SU1008814A1 - Contact-free microswitch - Google Patents

Abstract

1. NON-CONTACT MICRO-SWITCH containing a coil-like conductor fixedly mounted in a housing, a permanent magnet having a rectangular cross-section in cross section and fixed on the free end of the switching element of the instantaneous action mechanism, the switching element being associated with an abutment characterized in that In order to increase reliability, it is equipped with magnetic shunts, a coil with a core is used, the end of which has a rectangular cross-section in cross-section, the working surfaces of the core and the permanent magnet have curvature whose radius is equal to the distance from the junction of the switching element and said abutment to the said working surfaces of the core and. permanent magnet, while the working surface of the core is larger than the working surface of the permanent magnet, and magnetic shunts are mounted on the casing on both sides of the permanent magnet. 2. The microswitch according to claim 1, characterized in that it (P is equipped with an adjusting screw installed in the housing, and the stop is made in the form of a two-armed lever, one arm of which is connected to the adjusting screw. 00 OD 1

Description

The invention relates to electrical engineering, and more specifically to microswitches, and can be used in various kinds of electromechanical devices for sensing an electrical signal when a controlled device reaches a predetermined position. Non-contact switches are known that contain a moving mechanism and a source of magnetic flux I. These devices have low thermal stability, the need for constant connection to the source of pi ± ani with the consumption of power, the presence of residual voltage after tripping, which does not exclude the possibility of electric shock, and a number of other flaws. The closest to the proposed technical entity are contactless microswitches that contain a coil-like conductor fixed in the housing, a permanent magnet mounted on the free end of the switching element, which is connected to the abutment and is part of the mechanism of instantaneous action BaHHfcjx position - work and source 2. However, in these microswitches, when triggered as a result of magnet pickups (bounces) arising when the switching element arrives to the extreme position, besides the main signal, variable signals (in polarity) decay in size appear, which significantly complicates the memory circuit , and this reduces overall reliability. The purpose of the invention is to increase reliability. This goal is achieved by the fact that a contactless microswitch containing a coil-like conductor fixedly fixed in a housing, a permanent magnet having a rectangular shape in cross-section, and fixed on the free end of the switching element of the instantaneous mechanism, the switching element connected to the stop, provided using shunts, a coil with a core, the end of which has a rectangular shape in cross section, is used, the working surfaces of the core and the magnet have a curvature whose radius is equal to from the junction of the switching element and the abutment to the indicated working surfaces of the core and the permanent magnet, while the working surface of the core is larger than the working surface of the permanent magnet, and the magnetic shunt is mounted on the casing on both sides of the permanent magnet. In addition to the Toroj, the microswitch is equipped with an adjusting screw installed in the housing, and the stop is made in the form of a two-armed lever, one arm of which is connected to the adjusting screw. FIG. 1 shows the mechanism of the instantaneous action of a contactless microswitch, the initial position; But FIG. 2 is the same, the working position j in FIG. 3 - oscillogram of pulses emitted by a microswitch. The microswitch consists of a conductor in the form of a coil 1 with a core 2 rigidly fixed in the housing 3, a switching element in the form of a lever 4 resting on the support 5. At the free end of the lever 4 a permanent magnet 6 with a rectangular cross section is strengthened. The lever 4 is pressed against the stop 5 by the working spring 7, which is reinforced on the other side on the axis 8 to the housing, the end face of the coil core 2 has a rectangular cross section, and the working surfaces of the core 2 and the permanent magnet 6 have a curvature whose radius is equal to the distance from the junction the switching element and the stop to their working surfaces, the gap between the magnet and the coil core can be adjusted by changing the junction of the lever with the stop using an adjusting screw 9. In the case from two sides of the permanent magnet 6. while in The initial position of the instantaneous mechanism is strengthened by magnetic shunts 10. The drive element 11 can freely translate relative to the housing. When the most powerful force acts on the drive element 11, it moves progressively relative to the housing 3, bends the working spring 7. Until the spring reaches its predetermined position, the free end of the switching element 4 will be quickly shifted along with a permanent magnet b from the initial position to the working position. In this case, the magnetic flux of the coil conductor intersects, which leads to the appearance of an electromotive force in it of a certain polarity. When the external aila is removed from the drive element, a reverse fast transfer of the permanent magnet to its initial position occurs, which leads to the appearance of an electromotive force of reverse polarity in the conductor. In order to eliminate the influence of the constant magnet bounce resulting from the impact of the free end of the switching element in the final positions on the quality of the output

by means of a signal microswitch, magnetic flux shunts are installed in the initial position, and in the working position this is achieved by increasing the working surface of the core compared to the working surface of the magnet. This makes it possible to obtain a clear signal (Fig. 3) in order to obtain a signal stability in magnitude from sample to image and Maximum signal size. For a given range of external forces acting on the drive element, the gap between the core and the magnet is adjusted by moving the connection point of the switching element 4 to the stop 5 using an adjusting screw.

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Claims (2)

1. Non-contact microswitch containing a conductor fixed in the housing in the form of a coil, a permanent magnet having a rectangular cross-section in cross section and mounted on the free end of the switching element of the instantaneous mechanism, the switching element being connected with a stop, characterized in that, in order to increase reliability, it is equipped with magnetic shunts, a coil * with a core is used, the end of which has a rectangular shape in cross section, the working surfaces of the core and the permanent magnet have a curvature, the radius of which is equal to the distance from the junction of the switching element and the said stop to the specified working surfaces of the core and. permanent magnet, while the working surface of the core is larger? the working surface of the permanent magnet, and magnetic shunts are mounted on the housing on both sides of the permanent magnet. - 2. The microswitch according to claim 1, characterized in that it is equipped with an adjusting screw installed in the housing, and the emphasis is made in the form of a two-shouldered lever, one shoulder of which is connected to the adjusting screw. - Figure 1