SU578557A1 - Electric contact amplitude transducer - Google Patents

Description

one

The invention relates to a linear measurement technique, namely, means for measuring the amplitude of linear displacements.

Limit electrocontact converters are known with the number of contact elements equal to the number of sorting boundaries, usually with two or three pairs of contacts 1.

However, such transducers cannot be used for amplitude measurements.

The closest technical solution to the invention is amplitude electrocontact transducers containing a movable measuring brush placed in a housing, a measuring arm, a friction pair mating the measuring arm with a measuring rod, and two electrical contact groups whose movable electrical contacts are located on the opposite arms of the measuring arm , stationary - on the body, as well as the node adjusting the gap in the contact groups 2J.

However, these transducers are suitable only for single-limit measurements, since two pairs of contacts are needed to register the maximum and minimum values of a variable. For two-line measurements, two identical amplitude transducers are usually used, containing (in total) four pairs of contacts.

However, in a number of cases where the law of variation of the monitored quantity is predetermined, for example, when controlling the size of the gap in the couplings, an amplitude two-limit transducer with a smaller number of contact pairs is required.

The purpose of the invention is a two-limit control of the amplitude of the variable with a given sequence of change. For this, the proposed electrocontact amplitude converter is equipped with a third contact group, one of the contacts of which is placed on the housing and is made adjustable, and the other on the measuring lever, is movable and spring-loaded. In addition, the friction pair can be made in the form of a translationally movable pad, which encircles the measuring brush, and is provided with an additional mechanical stop, which returns the translationally movable shoe when the measuring electrode is lifted.

The drawing shows a diagram of the proposed electric contact amplitude converter.

The converter comprises a housing 1, a movable measuring rod 2, a friction pair consisting of a translationally movable

pads 3, movable cracker 4 and flat spring 5, measuring lever 6 suspended from the body on a cross hinge and pins 8, 9 and iO, the first of which is unregulated and the last two adjustable by means of microscrews 11 and 12. Placed on The lever pins 13 and 14 are fixed on it fixedly, and the contact 15 is fixed with a slide and a sub-spring.

The leading arm of the measuring lever is provided with a contact element 1b, which is in contact with a sliding shoe.

A return spring 1 / serves to move the measuring rod to the lowest position, and a mechanical stop 18 is used to limit the non-displacement of the translationally movable pad.

For visual observation, a linear displacement 19 can be attached to the electrocontact amplitude converter, the measuring tip of which interacts with the torp of the measuring rod.

Electrocontact amplitude converter works in the following way.

The measuring rod 2 arrety, i.e., the branch off, t in the extreme upper position, while moving forward sliding pads 3 is limited by a mechanical stop 18.

 the controlled object is brought into the state when its measuring surface is as far as possible from the electrical contact amiliter converter, for example, when controlling the gap, the force acting on the converter is applied, and then the measuring rod 2 is released, which by the action of the return spring 17 moves up to the stop into the measured surface object, and inaccessibly podnzhpa block 6, acting on the contact element 1b small nlecha measuring lever b, causes the closure of the contact oh pair 8, l; i, after which there is a slippage of the measuring rod relative to the post-moving movable pads. Contact pair 8, 13, closing, gives a signal about the end of the first phase of measurement.

After some time sufficient to calm the converter, the object being monitored is brought to a state when its measuring surface is maximally balanced on the converter, for example by changing the sign of the force applied to the object being monitored. In this case, the measuring rod moves along with the progressively moving block and causes the measuring lever to rotate. The contact pair 8, 13 opens, and depending on the size

the displacement of the measuring surface is either not closed, not one of the contact pairs, or the contact pair 10, 15 is closed, or two contact pairs 10, 15 and 9, 14 is closed. The closure of the contact pair 10, 15 does not prevent further movement of the measuring lever, since pin 15 made nodvizhimnym relative to the measuring lever and spring loaded.

The above cases of closure of contact pairs correspond to two-limit sorting (the measured value is less than the lower limit, lies between the lower and upper limits, exceeds the upper limit). 1 sorting racks can be configured using screws 11 and 12, which mix the Y and 1U pins.

For the next nick measure is needed; dnmo "cocking steadily movable

pads, which is achieved by arresting the measuring rod.

The force required to retract the spring-loaded copet 15 is provided by adjusting the spring 5 of the fricpion pair.

Claims (2)

1. Electrocontact amplitude transducer containing a movable measuring rod, measuring lever, friction pair placed in the housing, matching measuring lever with the measuring rod, and contact soils, one of the contacts of which are fixed on the measuring lever, and the others on the body, as well as the knots for adjusting the gaps in the contact groups, characterized in that, for the purpose of two-limit amplitude control By interlacing the values for a given sequence of its change, it is provided with a third contact group, one of the contacts of which is placed on the housing and made adjustable, and the other on the measuring lever is movable and spring-loaded. 2. The electrical converter according to claim 1, characterized in that the friction pair is made in the form of a translationally movable shoe wrapping around the measuring rod, and is provided with an additional mechanical stop that returns the translationally moving shoe when the measuring rod rises. Information sources, taken into account in the examination 1. Markov N. N. Electrocontact sensors for linear measurements. M., “Mechanical Engineering, 1969, p. 21-25, rns. five. 2. In the same place 44-46, fig. eleven. J9