SU1136223A1 - Hermetically sealed ferred switch - Google Patents

Abstract

1, a magnetically controlled, sealed CONTACT containing a fixed contact placed in an inert gas filled cylinder fixed on a ferromagnetic plate having a reduced cross section and a movable contact made in the form of a flat spring having a bore opposite the portion of the ferromagnetic plate that has a reduced plate. that, in order to increase reliability by increasing the mechanical resistance to shock loads, the reduced cross section section of the ferromagnetic section The lobes are made with bridges, which are bent along its longitudinal axis at an angle of 55-90 edges. 2. The contact according to claim 1, characterized in that, in order to simplify the manufacturing technology and reduce the size, the ferromagnetic plate is fixed at one end of the point (L on.

Description

fia.1 11 The invention relates to electrical engineering and can be used in low-voltage instrumentation, namely in the design of magnetically controlled sealed contacts (reed switches). Lime reed switches of increased power, the movable contact detail of which consists of a flat return non-magnetic spring, to which in one of the points is attached the Clam permulose petal of different shoulders. To ensure sufficient contact pressure, which determines the parameter of the switched circuit, the overlap area of the contact parts should be as small as possible, but a decrease in the overlap area entails a decrease in the switched power, therefore, the capabilities of the reed switches of this group are limited. The closest to the proposed technical entity is a reed switch containing a fixed contact placed in an inert gas filled balloon, a reinforced nL ferromagnetic plate having a reduced cross section, and a base contact made in the form of a flat spring having a bark located opposite the reduced section 123. A section of a ferromagnetic plate with a reduced section allows, while maintaining the high sensitivity of the reed switch, to increase the contact area of the contact parts and create there is a contact force sufficient to commute high power loads. However, the known reed switch is unreliable in operation, since when shock loads are applied to it with a 30 or more reproach, which occurs in a number of cases when reed switches work in a relay, thin bridges of a section of a ferromagnetic plate with a reduced cross section occur, causing changes Work gap, and, conversely, the magnetomotive force of the activation of the reed switch. In addition, the low rigidity of a ferromagnetic plate with a reduced section section will require fixing the ferromagnetic plate at both ends of the cylinder. And the presence of two outlets on one end of the base causes technological difficulties during welding and does not allow to automate the assembly process. The low rigidity of the ferromagnetic plate also creates certain difficulties in other technological operations, namely, electroplating, adjusting the reed switch before brewing, etc. Till Moreover, the proposed design of the ferromagnetic plate does not reduce the size of the reed switch, which is desirable in the interest of miniaturization of the relay . The purpose of the invention is to increase the reliability of the reed switch by increasing the mechanical resistance to impact loads, simplifying the technology of its manufacture and reducing its size. This goal is achieved by the fact that in a magnetically controlled sealed contact containing a stationary contact placed in an inert gas filled balloon fixed on a ferromagnetic plate having a reduced section section, and a movable contact made in the form of a flat spring, with measles located opposite the reduced section section ferromagnetic the plate, the section of the ferromagnetic plate of reduced section is made with bridges, which are bent along its longitudinal axis. and at an angle of 55-90 edges. In addition, in a magnetically controlled sealed contact, a ferromagnetic plate can be fixed at one end of the container. Figure 1 shows the reed switch as proposed; figure 2 is a section of a ferromagnetic plate with reduced cross-section, side view; on the same figure, cross section; on the same, top view; in fig. 5 -console with cantilever pinning of conclusions in the opposite ends of the cylinder; figure 6 - reed switch with a console pinning; in fig. 7 - graphically depicts the change in the moment of resistance of per1 to 1 point bending depending on the angle of rotation of the Magitron-controlled herketized contact (reed switch) contains a hermetic balloi 1, in the terminals of which there are terminals 2, 3 and 4. The terminals 2 and 3 contain a ferromagnetic plate 5 ) with fixed contact welded to it 6 The section of the ferromagnetic core of the reduced section 7 has jumpers 8, which are the edges of the ferromagnetic plate that are bent at an angle of 90 along the longitudinal axis. A flat spring 9 is used as a movable contact. On the opposite side of the magnetic circuit with a reduced cross section, a bark 10 is located. When the ferromagnetic plate is fixed with the location of the terminals in the opposite ends of the balloon 1, it is fixed on the inner end of the terminal 2 (Fig 5). At one end of the cylinder, the ferromagnetic plate 5 is fixed at the inner end of pin 3 (FIG. 6). The hermetic magnetically controlled contact works as follows. hydrochloric magnitude of the external magnetic field, the armature 10 is attracted to the magnetic circuit 5. Initially arcing contact is closed, formed by fixed contact 6 and the free end of the spring 9, then the overwhelming burden zamzhaets contact formed by the yoke 5 and the armature 10 Releasing processes proceed in reverse sequence. An increase in the rigidity of the magnetic circuit is achieved by turning the jumpers not only by 90 °, but also less (Fig. 7). Since the jumpers of the section of the magnet wire with a reduced cross-section in the section are rectangular, then the moment of resistance of the cross section of the jumper to the bend W is determined by the form. ,, b1cc9c cb 1p about. Z fe convening (-e bstnot where b is the thickness of the cross section, h is the width of the current of the jumper, cm

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“FIG. 5 о is the angle of rotation of the rectangular cross section with respect to the horizontal axis Z; when the jumpers of the section of the magnetic circuit with a reduced cross section are rotated relative to the plane of the magnetic circuit at an angle of 55-90. The greatest moment of resistance of the cross section of the bridges to bending is reached at 0 0 °, which corresponds to the angle of rotation of the bridges by 90 to the plane of the magnetic circuit. Due to the achieved rigidity of the magnetic circuit, the working gap is kept constant and planar contact of the core and the magnetic circuit is ensured, which ensures reliable switching. Moreover, the rigid magnetic structure makes it possible to manufacture the reed switch as it is easier to adjust the reed switch before welding and the electroplating process is simplified, allowing you to go suspension of parts on the suspension to the coating of the magnetic cores on the productive equipment of the drum type TCA magnetic structure allows to fix it only from one end of the tube, which excludes the presence of two pins at one end of the cylinder, whereby the welding process can be simplified, and apply karuselnzgyu brewing unit. At the same time, the productivity of labor increases by 2-3 times, which according to preliminary calculations will give an economic effect of 72 thousand rubles. In addition, the cantilever closure of the magnetic core allows to reduce the overall dimensions of the reed switch by 10 mm compared to the reed switch МКА-52 202, which will give an opportunity to create on their basis more miniature relays

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Claims (2)

1. MAGNETIC CONTROLLED SEALED CONTACT, comprising a fixed contact located in an inert gas filled cylinder fixed to a ferromagnetic plate having a reduced section, and a movable contact made in the form of a flat spring having an armature located opposite the reduced section of the ferromagnetic plate, characterized in that, in order to increase reliability by increasing the mechanical resistance to impact loads, the reduced section of the ferromagnetic reservoir s you full with jumpers, representing bent along its longitudinal axis at an angle of 55-90 edge. 2. A contact according to Claim. Characterized in that, in order to simplify the manufacturing technology and reduce the size, the ferromagnetic plate is fixed from one end of the container. V Figure 1> 25 for 1 1136223