SU873245A1 - Device for calculating indicator rarefaction diagrams - Google Patents

Description

(54) DEVICE DISCONNECTION DIAGRAM DISCONNECTION DIAGRAMS

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The invention relates to computing and can be used to calculate the parameters and arpeiMM of vacuum indicators, nagfimer, in determining cardiac output.

A device for calculating indicator vacuum charts contains a functional converter, an integrator, two counters, a trigger, two OR elements, an AND element, a register, a distributor, a decryptor, a torus, and three groups of device outputs that are information output: a register, an integrator, and one of the counters l. However, the specified device provides the calculation of only part of the total area under the rarefaction diagram.

Closest to the proposed technical entity is a device for calculating indicator vacuum diagrams containing a functional converter, an integrator, a distributor, three counters. Two triggers, two elements OR, ele. And, register, descrambler, code-frequency converter, two 2I-OR elements, frequency generator and device output, which are the integrator outputs of the integrator and nd: the first output of the first trigger / 2j.

. A disadvantage of the known device is MSA inf (the evaluation of the indicators of the vacuum indicator diagrams, i.e., as a result of processing information received from the output of the functional consumer, only one parameter is calculated: the area under

10 by a rarefaction diagram bounded by the first wave of circulation of the indicator. A more informative parameter, which is determined by the dilution diagram, is the average circulating time of the indicator, equal to the ratio of the psedadi to the value of the diagram level after a uniform dilution of the indicator in the blood.

The purpose of the invention is to improve the performance level.

This goal is achieved by the fact that the device for calculating the diagrams of the vacuum indicators, containing a functional transducer, the output of which is connected to the first inputs of the first and second elements 2IR1I and the first counter, the informative output of which is connected to the first inputs of the register and deshi4 "Ator,

Claims (2)

30 first and second triggers, the first inputs of which are connected to the input of the device, the first output of the first trigger is connected to the first input of the integrator, the first output to which is connected to the first input of the distributor, the first output of which is connected to the first input of the first OR element and the second input the first counter, the second output of the distributor is connected to the first inputs of the AND element and the second element, OR, the output of which is connected to the third input of the first counter, the output of which is through the AND element connected to the second input of the distributor, The retired output of which is connected to the second inputs of the second OR element and the register, whose output is connected to the converter's code-frequency input, the fourth output of the distributor, is connected to the first and second inputs of the second counter, the second inputs of the digraphrator and the first OR element, the output of which is connected to the fourth input of the first counter, the output of the decoder is connected to the second input of the second trigger, the first output of which is connected to the second inputs of the first and second elements 2I-OR and the third input of the second counter, the output of which is The second is connected to the second input of the first trigger, the second output of the second trigger is connected to the third input of the distributor and the third inputs of the first and second elements 2I-OR, the fourth inputs of which are connected respectively to the outputs of the code-frequency converter and the generator and the output of the first element 2I-OR is connected to the fourth input of the second counter, the third counter is added, a delay element is added, the third trigger and the third element 2I-OR, and the second output of the first trigger is connected to the input of the delay delay, the output of which en with the first input of the third trigger, the second input of which is connected to the second output of the integrator, the second input of which is connected to the first output of the third trigger and the first inputs of the third element 2I-OR and tert its counter, the second inputs of which are connected respectively to the outputs of the functional converter and generator , the second output of the third trigger is connected to the third input of the second element 2И-OR, the fourth input of which is connected to the output of the second element 2И-OR, and the output to the third input of the integrator. The drawing shows a block diagram of the proposed device. The device contains a functional transducer 1, an extrinsic electrical signal in the form of a pulse frequency, proportional to the amplitude of the negative pressure diagilm, integrator 2, valve 3, counters 4-6, triggers 7-9 / decoder 10, register 11, generator 12, elements 2И-OR 13-15, the Converter 16 code - frequency, delay 17, the elements OR 18 and 19, the element And 20. The device operates as follows. In the initial state, the integrator 2, counters 4-6, triggers 7-9, register 11, and distributor 3 are set to the zero state. The device B is started up by impulse to the single inputs of the flip-flops 7 and 8, which are set in a single state and open the element 2I-OR 13 and 14, the distributor 3 and the integrator 2. The latter begins to integrate the input signal of the counting of the number of pulses arriving at its counting input is from the output of the first element 2I-OR 14. The first cycle of the device’s operation begins when the number of pulses equal to AN arrives at the input of integrator 2, when the first pulse signal arises at its pulse output that triggers divider 3. On the first output of the distributor, the permit potential temporarily appears through the element OR 18 to the control input of the addition of counter 5, which during this time will register the average frequency of the pulses arriving at its input from the function converter 1. When the next AN of pulses at the input of the integrator 2, the signal from the output of the latter triggers the valve 3, at the second output of which a temporarily resolving potential appears, coming through the OR 19 element to the control input of the calculation and counter 5. In this case, the second value of the average frequency of the pulses is subtracted from the first value of the average frequency of the pulses. Since the subsequent value of the average frequency of the pulses on the amplitude section of the rarefaction diagrams is always greater than the previous one, the pulse that occurs at the transfer output of the counter 5 goes through the element 20 opened in the second cycle to the setting input of the distributor 3, setting it to the initial state. Similarly, the operation proceeds in all subsequent cycles on the rise of the rarefaction diagram, when each comparison cycle contains two measuring cycles. After reaching the maximum value in the dilution diagram, there is an area where the average frequency im. pulses, i.e. the averaged value of the amplitude of the rarefaction diagram, begins to slow down 1 exponent n (t) «n (to) (1) and the distributor 3 starts to operate cyclically four cycles in each round. At the same time, in the first measure, counter 5 works on addition, in the second cycle, and in the second cycle, on the rotation, and in the fourth, again on addition, at the end of the fourth cycle of each cycle, the validity of the equality n () - n (t) - n (1) + + n (t.) Q (2) by connecting the decoder 10 to the counter 5. Since in the initial period after reaching the maximum, the amplitude of the rarefaction diagram decreases not strictly according to the exponential dependence (1), then equality (2) is not observed, the signal at the output of the decoder 10 is missing and the integrator 2 still continues to count the sum of all x pulses that come from functional transducer 1 through element 2ILI 14. At the part of the exponential dependence of the average frequency of the pulses on time, equality (2) is observed, so the decoder 10 in the next cycle, namely at the end of the fourth cycle, produces a signal enters the installation of the zero state of the trigger 7, with the result that the elements 2I-Sh1I 13 and 14 are closed by the first control inputs and opened by the second control inputs. At this point in time, the integrator 2 will register the total number of pulses, equal to f n (t) dlt, the action dih at its input sS time. . from the start of integration until reaching equality (2), and register 11 is the difference of middle frequencies nCt) (C) -KAN, which is rewritten from counter 5 to register 11 at the beginning of the third clock when the leading edge is resolved to 1101 {its potential from the distributor output 3. enters the input of the register 11. In the counter 4, it registers with the number n (tj), which is equal to the average frequency of the pulse in the fourth, such as when the resolving potential p of the distributor output arrives at the input of the counter 4. At the output of the transducer, the code - frequency , coefficient. the setting of which is set to tTm D b is a positive integer, n: 40 number, the frequency ff appears, which through the open element 2I-1SH 13 begins to enter the input of counter 4. From this moment the counter works on subtraction. At the same time, the frequency fn 10 from the output of the generator 12 through the open element 2И-Ш1И 14 begins to flow to the input of the integrator 2, which appears to have impulses at the output of which the distributor 3 no longer starts, because the latter is closed at the control input. Integrator 2 counts the pulses as the frequency f. over a period of time; when the transfer output of the counter 4 is measured, the signal is. This signal sets trigger 8 to the zero state. This time is determined by the number nXtj), which was registered by counter 4 and h & f, received at the input of counter 4, and equal)) / f. During this time, the integrator 2 to Pulses n (t) dt count the number, Vi (-fc-i). -gtCt) «(t) equal to ft. e. the contents of the integrator increase; by the magnitude of the area under the extrapolated part of the rarefaction diagram and becomes equal to Nogm-lnC-t) t - "- At the time of setting trigger 8 to the zero state, the potential from its inverse output triggers delay element 17, at the output of which a signal appears, through a delay time t, 10-15 minutes, during which the indicator is evenly placed in the blood and the amplitude of the vacuum diagram reaches a constant level. In this case, the average frequency of the pulses on the output of the functional converter 1 also becomes constant in magnitude equal to n (tat. Serial pulse The output from the element of the backward 17 trigger 9 is set to one; as a result, simultaneously the integrator 2, element 2I- OR 15 and counter 6, which starts counting the pulses of the generator 12 of the frequency fj. At the same time, the integrator 1 begins to receive pulses from the output of the functional converter 1 through the element 2И-OR 15 that are equally deducted At the time of full subtraction of the number Njjgy, in the integrator 2 a pulse appears at its transfer output, which sets trigger 9 to Hyjft state, stopping the frequency registration. Time - during which the integrator is completely empty, is determined by the equality .BH- 1 It is known that the ratio of the area bounded by the first wave of the indicator circulation to the constant amplitude level of the rarefaction diagram after a uniform dilution of the indicator in the blood is equal to the average indicator circulating time, which The registered device registers the counter b with an accuracy of ± 10 s. Thus, the present invention provides for determining not only the area under the negative pressure, but also the average circulation time of the indicator, which is a more informative parameter, since it is equal to the central blood circulation time and is used as a self-test indicator in assessing performance. hearts. The average time of the calipers; 2i indicator is a fairly accurate indicator, allowing to assess the degree of circulatory failure, razishat breathlessness of the cardiac origin or from shortness of breath in pulmonary diseases. The most pronounced increase in this indicator is observed when blood stagnates in the pulmonary circulation. The absence of an increase in this index in heart failure occurs in patients with anemia, thyrotoxicosis, and fever, in which blood flow is accelerated. Apparatus of the Invention A device for calculating indicator vacuum charts containing a functional converter whose output is connected to the first inputs of the first and second 2I-OR elements and the first counter, the information output of which is connected to the first inputs of the register and the decoder first and second triggers, the first inputs of which are connected with the input of the device, the first output of the first trigger is connected to the first input of the integrator, the first output of which is connected to the first input of the distributor, the first output of which is It is connected to the first input of the first OR element and the second input of the first counter, the second output of the distributor is connected to the first input of the AND element and the second OR element, the output of which is connected to the third input of the first counter, whose output is connected to the second element the input of the distributor, the third output of which is connected to the second inputs of the second OR element and the register whose output is connected to the converter-code-frequency input, the fourth output of the distributor is connected to the first BKK and the second input of the second counter, inputs the decoder and the first element OR, the output of which is connected to the fourth input of the first counter of the counter, the output of the decoder connected to. the second input of the second flip-flop, the first output of which is connected to the second inputs of the first and second 2I-OR elements and the third input of the second counter, the output of which is connected to the second input of the first flip-flop; the second output of the second flip-flop is connected to the third distributor input and; the third inputs of the first and second elements 2I-OR, the fourth inputs of which are connected respectively to you-. transducer code turns - frequency and generator, a; the output of the first element 2I-OR is connected to the fourth input of the second counter, the third counter, characterized in that, in order to increase the reliability, a delay element, a third trigger and a third element 2I-OR are inserted into it, and the second output of the first trigger is connected through the delay element the first input of the third trigger, the second input of which is connected to the second output of the integrator, the second input of which is connected to the first output of the third trigger and the first inputs of the third element 2И-Ш1И and the third counter, the second inputs of which are connected Inns are respectively with the outputs of the functional converter and the generator, the second output of the third trigger is connected to the third input of the third element 2И-OR, the fourth input of which is connected to the output of the second element 2И-OR, and the output to the third input of the integrator. . Sources of information taken into account in the examination 1. USSR author's certificate in application 2547355 / 18-24, cl. G 06 F 15/52, 1977. 2. USSR author's certificate for application number 2702909 / 18-24, cl. G About F 15/52, 1978 (prototype).