim 5, wherein the magnetic attraction wireless charging assembly is electrically connected with the rechargeable battery assembly and the circuit board assembly.

7. The multi-functional traveling diagonal mobile charging power supply of claim 5, wherein the charger body comprises a middle shell, an upper shell arranged at the front end of the middle shell, and a lower shell arranged at the rear end of the middle shell, the AC charging plug, the USB power supply interface, the USB charging interface, the switch key assembly, the display assembly, and the charging cord are arranged on the middle shell, and the rechargeable battery assembly and the circuit board assembly are arranged in the middle shell.

8. The multifunctional traveling diagonal bracing mobile charging power supply according to claim 7, wherein a charging wire receiving groove is provided on the middle case, and the charging wire is received in the charging wire receiving groove.

9. The multifunctional traveling diagonal bracing mobile charging power supply according to claim 8, wherein a charging plug receiving groove is formed in the middle shell, the AC charging plug is arranged in the charging plug receiving groove, and the tail end of the AC charging plug is rotatably connected with one end of the charging plug receiving groove.

10. The multi-purpose travel diagonal bracing mobile charging power supply according to claim 7, wherein the switch key assembly comprises a key housing and a switch key arranged below the key housing, the switch key is mounted on the circuit board assembly, and a key housing hole matched with the key housing is arranged on the middle housing.