SU1330453A1 - Digital strain-measuring device - Google Patents

Abstract

The invention relates to a measurement technique and can be used in measuring strain and force in measuring systems. In which a strain gage is used as the primary transducers. The aim of the invention is to improve the accuracy by increasing by one significant digit the conversion size. This is achieved by the fact that the newly introduced measuring and balancing blocks 17, 11 allow the conversion size to be increased by one significant bit, the balancing register 8 together with the block 11 for determining the polarity of the balance, the keys 12 and 13 and the zero-body 22 are designed to compensate the primary mismatch of the strainer, the measuring result code is formed in the measurement register 14, the buffer register 20 provides the possibility of asynchronous operation of the recorder 21. 4 il. .l

Description

one

The invention relates to a measurement technique and can be used in measuring strain and force in measuring systems in which strain gages are used as primary transducers.

The purpose of the invention is to improve accuracy by increasing by one significant digit the conversion size.

Figure 1 shows the block diagram of the proposed device; Fig. 2 shows an example of the execution of the control unit J in Fig. 3; an example of the execution of the null organ J in Fig. 4 shows an example of the implementation of indentical units for determining the polarity of measurement and a block for determining the balance. ,

The digital strain gauge device contains a strain gauge 1, two arms of which are formed by strain gauges 2 and 3, and the other two are fixed resistors 4 and 5, power supply 6, included in the diagonal power supply of strain gauge 1, control unit 7, balance channel, made in the form series-connected balancing PT-Istra 8, a block of 9 keys and a block of 10 standard resistors, a block

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11 determine the balance polarity, the first output of the balance polar determination unit 11 is connected to the switching key 12 of the reference resistors, the second output to the switching key 13 of the reference resistors, and the third output to the first input of the balancing register 8, the second input of which is connected to the first output of the control unit 7, the first input of the polarity determination unit 11 b.alansa is connected to the first output of the control unit 7, the output of the unit 10 reference resistors is connected to the connection point of the analog inputs of the switches 12 and 13 of the switching resistors the measurement channel, made in the form of serially connected measuring register 14, key block 15 and reference resistor block 16,; measurement polarity detecting unit 17, first output of polarity determination unit 17, measurement connected to switching key 18 of reference resistors,

the second output is connected to the switching switch 19 gg of the re-input circuit And 25 is also connected to the reference resistors, and the third output is connected to the decoder 34, the output of the first blender 24 is also connected to the inputs of the second 29 and third 33

counters.

with the first input of the measuring register 14, the second input of which is connected. not with the second output of block 7

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laziness, the output of the block 16 reference resistors is connected to the connection point of the analog inputs of keys 18 and 19

J. commutation reference resistors ,. the first input of the measurement polarity determination unit 17 is connected to the second output of the control unit 7, sequentially connected to the buffer register

1Q 20 and the recorder 21, the first input of the buffer register 20 is connected to the output of the measuring register 14, the second input to the third output of the control unit if 7, and the third input to the first output of the measuring polarity unit 17, the zero-body 22 is included in the measuring diagonal of the strain gauge 1, the third input of which is connected to the fourth output of block 7

20 controls, and the output with the second inputs of the balance polarity determining unit 11 and the measuring polarity unit 17, the top of the measuring diagonal of the strain bridge 1, combining

The 25 pinned resistors 4 and 5 are connected to the analog inputs of blocks 9 and 15 of the keys, the output of the switching resistor key 18 is connected to the first vertex of the voltage bridge 1, the output of the switching resistor 13 switch 13 is connected to the second vertex of the diagonal power supply of the strain gauge 1, the output of the switch 12 Switches of the reference resistors are connected to the first vertex of the diagonal pi35

tani bridge 1, the output of switch 19 of the commutator of the reference resistors is connected to the second vertex of the diagonal of the power supply of bridge bridge 1.

40

The control unit 7 is made, for example, in the form of serially connected clock pulse generator 23, the first counter 24, four-input

45 of the circuit And 25 and the first decoder 26, connected in series to the first trigger 27, the first two-input circuit And 28 and the second counter 29, the output of which is connected to the first de 50 encoder 26, connected in series to the second trigger 30, the second two-input circuit And 31, the third trigger 32, The third counter 33 and the second decoder 34, the output quadruple-body 22 is made, for example, in the form of serially connected first switch 35, first amplifier 36, second switch 37 and second amplifier 38, inverter 39, the output of which is connected to the second input a second switch 37, a comparator 40, the input of which is connected to the output of the first amplifier 36, the third switch 41, the first input of which is connected to the output of the first call 35, and the second input to the output of the inverter 39, a capacitor 42 connected between the output of the second switch 37 and bus Earth, the output of the second amplifier 38 is connected to the second input of the first amplifier 36. The units 11 and 17 for determining the polarity of balance and measurement, respectively, are performed, for example, in the form of a series 20 resistor 5. In the case of the first And 43, negative races oglasovani on the trigger 44, the second AND circuit 45 and the first output block scheme determining po- we OR 46 sequentially soedinen- l polarity balance set lo- GOVERNMENTAL third inverter 47 and the AND circuit 4.8, the output of which is connected to a second input of OR gate 46.

1, and at the second exit - 25 logical O, resulting in

The key 12 is turned on and the key 13 is turned off. When balancing the strain bridge, 1 the reference resistors of the unit 10 are connected in parallel to the resistor 4. When

Digital strain gauge device operates in two modes. Balancing mode.

35

40

Performing a balance operation (this balancing register performs

register function is sequential. approximation

The signal at the third output of the balance polarity determination unit 11 coincides identically with the signal of the null organ 22 in the case that if the mismatch polarity is positive, it is its inverse in the case of negative polarity.

The zero-body 22 fixes the polarity of the voltage deviation from zero into working periods and generates a logic level signal (logical O, if 0,, and logical 45 1, if cf, -HB) J which is converted by the polarity determination unit 11 and used by balancing register 8.

At the end of the balance cycle, parallel to gQ, one of the resistors 4 and 5 (depending on the polarity of the primary mismatch of the strain gauge 1) is connected to such a combination of the reference resistors of block 10, which balances the strain gauge 1, i.e. wed, s; 0. Subsequently, the state of the balancing register 8, as well as the key block 9 controlled by it, remains to be compensated for the initial mismatch of the strain gauge 1) before the device starts to operate in the measuring mode. Here, it is considered that the external effect on the strain bridge 11 is zero.

The tensome bridge 1 is mismatched and there is a nonzero potential difference, denoted as q), cpj and applied to the differential inputs of the zero-body between the point of connection of the constant resistors 4 and 5 and the point of connection of the strain resistors 2 and 3. From the first output of the control unit 7 to the second input of the balancing register 8 is transmitted a series of pulses successively shifted by one period, controlling the operation of the balancing register 8, as well as the block 11 for determining the polarity of the balance. The first pulse of this series performs a reset of the balancing register 8. As a result, immediately before the balance, all the keys from the blocks 9 and 15 of the keys are disabled and the state of the strain bridge 1 is determined only by its elements 2-5.

Voltage cp, -cp carries full information about both the magnitude and polarity of the primary mismatch

tensome bridge 1. The next impulse of the series according to the state of the null organ 22 transfers the balance polarity determining unit 11 to the state corresponding to the polarity of the mismatch. In particular, in the case of a positive initial mismatch, the state of the balance polarity determining unit 11 does not change (a logical O is set at its first output, a logical 1 at the second output). .

The switch 12 of the reference resistors is turned off, and the key 13 is turned on, so later in the process of balancing the strain gauge 1 when the switch block 9 is triggered, the reference resistors of block 10 are connected in parallel with the constant resistor 5. In the case of a negative error at the first output of the balance polarity determination unit set lo

1, and the second output is a logical O, resulting in

The key 12 is turned on and the key 13 is turned off. When balancing the strain bridge, 1 the reference resistors of the unit 10 are connected in parallel to the resistor 4. When

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40

45

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this, and the tensome bridge t is balanced with respect to external influence,

Measurement mode

The initial state of the bridge is balanced with respect to external influence X. Suppose that at time t the external influence increases abruptly from Xjj to zero. The voltage tp, - cpj also increases abruptly from zero to

etc

and.

Control block 7 generates on JO

where n is the number of the decade ;,

m is the number of the digit in the decade,

the second output is a sequence of pulses that control the operation of the measuring register 14.

According to the first impulse, the measuring polarity measuring unit 17, with the measuring register 15, confirms the polarity taking place by the occurrence of the formation of a binary code

numbers proportional to external influence X (or the misalignment of the bridge caused by this influence). After the conversion is completed, a pulse arrives at the synchronization input of the buffer register 20 from the third output of control unit 7, on the front of which the information from the output

positive mismatch) or to 25 of the measuring register 14, as well as to the resistor 4 (with a negative mismatch about the polarity from the first extension of the strain bridge 1. At the same time, the first and second outputs of the polarity measuring unit 17 are set to logical levels 18 and 19 are switched in such a way that the reference resistors of the key block 15 are connected in parallel to the resistor 5 (when

the course of the unit 17 for determining the polarity of measurement is recorded by the register 20. From the output of the buffer register 20,

such that the combination of reference P-30R ™ is transmitted to the input of the recorder 21. of the resistors of the 15-key block, connected- After the information is stored in the buys, one of the permanent resistors in the Fern register 20 resets

measuring register 14, as a result of which all the reference resistors of the switch-off key block 15 ots, the strain gauge 1 returns to the mismatch that occurred before the start of the measurement cycle. Thereafter, the measurement cycle is completed and the device is ready for power equal to R ,. Then the range of measurement is the following, the operation of measuring the digital strain gauge treatment. In the process of balancing the strain gauge 1, the state of the measuring register 14 is established

4 and 5, balances the strain bridge 1 up to the discreteness of this set.

Let the resistance of the constant resistors, 4 and 5 (shoulders) be equal to: but R, SL the resistance of the reference resistor of the block of 15 keys of the highest time35

neither

properties D is determined from the ratio

four

R,

R

M

G (M - 1),

where M is the basis of the system

reckoning j

A digital strain gauge device containing a strain gauge, the two arms of which are formed by strain gauges and the other two by fixed resistors, the power source included in

n - ra numbers; views (decades) of the converter.

; Of practical interest are the diagonal of the power supply of the tensome bridge, two cases M 2 (the binary representation of the equilibrium, each of the bony result) and M 10 (the binary-ten representation of the result). Dp M 2 the resistance values of the reference resistors 4 and 5 are selected by 55 switching, the control unit and the register from the donor,

R, Rechto, in order to increase accuracy, it

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third made in the form of series-connected key block and a block of standard resistors with two keys

Rc-2 RH Re-2

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supplied with two entrances to the measuring diagonal of the measuring bridge

53

6

For M to (with binary-decimal representation)

where n is the number of the decade ;,

m is the number of the digit in the decade,

  measuring register 14 gs code formation binary

more fat

neither

Form la invention

45

A digital strain gauge device containing a strain gauge, the two arms of which are formed by strain gauges and the other two by fixed resistors, the power source included in

the power supply diagonal of the strain gauge, two balancing channels, each of the commutation, the control unit and the recorder, distinguished by

third made in the form of series-connected key block and a block of standard resistors with two keys

supplied with two entrances to the measuring diagonal of the measuring bridge

ten

71330453

a null organ, the third input of which is connected to the first output of the control unit, placed in the first balancing channel by serially connected measuring register, the output of which is connected to the control input of the first key block, and the input to the second output of the control unit and the buffer register, the output of which is connected with the recorder input, the measurement polarity determination unit, the first input of which is connected to the second output of the control unit, and the first output of the polarity determination unit is connected to the control input the first switching key of the reference resistors and the second input of the buffer register; the second output with the controlling inputs of the second switching key of the reference resistors; and the third output with the second input of the measuring register, balancing register located in the second channel, the input is costly connected to. the third output of the control box, and the output with the control input of the second key block,

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locale of polarity determination baLan15

to tra thi te di not cl then that pe et kl with pi cl so pi lo you so

25 ve that ro mo

20

Sa, the first input of which is connected to the third output of the control unit, the first output of the balance polarity determining unit is connected to the control input of the third key for the reference number of the reference resistors, the second output is connected to the control input of the fourth key

eight

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0

five

switching the reference resistors, and the third output with the second W, ohm balancing register, measuring the measuring diagonal of the tensile bridge, combining the constant resistors, is connected to the analog inputs of the key blocks, the output of the reference resistors block of the first and second keys the switching of the reference resistors, the output of the first switch of the switching of the reference resistors is connected to the first vertex of the diagonal of the supply of the strain gauge, the output of the second switching key of the reference resistors indented with the second vertex of the diagonal power supply of the strain gauge, the output of the reference resistors block of the second channel is connected to the connection point of the analog inputs of the third and fourth switching keys of the reference echoes, the output of the third key q u of the reference resistors is connected to the first

5 by the top of the diagonal power supply of the strain gauge, the output of the fourth switching key of the reference resistors is connected to the second vertex of the diagonal power supply of the strain gauge, the fourth output of the control unit NIN is connected to the third input of the buffer register, and the output of the zero-body is connected to the second inputs of the detection unit and the polarity of the measurement block determining iflnost.n balance.

0

F. H

Editor A.Revin

Compiled by “Pisarevsky Tehred I.Poiovnch”

Order 3570/42 Circulation 576 Subscription

VNSHSHI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-ZZ, Gaushsk office, 4/5

Production and printing enterprise 5, Uzhgorod, 5 p-Project, 4

Proof-L LTashpeiko

Claims (1)

Claim A digital strain gauge device containing a strain gage, two arms of which are formed by strain gauges, and the other two by constant resistors, a power supply included in the power bridge diagonal, two balancing channels, each of which is made in the form of a series-connected block of keys and a block of reference resistors with two keys switching unit, control unit and registrar, characterized in that, in order to improve accuracy, it is equipped with two inputs included in the measuring diagonal of the tensor bridge 7 '1330453 by a null organ, the third input of which is ~ connected to the first output of the control unit, located in the first balancing channel in series with the measuring register, the output of which is connected to the control input of the first block of keys, and the input with the second output of the control unit and the buffer register, output which _{1 is} connected to the input of the recorder, the unit for determining the polarity of the measurement, the first input of which is connected to the second output of the control unit, and the first output of the unit for determining the polarity is connected to the control the first switch key of the reference resistors and with the second input of the buffer register, the second output with the control inputs of the second switch key of the reference resistors, and the third output with the second input of the measuring register, a balancing register located in the second channel, the input of which is connected to. the third output is 2 control units, and the output is with the control input of the second key block, the balance polarity determination unit, the first input of which is connected to the third output of the control unit, 3 the first output of the balance polarity determination unit is connected to the control switch of the reference resistors, and the third output is connected to the second d1fD of the balancing register, the vertices of the measuring diagonal of the strain gage, which combines constant resistors, is connected to the analog inputs of the key blocks, the output of the block of reference resistors of the first channel is connected is connected to the connection point of the analog inputs of the first and second switching keys of the reference resistors, the output of the first switching key of the reference resistors is connected to the first top of the diagonal of the tensor bridge, the output of the second switching key of the standard resistors is connected to the second vertex of the diagonal of the supply of the tensor bridge, the output of the block of reference resistors of the second channel is connected to the connection point of the analog inputs of the third and fourth switching keys of the reference resistors, the output of the third key of the reference reference resistors n with the first vertex of the strain gauge power supply diagonal, the output of the fourth switch key of the reference resistors is connected to the second vertex of the strain gauge power diagonal, the fourth output of the control unit is connected to the third input of the buffer register, and the zero-organ output is connected to the second ^ inputs of the bypass block of the third switching key of the reference resistors , The second output is with the limitation of the polarity of the measurement and the determination unit of the larity. And FIG. 2. 1330'453