A smart battery with data interaction and a power-consuming terminal structure used in conjunction with it

Abstract

The invention discloses a smart battery capable of data interaction and a power consumption terminal structure used in conjunction with it. An opening is provided at the end of the battery case, a positive terminal and a ring-shaped negative terminal are arranged in the opening, and a positive terminal and a ring-shaped negative terminal are arranged between the positive terminal and the ring-shaped negative terminal. There is an infrared light-transmitting ring-shaped cylinder, and an infrared transceiver module is installed at the bottom of the infrared-transmitting ring-shaped cylinder. The power-consuming terminal structure extends into the opening of the smart battery through the negative electrode ring-shaped metal contact and the positive electrode cylindrical metal contact. And abut against the ring-shaped negative terminal and positive terminal of the smart battery respectively to form a power supply connection; a sealed channel for transmitting infrared information is formed between the negative ring-shaped metal contact and the positive column-shaped metal contact, and through the sealed channel The transmission of digital battery information realizes the digital development of batteries, and the energy consumption of battery information in the transmission process is extremely small, the transmission is more efficient, and it can effectively prevent external interference and external interference, and has strong confidentiality.

Description

technical field [0001] The invention relates to an intelligent battery capable of data interaction, and a power consumption terminal structure used in conjunction with the intelligent battery. Background technique [0002] As the power source of electronic equipment, batteries are an indispensable and important part of equipment; with the development of intelligent electronic products and the continuous enhancement of functions, the requirements for intelligent and digital batteries are getting higher and higher. Today's ordinary batteries generally mark battery information such as the date of manufacture, manufacturer information, and battery capacity on the outer packaging of the battery. Due to the limited area of ​​the outer packaging of the battery, the battery information that can be recorded on it is limited, and users cannot accurately Obtain information such as the remaining capacity of ordinary batteries, battery temperature, and real-time output voltage values ​​o...

AI Technical Summary

Problems solved by technology

Today's ordinary batteries generally mark battery information such as the date of manufacture, manufacturer information, and battery capacity on the outer packaging of the battery. Due to the limited area of ​​the outer packaging of the battery, the battery information that can be recorded on it is limited, and users cannot accurately Obtain information such as the remaining capacity of ordinary batteries, battery temperature, and real-time output voltage values ​​of batteries

In order to solve the above problems, some manufacturers add a detection module to detect battery information in the battery, and then add a data terminal near the positive and negative terminals of the battery. The electrical equipment contacts the data terminal of the battery through the data lead. The information can be transmitted to the electric device through the data lead, so that the electric device can grasp the specific information of the battery in real time, including the remaining capacity, battery temperature, real-time output voltage value of the battery, etc., and the user can also obtain the above-mentioned relevant information, but this In this way, the data lead-out terminal of the battery is connected through the data lead, which is prone to the problem of poor contact between the data lead and the data lead-out terminal of the battery. Once the problem of poor contact occurs, it will be difficult to accurately and reliably transmit the battery information to the electrical equipment

[0003] In addition, when the traditional smart battery is installed on the electrical equipment, it must be installed in alignment with the data reading terminal of the electrical equipment to realize the reading of the information in the smart battery, which leads to the limited application range of the traditional smart battery and cannot be universal. It is suitable for most devices, and the versatility is poor; and there are quite a lot of cylindrical batteries and electronic products using cylindrical batteries today, and the cylindrical batteries also need to be digitized and intelligent. If a data is added like a traditional smart battery The port will encounter several problems. First, the size and space of the end face of the cylindrical battery is limited, so it is difficult to install more ports. Second, when the cylindrical battery is installed in the device, it is in any rotation position, and the traditional data port and the contact of the device are difficult to align and connect.

In addition, in the process of selecting batteries, the user must install the traditional smart battery into the reading device to know the current battery power information. The user needs to install the batteries one by one into the reading device for detection before selecting a suitable Smart battery, more inconvenient to operate

However, in the process of mass-manufacturing batteries, battery manufacturers need to charge part of the power into the battery and then perform the test when testing the battery for self-discharge or charge retention. The existing method requires staff to check the actual power, Labeling and recording the voltage and other information one by one on the battery and then comparing the relevant data, the workload is heavy and the efficiency is low

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