RU189900U1 - Electromagnetic switching device - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to switching devices designed to protect electrical circuits during overloads and short circuits, conduct current in normal mode and to turn on and off electrical power receivers. Technical result: improved accuracy of positioning of machine parts relative to each other and the exclusion of their mutual displacement, as well as an increase in the wear resistance of the electromagnetic switching apparatus, the safety and reliability of its operation. For solving As indicated by the applicant’s technical problem, an electromagnetic switching device comprising a housing, a magnetic system with a core, a coil and an anchor, fixed contacts and a traverse provided with spring-loaded moving contacts, while according to the utility model, the traverse is provided with a cover adapted to accommodate additional contacts the cover is provided with snaps made with the possibility of their fixation in the corresponding openings of the crosshead, and each movable contact is made with a protrusion in the middle part for placing the cap located on top of the spring interacting with the movable contact.

Description

The utility model relates to the field of electrical engineering, in particular, to switching devices designed to protect electrical circuits during overloads and short circuits, conduct current in a normal mode and to turn on and off electrical power receivers.

The requirements for electromagnetic switching devices depend on the purpose and operating conditions of the devices. These requirements are aimed primarily at ensuring reliable operation and long service life of the device, as well as at ensuring low material costs in the manufacture, installation and operation of devices. The main requirements include the requirements of high durability, reliability and safety.

Known electromagnetic switching apparatus according to the patent for utility model RU 141788 (publ. 10.06.2014), comprising a housing, a magnetic system with a core, a coil and an anchor, fixed contacts installed in the housing grooves, and a traverse provided with movable bridge contacts and contact springs. Movable bridge contacts are made in the form of a rectilinear plate.

This known solution is chosen by the applicant as the closest analogue of the utility model.

In the design of the nearest analogue there are no blocks of additional (auxiliary) contacts. In the event that it is necessary to provide additional functions of the apparatus, one or several blocks of additional contacts are attached to it. As a rule, the block of additional contacts is mounted on the front or side surface of the housing of the apparatus, which under unfavorable operating conditions makes the structure of the apparatus insufficiently reliable and safe.

A disadvantage of the known solution is also the insufficient positioning accuracy of the movable contact relative to the stationary and the high probability of their mutual movement, due to the shape of the movable contact in the form of a flat plate. This leads to rapid wear of moving contacts, reduces the wear resistance of the device, and as a consequence, the reliability of its operation, and also increases the likelihood of emergency situations.

A technical problem, which is solved by implementing a utility model, is the creation of an electromagnetic switching apparatus that ensures its safe and reliable operation in all possible modes of operation.

Technical result: improving the accuracy of positioning of parts of the apparatus relative to each other and the exclusion of their mutual displacement, as well as improving the wear resistance of the electromagnetic switching apparatus, safety and reliability of its work.

To solve the technical problem indicated by the applicant, the electromagnetic switching device contains a housing, a magnetic system with a core, a coil and an anchor, fixed contacts and a yoke provided with spring-loaded moving contacts, while according to the utility model, the yoke is equipped with an additional contact this cover is provided with snaps made with the possibility of their fixation in the corresponding openings of the crosshead, and each movable contact is made with a Mentioned in the middle part to accommodate the cap located on top interacting with the movable contact of the spring.

The cap is made of polymeric material.

The traverse with a lid, made with the possibility of placing on it additional contacts, allows you to place additional contacts directly inside the device, which ensures reliable protection of all contacts even under adverse operating conditions and increases the reliability of the device.

The presence of latches on the cover, made with the possibility of their fixation in the corresponding openings of the crosshead, eliminates the mutual longitudinal and lateral displacement of the crosshead and the cover with additional contacts installed on it and completely prevents the risk of the cover falling out of the crossbar during transportation and operation of the device, increasing its safety and reliability . In addition, these design features reduce the likelihood of vibrations and rattling when the machine is in operation, which prevents wear of structural elements, increases wear resistance, and as a result, the reliability of the apparatus.

The implementation of the movable contacts with the protrusion in the middle part allows you to place in it a response in the form of a cap located over interacting with the movable contact of the spring. This provides a stop and fixation of the end of the spring from lateral displacement and improves the positioning accuracy of the movable contact relative to the stationary, and as a result increases the reliability of the apparatus.

The presence of a cap made of a polymer material located on top of a contact spring that interacts with a moving contact prevents rapid wear of the surface of the moving contact, reduces the likelihood of vibration and jarring, thereby increasing the wear resistance of parts of the electromagnetic switching device and the reliability of its operation.

Accuracy of positioning and reliability of fixing parts of the device relative to each other, in addition, reduce the likelihood of emergency situations and contribute to improving the safety of maintenance of the device.

The essence of the proposed technical solution is illustrated by the drawings:

in fig. 1 shows the yoke and cover;

in fig. 2 shows a movable contact assembly with a spring;

in fig. 3 shows the traverse with moving contacts and a cover with additional contacts;

in fig. 4 crossheads, cover and moving contacts complete.

Electromagnetic switching apparatus includes a housing, an electromagnetic system consisting of a core, a coil and an anchor (not shown), whose operation controls the crosshead 1, provided with a cover 2 (Fig. 1).

The traverse is made with a base 3 on which stands 4 are made. Each stand 4 in the middle part is provided with windows 5 for accommodating movable contacts and holes 6 for mounting the lugs 7 in response.

The cover 2 is made in the form of an L-shaped part, one of the shelves of which is in contact with the flat supporting surface of the pillars 4 of the cross beam 1. On this shelf, protrusions 7 are made for mounting in the openings 6 of the cross bar. Each protrusion is provided with a latch 8, made with the possibility of fixation in the groove 9 of the corresponding rack traverse. The presence of the latch completely prevents the risk of the cover falling out of the traverse during transportation and operation of the device, increasing the safety and reliability of its operation.

On the other shelf of the cover, cavities 10 are made to accommodate additional contacts. The traverse with a lid, made with the possibility of placing on it additional contacts, allows you to place additional contacts directly inside the device, which, that ensures reliable protection of all contacts, even under adverse operating conditions, and also allows you to reduce the overall dimensions of the device.

The implementation of the traverse cover in the form of an L-shaped part gives it additional rigidity and strength, increasing the mechanical wear resistance. The presence of the second shelf allows you to place additional devices (contacts) on it, which expands the functionality of the device.

The movable contact 11 (Fig. 2) is made in the form of a curved plate with the formation of the protrusion 12 in the middle part. On the edges of the installed contact plates 13. The cap 14, located above interacting with the movable contact of the spring 15, is made of a polymeric material. The cap covers the surface of the spring and when assembling the node is placed in the protrusion 12. Thus, the protrusion provides emphasis and fixation of the contact spring from lateral displacement and improves the positioning accuracy of the movable contact relative to the fixed one.

The movable contacts 11 are installed in the windows of the traverse 1 (Fig. 3). Additional contacts 16 are installed in the windows of the cover 2. The traverse is connected with the armature of the electromagnet (not shown in the drawings).

When assembling the switching apparatus, the cover 2 of the crosspiece 1 is mounted on the flat supporting surface of the supports 4 of the crosshead (Fig. 4). In this case, the protrusions 7 of the cover enter into the holes 6 of the crosshead, the latches 8 are fixed in the corresponding grooves 9. The cover, together with the additional contacts installed on it, is reliably fixed on the crosspiece.

Electromagnetic switching apparatus operates as follows.

When power is applied to the engaging coil, the anchor is attracted to the core, the moving contacts close to the fixed contacts by moving the crosshead connected to the anchor. When power is removed from the coil, the anchor returns to its original position under the action of springs. Movable contacts open circuit.

Thus, the set of features of the claimed device ensures the achievement of the following technical result: improving the accuracy of positioning the machine parts relative to each other and eliminating their mutual displacement, as well as improving the durability of the electromagnetic switching device and the reliability of its operation both during transportation and operation.

Claims (2)

1. Electromagnetic switching device, comprising a housing, a magnetic system with a core, a coil and an anchor, fixed contacts and a yoke, provided with spring-loaded moving contacts, characterized in that the yoke is provided with a lid, configured to accommodate additional contacts, and the lid is provided with latches , made with the possibility of their fixation in the corresponding holes of the traverse, and each movable contact is made with a protrusion in the middle part to accommodate the cap located along top interacting with a movable spring contact. 2. Electromagnetic switching device according to claim. 1, characterized in that the cap is made of a polymeric material.

Images