SU741334A1 - Method of regulating contact pressing forces - Google Patents

Description

(54) CONTROL PRESS ADJUSTMENT METHOD

The invention relates to inequivalent electric apparatus, in particular, to methods for adjusting contact presses. Known methods for adjusting the contact pressure Ijf are manually determined using force measuring instruments. The magnitude of the initial contact pressure is fixed at t the moment when a strip of paper is clamped between the contact holder and its abutment. The contact retraction direction is also set manually. The adjustment is made by successive approximations, up to the achievement of a predetermined magnitude of the initial contact pressure. The advantage of such a method is the use of a device directly intended to measure force. The disadvantages of this method include significant subjective error, leading to inaccuracies, as well as low productivity. The closest in technical essence to the proposed method is method 2 for controlling clicks on contacts of electric devices, including electromagnet, for example contactors, in which, when performing control of pressing, a sensor made in the form of a spring-loaded lever is used, one end of which is a control the needle and the other end connected to the spring. A test needle is inserted between the moving and stationary contacts and, when the electromagnet of the apparatus under test is turned on, a positive click or non-stick contact indicates whether the final depression is within acceptable limits. The advantage of this method is to improve the quality of control of the final contact pressure and increase productivity, the disadvantages of this method include the inability to control the initial pressure. At the same time, for many devices, such as contactors, it is necessary to adjust and control just the initial pressure, and the magnitude of the final pressure is ensured by the corresponding performance of the elastic element.

The aim of the invention is to increase productivity and quality of adjustment.

This goal is achieved by the fact that when adjusting contact presses in electric devices with a single electromagnet and a contact system that includes applying voltage to the electromagnet and adjusting the force of the contact springs, it is performed separately for each pole, for which purpose exclude the contacts of the other poles, at the adjustable pole, the initial force of the contact springs is set to be greater than the nominal one; the electromagnet is switched on to a voltage, the value of which is set so that the magnetic flux creates The force at the point of contact of the contacts, equal to the nominal initial force of the contact press, brings the contacts to the contact, and then reduces the force of the contact spring until the electromagnet operates.

As is well known, the traction characteristic of a driving electromagnet of electrical devices, for example contactors, grows much steeper as the non-magnetic gap decreases than the resistance characteristic of the contact springs. In this connection, if in one of the poles, with the contacts of the remaining poles retracted, set the contact pressure higher than nominal, apply a voltage to the electromagnet, at which its force ensures the contacts to be activated at the nominal start pressure, bring the contacts to a contact, and then of this, to reduce the initial pressure. To the magnitude at which the contacts are turned on, then, obviously, the resulting initial pressure will be equal to one.

The force of the electromagnet can be estimated using the Maxwell formula

with f

where P is the force acting on measles;

Ф - magnetic flux in the working gap;

Up- magnetic permeability;

S is the cross-section of the end of the core adjacent to the working gap. From the above formula it can be seen that in order to obtain the forces of an electromagnet, which ensures the inclusion of contacts at a nominal initial press, it is necessary to create an appropriate magnetic flux in the working gap of the electromagnet. Obviously, with this method, the magnitude of the force developed by the electromagnet will depend neither on the size of the working gap, nor on the number of turns and resistance of the coil of the electromagnet, which ensures high quality of the adjustment of pressing.

The drawing shows the position of the contacts of one pole of an electrical apparatus having a driving ac electromagnet, in which the adjustment of the initial end of such pressing is performed according to the proposed method.

Adjustments are made at each pole in turn. Moving contact 1 in the remaining poles is retracted from

Q fixed contact 2 using special pads, laid between the contact holder 3 and its support 4.

The contact spring 5 on the adjustable pole is tightened by the adjusting unit 6 to a position in which the initial contact pressure becomes higher than the nominal one.

At the end of the core 7 of the electromagnet, adjacent to the working gap, fix the magnetic flux sensor 8, made, for example, in the form of a measuring coil, the EMF of which is measured by a measuring instrument.

An alternating voltage is applied to the coil 9 of the electromagnet and an indication proportional to the magnetic flux entering the end of the core is obtained at the measuring instrument.

Change the voltage applied

Q on the electromagnet, one obtains a predetermined magnitude of the magnetic flux at which the contacts should turn on at the nominal initial depression.

c. In the event that the force of the electromagnet is insufficient to bring the moving contact 1 to the contact with the fixed contact 2, bring it manually.

After that, with the help of the adjusting unit b, the tightening of the contact springs 5 is reduced until the movable contact 1 is turned on, i.e. the screw 10 does not move away from the stop 4 by selecting the contact dip. This completes the process of adjusting one pole of the contact system. The process is repeated to adjust the remaining poles.

Thus, the proposed method

0 eliminates non-objectivity when adjusting the initial contact pressure, improves the quality of adjustment and productivity.

Claims (2)

Invention Formula The method of adjusting contact presses in electric devices with a driving magnet and contact system, which includes applying voltage to the electromagnet and adjusting the force of the contact springs, characterized in that, in order to increase productivity labor and quality adjustment, its separately for each pole, for it is excluded contact of the contacts of the other poles, the initial force of the contact springs is set higher than the nominal pole, the electromagnet is connected to a voltage, the value of which is set so that the magnetic flux creates a force at the contact point of the contact contact force, bring the contacts to a touch, and then reduce the force of the contact spring to trigger the electromagnet, Sources of information taken into account in the examination 1, GOST 2933-74, PP. 2.5, 2.5.1, 2.5.2, 2.5.3 and 2.5.4. 2. USSR author's certificate number 389563, cl. H 01 H 49/00, 1973.