CN212875449U - Multifunctional riding electronic power supply system - Google Patents

Abstract

The utility model discloses a multifunctional riding electronic power supply system, the output end of the power generation equipment is connected with the input end of an AC/DC control module through a conveying line, the output end of the AC/DC control module is connected with the input end of a battery charging and discharging management module, the charging input end of a power adapter of the power adapter charging input module is connected with the input end of the battery charging and discharging management module, and the battery charging and discharging management module is provided with an electronic equipment charging output port; the battery charging and discharging management module is respectively connected with the wireless charging control module and the LED illumination control module through the control switch. The utility model discloses a multi-functional electronic power supply system of riding converts the friction energy, wind energy or solar energy that produce into the electric energy when riding, and stores the electric energy and supplies electronic equipment to use, still possesses the function of illumination simultaneously; meanwhile, the control module of the whole device can be independently used as a charger baby; possess multiple functions set as an organic whole, facilitate for riding.

Description

Multifunctional riding electronic power supply system

Technical Field

The utility model belongs to the technical field of the electronic power supply system, especially, relate to an utilize equipment of riding to store the electric energy and give the system of electronic equipment power supply simultaneously in advancing.

Background

Along with the improvement of people's standard of living, it is an environmental protection, healthy trip mode to ride, and more people are more and more interested in the outdoor motion of riding, but people are in the in-process of riding, and long-time outdoor exercises or outdoor exercises are prepared inadequately, do not store sufficient electric energy and lead to the unable normal use of mobile electronic equipment, and the bicycle can't be like the car, for mobile devices such as cell-phones charge. In addition, the market covers the peripheral products of the bicycle relatively completely, but the electronic products are few.

Therefore, a riding charger is invented, and the riding charger is applied to the riding charger with the application number of 201910525008.2 and comprises a bicycle hub, a small kinetic energy generator, a controller and an electricity storage device; the bicycle is characterized in that a small kinetic energy generator is connected in series in a bicycle hub which continuously rotates during riding, and the small kinetic energy generator is connected with a controller and an electricity storage device; when the bicycle starts to ride, the bicycle hub starts to rotate continuously, and kinetic energy generated by the bicycle hub is converted into electric energy through the small kinetic energy generator and is stored in the electric storage device. The invention fully utilizes kinetic energy generated by riding to convert the kinetic energy into electric energy, so that part of small electric equipment works under the condition of not directly communicating the electric energy.

In this application, although the concept of the riding charger is disclosed, the specific structure thereof, particularly how to convert into electric energy, that is, the charging on the bicycle cannot be realized according to the application, and the device can be used only as an electric storage device and has no other functions.

Therefore, how to solve the above-mentioned drawbacks of the prior art becomes the direction of efforts of those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multi-functional electronic power supply system of riding utilizes the equipment of riding to store the electric energy in advancing, and this electric energy can also play the function of illumination for the electronic equipment power supply simultaneously, can solve above-mentioned prior art's weak point completely.

The purpose of the utility model is realized through the following technical scheme: a multifunctional riding electronic power supply system comprises power generation equipment, an AC/DC control module, a power adapter charging input module, a battery charging and discharging management module, a control switch, a wireless charging control module and an LED illumination control module; the output end of the power generation equipment is connected with the input end of the AC/DC control module through a transmission line, the output end of the AC/DC control module is connected with the input end of the battery charging and discharging management module, the charging input end of the power adapter charging input module is connected with the input end of the battery charging and discharging management module, and the battery charging and discharging management module is provided with an electronic equipment charging output port; the battery charging and discharging management module is respectively connected with the wireless charging control module and the LED illumination control module through the control switch.

In a preferred mode, the electronic device charging output port comprises an electronic device charging output USB-A port and an electronic device charging output Type-C port.

As one of the preferable modes, a wireless charging induction coil and a wireless charging output port are arranged in the wireless charging control module.

As one of the preferable modes, the system further comprises a lithium battery protection module, a lithium battery is arranged in the battery charging and discharging management module, and the lithium battery protection module is connected with the lithium battery.

In a preferred mode, the power generation device is a friction generator, the friction generator is fixed on a wheel hub of the riding device, and an output end of the friction generator is connected with an input end of the AC/DC control module through a transmission line.

As one preferable mode, the power generation device is a wind power generator, the wind power generator is fixed on a handlebar or a frame of the riding device, and an output end of the wind power generator is connected with an input end of the AC/DC control module through a transmission line.

As one preferable mode, the power generation equipment is a solar power supply device, the solar power supply device comprises a solar panel, and the solar panel is fixed on a bicycle basket or a rear seat frame of the riding equipment; and the solar panel is connected with the input end of the AC/DC control module through a transmission line.

In use:

system control module adopts conveniently, repeatedly detachable's structrual installation is on the equipment of riding, for example set up a fixture block, the joint is on the car tap of bicycle, when need not riding the use, can tear down, system control module can make portable treasured that charges and use, moreover, when indoor or have the outdoor use of the condition of charging, can charge for this system control module through power adapter charging input port, so that as electronic product such as precious confession cell-phone that charges use.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a multi-functional electronic power supply system of riding possesses multiple functions and integrates, can produce the electric energy through friction, solar energy, wind energy in the process of riding, and store the electric energy and supply electronic equipment to use, still possesses the function of illumination simultaneously; the control module of whole device can also regard as alone and charge precious use, charges when riding and facilitates.

Drawings

Fig. 1 is the circuit diagram of the riding electronic power supply system of the present invention.

FIG. 2 is a circuit schematic of the AC/DC control module.

Fig. 3 is a circuit diagram of the battery charge and discharge management module.

Fig. 4 is a schematic circuit diagram of the wireless charging and discharging management module of the present invention.

Fig. 5 is a schematic structural view of the friction generator in embodiment 1.

FIG. 6 is a schematic view of the mounting of the device in use according to example 1.

FIG. 7 is a schematic view of the mounting in use of embodiment 2.

FIG. 8 is a schematic view of the mounting of the present embodiment 3 in use.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-4, a multifunctional riding electronic power supply system comprises a power generation device, an AC/DC control module, a power adapter charging input module, a lithium battery protection module, a battery charging and discharging management module, a control switch, a wireless charging control module and an LED lighting control module; the output end of the power generation equipment is connected with the input end of the AC/DC control module through a transmission line, the output end of the AC/DC control module is connected with the input end of the battery charging and discharging management module, the charging input end of the power adapter charging input module is connected with the input end of the battery charging and discharging management module, and the battery charging and discharging management module is provided with an electronic equipment charging output port; the battery charging and discharging management module is respectively connected with the wireless charging control module and the LED illumination control module through the control switch.

Wherein: be equipped with the lithium cell in the battery measurement management module, lithium cell protection module links to each other with the lithium cell, and lithium cell protection module plays the guard action to the lithium cell, prolongs whole life.

The battery charging and discharging management module is provided with an electronic equipment charging output port, the electronic equipment charging output port comprises an electronic equipment charging output USB-A port and an electronic equipment charging output Type-C port, and the charging output ports of different models can enable the application range to be wider, so that various electronic equipment can be charged conveniently.

The wireless charging control module is internally provided with a wireless charging induction coil and a wireless charging output port, the wireless charging control module enables the whole control module to have a wireless charging function, and when the wireless charging control module is used, a mobile phone only needs to be placed on the wireless charging control module for charging.

The LED illumination control module is provided with an LED illumination output port, and the LED illumination output port is connected with an LED lamp bead, so that the whole control module has an illumination function.

The overall system operation principle is as follows:

the system power supply is accessed to the system control module from the vehicle-mounted power generation equipment through the vehicle-mounted AC/DC power generation input port, the power supply is input to the battery charging and discharging management module of the system through the AC/DC control module, then the battery charging and discharging management module charges the system battery, and the power supply is provided for the system through the module. The battery charge and discharge management module directly supplies power to the charging output ports of the two electronic devices of different types, and meanwhile, the battery charge and discharge management module can also supply power to the wireless charging control module and the LED control module through the control switch respectively, so that the wireless charging and LED lighting functions are realized.

The system control module adopts a convenient type repeatedly detachable structure to be installed on the riding equipment, when the riding equipment is not needed, the system control module can be detached to be used as a portable charger, and when the system control module is used indoors, the system control module can be charged for the module through a power adapter charging input port.

Example 1:

when the power supply device is a friction generator:

as shown in fig. 5-6, structurally, the riding electronic power supply system described herein includes a friction generator 101 affixed to a wheel hub 12 of a riding device, such as a bicycle 11, an AC/DC control module 102 affixed to a bicycle handlebar 13, and a transmission line 103 connecting the two. In order to fix the friction generator on the wheel hub, a clamp can be designed, or a clamp which is commonly used for clamping and fixing on the existing bicycle is utilized, after the friction generator is fixed, when the bicycle starts to ride, the wheel hub starts to rotate, and then electric energy starts to be generated.

Friction generator includes stator end 2, rotor end 1 and output connection end 3, and the concrete principle is: the electric energy is generated by the friction of the stator end and the edge of the wheel of the bicycle during riding and is output through the output connecting end.

Example 2:

when the power supply device is a solar power supply device for the power generation equipment:

structurally, as shown in fig. 7, the riding electronic power supply system described herein includes a solar panel 104 affixed to a riding device, such as a bicycle 11, in a front basket or on a rear frame mount 14, an AC/DC control module 102 affixed to a bicycle handlebar 13, and a transmission line 103 connecting the two. The solar power supply device comprises a solar panel, and the solar panel can convert solar energy into electric energy and convey the electric energy to the control module through the conveying line for storage. Adopt solar cell panel not need ride also can collect the electric energy, as long as light is sufficient, charge and can guarantee.

Example 3:

when the power supply device is a wind power generator:

structurally, as shown in fig. 8, the riding electronic power supply system described herein comprises one or more wind energy generators 105 mounted at the front end of a riding device, such as a bicycle 11, an AC/DC control module 102 mounted on the bicycle handlebar 13, and a transmission line 103 connecting the two. When the bicycle is ridden, the kinetic energy of wind is converted into mechanical kinetic energy, then the mechanical energy is converted into electric kinetic energy, the electric energy generated by the wind energy generator is alternating current, and the alternating current enters the AC/DC control module and is converted into direct current for use.

The working principle of the micro wind-driven generator is as follows: the wind energy generator is also called as a wind power generator, the power <1KW is a micro wind power generator, and the micro wind energy generator is used in the embodiment.

The generator mainly comprises a stator, a rotor, an end cover, an electric brush, a supporting seat, a bearing and the like. The working principle of the generator is that a stator and a rotor of the generator are connected and assembled through a bearing, a supporting seat and an end cover, the rotor can rotate in the stator, a certain exciting current is introduced through a slip ring, the rotor becomes a rotating magnetic field, a stator coil generates induced potential while cutting magnetic lines of force, the induced potential is led out through a wiring terminal and is connected in a loop to generate current. Because the connection position of the brush and the rotor has a broken circuit position, the rotor rotates in a certain direction to generate alternating current. The breeze speed of about three meters per second can start to generate electricity, so that the wind energy can be stored to generate electricity during the riding process of the bicycle.

In practical application, the wind-driven generator can be used together with the solar generator, so that the electric energy can be stored in an accelerated manner, and the defect that the wind-driven generator and the solar generator are used separately is avoided.

The wind driven generator and the solar power supply device are all existing products with completely mature technology, can be directly connected with the system after being purchased in the market, and can be used as reliable energy input of a riding system.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a multi-functional electronic power supply system of riding which characterized in that: the system comprises power generation equipment, an AC/DC control module, a power adapter charging input module, a battery charging and discharging management module, a control switch, a wireless charging control module and an LED illumination control module; the output end of the power generation equipment is connected with the input end of the AC/DC control module through a transmission line, the output end of the AC/DC control module is connected with the input end of the battery charging and discharging management module, the charging input end of the power adapter charging input module is connected with the input end of the battery charging and discharging management module, and the battery charging and discharging management module is provided with an electronic equipment charging output port; the battery charging and discharging management module is respectively connected with the wireless charging control module and the LED illumination control module through the control switch.

2. The multifunctional riding electronic power supply system of claim 1, wherein: the electronic equipment charging output port comprises an electronic equipment charging output USB-A port and an electronic equipment charging output Type-C port.

3. The multifunctional riding electronic power supply system of claim 1, wherein: and a wireless charging induction coil and a wireless charging output port are arranged in the wireless charging control module.

4. The multifunctional riding electronic power supply system of claim 1, wherein: still include lithium battery protection module, be equipped with the lithium cell in the battery charge-discharge management module, lithium battery protection module links to each other with the lithium cell.

5. The multifunctional riding electronic power supply system of claim 1, wherein: the power generation equipment is a friction generator, the friction generator is fixed on a wheel hub of the riding equipment, and the output end of the friction generator is connected with the input end of the AC/DC control module through a transmission line.

6. The multifunctional riding electronic power supply system of claim 1, wherein: the power generation equipment is a wind power generator which is fixed on a handlebar or a frame of the riding equipment, and the output end of the wind power generator is connected with the input end of the AC/DC control module through a transmission line.

7. The multifunctional riding electronic power supply system of claim 1, wherein: the solar power generation device comprises a solar panel, and the solar panel is fixed on a bicycle basket or a rear seat frame of the riding device; and the solar panel is connected with the input end of the AC/DC control module through a transmission line.

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