CN221328686U - Miniature wireless power supply energy charging device - Google Patents

Abstract

The utility model discloses a miniature wireless power supply and energy charging device, which comprises a PBC (Poly-p-phenylene-c) substrate, wherein an energy conversion module is fixedly arranged on one side of the front surface of the PBC substrate, and a first energy storage module, a second energy storage module and a third energy storage module are sequentially arranged on the other side of the front surface of the PBC substrate from right to left. This miniature wireless power supply fills can device, through the cooperation of energy collection antenna and manganese zinc bar magnet use increase the induction electric quantity, can solve the energy supply problem after the equipment unit that installs miniature wireless power supply fills can device, wireless power supply, carry the service scenario that energy mode can make things convenient for whole equipment, but wide application and on equipment and the control unit that need miniature wireless power supply to fill can device, realize the built-in no battery of device through wireless energy supply, the periphery is leadless, spontaneous heat is little in the use, application scope is big, simple to operate, little influence to the user, characteristics such as application scene are extensive.

Description

Miniature wireless power supply energy charging device

Technical Field

The utility model relates to the technical field of wireless power supply and energy charging, in particular to a miniature wireless power supply and energy charging device.

Background

The conventional charging and energy supply modes in the industry are wired or adopt battery energy storage units as energy sources, so that the problem of energy sources can be solved by adopting a technology which is not good when energy supply is needed for miniature products, the conventional charging technology is basically used for charging and energy supply with large-size standard voltage along with the development of wireless charging technology, the battery is usually used as the energy source for the miniature field, the size of the battery is relatively large, the persistence is relatively short, the battery cannot be used as the continuous energy source, and a miniature wireless power supply and energy charging device is designed and developed based on the problem encountered at present.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a miniature wireless power supply and charging device, solves the problems, such as large size, inconvenient use of equipment and the like caused by wire connection or embedded battery energy supply at present.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a miniature wireless power supply fills can device, includes the PBC base plate, the positive one side fixed mounting of PBC base plate has energy conversion module, positive opposite side of PBC base plate has set gradually first energy storage module, second energy storage module and third energy storage module from right to left, the top of PBC base plate one side is provided with the manganese zinc bar magnet, the surface cover of manganese zinc bar magnet is equipped with the energy collection antenna with first energy storage module, second energy storage module and third energy storage module looks adaptation, one end of energy collection antenna and one side fixed mounting of PBC base plate.

Preferably, a first point location and a second point location are respectively arranged above and below the front face of the PBC substrate and between the energy conversion module and the first energy storage module.

Preferably, a first output point VCC and a second output point GND are respectively disposed above and below the front surface of the PBC substrate and on the other side of the energy conversion module.

Advantageous effects

The utility model provides a miniature wireless power supply and charging device. Compared with the prior art, the method has the following beneficial effects:

(1) The utility model increases the induction electric quantity through the cooperation of the energy collection antenna and the Mn-Zn magnetic rod, solves the energy supply problem after the equipment unit of the miniature wireless power supply and energy charging device is installed, and the wireless power supply and energy transmission modes can facilitate the use scene of the whole equipment, can be widely applied to equipment and control units which need the miniature wireless power supply and energy charging device, and realize the characteristics of no battery, no lead wire on the periphery, small spontaneous heat in the use process, wide application range, convenient installation, small influence on the application object, wide application scene and the like.

(2) The miniature wireless power supply and charging device can work by wireless power supply without a built-in battery and a connecting wire, the energy supply can be controlled and supplied, equipment can be opened according to the requirement, the product size of the miniature wireless power supply and charging device is small, the assembly production process is simple, the power supply can be customized and supplied according to the voltage and current required by a transmission control unit, the energy is saved, and the benefit cost is high.

Drawings

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

fig. 2 is an exploded view of the structure of the present utility model.

In the figure: 1. a PBC substrate; 2. an energy conversion module; 3. a first energy storage module; 4. a second energy storage module; 5. a third energy storage module; 6. an energy harvesting antenna; 7. manganese zinc magnetic rod; 8. a first point location; 9. a second point location; 10. a first output point VCC; 11. a second output point GND.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-2, the present utility model provides a technical solution: the utility model provides a miniature wireless power supply fills can device, including PBC base plate 1, PBC base plate 1 positive one side fixed mounting has energy conversion module 2, PBC base plate 1 positive opposite side has set gradually first energy storage module 3 from right to left, second energy storage module 4 and third energy storage module 5, the top of PBC base plate 1 one side is provided with manganese zinc bar magnet 7, thereby the effect of manganese zinc bar magnet 7 increases magnetic flux increases electric current, voltage, thereby manganese zinc bar magnet 7's surface cover is equipped with the energy collection antenna 6 with first energy storage module 3, second energy storage module 4 and the looks adaptation of third energy storage module 5, the one end of energy collection antenna 6 and one side fixed mounting of PBC base plate 1.

It should be noted that, the energy conversion module 2 converts the electric energy stored in the first energy storage module 3, the second energy storage module 4 and the third energy storage module 5 into a current and a voltage which can be used nominally; the energy collecting antenna 6, the manganese zinc magnetic rod 7 in the middle of the energy collecting antenna 6 forms an energy device, so that the energy collected by the energy collecting antenna 6 can be increased, and the energy collecting antenna 6 provides the energy collected by induction to the first energy storage module 3, the second energy storage module 4 and the third energy storage module 5.

Further, a first point location 8 and a second point location 9 are respectively arranged above and below the front surface of the PBC substrate 1 and between the energy conversion module 2 and the first energy storage module 3.

Further, a first output point VCC10 and a second output point GND11 are respectively disposed above and below the front surface of the PBC substrate 1 and on the other side of the energy conversion module 2, and the energy stored in the first energy storage module 3, the second energy storage module 4 and the third energy storage module 5 is converted by the energy conversion module 2 and then supplied to the peripheral control unit through the first output point VCC10 and the second output point GND 11.

When the energy collecting antenna 6 is used, the energy collecting antenna 6 is welded and installed on the surface of the PBC substrate 1 to form a miniature wireless power supply and charging device capable of collecting, storing and supplying energy, the energy collected by induction is supplied to the first energy storage module 3, the second energy storage module 4 and the third energy storage module 5 through the first point position 8 and the second point position 9, and after the stored energy is replaced by the first energy storage module 3, the second energy storage module 4 and the third energy storage module 5, the voltage and the current of the unit can be controlled according to peripheral requirements through the energy supply of the first output point VCC10 and the second output point GND 11.

Claims (3)

1. The utility model provides a miniature wireless power supply fills can device, includes PBC base plate (1), its characterized in that: the energy-saving type energy-saving device is characterized in that an energy conversion module (2) is fixedly arranged on one side of the front face of the PBC substrate (1), a first energy storage module (3), a second energy storage module (4) and a third energy storage module (5) are sequentially arranged on the other side of the front face of the PBC substrate (1) from right to left, a manganese-zinc magnetic rod (7) is arranged at the top of one side of the PBC substrate (1), an energy collection antenna (6) matched with the first energy storage module (3), the second energy storage module (4) and the third energy storage module (5) is sleeved on the outer surface of the manganese-zinc magnetic rod (7), and one end of the energy collection antenna (6) is fixedly arranged on one side of the PBC substrate (1).

2. A micro wireless power supply and charging device according to claim 1, wherein: and a first point location (8) and a second point location (9) are respectively arranged above and below the front surface of the PBC substrate (1) and between the energy conversion module (2) and the first energy storage module (3).

3. A micro wireless power supply and charging device according to claim 1, wherein: the other side of the energy conversion module (2) above and below the front surface of the PBC substrate (1) is provided with a first output point VCC (10) and a second output point GND (11) respectively.