SU763673A1 - Method of measuring length of moving product - Google Patents

Description

The invention relates to measuring equipment and can be used in rolling production.

A known method of measuring the length of a moving product, in which the length is measured by counting the number of traveling pulses in the time interval between the moments when the rear end of the line crosses the first sensor and the front end of the second sensor of the presence of the product installed from the first at a distance exceeding the length of the product [1].

The disadvantage of this method is that it increases the duration of the faultless shutdown processes. _i

The closest in technical essence and the achieved result to the proposed invention is a method: measuring the length of a moving product, which consists in counting the number of traveling pulses of the drive of one of the sections of the roller table during the passage of the front and rear edges of the product through the boundary of the section of the roller table [2].

The disadvantage of this method is the low accuracy of the measurement due to the non-synchronization of rotation of the rolls of various sections of the roller table.

The aim of the invention is to improve the accuracy of measurement.

The goal is achieved by the fact that the coordinate of the center of gravity of the product is calculated from the calculated number of driving pulses of the drive, the number of driving pulses of the drive of one of the following sections of the live roll is measured during the interval of time the front edge of the product and its center of gravity passes through the border separating this section of the live roll from the next, then measure the number of traveling pulses of the drive of the subsequent section during the time interval between the passage of the center of gravity of the product and its trailing edge through the same interface sec of the roller table, after which the number of pulses of the last two measurements is summed up and the length of the product is judged by the received amount.

The drawing shows a diagram illustrating a method of measuring the length of a moving object.

/ A / · 3 763673 /

In the drawing, the following notation:

- controlled product

2, 3, 4 - sections of the rolling table along which the product moves.

The process of measuring the length of a moving object consists of two stages. When the leading edge of the product 1 intersects the line of separation of the roller tables 2 and 3, the length and coordinate of the center of gravity of the product 1 relative to its end are preliminarily determined by dividing by u the two previously measured values of the length of the product 1. The calculated value of the coordinate of the center of gravity is stored.

When the leading edge of the article 1 intersects the roller line separation lines 3 and 4, the counting of ₁₅ path pulses of the roller table section 3 begins until the number of pulses exceeds the value of the coordinate of the center of gravity of the product 1.

After the number of traveling pulses _{20 of} section 3 of the roller table exceeds the value of the coordinate of the center of gravity of the product 1, the counting of the number of traveling pulses from section 3 of the rolling table ends and the counting of the number of traveling pulses of section 4 of the roller ₂₅ gang begins. The measurement cycle ends when the trailing edge of the product 1 intersects the dividing line of sections 3 and 4 of the rolling table. The summation of the number of track pulses from sections 3 and 4 of the roller table gives the value by which ₃₀ is judged about the length of the product 1.

Thus, due to tracking the center of gravity when the product moves along sections of the roller table. the measurement error from slippage of the rolls rolls relative to the product is reduced.

Claims (2)

The invention relates to a measuring technique and can be used in rolling production. There is a known method for measuring the length of a moving product, in which the length measurement is carried out by counting the number of track impulses in the time interval between the moments when the rear end intersects the first sensor line and the front end of the second product presence sensor installed from the first one at a distance greater than the length of the product 1. Disadvantage The way it is is that it increases the duration of the process of irreversible shutdown. The closest in technical essence and the achieved result to the proposed invention is a method; measuring the length of a moving product, which consists in counting the number of driving pulses of one of the roller conveyor sections during the passage of the leading and trailing edges of the product through the border of the roller table 2. The disadvantage of this method is the low measurement accuracy due to the asynchronous rotation of the rolls of different sections of the roller table . The aim of the invention is to improve the measurement accuracy. The goal is achieved by counting the number of track pulses of a product calculated by the calculated number of drive path pulses, the number of drive pulses of one of the following roller tables during the time interval of the leading edge of godeli and its center of gravity across the border separating This section of the roller table from the next, then measure the number of track pulses of the drive of the next section during the time interval between the passage of the center g of the product and its trailing edge through the same interface with of the roller table, after which the number of pulses of the last two measurements is summed up and, according to the amount received, judge the product. The drawing shows a diagram illustrating a method for measuring a length of a moving object. t: f: / V / y. / 3 7 Ha of the drawing, the following notation is accepted: 1 — controlled i-gadget, 2, 3, 4 — sections of the roller table on which the product is moved. The process of measuring the length of a moving object consists of two stages. When the front edge of product 1 crosses the dividing line, the role of gangs 2 and 3 is preliminarily determined by the length and coordinate of the center of gravity of product 1 relative to its end by dividing the previously measured length of product 1 into two. The calculated value of coordinate of the center of gravity is remembered. When the edge of product 1 of the LINE section of the live rolls section 4 crosses, the counting of track pulses of section 3 of the roller table starts until the number of pulses exceeds the value of the coordinate value of the center of gravity of the product 1. After the number of track pulses of section 3 of the roller table exceeds the value of the coordinate of center coordinate t of product 1, the counting of the number of track pulses from section 3 of the roller table ends and the counting of the number of track pulses of section 4 of the roller table begins. The measurement cycle ends when the rear edge of the product 1 intersects the dividing line of sections 3 and 4 of the roll. Summing the number of traveling pulses from sections 3 and 4 of the roller table gives the value by which the length of the product 1 is judged. Thus, by tracking the center of gravity as the product moves along the sections of the roller table, the measurement error of 4 tons of roller roller slip relative to the product is reduced. The formula for measuring the length of a moving product, is that the number of drive pulses of one of the sections of the roller table is counted during the leading and trailing edges of the product through the border of the section of the roller table, characterized in that, in order to increase the measurement accuracy, the calculated number the path of the drive pulses calculates the coordinate of the center of gravity of the product, measure the number of path pulses of the product of one of the following sections of the roller table during the time interval of the leading edge from Spruce trees and its center of gravity across the border separating this section of the roller table from the next, then the number of track pulses of the drive of the next section is dodged during the time interval between the passage of the center of gravity of the product and its trailing edge through the same section boundary which is summed up by the number of pulses of the last two measurements and judging by the crawled sum, the length of the product is judged. Sources of information received in the BHHMaiffle during the examination 1. USSR Authority Certificate No. 428803, кп. B 21 B 37/00, 07.12.71. 2. Report of VNIIAchermeta No. L7-1-76, vol. 1, 1976, p. 119-122 (prototype).