阅读说明：本技术 光储充一体化电动自行车充电车棚及其运营方法 (Light storage and charging integrated electric bicycle charging shed and operation method thereof ) 是由 陈可 王洪超 张磊 王健 高飞云 于 2019-10-24 设计创作，主要内容包括：本发明公开了光储充一体化电动自行车充电车棚及其运营方法。光储充一体化电动自行车充电车棚的运营方法,包括通过集成于主体框架的发电和储能系统,在利用光伏发电形成自发电电能的同时,暂存自发电电能；通过集成于主体框架的电动自行车用充电系统受控向电动自行车输出自发电电能；电动自行车用充电系统与能源物联网平台互连以双向交互信息,以引导用户将电动自行车导航至符合预设条件的指定站点。本发明公开的光储充一体化电动自行车充电车棚及其运营方法,在发展和完善硬件设施的基础上,在增值业务等方面做出探索。(The invention discloses a light storage and charging integrated electric bicycle charging shed and an operation method thereof. The operation method of the charging shed of the light storage and charging integrated electric bicycle comprises the steps that through a power generation and energy storage system integrated on a main body frame, self-generating electric energy is temporarily stored while the self-generating electric energy is formed through photovoltaic power generation; the self-generating electric energy is controlled to be output to the electric bicycle through a charging system for the electric bicycle integrated on the main body frame; the charging system for the electric bicycle is interconnected with the energy Internet of things platform to interact information in two directions so as to guide a user to navigate the electric bicycle to a specified station meeting preset conditions. The invention discloses a light storage and charging integrated electric bicycle charging shed and an operation method thereof, which explore the aspects of value-added services and the like on the basis of developing and perfecting hardware facilities.)

1. The utility model provides an operation method of light storage fills integration electric bicycle shed that charges which characterized in that includes:

through a power generation and energy storage system integrated on the main body frame, the photovoltaic power generation is utilized to form self-generating electric energy, and meanwhile, the self-generating electric energy is temporarily stored;

the self-generating electric energy is controlled to be output to the electric bicycle through a charging system for the electric bicycle integrated on the main body frame;

the charging system for the electric bicycle is interconnected with the energy Internet of things platform to interact information in two directions so as to guide a user to navigate the electric bicycle to a specified station meeting preset conditions.

2. The operation method of the light storage and charging integrated electric bicycle charging shed as claimed in claim 1, wherein the value added service revenue is obtained through an information issuing system integrated with the main body frame.

3. The operation method of the light storage and charging integrated electric bicycle charging shed as claimed in claim 1, wherein the warning information is obtained through a video monitoring and fire alarm system integrated with the main body frame.

4. The method of claim 1, wherein the power generation and energy storage system is externally connected to the communication base station to provide a basic power supply for the communication base station.

5. The utility model provides a light stores up integration electric bicycle car canopy that charges which characterized in that, includes main body frame, electricity generation and energy storage system, electric bicycle is with charging system, wherein:

the power generation and energy storage system is integrated in the main body frame, and temporarily stores the self-generating electric energy while forming the self-generating electric energy by utilizing photovoltaic power generation;

the charging system for the electric bicycle is integrated on the main body frame, and the charging system for the electric bicycle is controlled to output self-generating electric energy to the electric bicycle;

the charging system for the electric bicycle is interconnected with the energy Internet of things platform to interact information in two directions so as to guide a user to navigate the electric bicycle to a specified station meeting preset conditions.

6. The light-storing-charging integrated electric bicycle charging shed as in claim 5, wherein the power generation and energy storage system comprises a battery embedded in a battery storage box.

7. The light-storing-charging integrated electric bicycle charging shed as in claim 5, wherein the power generation and energy storage system comprises a photovoltaic panel located on top of the main body frame.

8. The light storage and charging integrated electric bicycle charging shed according to claim 5, wherein the electric bicycle charging system comprises a socket located on the first frame body.

Technical Field

The invention belongs to the technical field of electric bicycle charging, and particularly relates to a light storage and charging integrated electric bicycle charging shed and an operation method of the light storage and charging integrated electric bicycle charging shed.

Background

The utility model discloses a utility model patent with publication number CN203251127U, subject name ceiling formula solar charging station, its technical scheme discloses "including solar power system, place solar power system's ceiling frame with through the electric connection of power transmission system in solar power system's power storage device, power storage device passes through the electric connection of power transmission system has charging device".

In the electric bicycle technical field that charges, for example with the utility model patent of the aforesaid, current bicycle shed, although disclosed technical characteristics such as shed roof frame, power generation facility, power storage device and charging device, nevertheless combine the specification figure to know, this type of bicycle shed has only made the principle description to technical characteristics such as the shed roof frame that relates to, and further detailed expansion does not have embodied integration, design theory that integrates yet. Meanwhile, the car shed does not further relate to secondary development of value-added services represented by business models and other related industries, and needs to be further improved.

Disclosure of Invention

The invention overcomes the defects in the prior art, and provides a light storage and charging integrated electric bicycle charging shed and an operation method of the light storage and charging integrated electric bicycle charging shed.

The invention discloses a light storage and charging integrated electric bicycle charging shed, which mainly aims to integrate light storage and charging facilities in a single body (a single shed) and embody the design concepts of integration, integration and intensification.

The invention discloses a light storage and charging integrated electric bicycle charging shed, which has the other purpose that the characteristic that the charging demand frequency of an electric bicycle user is highly consistent with the photovoltaic power generation output frequency (in rainy season and in winter, in off-season for power station output, and in off-season for demand of the power user) is fully utilized, the self-supporting rate of electric energy charging and discharging is improved, and the dependence on an external power grid is reduced.

The invention discloses a light storage and charging integrated electric bicycle charging shed, which is used for meeting the requirements of local governments at all levels on clean energy, safe charging and high-end PPP project policies of urban construction and helping street communities to improve the problem of safe and centralized charging of electric bicycles which is difficult to solve ever.

The light storage and charging integrated electric bicycle charging shed disclosed by the patent application has the advantages over a single-point off-grid system, a user can navigate to a station with sufficient electric quantity through a software platform to supplement power, the complementarity of the energy Internet of things is fully utilized, and the efficient use of energy is promoted.

The invention discloses a light storage and charging integrated electric bicycle charging shed, which can be used as municipal infrastructure to provide basic power for communication base stations (such as 5G base stations, Lora base stations and WiFi network equipment) and the like.

The invention adopts the following technical scheme that the operation method of the charging shed of the light storage and charging integrated electric bicycle comprises the following steps:

through a power generation and energy storage system integrated on the main body frame, the photovoltaic power generation is utilized to form self-generating electric energy, and meanwhile, the self-generating electric energy is temporarily stored;

the self-generating electric energy is controlled to be output to the electric bicycle through a charging system for the electric bicycle integrated on the main body frame;

the charging system for the electric bicycle is interconnected with the energy Internet of things platform to interact information in two directions so as to guide a user to navigate the electric bicycle to a specified station meeting preset conditions.

According to the technical scheme, as a further preferable technical scheme of the technical scheme, the value-added service revenue is obtained through an information issuing system integrated in a main body framework.

According to the technical scheme, as a further preferable technical scheme of the technical scheme, the warning information is acquired through a video monitoring and fire alarm system integrated on the main body frame.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the power generation and energy storage system is externally connected to the communication base station to provide a basic power supply for the communication base station.

The invention further discloses a light storage and charging integrated electric bicycle charging shed, which is characterized by comprising a main body frame, a power generation and energy storage system and a charging system for an electric bicycle, wherein:

the power generation and energy storage system is integrated in the main body frame, and temporarily stores the self-generating electric energy while forming the self-generating electric energy by utilizing photovoltaic power generation;

the charging system for the electric bicycle is integrated on the main body frame, and the charging system for the electric bicycle is controlled to output self-generating electric energy to the electric bicycle;

the charging system for the electric bicycle is interconnected with the energy Internet of things platform to interact information in two directions so as to guide a user to navigate the electric bicycle to a specified station meeting preset conditions.

According to the above aspect, as a further preferable aspect of the above aspect, the power generation and energy storage system includes a battery built in the battery storage box.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the power generation and energy storage system includes a photovoltaic panel located on top of the main body frame.

According to the above aspect, as a further preferable aspect of the above aspect, the charging system for an electric bicycle includes a socket located in the first frame.

The light storage and charging integrated electric bicycle charging shed and the operation method thereof have the advantages that on the basis of developing and perfecting hardware facilities, exploration is made in aspects of value-added services and the like.

Drawings

FIG. 1 is a schematic view of an angle configuration of the present invention.

Fig. 2 is a schematic view of another aspect of the present invention.

Fig. 3 is a schematic view of a further embodiment of the present invention.

Fig. 4 is a schematic view of a structure of another angle of the present invention.

Fig. 5 is a schematic view of a part of the battery storage case shown in fig. 4 with the battery storage case hidden.

The reference numerals include: 100-a body frame; 101-a first frame; 102-a second frame; 103-a third frame body; 110-battery storage case support; 111-a fourth frame; 112-a fifth frame; 113-a sixth frame; 120-a battery storage case; 121-covering the battery storage box with one cover; 122-battery storage box upper cover two; 123-battery storage case hinge; 130-a battery holder; 131-a battery carrying case; 141-a lifting ring; 142-a stationary base; 143-base projection; 144-a first plate body; 145-a second plate body; 151-LED display screen; 152-a photovoltaic panel; 153-camera; 154-a light box; 155-rain cover; 156-socket 156.

Detailed Description

The invention discloses a light storage and charging integrated electric bicycle charging shed and an operation method thereof, and the specific implementation mode of the invention is further described below by combining with the preferred embodiment.

Referring to fig. 1 to 5 of the drawings, fig. 1 shows a three-dimensional structure of a front view direction (top view angle) of the light storage and charging integrated electric bicycle charging shed, fig. 2 shows a three-dimensional structure of a front view direction (bottom view angle) of the light storage and charging integrated electric bicycle charging shed, fig. 3 shows a three-dimensional structure of a rear view direction (bottom view angle) of the light storage and charging integrated electric bicycle charging shed, fig. 4 shows a three-dimensional structure of a front view direction of the light storage and charging integrated electric bicycle charging shed, and fig. 5 shows a three-dimensional structure (part) of a front view direction of the light storage and charging integrated electric bicycle charging shed.

Preferred embodiments.

Preferably, the light storage and charging integrated electric bicycle charging shed relates to an operation method of the light storage and charging integrated electric bicycle charging shed, and comprises the following steps:

through a power generation and energy storage system integrated on a main body frame 100 (the main body frame 100 surrounds and forms a semi-open space for accommodating a plurality of electric bicycles), the self-generating electric energy is temporarily stored while the self-generating electric energy is formed by utilizing photovoltaic power generation;

the self-generating electric energy is controlled to be output to the electric bicycle through the charging system for the electric bicycle integrated with the main body frame 100;

the charging system for the electric bicycle is interconnected with the energy internet of things platform to perform two-way information interaction so as to guide a user to navigate the electric bicycle to a specified station meeting preset conditions (it is worth mentioning that one station related to the patent application of the invention is generally regarded as a single light storage and charging integrated electric bicycle charging shed).

As one specific embodiment of the power generation and energy storage system, an existing lithium iron phosphate battery (biddi) can be adopted, the nominal voltage of the battery pack is 102V, the capacity is 14.34kWh, and the maximum discharge depth is generally 95%, so that the actual maximum discharge capacity of the battery pack is as follows: 14.34kWh 95% ═ 13.62 kWh. The 2.46kWp system is powered by 6-9kWh per day, the system backup time is about 2 days, the expected service life of the echelon battery pack is 5 years, the quality assurance is three years, and the expected annual energy production of the 2.46kWp system is 2500 kWh.

Among them, the charging system for the electric bicycle preferably employs a slow charger/slow charging pile (for example, refer to the related patent previously filed by the applicant).

As a variant of the above embodiment, the following specifications can be adopted for the slow charger/slow charging post: existing slow cloud smart sockets (flashing off incoming calls) may be employed. The charging shed can be designed into two specifications: 6MX4M (24 square meters) (suitable for commercial squares, schools and factories) and 12MX2M (24 square meters) (suitable for urban road side delivery) can simultaneously accommodate 8 trolleys for charging; each carport needs to install 4 groups of cloud smart sockets.

Wherein, the preset condition of the appointed station is preset with a plurality of choices (simultaneously, the choices can be updated according to the situation). For example, according to the bidirectional interaction information of the charging system for the electric bicycle and the energy internet of things platform, the distance between each station and the electric bicycle of the user and the residual electric quantity ratio of each station are used as two core reference factors, so that the user is guided to select the station autonomously.

As a modified implementation manner of the above embodiment, the distance between each station and the electric bicycle of the user and the remaining power ratio of each station are still used as two core reference factors, and the energy internet of things platform can be actively adapted and pushed to a suitable station.

As another variation of the above embodiment, the core reference factor may be increased/adjusted, for example, the current time of each station or the number of remaining available sockets in a specified time period is taken into the core reference factor. The user may autonomously select a high priority core reference factor.

Further, the operation method of the light storage and charging integrated electric bicycle charging shed further comprises the following steps:

value added service revenue is obtained through an information distribution system integrated in the body framework 100.

The information distribution system includes, but is not limited to, an LED display screen 151 and a light box 154.

As one specific implementation manner of obtaining value-added service income, advertisement income, a partner paying partial deposit, and obtaining the use right of the charging shed of the optical storage and charging integrated electric bicycle in a fixed monthly rental plus gain raising manner (bottom guarantee) (a site rental contract signed by a head office and property units in each region is obtained, and an agent is authorized to operate after the minimum contract protection period of 5 years); the power selling income and the fund flow management of advertisement operation are monitored and settled by a platform; the final advertisement delivery of the street terminal is uniformly operated by a head office, the head office monitors the advertisement delivery to uniformly coordinate and prevent the advertisement operation risk, and the street terminal advertisement delivery system can be opened to a partner to carry local advertisements in the early stage.

As one embodiment of the light box 154, a frameless card cloth LED light box is to be selected as the multimedia light box, and the charging car shed can accommodate 4 light box advertisement spaces of 2 MX1.2M.

Further, the operation method of the light storage and charging integrated electric bicycle charging shed further comprises the following steps:

the warning information is acquired through a video monitoring and fire alarm system integrated in the main body frame 100.

The video surveillance and fire alarm system includes, but is not limited to, a camera 153.

As one specific implementation of acquiring the warning information, an existing monitoring camera monitoring system (Haikangwei) with a fire alarm function may be used.

Further, the operation method of the light storage and charging integrated electric bicycle charging shed further comprises the following steps:

the power generation and energy storage system is externally connected to a communication base station to provide a basic power supply for the communication base station (e.g., a 5G base station, a Lora base station, and WiFi network equipment) and the like.

As a modified implementation manner of the above embodiment, the power generation and energy storage system may not only provide a basic power supply for the communication base station, but also be further externally connected to other municipal facilities providing the basic power supply.

A first embodiment.

The first embodiment further includes the following technical solutions on the basis of the preferred embodiment.

The embodiment discloses a light stores up specific structure of filling integration electric bicycle car shed that charges.

The main body frame 100 surrounds a semi-open space for accommodating a plurality of electric bicycles, and the main body frame 100 includes a plurality of first frame bodies 101, a plurality of second frame bodies 102, and a plurality of third frame bodies 103, where the first frame bodies 101, the second frame bodies 102, and the third frame bodies 103 are orthogonally disposed between each two (joints between each two of the first frame bodies 101, the second frame bodies 102, and the third frame bodies 103 are preferably integrally formed or fixedly connected, for example, welded).

The light storage and charging integrated electric bicycle charging shed further comprises a battery storage box 120 and a battery storage box support frame 110, the battery storage box support frame 110 is fixedly connected with the main body frame 100, and the battery storage box 120 is arranged on (accommodated in/mounted on) the battery storage box support frame 110.

The battery storage box 120 includes a battery holder 130 and a plurality of battery loading boxes 131 for accommodating batteries (not shown), wherein the battery holder 130 and the battery loading boxes 131 are both disposed in the battery storage box 120, and the battery loading boxes 131 are disposed in the battery holder 130.

Wherein the power generation and energy storage system is embodied as a battery that is built into the battery storage case 120.

Further, the battery storage case support stand 110 includes a fourth stand 111, a fifth stand 112 and a sixth stand 113, one end of the fourth frame 111 is fixedly connected with the main body frame 101 (specifically, one of the first frames 101 of the main body frame 101 located at the top) or is integrally formed, the other end of the fourth frame 111 is fixedly connected with one end of the fifth frame 112 or integrally formed, the other end of the fifth frame 112 is fixedly connected with the main body frame 101 (specifically, one of the first frames 101 of the main body frame 101 located at the bottom) or integrally formed, one end of the sixth frame body 113 is fixedly connected with the middle part of the fourth frame body 111 or integrally formed, the other end of the sixth frame body 113 is fixedly connected to the main frame 101 (specifically, one of the third frame bodies 103 of the main frame 101 located in the middle) or integrally formed.

Further, the battery storage box 120 is further provided with a first battery storage box cover 121, a second battery storage box cover 122 and two battery storage box hinges 123, the first battery storage box cover 121 is hinged to the battery storage box 120 through one of the battery storage box hinges 123, and the second battery storage box cover 122 is hinged to the battery storage box 120 through the other battery storage box hinge 123, so that a user can selectively open the first battery storage box cover 121 and/or the second battery storage box cover 122 when the user needs to take the batteries.

Further, the light storage and charging integrated electric bicycle charging shed further comprises a plurality of hanging rings 141, the hanging rings 141 are located at the top of the main body frame 100, and each hanging ring 141 is fixedly connected with the main body frame 100 (specifically, the first frame body 101 or the second frame body 102 of the main body frame, which are located at the top), so that the light storage and charging integrated electric bicycle charging shed is convenient to grab when being integrally hoisted.

Further, the light storage and charging integrated electric bicycle charging shed further comprises a fixed base 142, and the fixed base 142 is fixedly connected with the main body frame 100 (specifically, each third frame body 103 of the main body frame 100 is respectively connected to the fixed base 142).

Wherein, the fixed base 142 preferably adopts a cement base, so that the overall structural strength is improved.

Further, the fixing base 142 is provided with a plurality of base protrusions 143, and the base protrusions 143 are inserted into the main body frame 100 (specifically, one of the first frame bodies 101 of the main body frame 100 located at the bottom), so as to further improve the overall structural strength.

Wherein, the base protrusions 143 are located on one side of the fixing base 142.

Further, the light storage and charging integrated electric bicycle charging shed further comprises at least one first plate 144 and second plates 145 (both located at the rear side of the light storage and charging integrated electric bicycle charging shed) with the same number as the first plates 144, wherein the first plates 144 correspond to the corresponding second plates 145 one to one and are stacked with each other.

The number of the first plate 144 is preferably 2 (it should be noted that, the number of the first plate 144 should not be limited to 2, and may be adjusted as needed, the same applies below).

The first plate 144 is preferably a rain shield.

Preferably, the second plate 145 is a rain-proof acrylic plate.

Wherein the first plate 144 has a plurality of through holes for exposing the second plate 145.

Further, the light storage and charging integrated electric bicycle charging shed further comprises an LED display screen 151, wherein the LED display screen 151 is located at the outer peripheral edge of one side of the top of the main body frame 100.

Further, the light storage and charging integrated electric bicycle charging shed further comprises a plurality of photovoltaic panels 152, and each photovoltaic panel 152 is located at the top of the main body frame 100.

Wherein the power generation and energy storage system is embodied as a photovoltaic panel 152 positioned on top of the body frame 100.

Further, the light storage and charging integrated electric bicycle charging shed further comprises a camera 153, and the camera 153 is located on the inner periphery of one side of the top of the main body frame 100.

Further, the light storage and charging integrated electric bicycle charging shed further comprises at least one light box 154, and the light box 154 is located at the side of the main body frame 100.

Wherein, the number of the lamp boxes 154 is preferably 2.

Further, the light storage and charging integrated electric bicycle charging shed further comprises at least one rain cover 155 and sockets 156 with the same number of the rain covers 155, the sockets 156 correspond to the corresponding rain covers 155 in a one-to-one manner, and the sockets 156 are arranged in the corresponding rain covers 155.

The rain-proof cover 155 and the corresponding socket 156 are disposed on one of the first frames 101 of the main body frame 100 in the middle.

The charging system for the electric bicycle is embodied as a socket 156 located on the first frame 101.

Wherein, the number of the rain-proof covers 155 is preferably 4.

A second embodiment.

The second embodiment is substantially the same as the first embodiment except that the power generation and energy storage system utilizes self-generated electrical energy formed by photovoltaic power generation in the first embodiment. In the second embodiment, the power generation and energy storage system can not only utilize self-generating electric energy, but also be connected with commercial power to serve as a backup power supply.

It should be noted that, the technical features of the battery, the lamp box, the specific type selection of the socket, the power transmission and distribution wiring mode between the photovoltaic panel and the lamp box, and the like, which are related to the patent application of the present invention, should be regarded as the prior art, the specific structure, the operation principle, the control mode and the spatial arrangement mode of the technical features should be adopted by the conventional selection in the field, and should not be regarded as the invention point of the patent of the present invention, and the patent of the present invention is not further specifically described in detail.

It will be apparent to those skilled in the art that modifications and equivalents may be made in the embodiments and/or portions thereof without departing from the spirit and scope of the present invention.