CN114336699A - Intelligent park electric automobile ordered charging system and method - Google Patents

Abstract

The invention discloses an orderly charging system and method for an electric automobile in an intelligent park, which comprises a time judgment module, a battery pack, a power distribution mechanism, a charging group, a monitoring mechanism and an indicating mechanism, wherein the time judgment module is connected with the battery pack, the time judgment module is connected with an external power grid, the power grid and the battery pack are both connected with the power distribution mechanism, the power distribution mechanism is connected with a plurality of charging groups, and the charging groups are connected with the monitoring mechanism and the indicating mechanism. The time judgment module is used for judging the time, the electric network is used for charging the battery pack after the time enters the night, and the power distribution mechanism is used for charging the electric automobile by using the battery pack when the automobile enters the trickle charging stage, so that the pressure of the electric network can be relieved.

Description

Intelligent park electric automobile ordered charging system and method

Technical Field

The invention relates to the technical field of charging systems, in particular to an orderly charging system and method for electric automobiles in an intelligent park.

Background

The electric automobile is a vehicle which takes a vehicle-mounted power supply as power and drives wheels to run by using a motor, and meets various requirements of road traffic and safety regulations. Because the influence on the environment is smaller than that of the traditional automobile, the prospect is widely seen.

Although the system and the method for orderly charging the electric vehicles in the intelligent park, disclosed by the authorization notice number CN 105226696B, can orderly manage the charging of the electric vehicles and implement the application of a scheduling regulation and control strategy, the system and the method can reduce the huge impact on the construction of a power distribution network and the power generation capacity; the intelligent park electric automobile ordered charging system and method are provided for improving the construction of electric automobile energy service infrastructures, improving the charging and discharging operation management level of electric automobiles in an intelligent park, constructing a unified and strong intelligent power grid, promoting the development of the electric automobile industry, saving energy and reducing emission, but not well monitoring the charging system and well distributing the charging of the electric automobiles.

Disclosure of Invention

The invention aims to provide an ordered charging system and method for an electric automobile in an intelligent park, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the orderly charging system and method for the electric automobile in the intelligent park comprise a time judgment module, a battery pack, a power distribution mechanism, a charging group, a monitoring mechanism and an indicating mechanism, wherein the time judgment module is connected with the battery pack, the time judgment module is connected with an external power grid, the power grid and the battery pack are both connected with the power distribution mechanism, the power distribution mechanism is connected with a plurality of charging groups, and the charging groups are connected with the monitoring mechanism and the indicating mechanism;

furthermore, the power distribution mechanism comprises a control module, a processing module, an electric quantity monitoring module, a current monitoring module and a voltage monitoring module, wherein the control module is connected with the processing module, and the processing module is also connected with the electric quantity monitoring module, the current monitoring module and the voltage monitoring module;

furthermore, the charging set comprises a charging mechanism, an auxiliary voltage display module and an auxiliary current display module, wherein the charging mechanism is respectively connected with the auxiliary voltage display module and the auxiliary current display module;

furthermore, the charging mechanism comprises an automobile charging module, a charging monitoring module, a temperature detection module and a time calculation module, wherein the automobile charging module is respectively connected with the charging monitoring module, the temperature detection module and the time calculation module;

furthermore, the monitoring mechanism comprises a charging time display module, a charging curve display module, a main voltage display module and a main current display module;

furthermore, the indicating mechanism comprises a remaining time calculating module, a remaining time displaying module and a position indicating module, wherein the remaining time calculating module is connected with the remaining time displaying module;

furthermore, the auxiliary voltage display module and the auxiliary current display module can monitor and display the voltage and the current when each charging mechanism charges each electric automobile;

furthermore, the monitoring mechanism can monitor the whole charging system, so that a worker can conveniently monitor and adjust the system;

the ordered charging method for the electric automobile in the intelligent park comprises the following steps:

step 1, connecting an electric automobile with an automobile charging mechanism of a charging mechanism, and transmitting the electricity of a power grid to a charging group through a power distribution mechanism at the moment so as to charge the electric automobile;

step 2, judging time through a time judging module, and charging the battery pack by the power grid after the time enters night;

step 3, monitoring the charging current of the electric automobile through a charging monitoring module in a charging mechanism, and charging the electric automobile through a battery pack by a power distribution mechanism when the electric automobile enters a trickle charging stage;

step 4, monitoring the voltage and the current of each charging group through a main voltage display module and a main current display module in each charging group respectively, ensuring that the charging load of each charging group is not overlarge, and guiding the charged electric automobile by matching with an indication module;

step 5, the full time of the electric automobile is displayed through the remaining time calculating module and the remaining time displaying module, so that a driver can check the remaining charging time of the electric automobile under the condition of no charging potential, and the waiting is convenient;

further, the night time in the step is between 1 point and 5 points.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the time is judged by the time judgment module, the electric network charges the battery pack after the time enters the night, and the electric vehicle is charged by the battery pack through the power distribution mechanism when the vehicle enters the trickle charging stage, so that the pressure of the electric network can be relieved;

2. the main voltage display module and the main current display module in the charging set are used for respectively monitoring the voltage and the current of each charging set, so that the charging load of each charging set is not overlarge, and the indication module is matched for guiding the charged electric automobile, so that the electric automobile enters the charging set with a smaller load to be charged;

3. according to the invention, the time of the full charge of the electric automobile is displayed through the remaining time calculating module and the remaining time displaying module, so that a driver can check the remaining charging time of the electric automobile under the condition of no charging potential, and the waiting is convenient.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an ordered charging system for electric vehicles in an intelligent park according to the present invention;

FIG. 2 is a schematic diagram of a charging group structure of the ordered charging system for electric vehicles in an intelligent park according to the present invention.

In the figure: 1. a time judgment module; 2. a battery pack; 3. a power distribution mechanism; 31. a control module; 32. a processing module; 33. an electric quantity monitoring module; 34. a current monitoring module; 35. a voltage monitoring module; 4. a charging group; 41. a charging mechanism; 411. a vehicle charging module; 412. a charging monitoring module; 413. a temperature detection module; 414. a time calculation module; 42. an auxiliary voltage display module; 43. an auxiliary current display module; 5. a monitoring mechanism; 51. a charging time display module; 52. a charging curve display module; 53. a main voltage display module; 54. a main current display module; 6. an indication mechanism; 61. a remaining time calculation module; 62. a remaining time display module; 63. a position indication module; 7. and (4) a power grid.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-2, the present invention provides a technical solution:

the orderly charging system and method for the electric automobile in the intelligent park comprise a time judgment module 1, a battery pack 2, a power distribution mechanism 3, a charging group 4, a monitoring mechanism 5 and an indicating mechanism 6, wherein the time judgment module 1 is connected with the battery pack 2, the time judgment module 1 is connected with an external power grid 7, the power grid 7 and the battery pack 2 are both connected with the power distribution mechanism 3, the power distribution mechanism 3 is connected with a plurality of charging groups 4, and the charging groups 4 are connected with the monitoring mechanism 5 and the indicating mechanism 6;

in the invention, the power distribution mechanism 3 comprises a control module 31, a processing module 32, an electric quantity monitoring module 33, a current monitoring module 34 and a voltage monitoring module 35, wherein the control module 31 is connected with the processing module 32, and the processing module 32 is also connected with the electric quantity monitoring module 33, the current monitoring module 34 and the voltage monitoring module 35, and is used for monitoring the electric quantity, the current and the voltage of the battery pack 2 and switching to a power grid for charging when the electric quantity, the current and the voltage of the battery pack 2 cannot be charged;

in the present invention, the charging group 4 includes a charging mechanism 41, an auxiliary voltage display module 42 and an auxiliary current display module 43, the charging mechanism 41 is respectively connected with the auxiliary voltage display module 42 and the auxiliary current display module 43, and the current and the voltage of the individual charging mechanism 41 in the charging group 4 are detected through the auxiliary voltage display module 42 and the auxiliary current display module 43;

in the present invention, the charging mechanism 41 includes an automobile charging module 411, a charging monitoring module 412, a temperature detecting module 413 and a time calculating module 414, and the automobile charging module 411 is respectively connected to the charging monitoring module 412, the temperature detecting module 413 and the time calculating module 414;

in the present invention, the monitoring mechanism 5 includes a charging time display module 51, a charging curve display module 52, a main voltage display module 53 and a main current display module 54;

in the invention, the indicating mechanism 6 comprises a remaining time calculating module 61, a remaining time displaying module 62 and a position indicating module 63, wherein the remaining time calculating module 61 is connected with the remaining time displaying module 62;

in the present invention, the auxiliary voltage display module 42 and the auxiliary current display module 43 can monitor and display the voltage and the current when each charging mechanism 41 charges each electric vehicle;

in the invention, the monitoring mechanism 5 can monitor the whole charging system, so that a worker can conveniently monitor and adjust the system;

the ordered charging method for the electric automobile in the intelligent park comprises the following steps:

step 1, connecting an electric automobile with an automobile charging mechanism 41 of the charging mechanism 41, and transmitting the electricity of a power grid 7 to a charging group 4 through a power distribution mechanism 3 at the moment so as to charge the electric automobile;

step 2, judging the time through the time judging module 1, and charging the battery pack 2 by the power grid 7 after the time enters the night;

step 3, monitoring the charging current of the electric vehicle through a charging monitoring module 412 in the charging mechanism 41, and charging the electric vehicle through the power distribution mechanism 3 by using the battery pack 2 when the electric vehicle enters a trickle charging stage;

in the present invention, the night time in step 2 is between 1 point and 5 points.

Example 2

Referring to fig. 1-2, the present invention provides a technical solution:

the orderly charging system and method for the electric automobile in the intelligent park comprise a time judgment module 1, a battery pack 2, a power distribution mechanism 3, a charging group 4, a monitoring mechanism 5 and an indicating mechanism 6, wherein the time judgment module 1 is connected with the battery pack 2, the time judgment module 1 is connected with an external power grid 7, the power grid 7 and the battery pack 2 are both connected with the power distribution mechanism 3, the power distribution mechanism 3 is connected with a plurality of charging groups 4, and the charging groups 4 are connected with the monitoring mechanism 5 and the indicating mechanism 6;

in the invention, the power distribution mechanism 3 comprises a control module 31, a processing module 32, an electric quantity monitoring module 33, a current monitoring module 34 and a voltage monitoring module 35, wherein the control module 31 is connected with the processing module 32, and the processing module 32 is also connected with the electric quantity monitoring module 33, the current monitoring module 34 and the voltage monitoring module 35, and is used for monitoring the electric quantity, the current and the voltage of the battery pack 2 and switching to a power grid for charging when the electric quantity, the current and the voltage of the battery pack 2 cannot be charged.

In the present invention, the charging group 4 includes a charging mechanism 41, an auxiliary voltage display module 42 and an auxiliary current display module 43, the charging mechanism 41 is respectively connected with the auxiliary voltage display module 42 and the auxiliary current display module 43, and the current and the voltage of the individual charging mechanism 41 in the charging group 4 are detected through the auxiliary voltage display module 42 and the auxiliary current display module 43;

in the present invention, the charging mechanism 41 includes an automobile charging module 411, a charging monitoring module 412, a temperature detecting module 413 and a time calculating module 414, and the automobile charging module 411 is respectively connected to the charging monitoring module 412, the temperature detecting module 413 and the time calculating module 414;

in the present invention, the monitoring mechanism 5 includes a charging time display module 51, a charging curve display module 52, a main voltage display module 53 and a main current display module 54;

in the invention, the indicating mechanism 6 comprises a remaining time calculating module 61, a remaining time displaying module 62 and a position indicating module 63, wherein the remaining time calculating module 61 is connected with the remaining time displaying module 62;

in the present invention, the auxiliary voltage display module 42 and the auxiliary current display module 43 can monitor and display the voltage and the current when each charging mechanism 41 charges each electric vehicle;

in the invention, the monitoring mechanism 5 can monitor the whole charging system, so that a worker can conveniently monitor and adjust the system;

the ordered charging method for the electric automobile in the intelligent park comprises the following steps:

step 1, monitoring the voltage and current of each charging set 4 through a main voltage display module 53 and a main current display module 54 in each charging set 4 respectively, ensuring that the charging load of each charging set 4 is not too large, and guiding the charged electric automobile by matching with an indication module;

and 2, displaying the full time of the electric automobile through the remaining time calculating module 61 and the remaining time displaying module 62, enabling a driver to check the remaining charging time of the electric automobile under the condition of no charging potential, and facilitating waiting.

Example 3

Referring to fig. 1-2, the present invention provides a technical solution:

the orderly charging system and method for the electric automobile in the intelligent park comprise a time judgment module 1, a battery pack 2, a power distribution mechanism 3, a charging group 4, a monitoring mechanism 5 and an indicating mechanism 6, wherein the time judgment module 1 is connected with the battery pack 2, the time judgment module 1 is connected with an external power grid 7, the power grid 7 and the battery pack 2 are both connected with the power distribution mechanism 3, the power distribution mechanism 3 is connected with a plurality of charging groups 4, and the charging groups 4 are connected with the monitoring mechanism 5 and the indicating mechanism 6;

in the invention, the power distribution mechanism 3 comprises a control module 31, a processing module 32, an electric quantity monitoring module 33, a current monitoring module 34 and a voltage monitoring module 35, wherein the control module 31 is connected with the processing module 32, and the processing module 32 is also connected with the electric quantity monitoring module 33, the current monitoring module 34 and the voltage monitoring module 35, and is used for monitoring the electric quantity, the current and the voltage of the battery pack 2 and switching to a power grid for charging when the electric quantity, the current and the voltage of the battery pack 2 cannot be charged;

in the present invention, the charging group 4 includes a charging mechanism 41, an auxiliary voltage display module 42 and an auxiliary current display module 43, the charging mechanism 41 is respectively connected with the auxiliary voltage display module 42 and the auxiliary current display module 43, and the current and the voltage of the individual charging mechanism 41 in the charging group 4 are detected through the auxiliary voltage display module 42 and the auxiliary current display module 43;

in the present invention, the charging mechanism 41 includes an automobile charging module 411, a charging monitoring module 412, a temperature detecting module 413 and a time calculating module 414, and the automobile charging module 411 is respectively connected to the charging monitoring module 412, the temperature detecting module 413 and the time calculating module 414;

in the present invention, the monitoring mechanism 5 includes a charging time display module 51, a charging curve display module 52, a main voltage display module 53 and a main current display module 54;

in the invention, the indicating mechanism 6 comprises a remaining time calculating module 61, a remaining time displaying module 62 and a position indicating module 63, wherein the remaining time calculating module 61 is connected with the remaining time displaying module 62;

in the present invention, the auxiliary voltage display module 42 and the auxiliary current display module 43 can monitor and display the voltage and the current when each charging mechanism 41 charges each electric vehicle;

in the invention, the monitoring mechanism 5 can monitor the whole charging system, so that a worker can conveniently monitor and adjust the system;

the ordered charging method for the electric automobile in the intelligent park comprises the following steps:

step 1, connecting an electric automobile with an automobile charging mechanism 41 of the charging mechanism 41, and transmitting the electricity of a power grid 7 to a charging group 4 through a power distribution mechanism 3 at the moment so as to charge the electric automobile;

step 2, judging the time through the time judging module 1, and charging the battery pack 2 by the power grid 7 after the time enters the night;

step 3, monitoring the charging current of the electric vehicle through a charging monitoring module 412 in the charging mechanism 41, and charging the electric vehicle through the power distribution mechanism 3 by using the battery pack 2 when the electric vehicle enters a trickle charging stage;

step 4, monitoring the voltage and current of each charging set 4 through a main voltage display module 53 and a main current display module 54 in each charging set 4 respectively, ensuring that the charging load of each charging set 4 is not too large, and guiding the charged electric vehicle by matching with an indication module;

step 5, the time of full charge of the electric automobile is displayed through the remaining time calculating module 61 and the remaining time displaying module 62, so that a driver can check the remaining charging time of the electric automobile under the condition of no charging potential, and the waiting is convenient;

in the present invention, the night time in step 2 is between 1 point and 5 points.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Intelligence garden electric automobile orderly charging system, including time judgement module (1), group battery (2), distribution mechanism (3), charging group (4), monitoring mechanism (5) and indicating mechanism (6), its characterized in that: time judgement module (1) is connected with group battery (2), time judgement module (1) is connected outside electric wire netting (7), electric wire netting (7) all are connected with distribution mechanism (3) with group battery (2), distribution mechanism (3) are connected with a plurality of charging group (4), charging group (4) are connected with monitoring mechanism (5) and indicating mechanism (6).

2. The ordered charging system of electric vehicles for intelligent parks of claim 1, wherein: distribution mechanism (3) are including control module (31), processing module (32), electric quantity monitoring module (33), electric current monitoring module (34) and voltage monitoring module (35), control module (31) are connected with processing module (32), processing module (32) still are connected with electric quantity monitoring module (33), electric current monitoring module (34) and voltage monitoring module (35).

3. The ordered charging system of electric vehicles for intelligent parks of claim 1, wherein: the charging set (4) comprises a charging mechanism (41), an auxiliary voltage display module (42) and an auxiliary current display module (43), wherein the charging mechanism (41) is connected with the auxiliary voltage display module (42) and the auxiliary current display module (43) respectively.

4. The ordered charging system of electric vehicles for intelligent parks according to claim 3, characterized in that: charging mechanism (41) is including car charging module (411), charging monitoring module (412), temperature detection module (413) and time calculation module (414), car charging module (411) is connected with charging monitoring module (412), temperature detection module (413) and time calculation module (414) respectively.

5. The ordered charging system of electric vehicles for intelligent parks of claim 1, wherein: the monitoring mechanism (5) comprises a charging time display module (51), a charging curve display module (52), a main voltage display module (53) and a main current display module (54).

6. The ordered charging system of electric vehicles for intelligent parks of claim 1, wherein: the indicating mechanism (6) comprises a remaining time calculating module (61), a remaining time displaying module (62) and a position indicating module (63), wherein the remaining time calculating module (61) is connected with the remaining time displaying module (62).

7. The ordered charging system of electric vehicles for intelligent parks according to claim 3, characterized in that: the auxiliary voltage display module (42) and the auxiliary current display module (43) can monitor and display the voltage and the current when each charging mechanism (41) charges each electric automobile.

8. The ordered charging system of electric vehicles for intelligent parks of claim 1, wherein: the monitoring mechanism (5) can monitor the whole charging system, and is convenient for workers to monitor and adjust the system.

9. The ordered charging method for the electric automobile in the intelligent park is characterized by comprising the following steps:

step 1, an electric automobile is connected with an automobile charging mechanism (41) of the charging mechanism (41), and at the moment, electricity of a power grid (7) is transmitted to a charging group (4) through a power distribution mechanism (3), so that the electric automobile can be charged;

step 2, judging time through a time judging module (1), and charging the battery pack (2) by a power grid (7) after the time enters night;

step 3, monitoring the charging current of the electric automobile through a charging monitoring module (412) in the charging mechanism (41), and charging the electric automobile through the battery pack (2) by the power distribution mechanism (3) when the electric automobile enters a trickle charging stage;

step 4, monitoring the voltage and the current of each charging group (4) through a main voltage display module (53) and a main current display module (54) in each charging group (4) respectively to ensure that the charging load of each charging group (4) is not overlarge, and guiding the charged electric automobile by matching with an indication module;

and 5, displaying the full time of the electric automobile through the remaining time calculating module (61) and the remaining time displaying module (62), enabling a driver to check the remaining charging time of the electric automobile under the condition of no charging position, and facilitating waiting.

10. The ordered charging method for the electric automobiles of the intelligent park according to claim 9, wherein: the night time in the step 2 is between 1 point and 5 points.

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