SU917218A1 - Variable resistor - Google Patents

Description

C54) VARIABLE RESISTOR

The invention relates to electrical engineering and can be used as a precision potentiometer for a sensor of high-precision automatic control systems. Articulated variable resistors are known, consisting of 2 and more than one resistors, yppatl eflli x by means of one axis SP. Such resistors have, as a rule, rigidly coupled rotor networks, and are characterized by the synchronous movement of their engines. However, in a number of cases, the resolution of such resistors is H (sufficient. Technically, the articulated variable resistor containing two resistive element, one of which serves for coarse and the other for fine adjustment, has a higher resolution. In a known resistor, resistive elements, the common control axis The enviroment and switching mechanism are placed in the same housing in such a way that the housing of the resistive element is fixed to the resistor body in the resistor case, its rotor is rigidly fixed in the resistor case, and its rotor is rigidly articulated with fitted lugs to limit the extreme positions of the slider single-turn resistive element of the exact adjustment , the rotor system of which is rigidly fixed on the axis of the resistor C2. A significant disadvantage of the known resistor is the complexity of the exact installation process Qdim resistance value at transitions / e accurate control of the area to the coarse control and back. This disadvantage of the known resistor is determined by the presence of a significant overshoot.

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when moving from one control zone to another. This overshoot is caused mainly by two circumstances: firstly, because the rotational speeds of the rotors of the fine and coarse adjustment resistors are equal, and, secondly, the low price of the volume control area, which is chosen based on the need for high resolution ability resistor.

The tendency to overshoot, which is especially great when the resistor is remotely controlled by a motor drive and can cause self-oscillations of the control system, is a characteristic negative feature of a known design. The overshoot in a known design can only be reduced by reducing the resolution. Both of these circumstances are significant and reduce the operational value of a known resistor.

The purpose of the invention is to simplify the process of regulating the magnitude of the resistance when moving from the zone of precise control to the area of coarse control and back

The goal is achieved by the fact that the rotor of the coarse adjustment resistive element and the body of the resistive element of the fine adjustment are combined along the rotation axis by means of a mechanical transmission with a gear ratio greater than one. A further simplification of this process is achieved in that the resistive fine adjustment element is made multi-turn.

FIG. 1 shows a variable resistor; FIG. 2 shows a section A-A in FIG. in fig. 3 is one of the possible schemes for the connection of resistive elements of precise and coarse regulation. I,. .one

 The variable resistor includes a housing 1, in which the housing 2 of a coarse adjustment resistive element 3 is fixedly mounted. The rotor of the resistive element 3 is articulated along the geometrical axis of rotation with the housing 5 of the multiturn resistive element 6 of fine adjustment with the help

mechanical (eg gear) gear 7 with a gear ratio greater than one. The rotor system B resistive84

The element 6 is rigidly fixed on the axis 9 of the control of the variable resistor. Resistive elements 3 and 6 are provided with stops 10-12 (respectively) to limit the working area of the regulation. The terminals 13 of the resistive element 3 and the terminals H of the resistive element 6 are mounted on the resistor body 1. In this case, the connection of the leads 1 to the contact terminals 15 of the resistive element 6 is carried out using flexible conductors 16 twisted in the form of a spiral and arranged in the D cavity of the axis 17 of the body 5. , has a through hole along the geometrical axis of rotation. The resistor case 1 is made detachable and consists of two symmetrical halves 18 and 19 fastened at the ends with covers 20 and 21. Half 18 of case 1 has a threaded hole into which screw 22 of the brake system of the case 5 is screwed. The required braking torque is selected by changing the screw 22 on the bearing 23 of the slide, made of fluoroplastic and having a through slot in height.

The resistor works as follows.

The main working area of the resistor is the zone of precise control, the price of which significantly (for example, 5-10 times) exceeds the price of the corresponding zone of the known resistor. When the control axis 9 rotates, the sliding contact 2k of the rotor system 8 moves along a multi-turn resistive element 6 of fine adjustment, parallel to which, in order to agree on the price of the fine control zone, an additional resistor 25 is connected (Fig. 3). At the same time, the housing 5 of the resistive element 6 is immobilized with a screw 22. If necessary, adjusting the magnitude of the price of the fine adjustment zone, the rotor system 8 engages with the stop 11 or 12 (depending on the direction of adjustment) and the body 5 rotates. which with the help of gear 7 rotates the rotor C of the resistive element 3 roughly, adjustments.

When moving from the zone of precise regulation to the area of coarse regulation, inevitable is regrouping. 59 The indicated overshoot can be significantly reduced due to the articulation of the housing 5 along the axis of rotation with the rotor C using a mechanical (e.g. gear) gear 7 with a gear ratio (at the unit (mainly 5-10) in this case reducing the rotor rotation speed k relative to the rotation speed control axis 9, provides a small overshoot, which is compensated for by retracting the fine adjustment system. This is significant because it is associated with a decrease in The predetermined resistance level, which greatly simplifies the process of establishing this level when moving from the fine control zone to the coarse adjustment zone and vice versa. The proposed constructive implementation of a variable resistor does not reduce the specified resolution value and eliminates the possibility of an auto-oscillation control system The latter is connected with the use of a wider zone of precise control, which is achieved by performing a fine-tuning resistor Rotary: 72 75- 22 23 jif Pl P P of the invention. Variable resistor, comprising a case with housings, resistive elements placed on it, and blue fine adjustments with a common control axis and switching mechanism, a rotor and a rotor system of resistive adjustments of coarse and fine adjustments differing from that, in order to simplify the process of adjusting the resistance when moving from the fine control zone to the coarse control area, the rotor of the coarse adjustment element and the body of the resistive element are precisely adjustable articulated by geometrical axes of rotation by a mechanical transmission with a ratio greater than one, wherein the fine adjustment resistance element formed multiturn. Sources of information taken into account in the examination 1. Kabesh K. Precision potentiometers for automation, Energy. M., 1969, p. , 2. USSR author's certificate number 336701. cl. H 01 S Yu / Z, 1972 (prototype). 7J P P 4-XI

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Claims (1)

Claim A variable resistor comprising a housing with housings, coarse and fine adjustment resistive elements housed in it with a common axis of control and a switching mechanism, a rotor and rotary coarse and fine adjustment resistor system characterized in that, in order to simplify the process of regulating the resistance value when moving from the fine control zone to the coarse control area, the rotor of the coarse resistive element and the body of the resistive fine control element are geometrically jointed the rotation axes by means of a mechanical transmission with a gear ratio greater than one, and the resistive fine adjustment element is multi-turn.