SU1274009A1 - Multiturn potentiometer - Google Patents

Abstract

The invention relates to the field of electronics and electrical engineering. increased reliability in the operation of vibration and shock effects. The multi-turn potentiometer contains a cylindrical case; on the inside of KOTOpioro there is a spiral frame made of insulated wire with a resistive wire 3 wound around it, forming a resistive element (RE), a key attached in it without axial displacement of the lead screw (XB) 5 with thread pitch, equal to the step of winding the spiral framework of the ER and the collector spring 11 rigidly fixed on the ends of the contact-holder (K) 12. The goal is achieved by the fact that K 12 is made in the form of a shchyndgrichesky spring, the turns of which are located inside one the intrinsic viscosity of the thread windings 5, wherein the ratio of the inner diameter of the coil spring 12 and thread K XB. 5 j6bmo is within 1.008-1.03, and the ratio of the internal thread diameter of each of the two extreme turns XB and the internal diameter of the cylindrical spring K 12 is 1.03-1.1. The invention provides (L an increase in the time between failures and excludes the use of auxiliary damping devices for potentiometers. 2 Cp f-crystals, 3 sludge.

Description

The invention relates to electronics, and electrical engineering, in particular to variable resistors.

The purpose of the invention is to increase reliability in operation under vibration and shock by applying the elastic design of the contact holder, which increases the time between failures and eliminates the use of auxiliary shock absorbing devices for potentiometers,

Figure 1 shows the proposed multi-turn potentiometer, a longitudinal section; figure 2 - node I in figure 1 (contact holder with a collector element); in Fig.3Z section aa in Fig.1.

The potentiometer contains a cylindrical tubular body 1, on the inside of which a spiral frame 2 of an insulated wire with a resistive wire 3 wound around it is placed and filled with epoxy compound, forming a resistive element (not marked) cover 4, the lead screw 5 fixed therein without axial displacement with a thread pitch equal to the winding pitch of the spiral frame of the resistive element, a frame (not indicated), consisting of two bushings 6 and 7, tightened by struts 8, the output axis 9, rigidly connected to the frame using epoxy compound, cover 10. The collector spring 11 is rigidly fixed to the ends of the contact holder 12, which inner diameter covers the groove of the thread of the screw 5. The permanent electrical connection of the contact holder 12 with the sleeve 13 is a conductive torque spring 14. The sleeve 13 with a brush 15 make up a sliding contact pair, providing electrical connection to terminal 16. Terminals 16 and 17 are for external electrical connection of the potentiometer.

The implementation of the contact holder 12 in the form of a cylindrical spring located inside one thread of the screw 5, in the assembled state, provides its free movement along the thread of the screw. For this, it is necessary that the ratio of the values of the internal diameters of the coil spring of the contact holder and the thread of the lead screw be in the range of 1.008-1.03.

In addition, the ratio of the internal diameter of the thread of each of the two extreme turns of the lead screw and the internal diameter of the coil spring of the contact holder is 1.03-1.1.

The potentiometer works as follows.

When the output axis 9 rotates, the rack 8 abuts against the contact holder 12 and rotates it, while it makes a helical movement. The collector spring 41 under the action of contact pressure increases the internal diameter of the cylindrical spring of the contact holder 12 and thereby ensures its free movement along the spindle 5 with a low coefficient of friction.

The limiter of the movement of the contact holder 12 beyond the working range of the resistive element is the increase in the diameter of the thread cavity of the lead screw in the area corresponding to the non-working part of the resistor (extreme turns). The increased diameter of the thread of the lead screw leads to a sharp increase in the coefficient of friction between the lead screw and the contact holder, when approaching the end of the resistive element, the contact holder 12 is fixed in the extreme position.

Claims (1)

The invention relates to electronics, and electrical engineering in particular to variable resistors. The purpose of the invention is to increase the reliability in operation under vibration and shock effects by using the elastic design of the contact-holder, which provides an increase in time between failures and eliminates the use of auxiliary damping devices for potentiometers. Figure 1 shows the proposed multi-turn potentiometer, longitudinal section; figure 2 - node I in figure 1 (contact holder with current collector element) i in fig.Z section aa in figure 1. The potentiometer contains a cylindrical tubular housing 1, on the inner side of which a spiral frame 2 made of insulated wire with a resistive wire 3 wound onto it is formed and wired with an epoxy compound, forming a resistive element (not indicated) of the cap 4, the lead screw 5 sec. Without axial displacement step cut, equal to the winding step of the spiral frame of the resistive element, the frame (not marked), consisting of two sleeves 6 and 7, stand racks 8, the output axis 9, rigidly connected to the frame using epoxy The current connection to the spring 11 is rigidly fixed to the ends of the contact holder 12, which has an internal diameter that covers the bottom of the thread of the lead screw 5. The permanent electrical connection of the contact holder 12 to the sleeve 13 is carried out by a conductive torque spring 14. The sleeve 13 with a brush 15 consists of A sliding contact pair is provided that provides an electrical connection with terminal 16. The terminals 16 and 17 are intended for external. its electrical connection to the sweat of the meter. Making the contact-holder 12 in the form of a cylindrical spring disposed within one turn of the thread of the lead screw 5 ensures, in the assembled state, its free movement along the thread of the lead screw. To do this, it is necessary that the ratio of the internal diameter of the cylindrical spring of the contact feeder 9 and the screw thread should be within 1.008-1.03. In addition, the ratio of the internal thread diameter of each of the two extreme turns of the spindle and the internal diameter of the contact-holder coil spring is 1.03-1.1. The potentiometer works as follows. When the output axis rotates, the pillar 8 rests on the contact holder 12 and rotates it, while it makes a screw movement. The current-collecting spring 41 under the action of contact pressure increases the internal diam meter of the cylindrical spring of the contact-holder 12 and thereby ensures its free movement along the spindle 5 with a low coefficient of friction. The limiter of movement of the contact holder 12 beyond the limits of the operating range of the resistive element is the increase in the diameter of the thread root of the spindle in the zone corresponding to the non-working part of the resistor (outermost turns). The increased diameter of the thread root of the spindle screw leads to a sharp increase in the coefficient of friction between the spindle screw and the contact holder, as it approaches the end of the resistive element, while fixing the contact holder 12 in the extreme position. Claim 1. Multi-turn potentiometer comprising a cylindrical body with a spiral resistive element placed on its inner surface, a lead screw with a multi-turn thread located along the body axis and a contact holder with a current-collecting spring arranged with the possibility of elastic interaction with the spiral resistive element and connected to the current collector node, characterized in that, in order to increase the reliability in operation under vibration and shock effects, the contact holder is made in the form of of cylindrical spring vitkikotoroy disposed within one turn of the thread of the lead screw with the possibility of