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CN-122026673-A - Intelligent energy-saving actuating coil component

CN122026673ACN 122026673 ACN122026673 ACN 122026673ACN-122026673-A

Abstract

An intelligent energy-saving actuating coil component for intelligently and energy-saving driving an electromechanical device comprises a current control device and a conductive coil. The current controller of the current control device provides an operating current and outputs an auxiliary operating current having a lower current amount than the operating current according to a timing notification signal from the timer. The conductive coil generates and applies working magnetic force and auxiliary operation magnetic force to a magnetic force acting area corresponding to the conductive coil according to the received working current and auxiliary operation current. The magnetic force acting area is correspondingly arranged with the electromechanical device, the movable part of the electromechanical device is pulled by the working magnetic force from the initial position to move to the actuating position, and the auxiliary working magnetic force maintains the movable part at the actuating position.

Inventors

  • WANG FUJI
  • LIN ZHENGYUAN
  • YANG WENQUAN
  • Xie Shengteng

Assignees

  • 承康科技有限公司

Dates

Publication Date
20260512
Application Date
20241112

Claims (9)

  1. 1. An intelligent energy efficient actuation coil member for intelligently and energy efficient driving of an electromechanical device, comprising: A current control device having a timer and a current controller connected to the timer, wherein the timer is configured to generate a timing notification signal at a predetermined operation time, and the current controller is configured to provide an operation current, and the current controller outputs an auxiliary operation current having a lower current amount than the operation current according to the timing notification signal from the timer, and The electric conduction coil is electrically connected with the current controller of the current control device and receives the working current and the auxiliary working current, and the electric conduction coil is configured to generate and apply working magnetic force and auxiliary working magnetic force to a magnetic force action area corresponding to the electric conduction coil according to the received working current and the auxiliary working current, wherein the magnetic force action area is correspondingly arranged with the electromechanical device, so that the movable part of the electromechanical device is pulled by magnetic force from an initial position to an action position through the application of the working magnetic force generated by the electric conduction coil, and the movable part of the electromechanical device is maintained at the action position through the application of the auxiliary working magnetic force generated by the subsequent electric conduction coil.
  2. 2. The intelligent power-saving actuation coil member of claim 1, wherein the predetermined operating time of the timer is set based on a displacement stroke of the movable component from the initial position to the actuated position, and a displacement speed.
  3. 3. The intelligent energy efficient actuation coil member of claim 1, wherein the predetermined on time of the timer is set according to a resistive-capacitive time constant of the current controller.
  4. 4. The intelligent energy efficient actuation coil member of claim 1, wherein the amount of auxiliary operating current is 90% or less of the amount of operating current.
  5. 5. The intelligent energy efficient actuation coil member of claim 1, wherein the amount of auxiliary operating current is 20% or less of the amount of operating current.
  6. 6. The intelligent energy-saving actuation coil member of claim 1, wherein the current control device further comprises a bridge rectifier circuit electrically connected to the current controller for providing an external power source to the current controller via the bridge rectifier circuit to enable the current controller to provide the operating current and the auxiliary operating current under the operating condition of flexible current polarity docking.
  7. 7. The intelligent energy efficient actuation coil member of claim 1, further comprising a base housing, wherein the current control device is mounted to the base housing in a manner that is encapsulated within the base housing.
  8. 8. The intelligent energy efficient actuation coil member of claim 1, further comprising a base housing, wherein the current control device is mounted to the base housing in such a manner as to be exposed to the base housing.
  9. 9. The intelligent energy efficient actuation coil member of claim 7 or 8, wherein the magnetically active region of the conductive coil is enclosed within the base housing in a manner that corresponds in location to an accommodation hole of the base housing configured for accommodating the movable component of the electromechanical device.

Description

Intelligent energy-saving actuating coil component Technical Field The invention relates to the technical field of conductive coils, in particular to an intelligent energy-saving actuating coil component. Background The conductive coil is a circuit component which is frequently used. By passing an electric current through the conductive coil, the conductive coil is then magnetically activated to drive the electromechanical device mounted in cooperation therewith. After the conductive coil is given an activating current, the electromechanical device is driven by the magnetic force generated by the conductive coil to operate and remain in the current working state. However, the current-conducting coil in the prior art cannot automatically regulate the current amount, so that the electromechanical device is still kept in an operating state by the current amount of the starting current after the electromechanical device is operated, and thus, the power consumption is generated. Disclosure of Invention The invention aims to provide an intelligent energy-saving actuating coil component which can be used for intelligently and energy-saving driving an electromechanical device. The invention provides an intelligent energy-saving actuating coil component for intelligently and energy-saving driving an electromechanical device, which comprises a current control device and a conductive coil, wherein the current control device is provided with a timer and a current controller connected with the timer, the timer is configured to generate a timing notification signal at a preset working time, the current controller is configured to provide working current, the current controller outputs auxiliary working current with lower current amount than the working current according to the timing notification signal from the timer, the conductive coil is electrically connected with the current controller of the current control device and receives the working current and the auxiliary working current, and the conductive coil is configured to generate and apply working magnetic force and auxiliary working magnetic force to a magnetic force acting area corresponding to the conductive coil according to the received working current and the auxiliary working current, wherein the magnetic force acting area is correspondingly arranged with the electromechanical device so as to enable a movable part of the electromechanical device to be pulled by magnetic force from an initial position to an acting position and enable the movable part of the electromechanical device to be kept at the acting position by the generated auxiliary working part of the electromechanical device. In one embodiment of the present invention, an intelligent energy-saving actuating coil member is provided, wherein the predetermined operating time of the timer is set according to a displacement stroke of the movable member from the initial position to the actuating position, and a displacement speed. In one embodiment of the present invention, an intelligent energy-efficient actuation coil assembly is provided wherein the predetermined operating time of the timer is set according to a resistor-capacitor time constant of the current controller. In one embodiment of the present invention, an intelligent energy-saving actuation coil member is provided, wherein the amount of the auxiliary operation current is 90% or less of the amount of the operation current. In one embodiment of the present invention, an intelligent energy-saving actuation coil member is provided, wherein the amount of the auxiliary operating current is 20% or less of the amount of the operating current. In an embodiment of the present invention, an intelligent energy-saving actuating coil member is provided, wherein the current control device further has a bridge rectifier circuit electrically connected to the current controller for providing an external power source to the current controller via the bridge rectifier circuit, so that the current controller can provide the working current and the auxiliary working current under the working condition of flexible current polarity docking. In one embodiment of the invention, a smart energy efficient actuation coil member is provided, further having a base housing, wherein the current control device is mounted to the base housing in a manner that is encapsulated within the base housing. In one embodiment of the invention, an intelligent energy-efficient actuation coil member is provided that further has a base housing, wherein the current control device is mounted to the base housing in such a manner as to be exposed to the base housing. In one embodiment of the present invention, a smart energy efficient actuation coil component is provided, wherein the magnetically active region of the conductive coil is encapsulated within the base housing in a manner that corresponds in location to an accommodation hole of the base housing, the accommodation hole being confi