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CN-122026562-A - Battery quantity monitoring and management method and system for battery energy station

CN122026562ACN 122026562 ACN122026562 ACN 122026562ACN-122026562-A

Abstract

The invention provides a battery quantity monitoring and managing method and system of a battery energy station. First, a predetermined number of batteries is provided at a remote server corresponding to a plurality of batteries in a battery power station. Then, the battery power station charges the battery and provides the battery for a battery exchange operation. The battery station transmits a first battery number of batteries currently in the battery station to the remote server via a network. The remote server judges whether the preset battery number and the first battery number are consistent or not, and generates an alarm notice when the preset battery number and the first battery number are not consistent.

Inventors

  • LIU YURUI
  • Hou yian

Assignees

  • 光阳工业股份有限公司

Dates

Publication Date
20260512
Application Date
20241106

Claims (10)

  1. 1. The battery quantity monitoring and managing method for the battery energy station is characterized by being suitable for the battery energy station and comprising the following steps of: providing a preset battery number corresponding to a plurality of batteries in the battery power station at a remote server; charging the battery by using the battery energy station, and providing the battery for battery exchange operation; transmitting a first number of batteries currently in the battery station to the remote server via a network using the battery station; Judging whether the preset battery number and the first battery number are consistent or not by utilizing the remote server and And when the preset battery number and the first battery number are not consistent, generating an alarm notice.
  2. 2. The battery power station battery number monitoring management method of claim 1, further comprising the steps of: Judging whether a battery access event occurs to the battery energy station or not by utilizing the battery energy station; When the battery access event occurs, the battery energy station is utilized to obtain a second battery quantity of the batteries in the battery energy station, and the second battery quantity is transmitted to the remote server through the network; judging whether the preset battery number and the second battery number are consistent or not by utilizing the remote server and And when the preset battery number and the second battery number are not consistent, generating the warning notice.
  3. 3. The battery power station battery number monitoring management method of claim 2, wherein the battery access event comprises the battery exchange operation.
  4. 4. The battery number monitoring management method of a battery power station of claim 2, wherein the battery access event comprises a battery removal operation, and wherein the battery of a removed battery number in the battery removal operation is removed from the battery power station, and further comprising the steps of: the remote server receiving the number of battery removed corresponding to the battery removal operation from an electronic device via the network, and The remote server updates the preset battery number according to the battery number.
  5. 5. The battery power station battery number monitoring management method of claim 2, wherein the battery access event comprises a battery placement operation, and wherein a specific battery of a placement battery number is placed in the battery power station in the battery placement operation, and the method further comprises the steps of: The remote server receives the number of the battery to be placed corresponding to the battery placement operation from an electronic device via the network, and The remote server updates the preset battery number according to the embedded battery number.
  6. 6. A battery number monitoring management system for a battery power station, comprising at least: a battery station for charging a plurality of batteries and providing the batteries for a battery exchange operation and transmitting a first number of the batteries currently in the battery station via a network, and And the remote server stores a preset battery number corresponding to the battery in the battery energy station, receives the first battery number by the battery energy station through the network route, judges whether the preset battery number and the first battery number are consistent or not, and generates an alarm notice when the preset battery number and the first battery number are not consistent.
  7. 7. The battery level monitoring management system of claim 6, wherein the battery level further determines whether a battery access event has occurred in the battery level, the battery level obtains a second battery level of the battery currently in the battery level after the battery access event has occurred, and transmits the second battery level to the remote server via the network, the remote server determines whether the predetermined battery level and the second battery level are in agreement, and generates the alert notification when the predetermined battery level and the second battery level are not in agreement.
  8. 8. The battery power station battery number monitoring management system of claim 7, wherein the battery access event comprises the battery exchange operation.
  9. 9. The battery level monitoring management system of claim 7, wherein the battery access event comprises a battery removal operation, and wherein the battery of a removed battery level in the battery removal operation is removed from the battery level, wherein the remote server receives the removed battery level corresponding to the battery removal operation from an electronic device via the network, and updates the predetermined battery level based on the removed battery level.
  10. 10. The battery level monitoring management system of claim 7, wherein the battery access event comprises a battery placement operation, and wherein a specific battery of a placement battery level in the battery placement operation is placed in the battery level, wherein the remote server receives the placement battery level corresponding to the battery placement operation from an electronic device via the network, and updates the preset battery level according to the placement battery level.

Description

Battery quantity monitoring and management method and system for battery energy station Technical Field The present invention relates to a method and a system for monitoring and managing the number of batteries in a battery station, and more particularly, to a method and a system for monitoring and managing the number of batteries in a battery station periodically and in real time during battery access operation. Background In recent years, with the rising environmental awareness and the advancement of electric vehicle technology, development of electric vehicles using electric energy as a power source instead of conventional vehicles using fossil fuel as power has become an important goal in the automotive field, and thus electric vehicles have become popular. In order to improve the voyage and the use willingness of electric vehicles, many countries or cities have already planned to set charging stations and battery energy stations in public places so as to provide charging or battery exchange for electric vehicles and/or electric motorcycles, so that the electric vehicles are more convenient to use. Generally, battery power stations are managed by a cloud. The battery power stations located at the same or different locations may be connected to a remote server via a network. The remote server monitors and manages the operation of the battery power stations. For example, in a battery exchange operation of the battery station, the battery station transmits the battery identification information and the user identification information of the corresponding battery to the remote server via the network, and the remote server determines whether to approve the battery exchange operation according to the received information. In addition, the battery power station will also transmit the relevant status of its battery, such as the charging status, the battery relevant record, etc., back to the remote server via the network. The remote server can perform relevant management according to the data, such as counting the life cycle of the battery, calculating the cost for the user, etc. As described above, the remote server may monitor and manage battery power stations located at the same or different locations at the same time. Because the number of battery power stations and the number of the whole batteries are very large, and the application situations of different commercial applications to the batteries can be different, the remote server must control the number of the batteries of each battery power station in real time so as to meet the real-time requirements of various users and avoid the dissatisfaction of the users under the condition of incorrect information. Disclosure of Invention In view of the above, the present invention provides a method and a system for monitoring and managing the number of batteries in a battery station. The embodiment of the invention discloses a battery quantity monitoring and managing method of a battery energy station. First, a predetermined number of batteries is provided at a remote server corresponding to a plurality of batteries in a battery power station. Then, the battery power station charges the battery and provides the battery for a battery exchange operation. The battery station transmits a first battery number of batteries currently in the battery station to the remote server via a network. The remote server judges whether the preset battery number and the first battery number are consistent or not, and generates an alarm notice when the preset battery number and the first battery number are not consistent. The battery quantity monitoring management system of the battery energy station comprises the battery energy station and a remote server. The battery power station charges the plurality of batteries and provides the batteries for battery exchange operation and transmits a first battery number of the batteries currently in the battery power station through a network. The remote server stores a predetermined number of batteries in the corresponding battery station and receives the first number of batteries from the battery station via the network. The remote server judges whether the preset battery number and the first battery number are consistent or not, and generates an alarm notice when the preset battery number and the first battery number are not consistent. In some embodiments, the battery power station further determines whether a battery access event has occurred at the battery power station. When a battery access event occurs, the battery station obtains a second battery number of the batteries currently in the battery station and transmits the second battery number to the remote server through the network. The remote server judges whether the preset battery number and the second battery number are consistent, and generates an alarm notice when the preset battery number and the second battery number are not consistent. In some embodiments, the battery acces