SU1017635A1 - Method of monitoring load distribution among ropes of friction hoist - Google Patents

Abstract

A METHOD FOR CONTROLLING A LOAD DISTRIBUTION BETWEEN CALATES OF A FRICTION LIFT in the upper position of the load carrying body, in which transverse oscillations of the rope sections between the driving and deflecting pulleys are initiated, the frequency of the own transverse oscillations is measured and the parameters characterizing the load distribution are acceptable and the characteristics of the load distribution are different and the characteristics differing with the characteristics that characterize the load distribution, and the characteristics that characterize the load distribution, are acceptable, and the parameters that characterize the load distribution are acceptable, the characteristics that characterize the load distribution, and the characteristics that characterize the load distribution, are acceptable, and the parameters that characterize the load distribution, are acceptable, and the parameters that characterize the load distribution, are acceptable, and the characteristics that characterize the load distribution, are acceptable, and the characteristics that characterize the load distribution, and compare, which characterize the distribution of load in order to reduce the labor intensity and duration of the control process, the least tensioned and most tensioned ropes are revealed, the frequency ratio is determined (and and periods) of natural transverse oscillations of these ropes and compare it with the allowable value of the ratio calculated by the formula $ (or bs-min / m is the coefficient of allowable deviation of the load on the rope from its average calculated value at the upper position of the load-carrying body,%; n - the number of hoisting ropes of the frictional unit, pcs; GSax is the period of oscillations of the least heated rope, s; Tncn is the period of oscillations of the most stretched rope, s; f. , 3 is the oscillation frequency of the highest tensioned rope, Hz; min-oscillation frequency of the least tight rope, Hz.

Description

O5 SP The invention relates to mine hoisting and lifting elevator devices, in particular, to methods for controlling the load distribution between the friction hoist cables. A known method of controlling the distribution of the load between the cables of the friction lift in the upper position of the load-carrying body, in which transverse oscillations of the sections of the rope between the driving and deflecting pulleys are excited, the frequency of natural transverse oscillations is measured and the parameters characterizing the load distribution are compared with the permissible 1. Disadvantages of the known method are The greater labor intensity and duration of the process of controlling the load distribution between the ropes. The purpose of the invention is to reduce the labor intensity and duration of the control process. This goal is achieved by the method of controlling the distribution of the load between the ropes of the friction hoist during the measurement process, reveals the least stretched and most stretched ropes, determines the ratio of the frequencies or periods of natural transverse oscillations of these ropes and compares it with the acceptable value of the ratio calculated by the formula

m 100

1 +

Max

make

or

1 p- i

m 100

1 mi "/

min where m is the coefficient of allowable deviation of the load on the rope from its average calculated value at the top position of the cargo organ, / o; p - the number of hoisting ropes of the friction unit, pcs; - period of oscillations of the least tight rope, s; min-period of oscillations of the most stretched rope, s; - oscillation frequency of the least tight rope, Hz; -frequency of oscillations of the least tight rope, Hz.

1 p-1

m too

1 The proposed method for controlling the load distribution between the cables of the friction hoist is carried out in the following sequence. Install the load carrying body in the upper position. The least and most stretched ropes are detected by any of the known methods, for example, by the position of the balancers of the suspension devices, by the divergence of the marks installed on the ropes, for example, by the amount of applied force when the tensioned cable is deflected by a certain amount, for example, by the amount a certain power load on the rope, etc. Excite transverse oscillations in the most and least tensioned ropes in the sections between the driving and deflecting pulleys. The periods or frequencies of the natural transverse oscillations of these channels are measured. The ratio of the frequencies or periods of the natural transverse vibrations of the most and least tight ropes HH -kt is compared. The obtained ratios are compared with the allowable value 6, which is determined by the formula For measuring the frequencies or periods of natural transverse oscillations These ropes can use all kinds of sensors and instruments, for example, you can use electromagnetic sensors and a frequency meter. The application of the proposed method of controlling the load distribution between the friction hoist cables reduces the labor intensity by reducing the time for preparing, carrying out and calculating the load. Apply with measurements widespread equipment. Make measurements in the process of adjusting the tension of the ropes.

Claims (1)

METHOD FOR MONITORING THE LOAD DISTRIBUTION BETWEEN THE ROPES OF THE FRICTION LIFT in the upper position of the load-carrying body, in which the transverse vibrations of the rope sections between the drive and deflecting pulleys are excited, measure the frequency of the natural transverse vibrations and compare the parameters characterizing the load distribution with the permissible ones, characterized in that reduce the complexity and duration of the control process, identify the least stretched and most stretched ropes, determine the ratio of frequencies (or per rows) own lateral oscillation of the ropes and compared with the allowable value of the ratio computed by the formula where Ch - the tolerance factor load on the rope from its mean value calculated at the top position of load-bearing body,%; η is the number of hoisting ropes of the friction unit, pcs; T _M ake - the period of oscillation of the least stretched rope, s; T _M TSN — period of oscillations of the most stretched rope, s; ^g max — vibration frequency of the most stretched rope, Hz; ^ min — vibration frequency of the least stretched rope, Hz.