SU1024851A1 - Device for measuring overloads having spatial character - Google Patents

Abstract

A DEVICE FOR MEASURING SPATIAL CHARACTER OVERLOADS, containing three overload sensors, three matching blocks, whose inputs are connected to the outputs of dates "overload loads, three communication channels, inputs of which {X s are connected to the outputs of matching blocks, three receiving blocks, whose inputs are connected to the outputs of the communication channels, the three blocks of the nonlinear function, the first inputs of which are connected to the outputs of the receiving blocks, and their outputs are the outputs of the device, so that, in order to simplify the design of the device, To improve reliability and accuracy, three filters are introduced in it, the inputs of which are connected to the output of the receiving units, and an additional block of the nonlinear function, the inputs of which are connected to the outputs of the filters, and the output to the second inputs of the blocks of the nonlinear function.

Description

The invention relates to measurement and computing techniques and is intended to improve the accuracy of measuring overloads of a spatial nature. This invention can be widely used in the control and statistical analysis of the overloads acting on the cargo during transportation.

Devices are known to improve the accuracy of measuring overloads, pressure, weight, and the like. Improving the accuracy in these devices is based on structural (the introduction of additional structural blocks, such as noise sensors, computing blocks, which allow to correct (specify the values of the measured value) or temporal (measure in several cycles) redundancy to the deficiencies of these devices using structural redundancy, TC is high design complexity and low reliability.

The closest technical solution to the invention is a device containing three overload sensors, three matching blocks, whose inputs are connected to the outputs of matching blocks, three receiving blocks whose inputs are connected to the outputs of communication channels, three blocks of non-linear function, the first inputs of which connected to the outputs of the receiving units, and them. the outputs are the outputs of device G21. ,

The disadvantages of the known device are high complexity, low reliability of the design and low accuracy of operation, due to the presence of an additional fourth communication channel, providing the transmission of information about the temperature of the object.

The aim of the invention is to simplify the design of the device, increasing its reliability and accuracy.

The goal is achieved by the fact that a device for measuring spatial overloads containing three overload sensors, three matching blocks, whose inputs are connected to the outputs of overload sensors, three communication channels whose inputs are connected to the outputs of matching blocks, three receiving blocks whose inputs are connected to the outputs of the communication channels, the three blocks of the non-linear function, the first inputs of which are connected to each other of the receiving blocks, and their outputs are the outputs of the device, three filters are introduced, the inputs of which are connected to the outputs of the receiving units, and an additional block of the nonlinear function, the inputs of which are connected to the outputs of the filters, and the output to

the second inputs of blocks of nonlinear funktschi.

The drawing shows the block diagram of the device.

The device contains three sensors 1-3 overloads, three matching devices 4-6, the inputs of which are connected to the outputs of sensors 1-3 overloads: three communication channels 7-9, the inputs of which are connected to the inputs of matching devices 4-6, three receiving devices The inputs of which are connected to the outputs of the communication channels 7–9, three blocks 10–12 of the nonlinear function, the first inputs of which are connected to the outputs of the receiving devices 13-15, and the outputs serve as outputs of the entire device, three filters 16–18 whose inputs are connected to the outputs of receiving devices 13-15, and additional non-linear function block 19, the outputs of which are connected to the outputs of the filters 16-18, and an output - to the second inputs of blocks 10-12 nonlinear function.

Signals V-I Y issued by the sensors 1-3 overloads arrive at the first inputs of blocks 10-12 of the nonlinear function and inputs of filters 16-18, respectively, through matching devices 4-6, communication channels 7-9 and receiving devices 13-15. The low-pass filters 16-18 select the components b, bit b-3 of the earth-shading vector, and output them to the inputs of the non-linear function block 19. Block 19 determines: the temperature values T by the signals C, b, b, arriving at its inputs and the known dependencies AO-I (T), A (T), Ace. (T), AY (T), Aog (T) is the known value of the modulus of the vector d included in the design of block 19. Temperatures T are fed from the output of block 19 to the second inputs of blocks 10-12, which determine the corrected values of overload x, x, xj.

Block 19 of the nonlinear function as well as blocks 10-12, can be implemented by analog-digital, digital-analog or digital means using universal LSI and microprocessors. Consider the digital implementation of block 19 of the nonlinear function c. the use of universal LSI memory device (tabular method of its implementation). The equation describing the function of block 19 is solved by any known method (for example, by numerical methods on a computer) for all possible values (c. Determined in 1 step) of parameters b, bj, b relative to temperature T. On the basis of this, a table is created corresponding to combinations of values of parameters C, b, b and T solutions. The table is stored in a memory device containing the number of cells.

memory equal to the number of combinations of the values of the parameters b, b., b. Each cell of memory is assigned nsmer equal to certain values of the parameters b, b, b. The solutions of the equation, corresponding to certain combinations of values of C, b, bg, are recorded in the cells with the number and corresponding to these combinations. The step of changing the parameters C, b, b and the associated number of combinations of various possible values of these parameters is determined by required

the accuracy of calculating the temperature T.

Block 19 of the nonlinear function works as follows. The signals b ,, b, b, which are fed to the inputs, determine the number of the memory cell, the temperature value (solution) to which it is output.

The proposed device, simply by design, allows to improve the accuracy of measuring overloads of a spatial nature and reliably.

Claims (1)

A DEVICE FOR MEASURING OVERLOADS OF A SPATIAL CHARACTER, containing three overload sensors, three matching blocks, the inputs of which are connected to the outputs of the overload sensors, three communication channels, the inputs of which are connected to the outputs of the matching blocks, three receiving blocks, the inputs of which are connected to the outputs of the communication channels, three blocks nonlinear function, the first inputs to. which are connected to the outputs of the receiving units, and their outputs are the outputs of the device, which consists of the fact that, in order to simplify the design of the device, increase reliability and accuracy, three filters are introduced into it, the inputs of which are connected to the outputs of the receiving units, and an additional a nonlinear function block, the inputs of which are connected to the outputs of the filters, and the output to the second inputs of the blocks of the nonlinear function. L □ About