CN117458645A

CN117458645A - Intelligent charging system and intelligent charging cabinet

Info

Publication number: CN117458645A
Application number: CN202311324135.9A
Authority: CN
Inventors: 林子巡; 宁炳文; 李洪卫; 李国栋; 王慧琦; 朱逊; 肖雨亭
Original assignee: Shenzhen Power Supply Co ltd
Current assignee: Shenzhen Power Supply Co ltd
Priority date: 2023-10-12
Filing date: 2023-10-12
Publication date: 2024-01-26

Abstract

The invention discloses an intelligent charging system, which comprises: the battery cell, charge management unit and charging unit, battery cell, charge management unit and charging unit link to each other in proper order through the wire, and external power source is used for charging to the battery cell, wherein: the external equipment to be charged is connected with the charging unit, and the battery unit charges the equipment to be charged; the charging management unit includes: the device comprises a first identification module, an overload protection module, a short-circuit protection module and a leakage protection module. The invention also discloses an intelligent charging cabinet. By implementing the intelligent charging system and the intelligent charging cabinet, energy waste caused by charging equipment in the charging process can be avoided, and the safety is improved; the structure is reasonable, can be applied to most places, and is easy to control the cost.

Description

Intelligent charging system and intelligent charging cabinet

Technical Field

The invention relates to the technical field of charging equipment, in particular to an intelligent charging system and an intelligent charging cabinet.

Background

In the prior art, many electric tools need to solve the charging problem of the tools after being used for a period of time, but most enterprises such as the existing factories, schools, power plants, power stations and power supply stations cannot set special charging field areas or equipment so as to solve the electricity utilization problem of the electric tools. In addition, some places where small-size charging sockets are arranged are scattered because of the occasion that the electricity utilization tool is used, and after the electricity utilization tool which is charged in a scattered manner is charged, the electricity utilization tool is not easy to take down in time, and therefore the waste of electric energy is easy to cause.

Most of the existing charging cabinets have no automatic power-off function, and under the condition that the electric tools are not taken out in time, the charging cabinets charge the electric tools all the time, so that electric energy is wasted and certain potential safety hazards exist.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an intelligent charging system and an intelligent charging cabinet, which can avoid energy waste caused by charging equipment in the charging process and improve the safety; the structure is reasonable, can be applied to most places, and is easy to control the cost.

In order to solve the above technical problems, the present invention provides an intelligent charging system connected to a remote terminal by a wired connection or a wireless connection, comprising: the battery unit that can link to each other with external power source, be used for obtaining the outside and wait to charge the charge management unit of the charge state of equipment and be used for the charge unit who waits to charge the equipment and be connected with the outside, battery unit, charge management unit and charge unit link to each other through the wire in proper order, and external power source is used for charging to the battery unit, wherein: the external equipment to be charged is connected with the charging unit, and the battery unit charges the equipment to be charged; the charging management unit includes: the first identification module is used for identifying whether the equipment to be charged is charged or not, the first identification module identifies that the equipment to be charged is charged, and the charging management unit controls the charging unit to be disconnected with the equipment to be charged; the charging management unit further includes: the overload protection module is used for monitoring real-time load of the wire, the short-circuit protection module is used for monitoring real-time current of the wire, and the leakage protection module is used for cutting off connection between the battery unit and the equipment to be charged when the wire or the equipment to be charged leaks electricity, wherein: the overload protection module monitors that the real-time load of the lead is larger than a preset load threshold, and cuts off the connection between the battery unit and the power supply and cuts off the connection between the battery unit and the equipment to be charged; and if the real-time current of the wire monitored by the short-circuit protection module is larger than the preset current threshold, the connection between the battery unit and the power supply is cut off, and the connection between the battery unit and the equipment to be charged is cut off.

Wherein the charging management unit further includes: the second identification module is used for identifying the electric quantity information of the battery unit, wherein: the second identification module identifies that the electric quantity of the battery unit reaches a preset threshold value, and the charging management unit controls the battery unit to be disconnected with the power supply.

Wherein the charging management unit further includes: the transmission unit is used for transmitting the generated charging completion information to the remote terminal after the equipment to be charged has completed the charging operation, wherein: after the first identification module identifies that the equipment to be charged has completed the charging operation, the generated charging completion information is sent to the remote terminal through the transmission unit, and the remote terminal displays the charging completion information.

Wherein the charging management unit further includes: the fire control module for monitoring overload protection module, short-circuit protection module and earth leakage protection module's running state, fire control module links to each other with the fire control alarm host computer of peripheral hardware, wherein: the fire protection module monitors that the operation states of the overload protection module, the short-circuit protection module and the electric leakage protection module are abnormal, and generates a fire protection early warning signal to be sent to the fire protection alarm host.

Wherein, the charging management unit further includes a third identification module for monitoring a real-time temperature of the intelligent charging system, wherein: and the third identification module is used for monitoring the real-time temperature of the intelligent charging system, and the real-time temperature is transmitted to the remote terminal through the transmission unit and displayed by the remote terminal.

Wherein, wait to charge equipment includes: an infrared thermometer battery, an unmanned aerial vehicle battery, a flashlight or an interphone.

In order to solve the technical problem, the invention also discloses an intelligent charging cabinet, which comprises: the intelligent charging system comprises a cabinet body made of insulating materials, wherein a plurality of interlayers are arranged in the cabinet body, and a charging system is arranged in the interlayers and is the intelligent charging system.

The intelligent charging system and the intelligent charging cabinet have the following beneficial effects: the intelligent charging system includes: the battery cell, charge management unit and charging unit, battery cell, charge management unit and charging unit link to each other in proper order through the wire, and external power source is used for charging to the battery cell, wherein: the external equipment to be charged is connected with the charging unit, and the battery unit charges the equipment to be charged; the charging management unit includes: the first identification module is used for identifying whether the equipment to be charged is charged or not, the first identification module identifies that the equipment to be charged is charged, and the charging management unit controls the charging unit to be disconnected with the equipment to be charged; the charging management unit further includes: the overload protection module is used for monitoring real-time load of the wire, the short-circuit protection module is used for monitoring real-time current of the wire, and the leakage protection module is used for cutting off connection between the battery unit and the equipment to be charged when the wire or the equipment to be charged leaks electricity, wherein: the overload protection module monitors that the real-time load of the lead is larger than a preset load threshold, and cuts off the connection between the battery unit and the power supply and cuts off the connection between the battery unit and the equipment to be charged; the short-circuit protection module monitors that the real-time current of the lead is larger than a preset current threshold, and cuts off the connection between the battery unit and the power supply and the connection between the battery unit and the equipment to be charged, so that energy waste caused by the charging equipment in the charging process can be avoided, and the safety is improved; the structure is reasonable, can be applied to most places, and is easy to control the cost.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of an intelligent charging system according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Fig. 1 shows an embodiment of an intelligent charging system and an intelligent charging cabinet according to the present invention.

In this embodiment, the intelligent charging system is connected to the remote terminal 8 by a wired connection or a wireless connection, and the intelligent charging system includes: the battery pack comprises a battery unit 1 capable of being connected with an external power supply, a charging management unit 3 used for acquiring the charging state of an external device to be charged 2 and a charging unit 4 used for being connected with the external device to be charged 2, wherein the battery unit 1, the charging management unit 3 and the charging unit 4 are sequentially connected through leads.

The battery unit 1 is charged by an external power source 6, wherein: the external device to be charged 2 is connected to the charging unit 4, and the battery unit 1 performs a charging operation of the device to be charged 2.

The charge management unit 3 includes: the first identifying module 30 is used for identifying whether the device to be charged 2 has completed charging, the first identifying module 30 identifies that the device to be charged 2 has completed charging operation, and the charging management unit 3 controls the charging unit 4 to be disconnected from the device to be charged 2; the charge management unit 3 further includes: an overload protection module 31 for monitoring real-time load of the wire, a short circuit protection module 32 for monitoring real-time current of the wire, and a leakage protection module 33 for cutting off connection between the battery unit 4 and the device 2 to be charged when the wire or the device 2 to be charged leaks, wherein: the overload protection module 31 monitors that the real-time load of the lead is larger than a preset load threshold, and cuts off the connection between the battery unit 1 and the power supply 6 and cuts off the connection between the battery unit 1 and the equipment to be charged 2; the short-circuit protection module 32 monitors that the real-time current of the wire is greater than the preset current threshold, cuts off the connection between the battery unit 1 and the power supply 6, and cuts off the connection between the battery unit 1 and the device to be charged 2, so as to avoid energy waste.

In practice, the battery unit 1 is charged by the power supply 6 in advance, and the battery unit 1 may be a device including a secondary battery. The device to be charged 2 includes: an infrared thermometer battery, an unmanned aerial vehicle battery, a flashlight or an interphone and the like. The charge management unit 3, when embodied, includes a controller and peripheral circuits connected to the controller, such as: a singlechip or a PLC controller.

The charging unit 4 includes: and when the multi-hole plug board, the related circuits and the like are implemented, the charging state indicator lamp corresponding to each jack is correspondingly arranged on the multi-hole plug board. In actual operation, the first identification module 30 is able to obtain the state of charge of whether the device 2 to be charged is full. When the first identification module 30 identifies that the device to be charged 2 is not fully charged, the charging management unit 3 controls the indicator light corresponding to the porous plugboard to be green; when the first identification module 30 identifies that the to-be-charged device 2 is in the fully charged state, the charging management unit 3 controls the indicator light corresponding to the porous plug board to be red. Of course, other colors of indicator lights may be used, and the same effect may be obtained.

Further, the overload protection module 31, the short-circuit protection module 32 and the leakage protection module 33 are sequentially connected, and the overload protection module 31 is used for obtaining the real-time load of the wire; if the real-time load is greater than the preset load threshold, the charge management unit 3 cuts off the connection relationship between the battery unit 1 and the power supply 6, and cuts off the connection relationship between the battery unit 1 and the device to be charged 2. The short-circuit protection module 32 is used for acquiring real-time current of the wire; if the real-time current is greater than the preset current threshold, the charging management unit 3 cuts off the connection relation between the battery unit 1 and the power supply 6 and cuts off the connection relation between the battery unit 1 and the equipment to be charged 2; the leakage protection module 33 is used for cutting off the connection between the battery unit 1 and the device to be charged 2 when the wire or the device to be charged 2 leaks electricity.

Preferably, the charge management unit 3 further includes: the fire control module 34 is used for monitoring the operation states of the overload protection module 31, the short-circuit protection module 32 and the electric leakage protection module 33, and the fire control module 34 is connected with the external fire control alarm host 7. Wherein: when the fire protection module 34 monitors that the operation state of the overload protection module 31, the short-circuit protection module 32 or the leakage protection module 33 is abnormal, a fire protection early warning signal is generated and sent to the fire protection alarm host 7.

Further, the charge management unit 3 further includes: a second identification module 35 for identifying the power information of the battery unit 1, wherein: the second identification module 35 identifies that the electric quantity of the battery unit 1 reaches a preset threshold, and the charge management unit 3 controls the battery unit 1 to be disconnected from the power supply 6.

In practice, the second identification module 35 identifies the electrical quantity information of the battery unit 1; the second recognition module 35 recognizes that the electric quantity of the battery unit 1 reaches a preset threshold; the charge management unit 3 controls the battery unit 1 to be disconnected from the power supply 6 to avoid waste of energy.

Further, the charging management unit 3 further comprises a third identification module 36 for monitoring the real-time temperature of the intelligent charging system, wherein: the real-time temperature of the intelligent charging system is monitored by the third identification module 36, transmitted to the remote terminal 8 by the transmission unit 37, and displayed by the remote terminal 8.

In the embodiment, when the intelligent charging system is implemented, the device to be charged 2 is connected to the intelligent charging system, and the charging operation is performed on the device to be charged 2 through the battery unit 1; the first identification module 30 is able to acquire the state of charge of whether the device 2 to be charged is full. When the first identification module 30 identifies that the device to be charged 2 is not fully charged, the charging management unit 3 controls the indicator light corresponding to the porous plugboard to be green; when the first identification module 30 identifies that the to-be-charged device 2 is in the fully charged state, the charging management unit 3 controls the indicator light corresponding to the porous plug board to be red. After the first identification module 30 identifies that the device to be charged 2 has completed the charging operation, the generated charging completion information is transmitted to the remote terminal 8 through the transmission unit 37, and the charging completion information is displayed by the remote terminal 8. The intelligent charging system can automatically cut off power after the charging of the equipment 2 to be charged is completed, so that energy waste is avoided and safety in the use process is improved.

The invention also discloses an intelligent charging cabinet, which comprises: the cabinet body made of insulating materials is in a cube shape, a plurality of interlayers are arranged in the cabinet body, and a charging system is arranged in the interlayers and is the intelligent charging system. The implementation of the charging system in the cabinet is the same as that of the intelligent charging system, and will not be repeated.

Claims

1. An intelligent charging system connected to a remote terminal by means of a wired connection or a wireless connection, the intelligent charging system comprising: the battery unit that can link to each other with external power source, be used for obtaining the outside and wait to charge the charge management unit of the charge state of equipment and be used for the charge unit who waits to charge the equipment and be connected with the outside, the battery unit charge management unit with the charge unit passes through the wire and links to each other in proper order, and external power source is used for to battery unit charges, wherein:

the external equipment to be charged is connected with the charging unit, and the battery unit performs charging operation on the equipment to be charged;

the charging management unit includes: the first identification module is used for identifying whether the equipment to be charged is charged or not, the first identification module is used for identifying that the equipment to be charged is charged, the charging management unit is used for controlling the charging unit to be disconnected with the equipment to be charged;

the charging management unit further includes: the device comprises an overload protection module for monitoring the real-time load of the wire, a short-circuit protection module for monitoring the real-time current of the wire and a leakage protection module for cutting off the connection between the battery unit and the equipment to be charged when the wire or the equipment to be charged leaks, wherein:

the overload protection module monitors that the real-time load of the lead is larger than a preset load threshold, and cuts off the connection between the battery unit and the power supply and cuts off the connection between the battery unit and the equipment to be charged; and if the real-time current of the lead monitored by the short-circuit protection module is larger than a preset current threshold, the connection between the battery unit and the power supply is cut off, and the connection between the battery unit and the equipment to be charged is cut off.

2. The intelligent charging system of claim 1, wherein the charging management unit further comprises: a second identification module for identifying the battery cell power information, wherein:

the second identification module identifies that the electric quantity of the battery unit reaches a preset threshold value, and the charging management unit controls the battery unit to be disconnected with the power supply.

3. The intelligent charging system of claim 1, wherein the charging management unit further comprises: a transmission unit, wherein:

after the first identification module identifies that the equipment to be charged has completed charging operation, the generated charging completion information is sent to a remote terminal through the transmission unit, and the remote terminal displays the charging completion information.

4. The intelligent charging system of claim 3, wherein the charging management unit further comprises: the fire protection module is used for monitoring the operation states of the overload protection module, the short-circuit protection module and the leakage protection module, and is connected with a fire protection alarm host of the peripheral equipment, wherein:

the fire protection module monitors that the running states of the overload protection module, the short-circuit protection module and the electric leakage protection module are abnormal, and generates a fire protection early warning signal to be sent to a fire protection alarm host.

5. The intelligent charging system of claim 4, wherein the charge management unit further comprises a third identification module to monitor a real-time temperature of the intelligent charging system, wherein:

and monitoring the real-time temperature of the intelligent charging system through the third identification module, and sending the real-time temperature to a remote terminal through the transmission unit and displaying the real-time temperature by the remote terminal.

6. The intelligent charging system of claim 2, wherein the device to be charged comprises: an infrared thermometer battery, an unmanned aerial vehicle battery, a flashlight or an interphone.

7. An intelligent charging cabinet, which is characterized by comprising: the cabinet body is made of insulating materials, a plurality of interlayer are arranged in the cabinet body, and a charging system is arranged in the interlayer;

the charging system is the intelligent charging system of any one of claims 1-6.