RU209515U1 - THREE-POLE MOTOR CONTROL DEVICE WITH ELECTROMAGNETIC DRIVE - Google Patents

Abstract

The utility model relates to three-pole electromagnetic drive motor control devices. The technical result is to increase the service life without repair. The three-pole device for motor control contains a movable contact and a fixed contact for switching the main electrical circuit in each pole, an electromagnetic drive, and current-carrying leads for attaching external conductors. Each pole of the three-pole motor control device is provided with a core, around which is located a conductive element electrically connected to the fixed contact holder.

Description

The utility model relates to three-pole electromagnetic drive motor control devices. The utility model is used in the field of electrical engineering, in particular in the design of switching devices.

The closest in technical essence is a contactor (RU 28418, publ.: 20.03.2003 Bull. No. 8), which contains a base bracket, an armature, a bracket bracket, movable and fixed contacts, a return spring, a contact spring, a retracting coil, a core , an arc chute, an arc horn, an insulating base, as well as the first and second rotational prism, an arc chute, while the base bracket is Z-shaped with a bracket for placing a return spring, an insulating base is fixed at one end of the base bracket, and an insulating base is fixed at the other at the end - a retracting coil with a core placed inside is fixed, an L-shaped anchor is placed with the possibility of rotation at the point of inflection relative to the base bracket on the first and second rotation prisms, the arched bracket-bracket is attached by the outer side of the middle part to the anchor and is connected through a contact spring to a movable contact connected to the arc horn, and the arc chute the carcass covers the current-carrying part of the fixed contact, located inside the arc chute, equipped with arc-suppression "cheeks". The disadvantage of this prototype is a relatively short service life.

The task to be solved by the claimed utility model is the development of a three-pole device for controlling the engine with an extended service life without repair, reliable in operation.

This problem is solved due to the fact that the three-pole motor control device contains a moving contact and a fixed contact for switching the main electrical circuit in each pole, an electromagnetic drive, current-carrying terminals for attaching external conductors, each pole of the three-pole motor control device is equipped with a core around which a conductive element is located, having an electrical connection with the fixed contact holder.

The technical result provided by the above set of features is to increase the durability of the structure.

The design of the motor control device includes a movable contact and a fixed contact for switching the main electrical circuit in each pole of the motor control device, an electromagnetic drive, current-carrying terminals for attaching external conductors, while each pole of the three-pole motor control device is equipped with a core around which a conductive conductor is located. an element having an electrical connection with the fixed contact holder. The current-carrying element is a bus (preferably bent in the form of a spiral, but another version is possible) which is the winding of the arc chute. Thus, the current-carrying element is the winding of the arc-extinguishing coil, and the core amplifies the electromagnetic field of the arc-extinguishing coil when electric current passes through the coils of the conductive element.

The term "engine control device" means that the device application categories include engine control application categories.

The term "pole" of a motor control device means a part of a motor control device connected exclusively to one electrically independent current-carrying path of an electric circuit, with the exception of elements that ensure the fastening and joint functioning of the poles.

The term "three-pole" motor control device means that the design of the motor control device has three poles for switching the main electrical circuit.

The term "terminal" means a conductive part of the apparatus intended for electrical connection with external circuits.

The term "electromagnetic actuator" means that the force necessary to close the main contacts of the motor control device is provided by an electromagnet.

Electric current according to this utility model is able to flow from the fixed contact holder to the conductive element.

The term "element" denotes a constituent part of a motor control device.

The term "core" means a piece made of metal, designed to amplify the magnetic field.

The term "fixed contact holder" means the part on which the fixed contact is fixed.

Each pole of the three-pole motor control device is provided with a core around which a conductive element is located. The core and the current-carrying element located around the core, in each pole of the three-pole device, act as an arc coil, accelerate the extinguishing of the arc that occurs when the contacts are opened, and due to this, the wear of the contacts in each pole is reduced and the service life is increased without repair of each pole and the entire device in in general. In addition, the current-carrying element has an electrical connection with the fixed contact holder, due to which, when the contacts are opened, the arc from the fixed contact along the fixed contact holder passes to the conductive element, an electromagnetic field is created, and the arc is extinguished, and due to this, contact wear in each pole is reduced and increases service life without repair of each pole and the entire device as a whole.

The motor control device is equipped with an electromagnetic drive, which ensures a good force pressing the main moving contact to the main fixed contact, ensures good contact, and as a result, the wear of the main moving contact and the main fixed contact is reduced, and the life of the motor control device without repair is increased.

The device works as follows. When power is applied to the electromagnetic drive of the motor control device, the main contacts are closed. When the electromagnetic drive is disconnected from the power supply, the main contacts open. In each pole of the motor control device, when the moving contact and the fixed contact are opened, an electric arc is formed. An electric arc is affected by a magnetic field created by an arc chute (the core and a conductive element located around the core act as an arc chute) connected in series to the main circuit. When the current passes through the arc quenching coil (along the turn (turns) of the conductive element), a magnetic field arises, amplified by the core, directed with the help of cheeks fixed on the core, to push the emerging arc towards the arc chute.

Claims (1)

A three-pole motor control device containing a moving contact and a fixed contact for switching the main electrical circuit, characterized in that it contains an electromagnetic drive and current-carrying terminals for attaching external conductors, and each pole of the three-pole motor control device is equipped with a core around which a conductive element is located, having an electrical connection with the fixed contact holder, the device having a movable and a fixed contact for switching the main electrical circuit in each pole of the three-pole motor control device.