Safety power distribution cabinet based on internet of things technology

Abstract

The invention discloses a safety power distribution cabinet based on the internet of things technology. The safety power distribution cabinet comprises a mounting table rotationally matched and mounted at the bottom end of the power distribution cabinet body and a connecting head connected with the power distribution cabinet body in an inserting connection mode; a protruding part is integrally arranged on the right side end face of the power distribution cabinet body; a tight-inserting cavity is formed in the right side end face of the power distribution cabinet body on the lower side of the protruding part; a first power connecting cavity is formed in the inner wall of the left side of the tight-inserting cavity; a first sliding-moving cavity is formed in the inner bottom wall of the tight-inserting cavity in a downward extending mode; a first sliding-moving plate is arranged in the first sliding-moving cavity in a sliding fit mode; a second sliding-moving cavity is formed in the inner bottom wall of the first sliding-moving cavity in a leftward extending mode; a second sliding-moving plate which is integrally arranged with the first sliding-moving plate is arranged in the secondsliding-moving cavity in a sliding fit mode; a second power connecting cavity is formed in the inner bottom wall of the second sliding-moving cavity; and a power connecting block matched with the second power connecting cavity in an inserting-connecting mode is fixedly arranged on the bottom end face of the second sliding-moving plate.

Description

technical field [0001] The invention relates to the technical field of power distribution cabinets, in particular to a safe power distribution cabinet based on Internet of Things technology. Background technique [0002] The power distribution cabinet is currently a commonly used carrier of electric power components. When the existing power distribution cabinet is connected to the power, it is usually manually plugged and unplugged by personnel. During the plugging process, the connector is prone to arc due to the influence of voltage, and the arc is easy to cause the use of The electric shock of the operator has a certain potential danger to the user, which will cause safety accidents and cause casualties, and the force of the personnel is unstable when plugging in, which is likely to cause equipment damage. Moreover, the power connection port of the traditional power distribution cabinet is usually not closed for protection. Measures, the exposed electrical port is easy to...

AI Technical Summary

Problems solved by technology

[0002] The power distribution cabinet is currently a commonly used carrier of electric power components. When the existing power distribution cabinet is connected to the power, it is usually manually plugged and unplugged by personnel. During the plugging process, the connector is prone to arc due to the influence of voltage, and the arc is easy to cause the use of The electric shock of the operator has a certain potential danger to the user, which will cause safety accidents and cause casualties, and the force of the personnel is unstable when plugging in, which is likely to cause equipment damage. Moreover, the power connection port of the traditional power distribution cabinet is usually not closed for protection. Measures, the exposed electrical port is easy to enter dust, etc., which will affect the service life of the power distribution cabinet

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