SU1191965A1 - Device for determining actuation magnetomotive force and release magnetomotive force of hermetically-sealed reed relay - Google Patents

Abstract

1. DEVICE FOR DETERMINING AND RESPONSE magnetomotive force magnetomotive force releasing high power reed switch comprising a control circuit comprising a control coil milliammeter, a variable resistor connected in series, and a DC source, connected to said serial circuit, and a control circuit including a source power supply of the reed switch and measuring device, characterized in that, in order to increase the accuracy of determining the magnetomotive actuation force and the magnetomotive force of accelerating a reed switch with a high transition resistance, a separation capacitor and an induction sensor made in the form of a coil are entered into the control circuit; a high-frequency power source is used as the power source of the reed switch circuit, which is connected to one of the terminals to connect the reed switch through the mentioned separation capacitor, the coil is connected to the specified measuring device and is designed to be installed coaxially with the contour formed by the sections of the contact plate and the magnetic circuit under test of reed switch made between the arcing and main kontaktaso of eating E reed switch in a closed state SRI. ./ x /. If

Description

2, a device according to claim 1, characterized in that a second induction sensor is inserted in the control circuit, intended to be installed against the main contact of the reed switch so that its axis is in a plane passing through the axis of the first induction sensor and the longitudinal axis of the reed switch parallel to the latter, moreover, said induction sensors are connected in such a way that the EMF induced in them by the field formed by the passage of current through the main contact of the reed switch are added.

The invention relates to electrical engineering and can be used to test electrical apparatus, in particular high-power reed switches, having two pairs of parallel-connected contacts operating in a step-switching circuit. The aim of the invention is to improve the accuracy of determining the MDS actuation and the MDS releasing of the reed switches with high transition resistance. Fig, 1 shows a block diagram of the proposed device; Fig. 2 is the same, with two inductive sensors; The device comprises a control circuit consisting of control coil 1, milliammeter 2, variable resistor 3 and DC source 4 connected in series and intended to act on a reed switch 5 containing the magnetic circuit 6 and the contact plate 7 with the main contact 8 located on it and the arcing contact 9 embedded into the sealed glass cylinder 10, and the terminals 11, the control circuit includes a high-frequency power source 12 intended for It is connected to the terminals of the reed switch 11 through the separation capacitor 13 of the measuring device 14, connected to the induction sensor 15, made in the form of a cylindrical coil and located coaxially with the contour formed by the sections of the contact plate 7 and the magnetic circuit 6 between the arcing contacts 9 and the main 8 of the reed switch. Fig. 2 shows a block diagram of a device having two inductive sensors 15 and 16 interconnected in such a way that the EMF induced by a field in them formed by the passage of current through the main contact 8 folds, and the second induction sensor 16 is opposite the main one contact of the reed switch O in such a way that its axis is in the plane of the axis of the first sensor 15 and the longitudinal axis of the reed switch, parallel to the latter. The device operates as follows. By continuously increasing the control current flowing from the DC source 4 through milliammeter 2 through the control coil 1, the RI smoothly increases the coil field. When the control field reaches a certain value, the arcing contact 9 closes and the high-frequency current J flowing from the high-frequency power source 12 through the separation capacitor 13 across the contact plate of the reed switch 8, the arcing contact 9 and the magnetic conductor 6 creates a high-frequency magnetic field around them (indicated by dotted arrows ), the leading emf in induction sensor 15, controlled by measuring instrument. 14, with a further smooth increase of the control field, the main contact 8 of the reed switch shunting the arcing contact 9 is shorted and the current flowing through the arcing contact is redistributed, and the high-frequency current flowing through the main contact creates a high-frequency magnetic field directed opposite to the field created by the passage of high-frequency current through the contact plate of the reed switch 7, the arcing contact 9 and the magnetic 3 wire 6 at the location of the induction sensor 15. The result conductive EMF, clear EMA with inductive sensor 15 and is controlled by the measuring device 14 is reduced proportionally to the reduction of high-frequency current flowing through the contact plate and the magnetic circuit arc contact reed switch, and also proportional to the high frequency current, on Viv shemus mainly reed contact. The introduction of a second induction sensor 16 allows a signal to be significantly enhanced when the main contact of the reed switch is closed. Compared with the known device, the proposed device is simpler, since it does not contain complex semiconductor 654 control circuit and their power supply circuit. In addition, the process of rejection of reed switches using the proposed device can be automated. A prototype of the device showed good operability and accuracy in determining the MDS response (release) of high-power reed switches. Rechecking rejected using a well-known device reed switches showed that up to 40% of reed switches were rejected incorrectly. If from the party of reed switches in 100 pcs. when 45 reed switches were rejected, 40 of them, while re-checking, turned out to meet the requirements for their technical characteristics.

Claims (2)

1. A DEVICE FOR DETERMINING A MAGNETIC MOVING FORCE OF ACTIVATION AND A MAGNETIC MOVING FORCE OF RELEASING REEDS OF HIGH POWER READERS, containing a control circuit including a control coil, a milliammeter, a variable resistor connected in series, and a constant current source connected to the control circuit for the serial circuit a reed switch circuit and a measuring device, characterized in that, in order to improve the accuracy of determining the magnetomotive actuation force and magnetomotive force I am a reed switch with a high transition resistance, a separation capacitor and an induction sensor made in the form of a coil are introduced into the control circuit, a high-frequency power source is used as a power source of the reed circuit, which is connected to one of the terminals for connecting a reed switch through the aforementioned isolation capacitor, the coil is connected to the specified measuring device and is intended for installation coaxially with the contour formed by the sections of the contact plate and the magnetic circuit of the test reed switch, ennymi between the arcing and main contacts in the reed switch closed. Fig i 4 and PT tg Spare parts SU, „, 1191965 2. The device according to claim 1, characterized in that the second induction sensor is introduced into the control circuit, designed to be installed against the main contact of the reed switch so that its axis is in a plane passing through the axis of the first induction sensor and the longitudinal axis of the reed switch is parallel to the last, moreover, these induction sensors are connected so that the EMF induced in them by a field formed by the passage of current through the main contact of the reed switch, are added.