Composite detection electrode structure of super capacitor monomer and detection device

Composite detection electrode structure of super capacitor monomer and detection device

  • CN 104,833,827 B
  • Filed: 04/22/2015
  • Issued: 02/21/2020
  • Est. Priority Date: 04/22/2015
  • Status: Active Grant
First Claim
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1. The composite detection electrode structure of the super capacitor monomer is characterized by comprising a capacitance detection electrode (11) and a resistance detection probe (12), wherein the resistance detection probe (12) is embedded in the capacitance detection electrode (11) and can extend out of the capacitance detection electrode (11), and an insulating layer (13) is arranged between the capacitance detection electrode (11) and the resistance detection probe (12);

  • the composite detection electrode structure further comprises a copper bar (22), the capacitance detection electrode (11) is provided with an accommodating part (111), the capacitance detection electrode (11) is fixed on the copper bar (22) and is electrically connected with the copper bar (22), and the copper bar (22) is connected with capacitance detection equipment;

    the resistance detection probe part (12) is arranged in the accommodating part (111) of the capacitance detection electrode (11), a first through hole is formed in the copper bar (22), the rear end of the resistance detection probe (12) penetrates out of the first through hole and is connected with resistance detection equipment, and the insulating layer (13) is arranged between the resistance detection probe (12) and the copper bar (22);

    a first spring mechanism (23) is arranged on the resistance detection probe (12), one end of the first spring mechanism (23) is fixed or abutted on the insulating layer (13), and the other end of the first spring mechanism (23) is fixed or abutted on the resistance detection probe (12);

    the resistance detection probe (12) is of a split structure, the front end part (121) and the rear end part (122) of the resistance detection probe are connected through threads, a step end face (123) is formed at the joint position of the front end part (121) and the rear end part (122) of the resistance detection probe (12), and the first spring mechanism (23) abuts against the step end face (123).

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