SU1055473A1 - Reflexometer - Google Patents

Abstract

A RELLEXOMETER containing a series-connected high-frequency oscillator with an antenna, a frequency detector and an amplifier, as well as a time stamp generator, a control unit connected to a scaling circuit, and a display unit, are available. and so that, in order to improve the accuracy of examining the state of the neuroreflex system by measuring the time of individual motor components, limb response, it additionally has a signal presence detector, a signal maximum detector, two coincidence circuits, a binary counter, two scaling circuits, a switching unit and a computing unit, while the amplifier output is connected to the inputs of the presence detector and the maximum signal detector, the output of the signal presence detector is connected to the counting input of the binary counter and the first the input of the first coincidence circuit; the output of the detector axiom of the signal is connected to the first input of the second coincidence circuit; the outputs of the first and second coincidence circuit are connected respectively to the first and second installation inputs of a binary counter, the first output of which is connected to the control input of the first scaling circuit, the second output, respectively with the control input of the second scaling circuit and the second input at the S th array of the coincidence circuit, the third output (L, respectively, with the control input of the third scaling circuit, the second input The matching circuit and the input of the control unit, the counting inputs of the scaling circuits are connected to the output of the time stamp generator, the outputs of the scaling circuits are connected through the switching unit to the input of the computing unit 4 outputs, the outputs of which are connected to the outputs of the display unit, the outputs of the control unit are connected to the corresponding inputs of the unit com00 mutations, computing unit and reset inputs scaling circuits. ,,

Description

The invention relates to medical equipment, namely to reflectometers, and can be used to record the motor reaction of a limb. A reflexometer is known that contains a series-connected high-frequency oscillator with an antenna, a frequency detector and an amplifier, as well as a time stamp generator, a control unit connected to a variable circuit, and a display unit j. However, a known reflex meter does not allow obtaining the required accuracy of investigation due to the fact that it does not measure the time of the individual components of the motor reaction of the limb. The aim of the invention is to improve the accuracy of examining the state of the neuro-reflex system by measuring the time of the individual components of the limb motor reaction. To achieve the goal, a reflector containing a high frequency generator with a dantena, a frequency detector and an amplifier, as well as a time stamp generator, a control unit connected to a readout circuit, and a display unit, in addition to the detector, the signal maximum detector, two coincidence circuits, a binary counter, two scaling circuits, a switching unit and a computing unit, with this amplifier output connected to the inputs of the presence detector and the maximum signal detector, The detector of the lichi signal is connected to the counting input of the binary counter and the first input of the first coincidence circuit, the output of the signal maximum detector is connected to the first input of the second coincidence circuit, the outputs of the first and second coincidence circuit are connected respectively to the first and second installation inputs of the binary counter, ne the output of which is connected to the control input of the first scaling circuit the second output, respectively, with the control input of the second scaling circuit and the second input of the second coincidence circuit, the third output is Actually, with the control input of the third scaling circuit, the second input of the first coincidence circuit and the control unit input, the counting inputs of the scaling circuits are connected to the output of the time stamp generator, the outputs of the scaling circuits are connected through the switching unit to the input of the computing unit, the outputs of which are connected to the inputs of the display unit, the outputs the control unit is connected to the corresponding inputs of the switching unit, the computing unit and the reset inputs of the scaling circuits. FIG. 1 shows a reflexometer, a block diagram; in fig. 2 - the form of the analyzed signal and the timing diagram of the signals at the points indicated in FIG. The reflexometer contains a series-connected high-frequency generator 1 with antenna 2, a frequency detector 3 and an amplifier 4, as well as a time stamp generator 5, a control unit 6 connected to a scaling circuit 7-, an indication unit 8, a signal presence detector 9, a detector 10 maximum signal, two circuits 11 and 12 coincidence, binary counter 13, two scaling circuits 14 and 15, switching unit 16 and computing unit 17, the output of amplifier 4 is connected to the input of the presence detector 9 and the maximum detector of the signals 10, the output of the detector 9 signal with one with the counting input of the binary counter 13 and the first input of the first matching circuit 11, the output of the maximum signal detector 10 is connected to the first input of the second matching circuit 12, the outputs of the first and second matching circuits 11 and 12 are connected respectively to the first and second setting inputs of the binary counter 13, the first output of which is connected to the control input of the first scaling circuit 7, the second output, respectively, with the control input of the second scaling circuit 14 and the second input of the second coincidence circuit 2, the third output, respectively the control of the third scaling circuit 15, the second input of the first coincidence circuit 11 and the input of the control unit 6, the counting inputs of the diagrams 7, 14 and 15 are connected to the code of the generator 5 of time stamps, the outputs of the scaling circuits 7, 14 and 15 are connected through switching unit 16 to the input of the computing unit 17, the outputs of which are connected to the inputs of the display unit 8, the outputs of the control unit 6 are connected to the corresponding inputs of the switching unit 16, the computing unit 17 and the reset inputs of the counting circuits 7, 14 and 15. The binary counter 13 has On the input, the installation inputs are O or 1. As a generator of 5 time marks, for example, a generator with a quartz stabilizing frequency is used. Scale 7 defines the duration of the latent period. The recalculation scheme 14 determines the time for muscle contraction. Scale 15 determines the relaxation time. mitsy. The control unit 6 implements the control of all nodes of the reflectometer by the signal of the end of the last measured interval. Computing unit 17 is a microcalculator, which stores in memory the current measurement result, one of the previous results, and the current or predicting result that goes to display unit 8 is displayed at the request of the researcher. The antenna 2 of the high-frequency generator 1 is made in the form of a plate. The patient's foot, located in the immediate vicinity of the antenna,: Forms together with the last capacitor. The reflexometer works in the following way. In the initial state, all the outputs of binary counter 13 are set to a logic level. At the output of the detector 9, the presence of a signal is logic level 1. At the output of the detector 10 of the signal maximum — O The patient’s footprint is placed near the antenna 2 of the high-frequency generator 1. Changing the distance between the foot and antenna 2 causes the capacitor formed by the foot and the antenna to change, and thus, to change the frequency of the high-frequency generator 1. When the hammer strikes the tendon, a change in the capacitance of the capacitor formed by the foot and the antenna leads to a change in the frequency of the high-frequency generator 1. Frequently pleasing detector 3 converts the frequency change to the change in voltage, voltage. The amplifier 4 amplifies the output signal of the frequency detector 3 and supplies it to the inputs of the detector 9 presence of the signal and the detector 10 of the maximum signal (figure 2, a). The presence of movement of the hammer or foot is detected by the detector 9 for the presence of a signal, while the high level of the logical unit of the signal at its output drops to the level of the logical O of Fig. 2, b). The logical signal O from the output of the detector 9 signal presence enters the counting input of the binary counter 13 (figure 2, b and negative differential switches it to state 1. At the first output of the binary counter 13 - 1 (figure 2, g-1 ), on the second and third outputs. Signal 1 at the output of binary counter 13, received at the control input of scaling circuit 7, allows to start counting pulses from the time stamp generator 5. After the latent period, the reflex movement of the leg begins, from the beginning of this movement at the detector output 9 availability the signal is formed by a logical O (Fig. 2, b. This signal switches the binary counter 13 to state 2 (on the first and third outputs - O, on the second - I), which causes the counting circuit to stop counting by 7 (Fig. 2, x 1) and gives the counting enable signal to the control input to the scaling circuit 14 (Fig. 2, W2), which determines the duration of 1 T (Fig. 2, a). At the same time, from the second output of the binary counter 13, the logic arrives at the second input of the circuit 12 matches. After the contraction of the eggs, a period of relaxation begins, and the leg returns to its original state. The beginning of the phase of this moment is detected by the detector 10 of the signal maximum, which at the moment of negative inflection of the input signal curve forms a short positive pulse (Fig.2, c) arriving at the first input of the coincidence circuit 12, to the second input of which the signal I has already arrived from the second binary output counter 13 (FIG. 2, W2), at its first and second outputs, at the third output — 1. The coincidence circuit 12 generates a signal for stopping the second recalculation circuit 14 and starting the third recirculation circuit 115 (FIG. 2, d), on control input which enters J with the third output of the binary counter 13. The logic level 1 from the third output of the binary counter 13 also goes to the second input of the circuit 11, the first input of which, before the end of the movement from the output of the detector 19, has a signal O. After the end of the movement at the output of the detector 9 the presence of a signal is formed by logical 1, the coincidence circuit is processed (figure 2), and, by the installation input, resets the binary counter 15 to its initial state (on all of its outputs). Thus, the control input of the scaling circuit 15 itself receives the signal O for the default account, i.e., the end of the counting of the duration T2 of FIG. 2, g3. Since the third output of the binary counter 13 is also connected to one of the inputs of the control unit 6 by a negative differential signal of this input, the control unit 6 alternately reads the states of the counting circuits 7, 14 and 15 and enters them into the computing unit 17 through the switching unit 16. Considering the result from the output of control unit 6, the reset inputs of the scaling circuits 7, 14 and 15 receive a reset signal and the specified circuits are brought to the initial state. Computing unit 17 displays the result on display unit 8. At the request of the researcher, this result can also be recorded in the memory of the computing unit 17. During subsequent measurements, the current value of the result or the difference between the current results and the result recorded in the memory can be displayed on the display unit 8. Thus, the reflexometer allows to determine the latent period, contraction time and muscle relaxation time during the examination.

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Claims (1)

REFPEXOMETER, which contains a series-connected high-frequency generator with an antenna, a frequency detector and an amplifier, as well as a time stamp generator, a control unit connected to a conversion circuit, and an indication unit, which is used to ensure that, in order to increasing the accuracy of research · the state of the neuroreflex system by measuring the time of individual components (their motor, limb reaction, it additionally has a signal presence detector, signal maximum detector, two coincidence schemes, a binary counter, two transitions even circuits, a switching unit and a computational unit, while the amplifier output is connected to the inputs of the presence detector and the maximum signal detector, the output of the signal presence detector is connected to the counting input of the binary counter. and the first input of the first matching circuit, the output of the Maximum signal detector is connected to the first input of the second matching circuits, the outputs of the first and second matching circuits are connected respectively to the first and second installation inputs of the binary counter, the first output of which is connected to the control input of the first the even circuit, the second output, respectively, with the control input of the second conversion circuit and the second input of the second <swarm matching circuit, the third output, respectively, with the control input of the third conversion circuit, the second input of the first matching circuit and the input of the control unit, the counting inputs of the conversion circuits are connected with the output of the time stamp generator, the outputs of the conversion circuits are connected through the switching unit to the input of the computing unit, the outputs of which are connected to the inputs of the display unit, the outputs of the control unit are connected to legal (these input switching unit, the computing unit and the reset inputs of counting circuits. SU „.1055473> 1055473