CN111137162A - Fill electric pile through energy internet energy supply - Google Patents

Abstract

The invention discloses a charging pile capable of supplying energy through an energy internet, which comprises an energy transmission unit and a charging unit, wherein the energy transmission unit comprises an energy module, an energy router and a power distribution room connected with the energy router 102, and the charging unit comprises a charging pile body and a movable damping module. The device of the invention stabilizes voltage through the energy router, and is convenient to access renewable energy; the universal wheels are arranged at the bottom of the charging pile, so that the charging pile can move, and the use is convenient; setting a double payment mode of network payment and card payment; fill electric pile bottom and be provided with damping device, fill electric pile and can carry out the shock attenuation effectively when meetting vibrations, increase and fill electric pile life.

Description

Fill electric pile through energy internet energy supply

Technical Field

The invention relates to the technical field of energy Internet, in particular to a charging pile for supplying energy through the energy Internet.

Background

The energy internet can be understood as a peer-to-peer energy exchange and sharing network for realizing bidirectional energy flow by comprehensively utilizing advanced power electronic technology, information technology and intelligent management technology and interconnecting a large number of energy nodes such as a novel power network, an oil network, a natural gas network and the like consisting of distributed energy acquisition devices, distributed energy storage devices and various loads.

The existing electric automobile charging pile mostly only obtains electricity from power grid connection, and is not convenient for accessing renewable energy sources. Due to inherent characteristics of time-varying property, intermittence, difficult prediction and the like of renewable energy sources such as solar energy and wind energy, a traditional power transformer used by the existing power supply system does not have a voltage adjusting function, and node voltage connected to a power grid is difficult to control to keep stable. Most of the existing partial charging piles are intelligently fixed in one place and cannot be moved, and when charging is carried out, an automobile must be stopped in front of the charging piles, so that the design is not flexible enough.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems occurring in the conventional electric vehicle charging pile.

Therefore, the invention aims to solve the problem of how to enable the charging pile of the electric automobile to be movable.

In order to solve the technical problems, the invention provides the following technical scheme: a charging pile powered through an energy internet comprises an energy transmission unit and a charging control unit, wherein the energy transmission unit comprises an energy module, an energy router connected with the energy module, and a power distribution room connected with the energy router; the charging unit is connected with the power distribution room and comprises a charging pile body and a movable damping module, and the movable damping module is connected with the bottom end of the charging pile body; remove shock-absorbing module include with fill the shock attenuation piece that electric pile body bottom is connected, and set up in the moving member of shock attenuation piece bottom.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: fill electric pile body include the casing, set up in the rifle that charges of casing side, set up in the display screen of casing, set up in the pilot lamp of display screen below, set up in the payment district of pilot lamp below, set up in emergency stop button in the middle of the payment district, set up in fill the inside charging device of electric pile body, with the sensor that the charging device is connected.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: fill electric pile body still include with the rifle complex electric rifle safety cover that charges.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: the indicator lights include a warning light, a power light, and a charging light.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: the payment area comprises a card swiping area and an online payment area.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: the shock-absorbing member include with fill electric pile body bottom fixed connection's roof, with roof sliding fit's first cylinder, with first cylinder parallel arrangement's second cylinder, with first cylinder and second cylinder fixed connection's damping bumper shock absorber, set up in the bottom plate of roof below, with first cylinder fixed connection's first backup pad, and with second cylinder fixed connection's second backup pad.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: the first supporting plate and the second supporting plate are arranged in a crossed mode and hinged to the bottom plate.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: the moving member is a universal wheel and is also provided with a limiting part.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: fill electric pile body side and still be provided with and deposit the wire casing.

As a preferred scheme of the charging pile for supplying energy through the energy Internet, the charging pile comprises the following components: the energy module can be any one of solar energy, wind energy, water energy, natural gas energy, geothermal energy, nuclear energy and the like.

The invention has the advantages that the voltage is stabilized through the energy router, and the access to renewable energy sources is convenient; the universal wheels are arranged at the bottom of the charging pile, so that the charging pile can move, and the use is convenient; setting a double payment mode of network payment and card payment; fill electric pile bottom and be provided with damping device, fill electric pile and can carry out the shock attenuation effectively when meetting vibrations, increase and fill electric pile life.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is a conventional charge stake point circuitry of example 1.

Fig. 2 is a circuit system of a charging pile powered through an energy internet in example 1.

Fig. 3 is a front view of a charging unit of the charging pile powered through the energy internet in example 1.

Fig. 4 is a diagram of charging units of a charging pile powered by an energy internet in example 2.

Fig. 5 is a cross-sectional view of a charging unit of a charging pile powered by an energy internet in example 2.

Fig. 6 is a partial cross-sectional view of a charging unit of the charging post powered through the energy internet in example 3.

Fig. 7 is a diagram of the shock absorbing members of the charging pile in example 3 powered through the energy internet.

Fig. 8 is a diagram of the shock absorbing members of the charging pile in example 3 powered through the energy internet.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 3, for a first embodiment of the present invention, the embodiment provides a charging pile powered through an energy internet, the charging pile powered through the energy internet includes an energy transmission unit 100 and a charging unit 200, and the charging unit 200 is connected to the energy transmission unit 100.

Specifically, the energy transmission unit 100 includes an energy source module 101, an energy source router 102 connected to the energy source module 101, and a power distribution room 103 connected to the energy source router 102. The energy module 101 can be electricity generated by any one of solar energy, wind energy, water energy, natural gas energy, geothermal energy, nuclear energy and other energy sources, the energy router 102 is connected into a node of the energy module 101 and then is connected with the power distribution room 103, the electricity generated by the energy module 101 forms stable 400V direct current after passing through the energy router 102, access of renewable energy sources is facilitated, due to the use of the energy router 102, flexible adjustment of current and power of a power network can be achieved, current on the side of the power network is guaranteed to be sine wave all the time, the function of adjusting power factors of the power network is achieved, harmonic waves generated during charging and electric energy quality problems of reduction of the power factors can be prevented from being transmitted to the side of the power network, and therefore power supply stability of the power network is guaranteed and power supply loss is reduced.

It should be noted that the energy router 102 may implement input, output, conversion, and storage of different energy carriers, implement interconnection and complementation of different energy forms, and organic communication between production and consumption links, and implement fusion of energy streams with different characteristics. The wide area energy network can be supported to realize interconnection; the system can be used for energy production of large-scale hydraulic power plants, wind power plants and photovoltaic power stations, can also be used for energy production of parks, buildings and users, realizes the instant cooperation of energy producers, network operators and decentralized power generation with the users, and provides ubiquitous energy service. In particular conversion techniques, an information stream is added in addition to the power, which is well suited to play its own role within the internet. For a local energy network, in order not to cause system-wide effects, the voltage and current levels at its interfaces must be maintained, e.g. to maintain active and reactive power exchange with the outside world. As shown in fig. 1, most of the existing charging pile circuit systems are powered from a power grid, then are transmitted to a low-voltage cabinet and a reactive power compensation cabinet after passing through a high-voltage cabinet and a transformer, and are too numerous and cumbersome in equipment, and are also connected with the reactive power compensation cabinet to reduce the loss of the power grid and improve the quality of the power grid; as shown in fig. 2, the energy router 102 is used to directly connect to a power distribution room for power distribution, thereby eliminating a high-voltage cabinet and a transformer, and then transmitting the power to a series of devices such as a low-voltage cabinet and a reactive power compensation cabinet.

Further, the charging unit 200 is connected with the power distribution room 103, and includes a charging pile body 201 and a movable damping module 202, the movable damping module 202 is connected with the bottom end of the charging pile body 201, the movable damping module 202 includes a damping piece 202a connected with the bottom end of the charging pile body 201, and a moving piece 202b arranged at the bottom end of the damping piece 202 a. Damping member 202a connects moving member 202b and fills electric pile body 201, can carry out the shock attenuation for filling electric pile when taking place vibrations, increases the life who fills electric pile.

In summary, the energy module 101 is connected to the energy router 102 and transmits the power to the distribution room 103 at 400V dc voltage, a part of the 400V dc is directly connected to the charging unit 200 after passing through the distribution room 103 to form a dc charging pile, and another part of the power is converted into 380V ac power after passing through the inverter in the distribution room 103 and is supplied to the charging unit 200 to form an ac charging pile. Fill electric pile body 201 bottom and be provided with damper 202a and moving member 202 b.

Example 2

Referring to fig. 4 and 5, a second embodiment of the present invention, which is different from the first embodiment, is: the charging pile body 201 includes a plurality of members. In the above embodiment, the charging pile powered through the internet as the energy source includes the energy transmission unit 100 and the charging unit 200, and the charging unit 200 is connected to the energy transmission unit 100.

Specifically, the energy transmission unit 100 includes an energy module 101, an energy router 102 connected to the energy module 101, and a power distribution room 103 connected to the energy router 102, and the energy router 102 is accessed to a node of the energy module 101 and then connected to the power distribution room 103.

Charging unit 200 is connected with the room 103 that distributes the electric power, and charging unit 200 is connected with the room 103 that distributes the electric power, including filling electric pile body 201 and removal shock-absorbing module 202, remove shock-absorbing module 202 with fill electric pile body 201 bottom and connect, remove shock-absorbing module 202 including with fill the shock attenuation piece 202a that electric pile body 201 bottom is connected, and set up in the moving member 202b of shock attenuation piece 202a bottom.

Further, the charging pile body 201 comprises a casing 201a, a charging gun 201b arranged on the side of the casing 201a, a display screen 201c arranged on the casing 201a, an indicator light 201d arranged below the display screen 203, a payment area 201e arranged below the indicator light 201d, an emergency stop button 201f arranged in the middle of the payment area 201e, a charging device 201g arranged inside the charging pile body 201, and a sensor 201h connected with the charging device 201g, wherein a part of 400V direct current is directly connected to the charging unit 200 after passing through the power distribution room 103 to form a direct current charging pile, and the other part of the direct current is converted into 380V alternating current after passing through an inverter and then supplied to an alternating current charging pile. The cable of the charging gun 201b should be long enough to facilitate people charging the electric vehicle. The charging pile body 201 further comprises a charging gun protective cover 201b-1 matched with the charging gun 201b, and the charging gun 201b is required to be placed into the charging gun protective cover 201b-1 again after being used so as to prevent electric shock. The display screen 201c is an intelligent touch display screen and can perform touch screen operation. The indicator lamp 201d includes a warning lamp 201d-1, a power lamp 201d-2, and a charge lamp 201 d-3. When the charging pile body 201 is powered on, the power lamp 201d-2 is turned on to prompt people that the charging pile is charged, and when charging is carried out, the charging lamp 201d-3 is turned on to remind people of charging at the moment, and when the charging unit 200 breaks down or the emergency stop button 201f is pressed, the warning lamp 201d-1 is turned on to remind people of failure and incapability of using the charging pile at the moment. The payment area 201e comprises a card swiping area 201e-1 and an online payment area 201e-2, money can be deducted through card swiping and online payment, and the emergency stop button 201f is convenient for people to use, and preferably, anti-skidding particles are arranged on the outer surface of the emergency stop button 201f, so that people can stably press the emergency stop button 201f when in an occurrence situation, and the phenomenon of skidding cannot occur. The sensor 201h is connected to the display screen 201c and the payment area 201e, respectively. Fill electric pile body 201 side and still be provided with and deposit wire casing 201j, the cable that charges rifle 201b can twine in depositing wire casing 201j, and is safe clean and tidy, can not make the cable pull drag on the ground.

In summary, the energy module 101 is connected to the energy router 102 and transmits the power to the distribution room 103 at 400V dc voltage, a part of the 400V dc is directly connected to the charging unit 200 after passing through the distribution room 103 to form a dc charging pile, and another part of the power is converted into 380V ac power after passing through the inverter in the distribution room 103 and is supplied to the charging unit 200 to form an ac charging pile. The charging unit 200 is provided with a charging device 201g and a sensor 201h for charging without manual charging, two side faces of the charging pile body 201 are provided with an electric gun protective cover 201b-1, the charging gun 201b is placed in the electric gun protective cover 201b-1, and the front face of the charging pile body 201 is provided with a display screen 201c, an indicator light 201d, a payment area 201e and an emergency stop button 201 f. Fill electric pile body 201 bottom and be provided with damper 202a and moving member 202 b.

Example 3

Referring to fig. 6 to 8, a third embodiment of the present invention is different from the first two embodiments: the shock absorbing member 202a includes several components. In the above embodiment, the charging pile powered through the internet as the energy source includes the energy transmission unit 100 and the charging unit 200, and the charging unit 200 is connected to the energy transmission unit 100.

Specifically, the energy transmission unit 100 includes an energy module 101, an energy router 102 connected to the energy module 101, and a power distribution room 103 connected to the energy router 102, and the energy router 102 is accessed to a node of the energy module 101 and then connected to the power distribution room 103.

Charging unit 200 is connected with the room 103 that distributes the electric power, and charging unit 200 is connected with the room 103 that distributes the electric power, including filling electric pile body 201 and removal shock-absorbing module 202, remove shock-absorbing module 202 with fill electric pile body 201 bottom and connect, remove shock-absorbing module 202 including with fill the shock attenuation piece 202a that electric pile body 201 bottom is connected, and set up in the moving member 202b of shock attenuation piece 202a bottom.

Further, the charging pile body 201 comprises a shell 201a, a charging gun 201b arranged on the side of the shell 201a, a display screen 201c arranged on the shell 201a, an indicator light 201d arranged below the display screen 203, a payment area 201e arranged below the indicator light 201d, an emergency stop button 201f arranged in the middle of the payment area 201e, a charging device 201g arranged inside the charging pile body 201, and a sensor 201h connected with the charging device 201g, wherein the charging pile body 201 further comprises a charging gun protective cover 201b-1 matched with the charging gun 201b, and the charging gun 201b is required to be placed into the charging gun protective cover 201b-1 again after being used to prevent electric shock. The indicator lamp 201d includes a warning lamp 201d-1, a power lamp 201d-2, and a charge lamp 201 d-3. When the charging pile body 201 is powered on, the power lamp 201d-2 is turned on to prompt people that the charging pile is charged, and when charging is carried out, the charging lamp 201d-3 is turned on to remind people of charging at the moment, and when the charging unit 200 breaks down or the emergency stop button 201f is pressed, the warning lamp 201d-1 is turned on to remind people of failure and incapability of using the charging pile at the moment. The payment area 201e comprises a card swiping area 201e-1 and an online payment area 201e-2, preferably, anti-skidding particles are arranged on the outer surface of the emergency stop button 201f, so that people can stably press the emergency stop button 201f when in a situation, and the phenomenon of skidding cannot occur. The sensor 201h is connected to the display screen 201c and the payment area 201e, respectively. Better, set up a camera on filling the electric pile top, prevent accident or theft incident in the charging process.

Further, the shock absorbing member 202a comprises a top plate 202a-1 fixedly connected with the bottom end of the charging pile body 201, a first cylinder 202a-2 in sliding fit with the top plate 202a-1, a second cylinder 202a-3 arranged in parallel with the first cylinder 202a-2, a damping shock absorber 202a-4 fixedly connected with the first cylinder 202a-2 and the second cylinder 202a-3, a bottom plate 202a-5 arranged below the top plate 202a-1, and a first supporting plate 202a-6 fixedly connected with the first cylinder 202a-2, and a second supporting plate 202a-7 fixedly connected with the second cylinder 202a-3, wherein the first cylinder 202a-2 and the second cylinder 202a-3 are slidably connected with the top plate 202 a-1. The damping dampers 202a-4 may be provided with 1 or more sets, which should be disposed at the middle positions of the first cylinder 202a-2 and the second cylinder 202a-3 when the damping dampers 202a-4 are provided as 1 set; when the damping dampers 202a-4 are provided in plural sets, they should be symmetrically provided with the middle position of the first cylinder 202a-2 and the second cylinder 202a-3 as a symmetry plane. This has the advantage that the spring force is in equilibrium. The first support plate 202a-6 and the second support plate 202a-7 are disposed crosswise and are hinged to the bottom plate 202 a-5. The bottom end of the charging pile body 201 is wrapped by the bottom plate 202a-5, so that the stability of the charging pile can be improved.

Preferably, the moving member 202b is a universal wheel, and the moving member 202b is further provided with a stopper 202b-1, preferably, the universal wheel model is SA. Fill electric pile body 201 side and still be provided with and deposit wire casing 201j, the cable that charges rifle 201b can twine in depositing wire casing 201j, and is safe clean and tidy, can not make the cable pull drag on the ground.

In summary, the energy module 101 is connected to the energy router 102 and transmits the power to the distribution room 103 at 400V dc voltage, a part of the 400V dc is directly connected to the charging unit 200 after passing through the distribution room 103 to form a dc charging pile, and another part of the power is converted into 380V ac power after passing through the inverter in the distribution room 103 and is supplied to the charging unit 200 to form an ac charging pile. The charging unit 200 is provided with a charging device 201g and a sensor 201h for charging without manual charging, two side faces of the charging pile body 201 are provided with an electric gun protective cover 201b-1, the charging gun 201b is placed in the electric gun protective cover 201b-1, and the front face of the charging pile body 201 is provided with a display screen 201c, an indicator light 201d, a payment area 201e and an emergency stop button 201 f. Fill the electric pile bottom and be provided with damping piece 202a and carry out the shock attenuation, damping piece 202a bottom sets up moving member 202b and removes.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a fill electric pile through energy internet energy supply which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

an energy transmission unit (100) comprising an energy source module (101), an energy source router (102) connected to the energy source module (101), and a power distribution room (103) connected to the energy source router (102);

the charging unit (200) is connected with the power distribution room (103) and comprises a charging pile body (201) and a movable damping module (202), and the movable damping module (202) is connected with the bottom end of the charging pile body (201);

remove shock-absorbing module (202) including with fill electric pile body (201) bottom connection's damper (202a), and set up in moving member (202b) of damper (202a) bottom.

2. The charging pile powered through the energy internet as claimed in claim 1, wherein: fill electric pile body (201) including casing (201a), set up in rifle (201b) that charges to the side of casing (201a), set up in display screen (201c) of casing (201a), set up in pilot lamp (201d) of display screen (203) below, set up in payment district (201e) below pilot lamp (201d), set up in scram button (201f) in the middle of payment district (201e), set up in fill electric pile body (201) inside accounting device (201g), with sensor (201h) that accounting device (201g) are connected.

3. The charging pile powered through the energy internet as claimed in claim 2, wherein: the charging pile body (201) further comprises a charging gun protective cover (201b-1) matched with the charging gun (201 b).

4. The charging pile powered through the energy Internet as claimed in any one of claims 1-3, wherein: the indicator lamp (201d) includes a warning lamp (201d-1), a power supply lamp (201d-2), and a charging lamp (201 d-3).

5. The charging pile powered through the energy internet as claimed in claim 4, wherein: the payment area (201e) comprises a card swiping area (201e-1) and an online payment area (201 e-2).

6. The charging pile powered through the energy internet as claimed in claim 6, wherein: the shock absorption piece (202a) comprises a top plate (202a-1) fixedly connected with the bottom end of the charging pile body (201), a first cylinder (202a-2) in sliding fit with the top plate (202a-1), a second cylinder (202a-3) arranged in parallel with the first cylinder (202a-2), a damping shock absorber (202a-4) fixedly connected with the first cylinder (202a-2) and the second cylinder (202a-3), a bottom plate (202a-5) arranged below the top plate (202a-1), a first supporting plate (202a-6) fixedly connected with the first cylinder (202a-2), and a second supporting plate (202a-7) fixedly connected with the second cylinder (202 a-3).

7. The internet-powered charging pile according to claim 7, characterized in that: the first support plates (202a-6) and the second support plates (202a-7) are arranged crosswise and are hinged with the bottom plates (202 a-5).

8. The charging pile powered through the energy Internet as claimed in any one of claims 5 to 8, wherein: the moving piece (202b) is a universal wheel, and the moving piece (202b) is further provided with a limiting piece (202 b-1).

9. The internet-powered charging pile according to claim 9, characterized in that: the side of the charging pile body (201) is also provided with a wire storage groove (201 j).

10. The charging pile powered through the energy internet as claimed in claim 5, wherein: the energy module (101) can be any one of solar energy, wind energy, water energy, natural gas energy, geothermal energy, nuclear energy and the like.

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