SU553691A1 - Magnetically controlled sealed contact - Google Patents

Description

corresponding to the maximum value, i.e., to the minimum amier response, is approximately equal to the maximum cover by the electromagnetic force in the open state of the reed switch. Thus, if, when a reed switch is triggered, the working gap is reduced, then the contact pressure increases, but the sensitivity remains maximum.

FIG. 1 shows a schematically described reed switch; in fig. 2 (a, b, c) are embodiments of the elastic element.

The magnetic circuit of the reed switch consists of pins 1 and 2 installed at the ends of the glass cylinder 3, core 4 and magnetic circuit 5. The overlap and end of core 4 and magnetic core 5 form the working gap b, and the end of the other end of core 4 and the end of output 2 are additional gap 6t. Anchor 4 and pin 2 are connected using an elastic element 6, ensuring that the core 4 is interchanged along the reed switch axis. The elastic element 6 can be made in the form of an elastic plate (Fig. 1) mounted perpendicular to the reed switch axis and connected at one end with a contact spring 7, and the other with a clip 8, or is part of a contact spring 7 in the form of several zigzags (Fig 2). The counteracting characteristic of the elastic element 6 must be matched with the tractive characteristic of the technological gap bt so that the gap bt closes before the working closure of the gap br and in the additional gap begins not earlier than the movement in the working gap br.

In the open state of the reed switch, the overlap of the working gap corresponds to the maximum electromagnetic force in the gap br. At the same time, the sensitivity of the reed switch is almost maximum (a few percent less than optimal). The magnitude of the additional clearance, bt, of the open reed switch is equal to the difference in overlaps providing the maximum electromagnetic force at the maximum and minimum values of br (the thickness of the elastic element 6 is not taken into account). The gap can be adjusted by means of a protrusion 9 made in the cylinder 3 (Fig. 2a), a rigid non-magnetic plate 10 containing a groove and mounted on the terminal 2 (Fig. 26), or a bend 11 and the terminal 2 (Fig. 2s).

Reed switch works as follows.

At a certain magnitude of the magnetizing force of the control element, for example, a coil with a current, the working gap begins to close. Simultaneously with him or later

movement begins in the additional gap bt. And the movement in the gap br ends before the movement in the gap br. In this case, the overlap of the gap br is reduced to a value corresponding to the maximum electromagnetic force or contact force. Thus, in the described reed switch, it is necessary to increase the contact pressing force in comparison with the prototype by almost 50%.

The described reed switch has a reduced vibration, increased contact reliability, and no contact welding.

Reed switch can be used in the development of industrial automation equipment increased reliability.

Claims (6)

1. US Patent N ° 2852058, cl. 83-661, 1952. 2. US patent N ° 3317869, cl. 335-154,1965. 3. The patent of England N 1160341, cl. PN, 1964. 4.Patent of Japan N ° 49-8586, series IV (2) sat. 15 (136), 1974. 5. Reed type Powereed Brookhirst Igranic, England, (prototype). 6. Works MEP, issue 189, M., 1974, p. 90-93.