SU1040550A1 - Electromagnetic switch - Google Patents

Description

This invention relates to electrical engineering, namely k switching output elements. Known switching elements are made on reed switches and used in the quality of switches, for example, in thermostats with low switching power. The relays contain a sealed cylinder with normally open and closed contacts, located alone or with a permanent magnet inside the winding Glj. The disadvantages of the known relays are the increased contact resistance due to the low contact pressure, the presence of the second pickup point when balancing the forces of the permanent magnet magnetic field by the forces of the electromagnetic field of the coil under mechanical loads during picking and shocks. All have a technical contradiction, namely, in order to increase the switched power of the reed contacts, an increase in the contact pressure is required, which causes an increase in the coil current and, accordingly, the dimensions of the relay. An electromagnetic switch is known, comprising a housing, a hermetic cylinder with contacts and a permanent magnet installed in it coaxially with an electromagnet, and the electromagnet is placed at one of the ends of the hermetic cylinder. This device using a permanent magnet force and an electromagnet ensures stable operation under normal conditions f2. The disadvantage of the device is unstable operation under mechanical loads (vibrations, shocks). This construction also has a technical contradiction, which consists in the impossibility of increasing the breaking capacity of contacts without increasing the amperages to electromagnetic and, accordingly, without increasing the size of the gaps. In addition, the interaction of the fields of the permanent magnet and electromagnet is directed only at closing the contacts of the reed switch and does not create the possibility of using this design as switching switching elements used in electronic temperature and pressure sensors. 50. The purpose of the invention is to increase the reliability and increase the breaking capacity of the contacts while maintaining the decrease in the number of amps and the dimensions of the electromagnet. The goal is achieved by the fact that the switch is equipped with a ferromagnetic plate, the contacts are installed in pairs near the ends of the hermetic cylinder; A permanent magnet is placed between the pairs of contacts inside the sealed balloon with the possibility of movement along its axis, and the ferromagnetic plate is installed in the housing at the free end of the sealed balloon. TH of FIG. 1 shows a relay diagram; in fig. 2 shows section A-A in FIG. 1. The electromagnetic switch contains an electromagnet 1, a sealed cylinder 2 in which a permanent magnet 3 is located with contact plates j and 5, contacts 6, 7 and 8, 9 and a ferromagnetic plate 10. All elements are located and fixed in the housing 11 so that the gap / H between the permanent magnet and the electromagnet 1 with contacts 8 and 9 closed is less than the gap b between the permanent magnet 3 and the plate 10, which allows the permanent magnet 3 due to its own forces to close the contacts 6 and 7 with the electromagnet 1 turned off. Electromagnetic re key works as follows. In the absence of current in the winding of an electromagnet 1, a permanent magnet 3 with a contact plate k closes contacts 6 and 7 due to its own attractive forces to the core of the electromagnet 1. When a current pulse is applied to the electromagnet winding, it creates a magnetic field of the same (relative to the pole of the magnet 3 adjacent to the electromagnet) of the mark, the permanent magnet under the action of repulsive forces moves and the contact plate 5 closes the contacts 8 and 9. In this position, the permanent magnet 3 is simultaneously affected by two forces, the repulsive force by an electromagnet and a private force of attraction to the ferromagnetic plate zheyi .10, which ensures sustainable act of pressure was due to mechanical overload or vibration x ud | eah. When the electromagnet 1 is turned off or the opposite impulse is applied, the permanent magnet 3 is moved to it and the contacts 6 and 7 are removed by the contact plate 4. In the first case, when the electromagnet 1 is open, the permanent magnet 3 is due to the fact that always moves less to the core of the electromagnet 1. In the second case, when electromagnet 1 is supplied with a current pulse, which creates a magnetic field opposite to the constant field of the constant magnet 3, it moves as a result of the forces of the co-magnets between two magnets: nitam "Thus, the free movement of Magyit-3 between pins 6, 7 and 8, 9 in an airtight balloon O O 2, located between electromagnet 1 and ferromagnetic plate 10, makes it possible to use the forces of a permanent magnet to create a switching vibration-resistant with a high breaking capacity contact Commodity electromagnetic device. The technical and economic efficiency of an electromagnetic switch consists in increasing the resistance of hermetic relays to mechanical overloads during vibrations and shocks and increasing the breaking capacity of contacts. By using the coupling of a permanent magnet on the one hand with an electromagnet, and on the other side of the ferromagnetic plate

Claims (1)

An ELECTROMAGNETIC SWITCH containing a housing, coaxially mounted electromagnet, a sealed container with contacts and a permanent magnet, the electromagnet being placed at one of the ends of the sealed container, characterized in that “in order to increase reliability and increase breaking capacity, it is provided with a ferromagnetic a plate, contacts are installed in pairs near the ends of the sealed container, a permanent magnet is placed between the pairs of contacts inside the sealed container with the possibility of movement along its axis, and the ferromagnet itnaya plate is mounted in the housing at the free end of the sealed cylinder.