RU213405U1 - SWITCHING DEVICE - Google Patents

Abstract

The utility model relates to electrical engineering, namely to switching devices. The technical result is to increase the reliability of the switching device. The switching device contains contact parts, fixed contacts and steel protective plates placed above the conductive plates of rectangular cross section. The conductive plates are made with holes for connection with external current conductors and are fixed in the housing holes by means of threaded fasteners through the mounting holes provided in the conductive plates. The housing for fixing the fixed contacts is provided with dielectric interpole partitions made integral with the housing, each of which is placed between the fixed contacts belonging to different adjacent poles of the switching device.

Description

The utility model relates to switching devices and can be used in the field of electrical engineering, in switching devices.

The closest in technical essence is the device of the contact system (RU 2148867, publ.: 10.05.2000 Bull. No. 137), containing a movable contact bridge with symmetrical platforms on its edges with contact parts fixed on them and fixed contacts in the form of brackets, on on the upper shelves there are platforms with contact details; As a result, the points of initial contact of the contact parts are shifted to the outer edges of the contact system, and when the arc appears and moves, the removal of the contact material occurs along a plane located at an angle to the bases of the contact parts; therefore, the contact material is first removed from their outer edges, then the zone removal of the contact material is gradually shifted towards the central part and further to their inner edges. The disadvantage is the lack of reliability of the design.

The task to be solved by the claimed utility model is to increase the reliability of the switching device.

This problem is solved by the fact that the contact system contains contact parts and fixed contacts, steel protective plates placed above the conductive plates of rectangular cross section, while the conductive plates are made with holes for connecting to external current conductors and are fixed in the holes of the housing by means of threaded fasteners through the mounting holes provided in the current-carrying plates, while the body for fastening the fixed contacts is provided with dielectric interpole partitions made integral with the body, each of which is placed between the fixed contacts belonging to different neighboring poles of the switching device.

The technical result provided by the above set of features is to increase the reliability of the switching device.

The term "contact-piece" means a piece of conductive parts forming a contact.

The term "equipped" means containing, and/or connected to, and/or connected through another part with, and/or connected through other parts.

The term "fixed contacts" means a part consisting of a fixed (without the possibility of movement during switching) conductive plate and a contact part.

The term "fixed holder" means a part for fastening contact parts that cannot be moved when switching the contactor.

The term "rectangular plate" means that the shape of at least one section of the conductive plate is rectangular.

The term "contact system" includes contacts (including contact parts), current-carrying elements that drain and / or supply current to contacts, contact parts, parts on which contacts are fixed and / or elements that supply current to contacts, protective elements that protect contacts and/or current-carrying parts that supply current to contacts and/or parts on which contacts are fixed, as well as parts necessary for fastening these parts and/or parts to improve contact between these parts, as well as parts that protect contacts, including parts that protect contacts from the negative effects of the environment.

The term “contact closure” means an actuation that causes the device contacts to move from an open position to a closed position, while the fixed contact of the motor control device remains stationary. The moving contact moves relative to the fixed contact until it contacts the fixed contact in the "on" position of the motor control device. The closed position of the motor control device is the position in which the intended continuity of the main circuit of the motor control device is ensured.

The term "opening" of the contacts means the actuation which causes the contacts of the device to move from the closed position to the open position, while the fixed contact of the motor control device remains stationary. The movable contact moves relative to the fixed contact, in the open position a gap is formed between the movable and fixed contacts.

The term "plate" means a body bounded by two parallel planes, the distance between which, called the thickness of the plate, is small compared to its other dimensions.

The expression "connected to" means the presence of a mechanical connection between the parts, while the mechanical connection can be carried out by direct connection of the parts, and/or connection through another part, and/or connection through other parts.

The term "main contact" means a contact included in the main circuit of a contact switching device, designed to carry in the closed position the current of the main circuit. The main circuit current is marked on the switchgear as the rated operational current Ie (and/or rated current In).

The contact system contains six contact parts of the main contacts, and according to the number of contact parts of the fixed main contacts, it contains six steel protective plates placed above the conductive plates.

The presence of at least six steel protection plates is essential, since it is necessary to protect the six current-carrying plates to which the six main contact pieces are connected, and the six main contact pieces. Six contact parts of the main contacts provide reliable switching, it is more reliable in operation than a smaller number of contact parts, an increase in contact points (compared to fewer contact points, for example, with one contact point, an increase in contact points increases the reliability of the device), in In the event of a certain wear of one of the contact parts, the switching device will operate in normal mode.

The conductive plates supply and/or drain current to and/or from the contact piece of the main contact. In addition to protecting current-carrying plates and contact parts, steel protective plates can protect the housing and/or contacts. During operation, various modes may occur with a deviation from normal operation, including an increase in temperature above the norm or a spark that can damage contacts, conductive plates, and the housing. To do this, steel protective plates are placed above the conductive plates, protecting the parts of the switching device from negative influences that occur during operation. This improves the reliability of the switching device. At the same time, a larger number of such plates can be used to increase reliability.

The presence of exactly six conductive plates connected to the main contacts (according to the number of six contact parts) is essential, since with such a design, each contact part is equipped with a conductive plate fixed on the body of the switching device. Thus, a fixed position of the contacts is provided, excluding their shift during operation, which increases the reliability of the switching device.

The protective plates are made of steel. This is due to the high melting point of steel: (1450-1520)°C, the melting point of other metals is much lower: copper 1085°C, cast iron 1200°C, aluminum 660°C. Due to this, the steel protective plates are not damaged, retain their shape, do not deform when a high temperature spark hits them, and perform their protective function, protecting the conductive plates, contacts and case walls from destruction. Thus, the reliability of the switching device in operation is increased.

Steel protective plates are placed in the switching device above the conductive plates. This arrangement makes it possible to most effectively protect the conductive plates from destruction, thus increasing the reliability of the switching device in operation.

The conductive plates are fixed in the openings of the housing, this allows you to securely fix the position of each of the conductive plates, excluding their displacement. Thus, the reliability of the switching device in operation is increased. The conductive plates are fixed in the openings of the case by means of threaded fasteners, this allows you to securely fasten to the case and fix the position of each of the conductive plates, excluding their displacement. Thus, the reliability of the switching device in operation is increased.

Conductive plates are made with mounting holes. This allows fixing (fixing on the housing in the housing holes) through these mounting holes the position of each of the conductive plates by means of a threaded fastening connection, excluding their displacement, thus increasing the reliability of the switching device in operation.

The conductive plates are made with threaded mounting holes, the housing also contains a hole, which allows you to fix the conductive plate with the housing through these mounting holes by means of a threaded fastening connection, this eliminates the displacement of elements in operation, thus increasing the reliability of the switching device in operation.

The housing for fixing the fixed contacts is provided with dielectric interpole partitions made integral with the housing, each of which is placed between the fixed contacts belonging to different adjacent poles of the switching device. The implementation of the interpole barriers integrally with the housing increases the reliability of the structure, as it prevents these barriers from falling out during operation. The presence of dielectric interpole partitions increases the reliability of the design due to the properties of the dielectric and the presence of a barrier, as it eliminates the possibility of electrical breakdown of the air gap between the fixed contacts belonging to different adjacent poles of the apparatus and damage to parts.

The width of the conductive plate with the hole is much greater than its thickness. The conductive plate has a rectangular cross section, which makes it possible to securely connect the conductive plate to external current conductors and fix them through the provided holes with fasteners. The rectangular section of the conductive plate is essential, sufficient width, namely, greater than the thickness of the conductive plate, allows for a reliable connection due to the sufficient contact surface of the conductive plate having a rectangular cross section and the external conductor with current. Thus, the presence of a hole in the conductive plate for connecting an external conductor makes it possible to fix this connection with a fastener and ensure the reliability of the connection, eliminating the possibility of displacement, increasing the reliability of the switching device in operation.

The device works as follows.

External conductors are attached to current-carrying plates of rectangular cross section, containing a hole through which the external conductors are attached to the current-carrying plates, the current flows through the current-carrying plates to the contact, thus, the current is transferred from the source to the current receiver.

The steel protective plates are curved, which allows overheating or a spark to be removed from the contact parts and current-carrying plates along the body of the protective plate in the other direction, protecting the structure and increasing its reliability.

Claims (1)

Switching device containing contact parts and fixed contacts, characterized in that the switching device contains six steel protective plates placed above six current-carrying plates of rectangular cross-section, while six current-carrying plates are made with holes for connection with external current conductors and are fixed in the holes of the housing by means of threaded fasteners through the fastening holes provided in the conductive plates, while the body for fastening the fixed contacts is provided with dielectric interpole partitions made integral with the body, each of which is located between the fixed contacts belonging to different neighboring poles of the switching device.