CN214045138U - Chargeable wireless power supply module - Google Patents

Abstract

The utility model relates to a power technical field specifically discloses a chargeable wireless power supply module, including the casing, set up in support in the casing, set up in the electrode subassembly of the relative both sides of support, set up in two battery between the electrode subassembly, expose in the casing both ends and respectively with the electrode that the electrode subassembly electricity is connected and set up in the support with first circuit board between the lateral wall of casing, first circuit board be provided with the lateral wall matched with button and the interface of casing. The chargeable wireless power supply module with the structural design has the advantages of compact structure, high universality and convenience, and can be used in various occasions.

Description

Chargeable wireless power supply module

Technical Field

The utility model relates to a power technical field especially relates to a chargeable wireless power module.

Background

Most of power supply modules in the prior art are single in function and generally do not have a chargeable function, so that the use scene is limited, for example, when the power supply module is used for supplying power for some display fonts, the power supply module is influenced by the use environment and cannot be directly connected with a mains supply, and therefore the power supply module cannot be used.

Disclosure of Invention

An object of the utility model is to provide a chargeable wireless power supply module, this chargeable wireless power supply module compact structure, commonality, convenience are high, can satisfy multiple occasion and use.

To achieve the purpose, the utility model adopts the following technical proposal:

a rechargeable wireless power supply module comprises a shell, a support arranged in the shell, electrode assemblies arranged on two opposite sides of the support, a storage battery arranged between the two electrode assemblies, electrodes exposed at two ends of the shell and respectively electrically connected with the electrode assemblies, and a first circuit board arranged between the support and the side wall of the shell, wherein the first circuit board is provided with a key and a plug-in port matched with the side wall of the shell.

The first circuit board is further provided with a plurality of indicator lamps used for displaying electric quantity, and the indicator lamps are matched with the side wall of the shell.

Wherein, the both ends of casing all are provided with and are used for adjacently the mutual adsorbed magnet when the casing concatenation.

The support is arranged in a U shape, and supporting walls extend outwards horizontally from the edge of the upper end face of the support.

The shell comprises an upper cover and a lower shell, the bracket is arranged in the cavity of the lower shell and fastened with the lower shell, and the upper cover is arranged on the upper port of the lower shell and fastened with the supporting wall through screws.

The first circuit board is arranged on the outer side of the bracket and the outer side of the side wall of the notch of the bracket, wherein the side wall of the notch of the bracket is opposite to the first circuit board.

The electrode assembly comprises second circuit boards respectively arranged on two opposite side walls of the support, and a spring and an electrode plate respectively arranged on two opposite side walls of the support, wherein the spring and the electrode plate are respectively and electrically connected with the corresponding second circuit boards.

The electrode comprises an elastic needle and a conductive column, the elastic needle is embedded at one end of the shell, and the conductive column is embedded at the other end of the shell.

The lower shell and the two opposite inner side walls of the upper cover are provided with positioning structures which are convenient for positioning the storage battery.

The utility model has the advantages that: the utility model provides a chargeable wireless power supply module, including the casing, set up in support in the casing, set up in the electrode subassembly of the relative both sides of support, set up in two battery between the electrode subassembly, expose in the casing both ends and respectively with electrode that the electrode subassembly electricity is connected and set up in the support with first circuit board between the lateral wall of casing, first circuit board be provided with the lateral wall matched with button and the interface of casing. The chargeable wireless power supply module with the structural design has the advantages of compact structure, high universality and convenience, and can be used in various occasions.

Drawings

Fig. 1 is a first exploded view of a rechargeable wireless power supply module according to the present invention.

Fig. 2 is a second exploded view of a rechargeable wireless power supply module according to the present invention.

Fig. 3 is an axonometric view of a rechargeable wireless power supply module of the present invention.

Fig. 4 is an isometric view of the stent of fig. 2.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Referring to fig. 1 to 4, the present embodiment provides a rechargeable wireless power supply module, which includes a housing, a bracket 2 disposed in the housing, electrode assemblies disposed on two opposite sides of the bracket 2, a storage battery 4 disposed between the two electrode assemblies, electrodes exposed at two ends of the housing and electrically connected to the electrode assemblies, and a first circuit board 6 disposed between the bracket 2 and a sidewall of the housing, where the first circuit board 6 is provided with a key 7 and a socket 8 that are matched with the sidewall of the housing.

Preferably, the storage battery 4 in this embodiment is configured as two rechargeable lithium batteries, and the socket 8 is configured as a TypeC socket 8, or may be configured as another socket 8 according to actual needs.

Furthermore, in order to observe the electric quantity of the storage battery 4, preferably, the first circuit board 6 in this embodiment is further provided with a plurality of indicator lights 9 for displaying the electric quantity, the plurality of indicator lights 9 are matched with the side wall of the housing, that is, a plurality of round holes are formed in one side wall of the housing, and the plurality of indicator lights 9 are respectively matched with the corresponding round holes.

Furthermore, the shell comprises an upper cover 11 and a lower shell 12, the bracket 2 is erected in the cavity of the lower shell 12 and is fastened with the lower shell 12, and then the upper cover 11 is covered on the upper port of the lower shell 12 and is matched with the bracket 2. Preferably, the bracket 2 in this embodiment is U-shaped, and the edges of the upper end surface of the bracket 2 are horizontally extended with supporting walls 21. The upper cover 11 is covered on the upper port of the lower shell 12 and supported by the supporting wall 21, and then the upper cover 11 is locked with the supporting wall 21 by screws.

Furthermore, the first circuit board 6 is disposed on an outer side of a side wall of the bracket 2 opposite to the gap of the bracket 2 in this embodiment, and the key 7, the socket 8 and the indicator light 9 are disposed on a side of the first circuit board 6 close to the inner wall of the housing. The key 7, the interface 8 and the indicator light 9 are respectively matched with the mounting hole 121 on the inner wall of the shell.

Further, the electrode assembly in this embodiment includes second circuit boards 31 respectively disposed on two opposite sidewalls of the support 2, and springs 32 and electrode pads respectively disposed on two opposite sidewalls of the support 2, wherein the springs 32 and the electrode pads are electrically connected to the corresponding second circuit boards 31, respectively. Preferably, the spring 32 and the electrode plate in this embodiment are respectively engaged with the engaging grooves on two opposite sidewalls of the bracket 2, and then welded to the corresponding second circuit board 31 through the metal plate.

Furthermore, in this embodiment, in order to splice adjacent housings, an insertion wall 122 and an insertion groove 123 for inserting adjacent housings into each other are respectively disposed at two ends of the housing, and in addition, a magnet 124 for attracting each other when splicing adjacent housings is further disposed in a groove surrounded by the insertion wall 122 and the insertion groove 123.

More specifically, in the present embodiment, the electrode includes a pogo pin 125 and a conductive pillar 126, the pogo pin 125 is embedded in one end of the housing, and preferably, the pogo pin 125 is embedded in two sides of the magnet 124 and electrically connected to the first circuit board 6 respectively; similarly, the conductive column 126 is embedded at the other end of the housing, and is also embedded at two sides of the corresponding magnet 124, so that after the elastic pin 125 and the conductive column 126 are inserted, the elastic pin 125 and the conductive column 126 are against each other.

Furthermore, in order to increase the stability of the battery 4, it is preferable that the opposite inner side walls of the lower case 12 and the upper case 11 are respectively provided with a positioning structure for facilitating the positioning of the battery 4, and preferably, the positioning structure is configured as a receiving groove matched with the battery 4.

As preferred, the rechargeable wireless power supply module in the above-mentioned embodiment is mainly applied to the power supply of the luminous typeface of magnetism, because the last Type C interface that is provided with of first circuit board, consequently can be convenient use cell-phone charger for the battery charging, simultaneously, the user can also be under the condition of not adorning the battery, provides lasting electric current for the load with the cell-phone charger, consequently, the rechargeable wireless power supply module who designs with this mode, very big promotion this power supply module's commonality and convenience.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (9)

1. The rechargeable wireless power supply module is characterized by comprising a shell, a support arranged in the shell, electrode assemblies arranged on two opposite sides of the support, a storage battery arranged between the two electrode assemblies, electrodes exposed at two ends of the shell and respectively electrically connected with the electrode assemblies, and a first circuit board arranged between the support and the side wall of the shell, wherein the first circuit board is provided with a key and a plug-in port matched with the side wall of the shell.

2. The rechargeable wireless power supply module of claim 1, wherein the first circuit board is further provided with a plurality of indicator lights for displaying the amount of power, the plurality of indicator lights cooperating with the side wall of the housing.

3. The rechargeable wireless power supply module according to claim 1, wherein magnets for attracting each other when the adjacent housings are spliced are arranged at both ends of the housing.

4. The rechargeable wireless power supply module according to claim 1, wherein the bracket is U-shaped, and the edges of the upper end surface of the bracket extend horizontally outwards to form support walls.

5. The rechargeable wireless power supply module as claimed in claim 4, wherein the housing comprises an upper cover and a lower housing, the bracket is erected in the cavity of the lower housing and fastened with the lower housing, and the upper cover is covered on the upper port of the lower housing and fastened with the supporting wall through screws.

6. The rechargeable wireless power supply module according to claim 4, wherein the first circuit board is disposed on an outer side of a side wall of the bracket opposite to the notch of the bracket.

7. The rechargeable wireless power supply module according to claim 1, wherein the electrode assembly comprises second circuit boards respectively disposed on two opposite side walls of the support, and a spring and an electrode plate respectively disposed on two opposite side walls of the support, and the spring and the electrode plate are electrically connected to the corresponding second circuit boards respectively.

8. The rechargeable wireless power supply module according to claim 1, wherein the electrode comprises a pogo pin and a conductive post, the pogo pin is embedded in one end of the housing, and the conductive post is embedded in the other end of the housing.

9. The rechargeable wireless power supply module as claimed in claim 5, wherein the opposite inner side walls of the lower casing and the upper cover are provided with positioning structures for positioning the storage battery conveniently.

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